Federal Practitioner

Since the beginning of the American Republic, servicemen have been captured and held as prisoners of war (POWs), including > 130,000 in World War II , > 7,100 in the Korean War, > 700 in the Vietnam War, and 37 in Operation Desert Storm and recent conflicts.^1,2 Also, > 80 servicewomen have been held during these conflicts.^1-3 Of those living former POWs (FPOWs), almost all are geriatric (aged > 65 years) with a significant portion aged ≥ 85 years.

The physical hardships and psychological stress endured by FPOWs have lifelong deleterious sequelae on health and social functioning.^3-5 The experiences of FPOWs are associated with higher prevalence of chronic diseases and diminished functional performance in later life as demonstrated by a survey of FPOWs from World War II.⁴ The survey assessed health and functional status in a random sample of 101 FPOWs and a group of 107 non-POW combatants from the same military operations. FPOWs reported a higher mean number of somatic symptoms than did non-POWs (7.2 vs 5.4, respectively; P = .002), a higher mean number of diagnosed health conditions (9.4 vs 7.7, respectively; P < .001), and used a greater mean number of medications (4.5 vs 3.4, respectively; P = .001). Among 15 broad categories of diagnoses, differences were found in gastrointestinal disorders (FPOWs 63% vs non-POWs 49%, P = .032), musculoskeletal disorders (FPOWs 76% vs non-POWs 60%, P = .001), and cognitive disorders (FPOWs 31% vs non-POWs 15%, P = .006). FPOWs had a significantly higher proportion of 7 extrapyramidal signs and 6 signs relating to ataxia. On the Instrumental Activities of Daily Living scale, FPOWs were more likely to be impaired than were non-POWs (33% vs 17%, respectively; P = .01). In addition, FPOWs have an increased risk of developing dementia, and this risk is doubled in FPOWs with posttraumatic stress disorder (PTSD) compared with non-FPOWs without PTSD.⁵

These data indicate that FPOW status is associated with increased risk of disability and loss of independence. Federal statutes established the presumption of a relationship between FPOW status and many comorbidities for VA disability determinations in recognition of such data and to overcome lack of medical records during POW confinement and to accord benefit of the doubt where medical science cannot conclusively link disease etiology to FPOW status, to FPOWs.

Service-Connected Conditions

The historical development of conditions with a presumption of service connection for adjudication of VA compensation/disability claims began in 1921 with the Act to Establish a Veterans’ Bureau and to Improve the Facilities.¹ The act simplified and streamlined the claims adjudication process by eliminating the need to obtain evidence on the part of the veteran. The presumption of service connection also facilitated increased accuracy and consistency in adjudications by requiring similar treatment for similar claims. This “presumptive” process relieved claimants and VA of the necessity of producing direct evidence when it was impractical to do so.

In 1970, the first presumptives specific to FPOWs were legislatively established and covered 17 diseases for a FPOW who had been confined for ≥ 30 days (Pub. L. 91-376). The 30-day confinement requirement was later relaxed, and additional presumptives were established that related to diseases that were more common among FPOWs than they were among non-FPOWs. These disorders included traumatic arthritis, stroke, heart disease, osteoporosis, peripheral neuropathy, cold injuries, as well as a variety of digestive and neuropsychiatric disorders. If a FPOW is diagnosed as having ≥ 1 of these conditions and it is judged to be ≥ 10% disabling, the condition is presumed to be a sequelae of the POW experience, and it is classified as a service-connected disability (Table).

FPOW Care And Benefits Teams

Several Veterans Health Administration (VHA) directives have been issued, including the recent VHA directive 1650, which requires that each VHA medical facility have a special Care and Benefits Team (CBT) that is charged with the evaluation and treatment of FPOWs to ensure that “FPOWs receive the highest quality care and benefit services.”⁶ CBTs must be composed of a clinician trained in internal medicine or family practice; a clinician who is certified through the VA Office of Disability and Medical Assessment to conduct General Medical Compensation and Pension evaluations; a FPOW advocate who typically is a VHA clinical social worker; and a Veterans Benefits Administration (VBA) FPOW coordinator appointed by the local VBA regional office. CBTs can be expanded to include other members as needed. The CBTs are tasked with facilitating interactions between FPOWs, the VHA, and the VBA.

CBTs face several challenges in meeting their responsibilities. For example, the POW experience often results in psychological trauma that foments denial and distrust; hence, thoughtful sensitivity to the sequelae of captivity when approaching FPOWs about personal issues, such as health care, is required. Establishing trusting relationships with FPOWs is necessary if their needs are to be effectively addressed.

While the VHA is mandated to provide priority treatment for FPOWs, including hospital, nursing home, dental, and outpatient treatment, a significant number of FPOWs do not avail themselves of benefits to which they are entitled. Often these FPOWs have not used VA programs and facilities because they are uninformed or confused about VA benefits for FPOWs. As a result, referrals of eligible FPOWs to appropriate programs can be overlooked. Maximizing the service-connected disability rating of FPOWs not only impacts the disability pensions received by these veterans, but also impacts their eligibility for VHA programs, including long-term care and Dependency and Indemnity Compensation, a monthly benefit paid to spouses, children, and/or surviving parents.

In 2013, the FPOW Committee of the South Texas Veterans Health Care System (STVHCS) noted that 40% of FPOWs in our region had no VA primary care or clinic assignment. In consideration of the commitment of the VA to care for FPOWs, the unique POW-related medical and psychological issues, the geriatric age of many FPOWs, and the surprising number of FPOWs currently not receiving VA care, we expanded the concept of the CBT team to create a specialized interdisciplinary FPOW Clinic to address the unique needs of this predominantly elderly population and to involve more FPOWs in the VA system.

The main purpose of this clinic was to advise FPOWs of all VA benefits and services to which they may be entitled by identifying overlooked FPOW presumptives. As the number of FPOWs continues to decrease, outreach to FPOWs and family members has become critical, especially as increased benefits and special services might be available to this increasingly dependent older population. An informal survey of FPOW advocates across the nation found that 21% of FPOWs had disability ratings from the VA of ≤ 60%, including some who had no VA disability rating at all. Thus, an additional goal of the project was to develop a clinic model that could be disseminated throughout the VHA.

Design

The design of the FPOW Clinic team is based on an interdisciplinary model that has proven successful in geriatric medicine.⁷ The team comprises a physician, a social worker, and a registered nurse.⁸ All members have expertise in geriatric medicine and specific training in FPOW-related issues by completing a VA employee education training session on FPOW case management. Completion of this training ensured that team members were:

• Familiar with the experiences of FPOWs as well as about the medical, psychosocial, and mental health conditions that affect FPOWs;
• Knowledgeable about FPOW presumptive conditions;
• Familiar with the VBA process for rating FPOW disability claims; and
• Capable of FPOW case coordination, workflow, and communications between the FPOW Clinic team and the VBA to avail FPOWs and their families of all eligible benefits.

In-person FPOW clinic visits and chart reviews helped identify overlooked FPOW benefits. To facilitate case management, a representative of the VBA attended the initial evaluation of each FPOW in the clinic to confirm any overlooked presumptive benefits and to familiarize FPOWs with the claims process. FPOWs were also given the choice to officially enroll in the FPOW clinic for primary care or to remain with their current health care provider. Special efforts were made to enroll those FPOWs who had no STVHCS assigned primary care clinic.

The clinic was scheduled for 4 hours every week. Initial patient visits were 2 hours each and consisted of separate evaluations by each of the 3 FPOW Clinic team members who then met as a team with the addition of the VBA representative. The purpose of this meeting was to discuss overlooked benefits, address any other specific issues noted, and to devise an appropriate interdisciplinary plan. Findings of overlooked benefits and other relevant outcomes then were conveyed to the FPOW. For FPOWs who opted to continue in the clinic for their primary care, subsequent appointments were 1 hour.

Implementation 

STVHCS FPOW advocates identified and sent letters to FPOWs announcing the opening of the clinic and its goals. Phone calls were made to each FPOW to address questions and to ascertain their interest. The FPOW advocates then worked directly with schedulers to make clinic appointments. Forty-one FPOWs responded to this initial invitation and attended the new clinic. Subsequently, this number increased through FPOW consults placed by STVHCS primary care providers.

The service-connected disability rating of clinic patients ranged from none (6% of attendees) to 100% (28% of attendees). For 34% of patients, clinic attendance resulted in identification application for overlooked presumptives. VBA evaluation resulted in increased service-connected disability ratings for nearly one-third of clinic patients. All clinic patients without a service-connected disability prior to FPOW clinic evaluation received an increased service-connected disability rating. Overall, 60% of the FPOWs who attended the clinic opted to receive their primary care at the FPOW clinic.

The FPOW Clinic successfully identified overlooked presumptives and facilitated the determination of appropriate service-connected disabilities. Interestingly, the FPOW Clinic encountered an unanticipated challenge to identifying overlooked FPOW benefits—veterans’ medical conditions that are listed by the VHA as being service-connected in the Computerized Patient Record System did not always reflect those listed officially in VBA records. This led to occasional identification of apparently overlooked FPOW presumptives that were already recognized by the VBA but not reflected in VHA records. This issue was addressed by ensuring that VBA representatives attended postclinic meetings with clinic staff and avoided the need to pursue supposedly unrecognized benefits that were recognized.

Telehealth 

At present, FPOWs from World War II outnumber those of all other conflicts; however, this group is rapidly dwindling in numbers. World War II FPOWs are aged > 85 years, and therefore among the most frail and dependent of veterans. Often they are homebound and unable to physically travel to clinics for assessment. To serve these veterans, we are modifying the FPOW Clinic to utilize telehealth. The Telehealth FPOW Clinic will obtain relevant data from review of the electronic health record and telehealth-based clinic visits. Telehealth also may be used for assessments of Vietnam War veterans (eg, Agent Orange exposure), atomic veterans, and Gulf War veterans. Once fully designed and implemented, we believe that telehealth will prove to be a cost-effective way to provide clinic benefits to rural and older veterans.

Conclusions

The VHA provides priority medical treatment to FPOWs as well as timely and appropriate assessment of their eligibility for veterans’ benefits. The complexities benefit programs established for FPOWs is often beyond the ken of VHA physicians, social workers, and nurses. Because of this unfamiliarity, referrals of eligible FPOWs to appropriate programs can be overlooked. We established a clinic-based interdisciplinary team (FPOW Clinic) that was fully trained in FPOW benefit programs to identify overlooked benefits for FPOWs and were able to increase the disability rating on approximately one-third of the FPOWs seen in the FPOW Clinic. A telehealth-based version of the FPOW clinic is now being developed.

Since the beginning of the American Republic, servicemen have been captured and held as prisoners of war (POWs), including > 130,000 in World War II , > 7,100 in the Korean War, > 700 in the Vietnam War, and 37 in Operation Desert Storm and recent conflicts.^1,2 Also, > 80 servicewomen have been held during these conflicts.^1-3 Of those living former POWs (FPOWs), almost all are geriatric (aged > 65 years) with a significant portion aged ≥ 85 years.

The physical hardships and psychological stress endured by FPOWs have lifelong deleterious sequelae on health and social functioning.^3-5 The experiences of FPOWs are associated with higher prevalence of chronic diseases and diminished functional performance in later life as demonstrated by a survey of FPOWs from World War II.⁴ The survey assessed health and functional status in a random sample of 101 FPOWs and a group of 107 non-POW combatants from the same military operations. FPOWs reported a higher mean number of somatic symptoms than did non-POWs (7.2 vs 5.4, respectively; P = .002), a higher mean number of diagnosed health conditions (9.4 vs 7.7, respectively; P < .001), and used a greater mean number of medications (4.5 vs 3.4, respectively; P = .001). Among 15 broad categories of diagnoses, differences were found in gastrointestinal disorders (FPOWs 63% vs non-POWs 49%, P = .032), musculoskeletal disorders (FPOWs 76% vs non-POWs 60%, P = .001), and cognitive disorders (FPOWs 31% vs non-POWs 15%, P = .006). FPOWs had a significantly higher proportion of 7 extrapyramidal signs and 6 signs relating to ataxia. On the Instrumental Activities of Daily Living scale, FPOWs were more likely to be impaired than were non-POWs (33% vs 17%, respectively; P = .01). In addition, FPOWs have an increased risk of developing dementia, and this risk is doubled in FPOWs with posttraumatic stress disorder (PTSD) compared with non-FPOWs without PTSD.⁵

These data indicate that FPOW status is associated with increased risk of disability and loss of independence. Federal statutes established the presumption of a relationship between FPOW status and many comorbidities for VA disability determinations in recognition of such data and to overcome lack of medical records during POW confinement and to accord benefit of the doubt where medical science cannot conclusively link disease etiology to FPOW status, to FPOWs.

Service-Connected Conditions

The historical development of conditions with a presumption of service connection for adjudication of VA compensation/disability claims began in 1921 with the Act to Establish a Veterans’ Bureau and to Improve the Facilities.¹ The act simplified and streamlined the claims adjudication process by eliminating the need to obtain evidence on the part of the veteran. The presumption of service connection also facilitated increased accuracy and consistency in adjudications by requiring similar treatment for similar claims. This “presumptive” process relieved claimants and VA of the necessity of producing direct evidence when it was impractical to do so.

In 1970, the first presumptives specific to FPOWs were legislatively established and covered 17 diseases for a FPOW who had been confined for ≥ 30 days (Pub. L. 91-376). The 30-day confinement requirement was later relaxed, and additional presumptives were established that related to diseases that were more common among FPOWs than they were among non-FPOWs. These disorders included traumatic arthritis, stroke, heart disease, osteoporosis, peripheral neuropathy, cold injuries, as well as a variety of digestive and neuropsychiatric disorders. If a FPOW is diagnosed as having ≥ 1 of these conditions and it is judged to be ≥ 10% disabling, the condition is presumed to be a sequelae of the POW experience, and it is classified as a service-connected disability (Table).

FPOW Care And Benefits Teams

Several Veterans Health Administration (VHA) directives have been issued, including the recent VHA directive 1650, which requires that each VHA medical facility have a special Care and Benefits Team (CBT) that is charged with the evaluation and treatment of FPOWs to ensure that “FPOWs receive the highest quality care and benefit services.”⁶ CBTs must be composed of a clinician trained in internal medicine or family practice; a clinician who is certified through the VA Office of Disability and Medical Assessment to conduct General Medical Compensation and Pension evaluations; a FPOW advocate who typically is a VHA clinical social worker; and a Veterans Benefits Administration (VBA) FPOW coordinator appointed by the local VBA regional office. CBTs can be expanded to include other members as needed. The CBTs are tasked with facilitating interactions between FPOWs, the VHA, and the VBA.

CBTs face several challenges in meeting their responsibilities. For example, the POW experience often results in psychological trauma that foments denial and distrust; hence, thoughtful sensitivity to the sequelae of captivity when approaching FPOWs about personal issues, such as health care, is required. Establishing trusting relationships with FPOWs is necessary if their needs are to be effectively addressed.

While the VHA is mandated to provide priority treatment for FPOWs, including hospital, nursing home, dental, and outpatient treatment, a significant number of FPOWs do not avail themselves of benefits to which they are entitled. Often these FPOWs have not used VA programs and facilities because they are uninformed or confused about VA benefits for FPOWs. As a result, referrals of eligible FPOWs to appropriate programs can be overlooked. Maximizing the service-connected disability rating of FPOWs not only impacts the disability pensions received by these veterans, but also impacts their eligibility for VHA programs, including long-term care and Dependency and Indemnity Compensation, a monthly benefit paid to spouses, children, and/or surviving parents.

In 2013, the FPOW Committee of the South Texas Veterans Health Care System (STVHCS) noted that 40% of FPOWs in our region had no VA primary care or clinic assignment. In consideration of the commitment of the VA to care for FPOWs, the unique POW-related medical and psychological issues, the geriatric age of many FPOWs, and the surprising number of FPOWs currently not receiving VA care, we expanded the concept of the CBT team to create a specialized interdisciplinary FPOW Clinic to address the unique needs of this predominantly elderly population and to involve more FPOWs in the VA system.

The main purpose of this clinic was to advise FPOWs of all VA benefits and services to which they may be entitled by identifying overlooked FPOW presumptives. As the number of FPOWs continues to decrease, outreach to FPOWs and family members has become critical, especially as increased benefits and special services might be available to this increasingly dependent older population. An informal survey of FPOW advocates across the nation found that 21% of FPOWs had disability ratings from the VA of ≤ 60%, including some who had no VA disability rating at all. Thus, an additional goal of the project was to develop a clinic model that could be disseminated throughout the VHA.

Design

The design of the FPOW Clinic team is based on an interdisciplinary model that has proven successful in geriatric medicine.⁷ The team comprises a physician, a social worker, and a registered nurse.⁸ All members have expertise in geriatric medicine and specific training in FPOW-related issues by completing a VA employee education training session on FPOW case management. Completion of this training ensured that team members were:

• Familiar with the experiences of FPOWs as well as about the medical, psychosocial, and mental health conditions that affect FPOWs;
• Knowledgeable about FPOW presumptive conditions;
• Familiar with the VBA process for rating FPOW disability claims; and
• Capable of FPOW case coordination, workflow, and communications between the FPOW Clinic team and the VBA to avail FPOWs and their families of all eligible benefits.

In-person FPOW clinic visits and chart reviews helped identify overlooked FPOW benefits. To facilitate case management, a representative of the VBA attended the initial evaluation of each FPOW in the clinic to confirm any overlooked presumptive benefits and to familiarize FPOWs with the claims process. FPOWs were also given the choice to officially enroll in the FPOW clinic for primary care or to remain with their current health care provider. Special efforts were made to enroll those FPOWs who had no STVHCS assigned primary care clinic.

The clinic was scheduled for 4 hours every week. Initial patient visits were 2 hours each and consisted of separate evaluations by each of the 3 FPOW Clinic team members who then met as a team with the addition of the VBA representative. The purpose of this meeting was to discuss overlooked benefits, address any other specific issues noted, and to devise an appropriate interdisciplinary plan. Findings of overlooked benefits and other relevant outcomes then were conveyed to the FPOW. For FPOWs who opted to continue in the clinic for their primary care, subsequent appointments were 1 hour.

Implementation 

STVHCS FPOW advocates identified and sent letters to FPOWs announcing the opening of the clinic and its goals. Phone calls were made to each FPOW to address questions and to ascertain their interest. The FPOW advocates then worked directly with schedulers to make clinic appointments. Forty-one FPOWs responded to this initial invitation and attended the new clinic. Subsequently, this number increased through FPOW consults placed by STVHCS primary care providers.

The service-connected disability rating of clinic patients ranged from none (6% of attendees) to 100% (28% of attendees). For 34% of patients, clinic attendance resulted in identification application for overlooked presumptives. VBA evaluation resulted in increased service-connected disability ratings for nearly one-third of clinic patients. All clinic patients without a service-connected disability prior to FPOW clinic evaluation received an increased service-connected disability rating. Overall, 60% of the FPOWs who attended the clinic opted to receive their primary care at the FPOW clinic.

The FPOW Clinic successfully identified overlooked presumptives and facilitated the determination of appropriate service-connected disabilities. Interestingly, the FPOW Clinic encountered an unanticipated challenge to identifying overlooked FPOW benefits—veterans’ medical conditions that are listed by the VHA as being service-connected in the Computerized Patient Record System did not always reflect those listed officially in VBA records. This led to occasional identification of apparently overlooked FPOW presumptives that were already recognized by the VBA but not reflected in VHA records. This issue was addressed by ensuring that VBA representatives attended postclinic meetings with clinic staff and avoided the need to pursue supposedly unrecognized benefits that were recognized.

Telehealth 

At present, FPOWs from World War II outnumber those of all other conflicts; however, this group is rapidly dwindling in numbers. World War II FPOWs are aged > 85 years, and therefore among the most frail and dependent of veterans. Often they are homebound and unable to physically travel to clinics for assessment. To serve these veterans, we are modifying the FPOW Clinic to utilize telehealth. The Telehealth FPOW Clinic will obtain relevant data from review of the electronic health record and telehealth-based clinic visits. Telehealth also may be used for assessments of Vietnam War veterans (eg, Agent Orange exposure), atomic veterans, and Gulf War veterans. Once fully designed and implemented, we believe that telehealth will prove to be a cost-effective way to provide clinic benefits to rural and older veterans.

Conclusions

The VHA provides priority medical treatment to FPOWs as well as timely and appropriate assessment of their eligibility for veterans’ benefits. The complexities benefit programs established for FPOWs is often beyond the ken of VHA physicians, social workers, and nurses. Because of this unfamiliarity, referrals of eligible FPOWs to appropriate programs can be overlooked. We established a clinic-based interdisciplinary team (FPOW Clinic) that was fully trained in FPOW benefit programs to identify overlooked benefits for FPOWs and were able to increase the disability rating on approximately one-third of the FPOWs seen in the FPOW Clinic. A telehealth-based version of the FPOW clinic is now being developed.

Since the beginning of the American Republic, servicemen have been captured and held as prisoners of war (POWs), including > 130,000 in World War II , > 7,100 in the Korean War, > 700 in the Vietnam War, and 37 in Operation Desert Storm and recent conflicts.^1,2 Also, > 80 servicewomen have been held during these conflicts.^1-3 Of those living former POWs (FPOWs), almost all are geriatric (aged > 65 years) with a significant portion aged ≥ 85 years.

The physical hardships and psychological stress endured by FPOWs have lifelong deleterious sequelae on health and social functioning.^3-5 The experiences of FPOWs are associated with higher prevalence of chronic diseases and diminished functional performance in later life as demonstrated by a survey of FPOWs from World War II.⁴ The survey assessed health and functional status in a random sample of 101 FPOWs and a group of 107 non-POW combatants from the same military operations. FPOWs reported a higher mean number of somatic symptoms than did non-POWs (7.2 vs 5.4, respectively; P = .002), a higher mean number of diagnosed health conditions (9.4 vs 7.7, respectively; P < .001), and used a greater mean number of medications (4.5 vs 3.4, respectively; P = .001). Among 15 broad categories of diagnoses, differences were found in gastrointestinal disorders (FPOWs 63% vs non-POWs 49%, P = .032), musculoskeletal disorders (FPOWs 76% vs non-POWs 60%, P = .001), and cognitive disorders (FPOWs 31% vs non-POWs 15%, P = .006). FPOWs had a significantly higher proportion of 7 extrapyramidal signs and 6 signs relating to ataxia. On the Instrumental Activities of Daily Living scale, FPOWs were more likely to be impaired than were non-POWs (33% vs 17%, respectively; P = .01). In addition, FPOWs have an increased risk of developing dementia, and this risk is doubled in FPOWs with posttraumatic stress disorder (PTSD) compared with non-FPOWs without PTSD.⁵

These data indicate that FPOW status is associated with increased risk of disability and loss of independence. Federal statutes established the presumption of a relationship between FPOW status and many comorbidities for VA disability determinations in recognition of such data and to overcome lack of medical records during POW confinement and to accord benefit of the doubt where medical science cannot conclusively link disease etiology to FPOW status, to FPOWs.

Service-Connected Conditions

The historical development of conditions with a presumption of service connection for adjudication of VA compensation/disability claims began in 1921 with the Act to Establish a Veterans’ Bureau and to Improve the Facilities.¹ The act simplified and streamlined the claims adjudication process by eliminating the need to obtain evidence on the part of the veteran. The presumption of service connection also facilitated increased accuracy and consistency in adjudications by requiring similar treatment for similar claims. This “presumptive” process relieved claimants and VA of the necessity of producing direct evidence when it was impractical to do so.

In 1970, the first presumptives specific to FPOWs were legislatively established and covered 17 diseases for a FPOW who had been confined for ≥ 30 days (Pub. L. 91-376). The 30-day confinement requirement was later relaxed, and additional presumptives were established that related to diseases that were more common among FPOWs than they were among non-FPOWs. These disorders included traumatic arthritis, stroke, heart disease, osteoporosis, peripheral neuropathy, cold injuries, as well as a variety of digestive and neuropsychiatric disorders. If a FPOW is diagnosed as having ≥ 1 of these conditions and it is judged to be ≥ 10% disabling, the condition is presumed to be a sequelae of the POW experience, and it is classified as a service-connected disability (Table).

FPOW Care And Benefits Teams

Several Veterans Health Administration (VHA) directives have been issued, including the recent VHA directive 1650, which requires that each VHA medical facility have a special Care and Benefits Team (CBT) that is charged with the evaluation and treatment of FPOWs to ensure that “FPOWs receive the highest quality care and benefit services.”⁶ CBTs must be composed of a clinician trained in internal medicine or family practice; a clinician who is certified through the VA Office of Disability and Medical Assessment to conduct General Medical Compensation and Pension evaluations; a FPOW advocate who typically is a VHA clinical social worker; and a Veterans Benefits Administration (VBA) FPOW coordinator appointed by the local VBA regional office. CBTs can be expanded to include other members as needed. The CBTs are tasked with facilitating interactions between FPOWs, the VHA, and the VBA.

CBTs face several challenges in meeting their responsibilities. For example, the POW experience often results in psychological trauma that foments denial and distrust; hence, thoughtful sensitivity to the sequelae of captivity when approaching FPOWs about personal issues, such as health care, is required. Establishing trusting relationships with FPOWs is necessary if their needs are to be effectively addressed.

While the VHA is mandated to provide priority treatment for FPOWs, including hospital, nursing home, dental, and outpatient treatment, a significant number of FPOWs do not avail themselves of benefits to which they are entitled. Often these FPOWs have not used VA programs and facilities because they are uninformed or confused about VA benefits for FPOWs. As a result, referrals of eligible FPOWs to appropriate programs can be overlooked. Maximizing the service-connected disability rating of FPOWs not only impacts the disability pensions received by these veterans, but also impacts their eligibility for VHA programs, including long-term care and Dependency and Indemnity Compensation, a monthly benefit paid to spouses, children, and/or surviving parents.

In 2013, the FPOW Committee of the South Texas Veterans Health Care System (STVHCS) noted that 40% of FPOWs in our region had no VA primary care or clinic assignment. In consideration of the commitment of the VA to care for FPOWs, the unique POW-related medical and psychological issues, the geriatric age of many FPOWs, and the surprising number of FPOWs currently not receiving VA care, we expanded the concept of the CBT team to create a specialized interdisciplinary FPOW Clinic to address the unique needs of this predominantly elderly population and to involve more FPOWs in the VA system.

The main purpose of this clinic was to advise FPOWs of all VA benefits and services to which they may be entitled by identifying overlooked FPOW presumptives. As the number of FPOWs continues to decrease, outreach to FPOWs and family members has become critical, especially as increased benefits and special services might be available to this increasingly dependent older population. An informal survey of FPOW advocates across the nation found that 21% of FPOWs had disability ratings from the VA of ≤ 60%, including some who had no VA disability rating at all. Thus, an additional goal of the project was to develop a clinic model that could be disseminated throughout the VHA.

Design

The design of the FPOW Clinic team is based on an interdisciplinary model that has proven successful in geriatric medicine.⁷ The team comprises a physician, a social worker, and a registered nurse.⁸ All members have expertise in geriatric medicine and specific training in FPOW-related issues by completing a VA employee education training session on FPOW case management. Completion of this training ensured that team members were:

• Familiar with the experiences of FPOWs as well as about the medical, psychosocial, and mental health conditions that affect FPOWs;
• Knowledgeable about FPOW presumptive conditions;
• Familiar with the VBA process for rating FPOW disability claims; and
• Capable of FPOW case coordination, workflow, and communications between the FPOW Clinic team and the VBA to avail FPOWs and their families of all eligible benefits.

In-person FPOW clinic visits and chart reviews helped identify overlooked FPOW benefits. To facilitate case management, a representative of the VBA attended the initial evaluation of each FPOW in the clinic to confirm any overlooked presumptive benefits and to familiarize FPOWs with the claims process. FPOWs were also given the choice to officially enroll in the FPOW clinic for primary care or to remain with their current health care provider. Special efforts were made to enroll those FPOWs who had no STVHCS assigned primary care clinic.

The clinic was scheduled for 4 hours every week. Initial patient visits were 2 hours each and consisted of separate evaluations by each of the 3 FPOW Clinic team members who then met as a team with the addition of the VBA representative. The purpose of this meeting was to discuss overlooked benefits, address any other specific issues noted, and to devise an appropriate interdisciplinary plan. Findings of overlooked benefits and other relevant outcomes then were conveyed to the FPOW. For FPOWs who opted to continue in the clinic for their primary care, subsequent appointments were 1 hour.

Implementation 

STVHCS FPOW advocates identified and sent letters to FPOWs announcing the opening of the clinic and its goals. Phone calls were made to each FPOW to address questions and to ascertain their interest. The FPOW advocates then worked directly with schedulers to make clinic appointments. Forty-one FPOWs responded to this initial invitation and attended the new clinic. Subsequently, this number increased through FPOW consults placed by STVHCS primary care providers.

The service-connected disability rating of clinic patients ranged from none (6% of attendees) to 100% (28% of attendees). For 34% of patients, clinic attendance resulted in identification application for overlooked presumptives. VBA evaluation resulted in increased service-connected disability ratings for nearly one-third of clinic patients. All clinic patients without a service-connected disability prior to FPOW clinic evaluation received an increased service-connected disability rating. Overall, 60% of the FPOWs who attended the clinic opted to receive their primary care at the FPOW clinic.

The FPOW Clinic successfully identified overlooked presumptives and facilitated the determination of appropriate service-connected disabilities. Interestingly, the FPOW Clinic encountered an unanticipated challenge to identifying overlooked FPOW benefits—veterans’ medical conditions that are listed by the VHA as being service-connected in the Computerized Patient Record System did not always reflect those listed officially in VBA records. This led to occasional identification of apparently overlooked FPOW presumptives that were already recognized by the VBA but not reflected in VHA records. This issue was addressed by ensuring that VBA representatives attended postclinic meetings with clinic staff and avoided the need to pursue supposedly unrecognized benefits that were recognized.

Telehealth 

At present, FPOWs from World War II outnumber those of all other conflicts; however, this group is rapidly dwindling in numbers. World War II FPOWs are aged > 85 years, and therefore among the most frail and dependent of veterans. Often they are homebound and unable to physically travel to clinics for assessment. To serve these veterans, we are modifying the FPOW Clinic to utilize telehealth. The Telehealth FPOW Clinic will obtain relevant data from review of the electronic health record and telehealth-based clinic visits. Telehealth also may be used for assessments of Vietnam War veterans (eg, Agent Orange exposure), atomic veterans, and Gulf War veterans. Once fully designed and implemented, we believe that telehealth will prove to be a cost-effective way to provide clinic benefits to rural and older veterans.

Conclusions

The VHA provides priority medical treatment to FPOWs as well as timely and appropriate assessment of their eligibility for veterans’ benefits. The complexities benefit programs established for FPOWs is often beyond the ken of VHA physicians, social workers, and nurses. Because of this unfamiliarity, referrals of eligible FPOWs to appropriate programs can be overlooked. We established a clinic-based interdisciplinary team (FPOW Clinic) that was fully trained in FPOW benefit programs to identify overlooked benefits for FPOWs and were able to increase the disability rating on approximately one-third of the FPOWs seen in the FPOW Clinic. A telehealth-based version of the FPOW clinic is now being developed.

Patients being treated for RA or spondyloarthritis who develop symptoms of COVID-19 do not appear to be at higher risk of respiratory or life-threatening complications, results from a new study in Italy suggest.

Such patients, the study authors wrote, do not need to be taken off their immunosuppressive medications if they develop COVID-19 symptoms.

In a letter published in Annals of the Rheumatic Diseases, Sara Monti, MD, and colleagues in the rheumatology department of the Fondazione IRCCS Policlinico in San Matteo, Italy, described results from an observational cohort of 320 patients (68% women; mean age, 55 years) with RA or spondyloarthritis from a single outpatient clinic. The vast majority of subjects (92%) were taking biologic disease-modifying antirheumatic drugs (bDMARD), including tumor necrosis factor inhibitors, while the rest were taking targeted synthetic DMARDs (tsDMARD).

Four patients in the cohort developed laboratory-confirmed COVID-19; another four developed symptoms highly suggestive of the disease but did not receive confirmatory testing, and five had contact with a confirmed COVID-19 case but did not develop symptoms of COVID-19.

Among the eight confirmed and suspected COVID-19 patients, only one was hospitalized. All temporarily withdrew bDMARD or tsDMARD treatment at symptom onset.

“To date, there have been no significant relapses of the rheumatic disease,” Dr. Monti and colleagues reported. “None of the patients with a confirmed diagnosis of COVID-19 or with a highly suggestive clinical picture developed severe respiratory complications or died. Only one patient, aged 65, required admission to hospital and low-flow oxygen supplementation for a few days.”

The findings “do not allow any conclusions on the incidence rate of SARS-CoV-2 infection in patients with rheumatic diseases, nor on the overall outcome of immunocompromised patients affected by COVID-19,” the investigators cautioned, adding that such patients should receive careful attention and follow-up. “However, our preliminary experience shows that patients with chronic arthritis treated with bDMARDs or tsDMARDs do not seem to be at increased risk of respiratory or life-threatening complications from SARS-CoV-2, compared with the general population.”

Dr. Monti and colleagues noted that, during previous outbreaks of other coronaviruses, no increased mortality was reported for people taking immunosuppressive drugs for a range of conditions, including autoimmune diseases.

“These data can support rheumatologists [in] avoiding the unjustifiable preventive withdrawal of DMARDs, which could lead to an increased risk of relapses and morbidity from the chronic rheumatological condition,” the researchers concluded.

Dr. Monti and colleagues reported no outside funding or financial conflicts of interest.

SOURCE: Monti S et al. Ann Rheum Dis. 2020 April 2. doi: 10.1136/annrheumdis-2020-217424.

Patients being treated for RA or spondyloarthritis who develop symptoms of COVID-19 do not appear to be at higher risk of respiratory or life-threatening complications, results from a new study in Italy suggest.

Such patients, the study authors wrote, do not need to be taken off their immunosuppressive medications if they develop COVID-19 symptoms.

In a letter published in Annals of the Rheumatic Diseases, Sara Monti, MD, and colleagues in the rheumatology department of the Fondazione IRCCS Policlinico in San Matteo, Italy, described results from an observational cohort of 320 patients (68% women; mean age, 55 years) with RA or spondyloarthritis from a single outpatient clinic. The vast majority of subjects (92%) were taking biologic disease-modifying antirheumatic drugs (bDMARD), including tumor necrosis factor inhibitors, while the rest were taking targeted synthetic DMARDs (tsDMARD).

Four patients in the cohort developed laboratory-confirmed COVID-19; another four developed symptoms highly suggestive of the disease but did not receive confirmatory testing, and five had contact with a confirmed COVID-19 case but did not develop symptoms of COVID-19.

Among the eight confirmed and suspected COVID-19 patients, only one was hospitalized. All temporarily withdrew bDMARD or tsDMARD treatment at symptom onset.

“To date, there have been no significant relapses of the rheumatic disease,” Dr. Monti and colleagues reported. “None of the patients with a confirmed diagnosis of COVID-19 or with a highly suggestive clinical picture developed severe respiratory complications or died. Only one patient, aged 65, required admission to hospital and low-flow oxygen supplementation for a few days.”

The findings “do not allow any conclusions on the incidence rate of SARS-CoV-2 infection in patients with rheumatic diseases, nor on the overall outcome of immunocompromised patients affected by COVID-19,” the investigators cautioned, adding that such patients should receive careful attention and follow-up. “However, our preliminary experience shows that patients with chronic arthritis treated with bDMARDs or tsDMARDs do not seem to be at increased risk of respiratory or life-threatening complications from SARS-CoV-2, compared with the general population.”

Dr. Monti and colleagues noted that, during previous outbreaks of other coronaviruses, no increased mortality was reported for people taking immunosuppressive drugs for a range of conditions, including autoimmune diseases.

“These data can support rheumatologists [in] avoiding the unjustifiable preventive withdrawal of DMARDs, which could lead to an increased risk of relapses and morbidity from the chronic rheumatological condition,” the researchers concluded.

Dr. Monti and colleagues reported no outside funding or financial conflicts of interest.

SOURCE: Monti S et al. Ann Rheum Dis. 2020 April 2. doi: 10.1136/annrheumdis-2020-217424.

Patients being treated for RA or spondyloarthritis who develop symptoms of COVID-19 do not appear to be at higher risk of respiratory or life-threatening complications, results from a new study in Italy suggest.

Such patients, the study authors wrote, do not need to be taken off their immunosuppressive medications if they develop COVID-19 symptoms.

In a letter published in Annals of the Rheumatic Diseases, Sara Monti, MD, and colleagues in the rheumatology department of the Fondazione IRCCS Policlinico in San Matteo, Italy, described results from an observational cohort of 320 patients (68% women; mean age, 55 years) with RA or spondyloarthritis from a single outpatient clinic. The vast majority of subjects (92%) were taking biologic disease-modifying antirheumatic drugs (bDMARD), including tumor necrosis factor inhibitors, while the rest were taking targeted synthetic DMARDs (tsDMARD).

Four patients in the cohort developed laboratory-confirmed COVID-19; another four developed symptoms highly suggestive of the disease but did not receive confirmatory testing, and five had contact with a confirmed COVID-19 case but did not develop symptoms of COVID-19.

Among the eight confirmed and suspected COVID-19 patients, only one was hospitalized. All temporarily withdrew bDMARD or tsDMARD treatment at symptom onset.

“To date, there have been no significant relapses of the rheumatic disease,” Dr. Monti and colleagues reported. “None of the patients with a confirmed diagnosis of COVID-19 or with a highly suggestive clinical picture developed severe respiratory complications or died. Only one patient, aged 65, required admission to hospital and low-flow oxygen supplementation for a few days.”

The findings “do not allow any conclusions on the incidence rate of SARS-CoV-2 infection in patients with rheumatic diseases, nor on the overall outcome of immunocompromised patients affected by COVID-19,” the investigators cautioned, adding that such patients should receive careful attention and follow-up. “However, our preliminary experience shows that patients with chronic arthritis treated with bDMARDs or tsDMARDs do not seem to be at increased risk of respiratory or life-threatening complications from SARS-CoV-2, compared with the general population.”

Dr. Monti and colleagues noted that, during previous outbreaks of other coronaviruses, no increased mortality was reported for people taking immunosuppressive drugs for a range of conditions, including autoimmune diseases.

“These data can support rheumatologists [in] avoiding the unjustifiable preventive withdrawal of DMARDs, which could lead to an increased risk of relapses and morbidity from the chronic rheumatological condition,” the researchers concluded.

Dr. Monti and colleagues reported no outside funding or financial conflicts of interest.

SOURCE: Monti S et al. Ann Rheum Dis. 2020 April 2. doi: 10.1136/annrheumdis-2020-217424.

More than three-quarters of cancer clinical research programs have experienced operational changes during the COVID-19 pandemic, according to a survey conducted by the Association of Community Cancer Centers (ACCC) during a recent webinar.

The webinar included insights into how some cancer research programs have adapted to the pandemic, a review of guidance for conducting cancer trials during this time, and a discussion of how the cancer research landscape may be affected by COVID-19 going forward.

The webinar was led by Randall A. Oyer, MD, president of the ACCC and medical director of the oncology program at Penn Medicine Lancaster General Health in Pennsylvania.

The impact of COVID-19 on cancer research

Dr. Oyer observed that planning and implementation for COVID-19–related illness at U.S. health care institutions has had a predictable effect of limiting patient access and staff availability for nonessential services.

Coronavirus-related exposure and/or illness has relegated cancer research to a lower-level priority. As a result, ACCC institutions have made adjustments in their cancer research programs, including moving clinical research coordinators off-campus and deploying them in clinical areas.

New clinical trials have not been opened. In some cases, new accruals have been halted, particularly for registry, prevention, and symptom control trials.

Standards that have changed and those that have not

Guidance documents for conducting clinical trials during the pandemic have been developed by the Food and Drug Administration, the National Cancer Institute’s Cancer Therapy Evaluation Program and Central Institutional Review Board, and the National Institutes of Health’s Office of Extramural Research. Industry sponsors and parent institutions of research programs have also disseminated guidance.

Among other topics, guidance documents have addressed:

• How COVID-19-related protocol deviations will be judged at monitoring visits and audits
• Missed office visits and endpoint evaluations
• Providing investigational oral medications to patients via mail and potential issues of medication unavailability
• Processes for patients to have interim visits with providers at external institutions, including providers who may not be personally engaged in or credentialed for the research trial
• Potential delays in submitting protocol amendments for institutional review board (IRB) review
• Recommendations for patients confirmed or suspected of having a coronavirus infection.

Dr. Oyer emphasized that patient safety must remain the highest priority for patient management, on or off study. He advised continuing investigational therapy when potential benefit from treatment is anticipated and identifying alternative methods to face-to-face visits for monitoring and access to treatment.

Dr. Oyer urged programs to:

• Maintain good clinical practice standards
• Consult with sponsors and IRBs when questions arise but implement changes that affect patient safety prior to IRB review if necessary
• Document all deviations and COVID-19 related adaptations in a log or spreadsheet in anticipation of future questions from sponsors, monitors, and other entities.

New questions and considerations

In the short-term, Dr. Oyer predicts fewer available trials and a decreased rate of accrual to existing studies. This may result in delays in trial completion and the possibility of redesign for some trials.

He predicts the emergence of COVID-19-focused research questions, including those assessing the course of coronavirus infection in various malignant settings and the impact of cancer-directed treatments and supportive care interventions (e.g., treatment for graft-versus-host disease) on response to COVID-19.

To facilitate developing a clinically and research-relevant database, Dr. Oyer stressed the importance of documentation in the research record, reporting infections as serious adverse events. Documentation should specify whether the infection was confirmed or suspected coronavirus or related to another organism.

In general, when coronavirus infection is strongly suspected, Dr. Oyer said investigational treatments should be interrupted, but study-specific criteria will be forthcoming on that issue.
 

Looking to the future

For patients with advanced cancers, clinical trials provide an important option for hope and clinical benefit. Disrupting the conduct of clinical trials could endanger the lives of participants and delay the emergence of promising treatments and diagnostic tests.

When the coronavirus pandemic recedes, advancing knowledge and treatments for cancer will demand renewed commitment across the oncology care community.

Going forward, Dr. Oyer advised that clinical research staff protect their own health and the safety of trial participants. He encouraged programs to work with sponsors and IRBs to solve logistical problems and clarify individual issues.

He was optimistic that resumption of more normal conduct of studies will enable the successful completion of ongoing trials, enhanced by the creative solutions that were devised during the crisis and by additional prospective, clinically annotated, carefully recorded data from academic and community research sites.


Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

More than three-quarters of cancer clinical research programs have experienced operational changes during the COVID-19 pandemic, according to a survey conducted by the Association of Community Cancer Centers (ACCC) during a recent webinar.

The webinar included insights into how some cancer research programs have adapted to the pandemic, a review of guidance for conducting cancer trials during this time, and a discussion of how the cancer research landscape may be affected by COVID-19 going forward.

The webinar was led by Randall A. Oyer, MD, president of the ACCC and medical director of the oncology program at Penn Medicine Lancaster General Health in Pennsylvania.

The impact of COVID-19 on cancer research

Dr. Oyer observed that planning and implementation for COVID-19–related illness at U.S. health care institutions has had a predictable effect of limiting patient access and staff availability for nonessential services.

Coronavirus-related exposure and/or illness has relegated cancer research to a lower-level priority. As a result, ACCC institutions have made adjustments in their cancer research programs, including moving clinical research coordinators off-campus and deploying them in clinical areas.

New clinical trials have not been opened. In some cases, new accruals have been halted, particularly for registry, prevention, and symptom control trials.

Standards that have changed and those that have not

Guidance documents for conducting clinical trials during the pandemic have been developed by the Food and Drug Administration, the National Cancer Institute’s Cancer Therapy Evaluation Program and Central Institutional Review Board, and the National Institutes of Health’s Office of Extramural Research. Industry sponsors and parent institutions of research programs have also disseminated guidance.

Among other topics, guidance documents have addressed:

• How COVID-19-related protocol deviations will be judged at monitoring visits and audits
• Missed office visits and endpoint evaluations
• Providing investigational oral medications to patients via mail and potential issues of medication unavailability
• Processes for patients to have interim visits with providers at external institutions, including providers who may not be personally engaged in or credentialed for the research trial
• Potential delays in submitting protocol amendments for institutional review board (IRB) review
• Recommendations for patients confirmed or suspected of having a coronavirus infection.

Dr. Oyer emphasized that patient safety must remain the highest priority for patient management, on or off study. He advised continuing investigational therapy when potential benefit from treatment is anticipated and identifying alternative methods to face-to-face visits for monitoring and access to treatment.

Dr. Oyer urged programs to:

• Maintain good clinical practice standards
• Consult with sponsors and IRBs when questions arise but implement changes that affect patient safety prior to IRB review if necessary
• Document all deviations and COVID-19 related adaptations in a log or spreadsheet in anticipation of future questions from sponsors, monitors, and other entities.

New questions and considerations

In the short-term, Dr. Oyer predicts fewer available trials and a decreased rate of accrual to existing studies. This may result in delays in trial completion and the possibility of redesign for some trials.

He predicts the emergence of COVID-19-focused research questions, including those assessing the course of coronavirus infection in various malignant settings and the impact of cancer-directed treatments and supportive care interventions (e.g., treatment for graft-versus-host disease) on response to COVID-19.

To facilitate developing a clinically and research-relevant database, Dr. Oyer stressed the importance of documentation in the research record, reporting infections as serious adverse events. Documentation should specify whether the infection was confirmed or suspected coronavirus or related to another organism.

In general, when coronavirus infection is strongly suspected, Dr. Oyer said investigational treatments should be interrupted, but study-specific criteria will be forthcoming on that issue.
 

Looking to the future

For patients with advanced cancers, clinical trials provide an important option for hope and clinical benefit. Disrupting the conduct of clinical trials could endanger the lives of participants and delay the emergence of promising treatments and diagnostic tests.

When the coronavirus pandemic recedes, advancing knowledge and treatments for cancer will demand renewed commitment across the oncology care community.

Going forward, Dr. Oyer advised that clinical research staff protect their own health and the safety of trial participants. He encouraged programs to work with sponsors and IRBs to solve logistical problems and clarify individual issues.

He was optimistic that resumption of more normal conduct of studies will enable the successful completion of ongoing trials, enhanced by the creative solutions that were devised during the crisis and by additional prospective, clinically annotated, carefully recorded data from academic and community research sites.


Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

More than three-quarters of cancer clinical research programs have experienced operational changes during the COVID-19 pandemic, according to a survey conducted by the Association of Community Cancer Centers (ACCC) during a recent webinar.

The webinar included insights into how some cancer research programs have adapted to the pandemic, a review of guidance for conducting cancer trials during this time, and a discussion of how the cancer research landscape may be affected by COVID-19 going forward.

The webinar was led by Randall A. Oyer, MD, president of the ACCC and medical director of the oncology program at Penn Medicine Lancaster General Health in Pennsylvania.

The impact of COVID-19 on cancer research

Dr. Oyer observed that planning and implementation for COVID-19–related illness at U.S. health care institutions has had a predictable effect of limiting patient access and staff availability for nonessential services.

Coronavirus-related exposure and/or illness has relegated cancer research to a lower-level priority. As a result, ACCC institutions have made adjustments in their cancer research programs, including moving clinical research coordinators off-campus and deploying them in clinical areas.

New clinical trials have not been opened. In some cases, new accruals have been halted, particularly for registry, prevention, and symptom control trials.

Standards that have changed and those that have not

Guidance documents for conducting clinical trials during the pandemic have been developed by the Food and Drug Administration, the National Cancer Institute’s Cancer Therapy Evaluation Program and Central Institutional Review Board, and the National Institutes of Health’s Office of Extramural Research. Industry sponsors and parent institutions of research programs have also disseminated guidance.

Among other topics, guidance documents have addressed:

• How COVID-19-related protocol deviations will be judged at monitoring visits and audits
• Missed office visits and endpoint evaluations
• Providing investigational oral medications to patients via mail and potential issues of medication unavailability
• Processes for patients to have interim visits with providers at external institutions, including providers who may not be personally engaged in or credentialed for the research trial
• Potential delays in submitting protocol amendments for institutional review board (IRB) review
• Recommendations for patients confirmed or suspected of having a coronavirus infection.

Dr. Oyer emphasized that patient safety must remain the highest priority for patient management, on or off study. He advised continuing investigational therapy when potential benefit from treatment is anticipated and identifying alternative methods to face-to-face visits for monitoring and access to treatment.

Dr. Oyer urged programs to:

• Maintain good clinical practice standards
• Consult with sponsors and IRBs when questions arise but implement changes that affect patient safety prior to IRB review if necessary
• Document all deviations and COVID-19 related adaptations in a log or spreadsheet in anticipation of future questions from sponsors, monitors, and other entities.

New questions and considerations

In the short-term, Dr. Oyer predicts fewer available trials and a decreased rate of accrual to existing studies. This may result in delays in trial completion and the possibility of redesign for some trials.

He predicts the emergence of COVID-19-focused research questions, including those assessing the course of coronavirus infection in various malignant settings and the impact of cancer-directed treatments and supportive care interventions (e.g., treatment for graft-versus-host disease) on response to COVID-19.

To facilitate developing a clinically and research-relevant database, Dr. Oyer stressed the importance of documentation in the research record, reporting infections as serious adverse events. Documentation should specify whether the infection was confirmed or suspected coronavirus or related to another organism.

In general, when coronavirus infection is strongly suspected, Dr. Oyer said investigational treatments should be interrupted, but study-specific criteria will be forthcoming on that issue.
 

Looking to the future

For patients with advanced cancers, clinical trials provide an important option for hope and clinical benefit. Disrupting the conduct of clinical trials could endanger the lives of participants and delay the emergence of promising treatments and diagnostic tests.

When the coronavirus pandemic recedes, advancing knowledge and treatments for cancer will demand renewed commitment across the oncology care community.

Going forward, Dr. Oyer advised that clinical research staff protect their own health and the safety of trial participants. He encouraged programs to work with sponsors and IRBs to solve logistical problems and clarify individual issues.

He was optimistic that resumption of more normal conduct of studies will enable the successful completion of ongoing trials, enhanced by the creative solutions that were devised during the crisis and by additional prospective, clinically annotated, carefully recorded data from academic and community research sites.


Dr. Lyss was a community-based medical oncologist and clinical researcher for more than 35 years before his recent retirement. His clinical and research interests were focused on breast and lung cancers as well as expanding clinical trial access to medically underserved populations. He is based in St. Louis. He has no conflicts of interest.

It’s becoming clear that COVID-19 infection can involve the cardiovascular system in many different ways, and this has “evolving” potential implications for treatment, say a team of cardiologists on the frontlines of the COVID-19 battle in New York City.

In an article published online April 3 in Circulation, Justin Fried, MD, Division of Cardiology, Columbia University, New York City, and colleagues present four case studies of COVID-19 patients with various cardiovascular presentations.

Case 1 is a 64-year-old woman whose predominant symptoms on admission were cardiac in nature, including chest pain and ST elevation, but without fever, cough, or other symptoms suggestive of COVID-19.

“In patients presenting with what appears to be a typical cardiac syndrome, COVID-19 infection should be in the differential during the current pandemic, even in the absence of fever or cough,” the clinicians advise.

Case 2 is a 38-year-old man with cardiogenic shock and acute respiratory distress with profound hypoxia who was rescued with veno-arterial-venous extracorporeal membrane oxygenation (VV ECMO).

The initial presentation of this patient was more characteristic of severe COVID-19 disease, and cardiac involvement only became apparent after the initiation of ECMO, Fried and colleagues report.

Based on this case, they advise a “low threshold” to assess for cardiogenic shock in patients with acute systolic heart failure related to COVID-19. If inotropic support fails in these patients, intra-aortic balloon pump should be considered first for mechanical circulatory support because it requires the least maintenance from medical support staff.

In addition, in their experience, when a patient on VV ECMO develops superimposed cardiogenic shock, adding an arterial conduit at a relatively low blood flow rate may provide the necessary circulatory support without inducing left ventricular distension, they note.

“Our experience confirms that rescue of patients even with profound cardiogenic or mixed shock may be possible with temporary hemodynamic support at centers with availability of such devices,” Fried and colleagues report.

Case 3 is a 64-year-old woman with underlying cardiac disease who developed profound decompensation with COVID-19 infection.

This case demonstrates that the infection can cause decompensation of underlying heart failure and may lead to mixed shock, the clinicians say.

“Invasive hemodynamic monitoring, if feasible, may be helpful to manage the cardiac component of shock in such cases. Medications that prolong the QT interval are being considered for COVID-19 patients and may require closer monitoring in patients with underlying structural heart disease,” they note.

Case 4 is a 51-year-old man who underwent a heart transplant in 2007 and a kidney transplant in 2010. He had COVID-19 symptoms akin to those seen in nonimmunosuppressed patients with COVID-19.

The COVID-19 pandemic presents a “unique challenge” for solid organ transplant recipients, with only “limited” data on how to adjust immunosuppression during COVID-19 infection, Fried and colleagues say.

The pandemic also creates a challenge for the management of heart failure patients on the heart transplant wait list; the risks of delaying a transplant need to be balanced against the risks of donor infection and uncertainty regarding the impact of post-transplant immunosuppression protocols, they note.

As reported by Medscape Medical News, the American Heart Association has developed a COVID-19 patient registry to collect data on cardiovascular conditions and outcomes related to COVID-19 infection.

To participate in the registry, contact [email protected].

This article first appeared on Medscape.com.

It’s becoming clear that COVID-19 infection can involve the cardiovascular system in many different ways, and this has “evolving” potential implications for treatment, say a team of cardiologists on the frontlines of the COVID-19 battle in New York City.

In an article published online April 3 in Circulation, Justin Fried, MD, Division of Cardiology, Columbia University, New York City, and colleagues present four case studies of COVID-19 patients with various cardiovascular presentations.

Case 1 is a 64-year-old woman whose predominant symptoms on admission were cardiac in nature, including chest pain and ST elevation, but without fever, cough, or other symptoms suggestive of COVID-19.

“In patients presenting with what appears to be a typical cardiac syndrome, COVID-19 infection should be in the differential during the current pandemic, even in the absence of fever or cough,” the clinicians advise.

Case 2 is a 38-year-old man with cardiogenic shock and acute respiratory distress with profound hypoxia who was rescued with veno-arterial-venous extracorporeal membrane oxygenation (VV ECMO).

The initial presentation of this patient was more characteristic of severe COVID-19 disease, and cardiac involvement only became apparent after the initiation of ECMO, Fried and colleagues report.

Based on this case, they advise a “low threshold” to assess for cardiogenic shock in patients with acute systolic heart failure related to COVID-19. If inotropic support fails in these patients, intra-aortic balloon pump should be considered first for mechanical circulatory support because it requires the least maintenance from medical support staff.

In addition, in their experience, when a patient on VV ECMO develops superimposed cardiogenic shock, adding an arterial conduit at a relatively low blood flow rate may provide the necessary circulatory support without inducing left ventricular distension, they note.

“Our experience confirms that rescue of patients even with profound cardiogenic or mixed shock may be possible with temporary hemodynamic support at centers with availability of such devices,” Fried and colleagues report.

Case 3 is a 64-year-old woman with underlying cardiac disease who developed profound decompensation with COVID-19 infection.

This case demonstrates that the infection can cause decompensation of underlying heart failure and may lead to mixed shock, the clinicians say.

“Invasive hemodynamic monitoring, if feasible, may be helpful to manage the cardiac component of shock in such cases. Medications that prolong the QT interval are being considered for COVID-19 patients and may require closer monitoring in patients with underlying structural heart disease,” they note.

Case 4 is a 51-year-old man who underwent a heart transplant in 2007 and a kidney transplant in 2010. He had COVID-19 symptoms akin to those seen in nonimmunosuppressed patients with COVID-19.

The COVID-19 pandemic presents a “unique challenge” for solid organ transplant recipients, with only “limited” data on how to adjust immunosuppression during COVID-19 infection, Fried and colleagues say.

The pandemic also creates a challenge for the management of heart failure patients on the heart transplant wait list; the risks of delaying a transplant need to be balanced against the risks of donor infection and uncertainty regarding the impact of post-transplant immunosuppression protocols, they note.

As reported by Medscape Medical News, the American Heart Association has developed a COVID-19 patient registry to collect data on cardiovascular conditions and outcomes related to COVID-19 infection.

To participate in the registry, contact [email protected].

This article first appeared on Medscape.com.

It’s becoming clear that COVID-19 infection can involve the cardiovascular system in many different ways, and this has “evolving” potential implications for treatment, say a team of cardiologists on the frontlines of the COVID-19 battle in New York City.

In an article published online April 3 in Circulation, Justin Fried, MD, Division of Cardiology, Columbia University, New York City, and colleagues present four case studies of COVID-19 patients with various cardiovascular presentations.

Case 1 is a 64-year-old woman whose predominant symptoms on admission were cardiac in nature, including chest pain and ST elevation, but without fever, cough, or other symptoms suggestive of COVID-19.

“In patients presenting with what appears to be a typical cardiac syndrome, COVID-19 infection should be in the differential during the current pandemic, even in the absence of fever or cough,” the clinicians advise.

Case 2 is a 38-year-old man with cardiogenic shock and acute respiratory distress with profound hypoxia who was rescued with veno-arterial-venous extracorporeal membrane oxygenation (VV ECMO).

The initial presentation of this patient was more characteristic of severe COVID-19 disease, and cardiac involvement only became apparent after the initiation of ECMO, Fried and colleagues report.

Based on this case, they advise a “low threshold” to assess for cardiogenic shock in patients with acute systolic heart failure related to COVID-19. If inotropic support fails in these patients, intra-aortic balloon pump should be considered first for mechanical circulatory support because it requires the least maintenance from medical support staff.

In addition, in their experience, when a patient on VV ECMO develops superimposed cardiogenic shock, adding an arterial conduit at a relatively low blood flow rate may provide the necessary circulatory support without inducing left ventricular distension, they note.

“Our experience confirms that rescue of patients even with profound cardiogenic or mixed shock may be possible with temporary hemodynamic support at centers with availability of such devices,” Fried and colleagues report.

Case 3 is a 64-year-old woman with underlying cardiac disease who developed profound decompensation with COVID-19 infection.

This case demonstrates that the infection can cause decompensation of underlying heart failure and may lead to mixed shock, the clinicians say.

“Invasive hemodynamic monitoring, if feasible, may be helpful to manage the cardiac component of shock in such cases. Medications that prolong the QT interval are being considered for COVID-19 patients and may require closer monitoring in patients with underlying structural heart disease,” they note.

Case 4 is a 51-year-old man who underwent a heart transplant in 2007 and a kidney transplant in 2010. He had COVID-19 symptoms akin to those seen in nonimmunosuppressed patients with COVID-19.

The COVID-19 pandemic presents a “unique challenge” for solid organ transplant recipients, with only “limited” data on how to adjust immunosuppression during COVID-19 infection, Fried and colleagues say.

The pandemic also creates a challenge for the management of heart failure patients on the heart transplant wait list; the risks of delaying a transplant need to be balanced against the risks of donor infection and uncertainty regarding the impact of post-transplant immunosuppression protocols, they note.

As reported by Medscape Medical News, the American Heart Association has developed a COVID-19 patient registry to collect data on cardiovascular conditions and outcomes related to COVID-19 infection.

To participate in the registry, contact [email protected].

This article first appeared on Medscape.com.

I think it’s fair to say, none of us have seen anything like this before. Yet here we are, and we must lead. We are many weeks into the COVID-19 crisis. We moved our offices home and tried not to miss a beat. Our patients need us more than ever – and in different ways.

Lest we become like the shoemaker’s daughter who has no shoes, let’s make sure we take care of ourselves. The shock waves from this pandemic are going to be massive and long lasting. I am already witnessing massive psychological growth on the part of my patients, and I hope, myself and my family. We must be strong as individuals and as a group of professionals.

Now more than ever, we need to set boundaries. So many are suffering. We must take stock of our own lives. Many of us are extremely fortunate. We have homes, families, and plenty of food. We are doctors performing essential services, and we can do so without risking our lives.

The priority is to make sure you are safe, and keeping your family and loved ones safe. As physicians, we have learned to distance ourselves from illness, but the coronavirus has affected us in disproportionate numbers. As a group, we must be risk averse as we will be called upon to heal a very traumatized nation.

To be physically and mentally strong, we must get enough sleep. This is exhausting for some and energizing for others. It is definitely a marathon not a sprint, so pace yourself. Eat well. This is no time for empty calories, and that goes for alcohol as well.

Create new routines. Exercise at the same time each day or perhaps twice a day. Try to be productive during certain hours, and relax at other times. Eat at similar times each day. We must strive to quickly create a “new normal” as we spend our days at home.

Find safe alternatives to your usual workout routine. Use YouTube and Instagram to help you find ways to stay fit in your own home. Ask friends for tips and consider sharing workout time with them via Zoom or FaceTime. New options are coming on line daily.

Make sure you are getting enough information to stay safe, and follow the advice of experts. Then turn off the news. I offer the same advice for financial worries. Try not to stress too much about finances right now. Most of us are feeling the pain of lost income and lost savings. Many of us have spouses or partners who suddenly found themselves out of work. Most likely, we will have ample ability to recover financially as we move forward and find ourselves with more work than ever.

Meditate. This may be advice you have been telling your patients for years but never found the time to try yourself. You can begin very simply with an app called Headspace or Calm. Google “5-minute meditation” on YouTube or find a meditation of any length you desire. If not now, when?

Reach out to one another. We can all use a caring word, or some humor or advice about how to move our practices online.

You may find your concentration is decreased, so be realistic in your expectations of yourself. I am finding shorter sessions more often are providing more comfort to some patients. Other patients are digging deeper than ever emotionally, and the work is becoming more rewarding.

Make sure you take a break to engage in positive activities. Read a book. Listen to soft music. Dim the lights. Watch the sunset, or be in nature if you can do so safely. Watch a TedTalk. Brush up on a foreign language. Take a deep breath. Journal. Puzzles, games, cooking, magazines, and humor all provide much needed respite from the stress. If you are lucky enough to be with family, try to take advantage of this unique time.

Try to avoid or minimize conflict with others. We need one another now more than ever. If you lose your cool, forgive yourself and make amends.

Even in these most challenging times, we must focus on what we are grateful for. Express gratitude to those around you as it will lift their mood as well. I know I am extremely grateful to be able to continue meaningful work when so many are unable to do so.

The next waves of this virus will be hitting our specialty directly so be strong and be prepared. It is an honor to serve, and we must rise to the occasion.
 

Dr. Ritvo, a psychiatrist with more than 25 years’ experience, practices in Miami Beach, Fla. She is the author of “Bekindr – The Transformative Power of Kindness” (Hellertown, Pa.: Momosa Publishing, 2018), and is the founder of the Bekindr Global Initiative, a movement aimed at cultivating kindness in the world. Dr. Ritvo also is the cofounder of the Bold Beauty Project, a nonprofit group that pairs women with disabilities with photographers who create art exhibitions to raise awareness.

I think it’s fair to say, none of us have seen anything like this before. Yet here we are, and we must lead. We are many weeks into the COVID-19 crisis. We moved our offices home and tried not to miss a beat. Our patients need us more than ever – and in different ways.

Lest we become like the shoemaker’s daughter who has no shoes, let’s make sure we take care of ourselves. The shock waves from this pandemic are going to be massive and long lasting. I am already witnessing massive psychological growth on the part of my patients, and I hope, myself and my family. We must be strong as individuals and as a group of professionals.

Now more than ever, we need to set boundaries. So many are suffering. We must take stock of our own lives. Many of us are extremely fortunate. We have homes, families, and plenty of food. We are doctors performing essential services, and we can do so without risking our lives.

The priority is to make sure you are safe, and keeping your family and loved ones safe. As physicians, we have learned to distance ourselves from illness, but the coronavirus has affected us in disproportionate numbers. As a group, we must be risk averse as we will be called upon to heal a very traumatized nation.

To be physically and mentally strong, we must get enough sleep. This is exhausting for some and energizing for others. It is definitely a marathon not a sprint, so pace yourself. Eat well. This is no time for empty calories, and that goes for alcohol as well.

Create new routines. Exercise at the same time each day or perhaps twice a day. Try to be productive during certain hours, and relax at other times. Eat at similar times each day. We must strive to quickly create a “new normal” as we spend our days at home.

Find safe alternatives to your usual workout routine. Use YouTube and Instagram to help you find ways to stay fit in your own home. Ask friends for tips and consider sharing workout time with them via Zoom or FaceTime. New options are coming on line daily.

Make sure you are getting enough information to stay safe, and follow the advice of experts. Then turn off the news. I offer the same advice for financial worries. Try not to stress too much about finances right now. Most of us are feeling the pain of lost income and lost savings. Many of us have spouses or partners who suddenly found themselves out of work. Most likely, we will have ample ability to recover financially as we move forward and find ourselves with more work than ever.

Meditate. This may be advice you have been telling your patients for years but never found the time to try yourself. You can begin very simply with an app called Headspace or Calm. Google “5-minute meditation” on YouTube or find a meditation of any length you desire. If not now, when?

Reach out to one another. We can all use a caring word, or some humor or advice about how to move our practices online.

You may find your concentration is decreased, so be realistic in your expectations of yourself. I am finding shorter sessions more often are providing more comfort to some patients. Other patients are digging deeper than ever emotionally, and the work is becoming more rewarding.

Make sure you take a break to engage in positive activities. Read a book. Listen to soft music. Dim the lights. Watch the sunset, or be in nature if you can do so safely. Watch a TedTalk. Brush up on a foreign language. Take a deep breath. Journal. Puzzles, games, cooking, magazines, and humor all provide much needed respite from the stress. If you are lucky enough to be with family, try to take advantage of this unique time.

Try to avoid or minimize conflict with others. We need one another now more than ever. If you lose your cool, forgive yourself and make amends.

Even in these most challenging times, we must focus on what we are grateful for. Express gratitude to those around you as it will lift their mood as well. I know I am extremely grateful to be able to continue meaningful work when so many are unable to do so.

The next waves of this virus will be hitting our specialty directly so be strong and be prepared. It is an honor to serve, and we must rise to the occasion.
 

Dr. Ritvo, a psychiatrist with more than 25 years’ experience, practices in Miami Beach, Fla. She is the author of “Bekindr – The Transformative Power of Kindness” (Hellertown, Pa.: Momosa Publishing, 2018), and is the founder of the Bekindr Global Initiative, a movement aimed at cultivating kindness in the world. Dr. Ritvo also is the cofounder of the Bold Beauty Project, a nonprofit group that pairs women with disabilities with photographers who create art exhibitions to raise awareness.

I think it’s fair to say, none of us have seen anything like this before. Yet here we are, and we must lead. We are many weeks into the COVID-19 crisis. We moved our offices home and tried not to miss a beat. Our patients need us more than ever – and in different ways.

Lest we become like the shoemaker’s daughter who has no shoes, let’s make sure we take care of ourselves. The shock waves from this pandemic are going to be massive and long lasting. I am already witnessing massive psychological growth on the part of my patients, and I hope, myself and my family. We must be strong as individuals and as a group of professionals.

Now more than ever, we need to set boundaries. So many are suffering. We must take stock of our own lives. Many of us are extremely fortunate. We have homes, families, and plenty of food. We are doctors performing essential services, and we can do so without risking our lives.

The priority is to make sure you are safe, and keeping your family and loved ones safe. As physicians, we have learned to distance ourselves from illness, but the coronavirus has affected us in disproportionate numbers. As a group, we must be risk averse as we will be called upon to heal a very traumatized nation.

To be physically and mentally strong, we must get enough sleep. This is exhausting for some and energizing for others. It is definitely a marathon not a sprint, so pace yourself. Eat well. This is no time for empty calories, and that goes for alcohol as well.

Create new routines. Exercise at the same time each day or perhaps twice a day. Try to be productive during certain hours, and relax at other times. Eat at similar times each day. We must strive to quickly create a “new normal” as we spend our days at home.

Find safe alternatives to your usual workout routine. Use YouTube and Instagram to help you find ways to stay fit in your own home. Ask friends for tips and consider sharing workout time with them via Zoom or FaceTime. New options are coming on line daily.

Make sure you are getting enough information to stay safe, and follow the advice of experts. Then turn off the news. I offer the same advice for financial worries. Try not to stress too much about finances right now. Most of us are feeling the pain of lost income and lost savings. Many of us have spouses or partners who suddenly found themselves out of work. Most likely, we will have ample ability to recover financially as we move forward and find ourselves with more work than ever.

Meditate. This may be advice you have been telling your patients for years but never found the time to try yourself. You can begin very simply with an app called Headspace or Calm. Google “5-minute meditation” on YouTube or find a meditation of any length you desire. If not now, when?

Reach out to one another. We can all use a caring word, or some humor or advice about how to move our practices online.

You may find your concentration is decreased, so be realistic in your expectations of yourself. I am finding shorter sessions more often are providing more comfort to some patients. Other patients are digging deeper than ever emotionally, and the work is becoming more rewarding.

Make sure you take a break to engage in positive activities. Read a book. Listen to soft music. Dim the lights. Watch the sunset, or be in nature if you can do so safely. Watch a TedTalk. Brush up on a foreign language. Take a deep breath. Journal. Puzzles, games, cooking, magazines, and humor all provide much needed respite from the stress. If you are lucky enough to be with family, try to take advantage of this unique time.

Try to avoid or minimize conflict with others. We need one another now more than ever. If you lose your cool, forgive yourself and make amends.

Even in these most challenging times, we must focus on what we are grateful for. Express gratitude to those around you as it will lift their mood as well. I know I am extremely grateful to be able to continue meaningful work when so many are unable to do so.

The next waves of this virus will be hitting our specialty directly so be strong and be prepared. It is an honor to serve, and we must rise to the occasion.
 

Dr. Ritvo, a psychiatrist with more than 25 years’ experience, practices in Miami Beach, Fla. She is the author of “Bekindr – The Transformative Power of Kindness” (Hellertown, Pa.: Momosa Publishing, 2018), and is the founder of the Bekindr Global Initiative, a movement aimed at cultivating kindness in the world. Dr. Ritvo also is the cofounder of the Bold Beauty Project, a nonprofit group that pairs women with disabilities with photographers who create art exhibitions to raise awareness.

The president of the American Medical Association is calling on politicians and the media to rely on science and evidence to help the public through the COVID-19 pandemic.

“We live in a time when misinformation, falsehoods, and outright lies spread like viruses online, through social media and even, at times, in the media at large,” Patrice A. Harris, MD, said during an April 7 address. “We have witnessed a concerning shift over the last several decades where policy decisions seem to be driven by ideology and politics instead of facts and evidence. The result is a growing mistrust in American institutions, in science, and in the counsel of leading experts whose lives are dedicated to the pursuit of evidence and reason.”

To that end, she called on everyone – from politicians to the general public – to trust the scientific evidence.

Dr. Harris noted that the scientific data on COVID-19 have already yielded important lessons about who is more likely to be affected and how easily the virus can spread. The data also point to the effectiveness of stay-at-home and shelter-in-place orders. “This is our best chance to slow the spread of the virus,” she said, adding that the enhanced emphasis on hand washing and other hygiene practices “may seem ‘simplistic,’ but they are, in fact, based in science and evidence.”

And, as the pandemic continues, Dr. Harris said that now is the time to rely on science. She said the AMA “calls on all elected officials to affirm science, evidence, and fact in their words and actions,” and she urged that the government’s scientific institutions be led by experts who are “protected from political influence.”

It is incumbent upon everyone to actively work to contain and stop the spread of misinformation related to COVID-19, she said. “We must ensure the war is against the virus and not against science,” Dr. Harris said.

[email protected]

The president of the American Medical Association is calling on politicians and the media to rely on science and evidence to help the public through the COVID-19 pandemic.

“We live in a time when misinformation, falsehoods, and outright lies spread like viruses online, through social media and even, at times, in the media at large,” Patrice A. Harris, MD, said during an April 7 address. “We have witnessed a concerning shift over the last several decades where policy decisions seem to be driven by ideology and politics instead of facts and evidence. The result is a growing mistrust in American institutions, in science, and in the counsel of leading experts whose lives are dedicated to the pursuit of evidence and reason.”

To that end, she called on everyone – from politicians to the general public – to trust the scientific evidence.

Dr. Harris noted that the scientific data on COVID-19 have already yielded important lessons about who is more likely to be affected and how easily the virus can spread. The data also point to the effectiveness of stay-at-home and shelter-in-place orders. “This is our best chance to slow the spread of the virus,” she said, adding that the enhanced emphasis on hand washing and other hygiene practices “may seem ‘simplistic,’ but they are, in fact, based in science and evidence.”

And, as the pandemic continues, Dr. Harris said that now is the time to rely on science. She said the AMA “calls on all elected officials to affirm science, evidence, and fact in their words and actions,” and she urged that the government’s scientific institutions be led by experts who are “protected from political influence.”

It is incumbent upon everyone to actively work to contain and stop the spread of misinformation related to COVID-19, she said. “We must ensure the war is against the virus and not against science,” Dr. Harris said.

[email protected]

The president of the American Medical Association is calling on politicians and the media to rely on science and evidence to help the public through the COVID-19 pandemic.

“We live in a time when misinformation, falsehoods, and outright lies spread like viruses online, through social media and even, at times, in the media at large,” Patrice A. Harris, MD, said during an April 7 address. “We have witnessed a concerning shift over the last several decades where policy decisions seem to be driven by ideology and politics instead of facts and evidence. The result is a growing mistrust in American institutions, in science, and in the counsel of leading experts whose lives are dedicated to the pursuit of evidence and reason.”

To that end, she called on everyone – from politicians to the general public – to trust the scientific evidence.

Dr. Harris noted that the scientific data on COVID-19 have already yielded important lessons about who is more likely to be affected and how easily the virus can spread. The data also point to the effectiveness of stay-at-home and shelter-in-place orders. “This is our best chance to slow the spread of the virus,” she said, adding that the enhanced emphasis on hand washing and other hygiene practices “may seem ‘simplistic,’ but they are, in fact, based in science and evidence.”

And, as the pandemic continues, Dr. Harris said that now is the time to rely on science. She said the AMA “calls on all elected officials to affirm science, evidence, and fact in their words and actions,” and she urged that the government’s scientific institutions be led by experts who are “protected from political influence.”

It is incumbent upon everyone to actively work to contain and stop the spread of misinformation related to COVID-19, she said. “We must ensure the war is against the virus and not against science,” Dr. Harris said.

[email protected]

Synbiotics can alter gut microbiota in patients with nonalcoholic fatty liver disease (NAFLD), but associated liver benefits remain unseen, according to a recent phase II study.

NAFLD patients who received a year-long regimen of fructo-oligosaccharides and Bifidobacterium animalis had no significant changes in liver fat content or fibrosis, compared with those who received placebo, reported lead author Eleonora Scorletti, MD, of the University of Pennsylvania, Philadelphia, and colleagues.

“There is recent growing interest in the role of gut microbiota in NAFLD pathogenesis, and there are several metaorganismal pathways linking altered gut microbiota ... and NAFLD,” the investigators wrote in Gastroenterology.According to the investigators, previous studies have shown that patients with NAFLD may have some characteristic alterations to their microbiota, such as increased Gram-negative bacteria or more abundant Ruminococcus species, the latter of which were associated with worse fibrosis.

“However, there is currently a lack of consistency in these findings due to the marked variance in the population studied, with differing ages, diets, and geographic locations,” the investigators wrote. “Nonetheless, despite these inconsistencies, there is the possibility that manipulation of the gut microbiota to a more favorable profile could provide a beneficial effect on liver disease in patients with NAFLD.”

To evaluate this possibility, the investigators enrolled 104 patients with NAFLD in the United Kingdom. Patients were randomly divided into a placebo (n = 49) and synbiotic group (n = 55), with the latter receiving 4 grams of fructo-oligosaccharides twice per day plus 10 billion colony-forming units of Bifidobacterium animalis subspecies lactis BB-12 on a daily basis. Treatments were given for 10-14 months.

Diagnostics were conducted across all participants at the beginning and end of the study. These included fecal microbiota analysis by 16s ribosomal DNA sequencing, liver fat measurement by proton magnetic resonance spectroscopy, biomarker-based liver fibrosis scoring, and liver stiffness assessment by vibration-controlled transient elastography.

At the end of the study, patients in the synbiotic group had increased abundance of Bifidobacterium and Faecalibacterium species and reduced proportions of Oscillibacter and Alistipes species, compared with baseline. These changes were not observed in the placebo group.

But changes in microbiota had no apparent impact on liver pathology. Although mean liver fat percentages dropped from 32.3% to 28.5% in the synbiotic group (approximately 4%), they also dropped in the placebo group, from 31.3% to 25.2% (approximately 6%), with differences between groups lacking statistical significance. Using multivariate analysis, the investigators linked these liver fat improvements, which occurred in 65% of participants, with weight loss.

“The fact that most patients had an improvement in ... liver fat, regardless of treatment allocation, is consistent with the so-called clinical trial effect, whereby participants benefit from participating in clinical trials,” the investigators wrote.

Similarly to liver fat content, no significant intergroup differences were found for liver fibrosis or stiffness, whereas, again, weight loss was linked with improvements in both disease parameters.

“Our randomized clinical trial suggests that changing the gut microbiota with this synbiotic may occur without clinically significant effects on the liver in NAFLD,” the investigators concluded.

Still, they noted that the failure of one synbiotic regimen does not discount the possibility of microbiota-based NAFLD interventions as a whole.

“Previous studies that have tested the effects of synbiotic treatment in NAFLD have also used a combination of multiple strains of probiotics as a component of the synbiotic treatment,” the investigators wrote. “Therefore, it might be possible that, because the intestine harbors trillions of bacteria, adding 1 single type of bacterium in a synbiotic may not be as effective as adding 3 or 6 different types of bacteria with the potential to influence many more bacterial species.”

The study was supported by the National Institute of Health Research, the Parnell Diabetes Trust, and Chr. Hansen Holding. One author reported funding from Chr. Hansen unrelated to this trial.

SOURCE: Scorletti E et al. Gastro. 2020 Jan 24. doi: 10.1053/j.gastro.2020.01.031.

Synbiotics can alter gut microbiota in patients with nonalcoholic fatty liver disease (NAFLD), but associated liver benefits remain unseen, according to a recent phase II study.

NAFLD patients who received a year-long regimen of fructo-oligosaccharides and Bifidobacterium animalis had no significant changes in liver fat content or fibrosis, compared with those who received placebo, reported lead author Eleonora Scorletti, MD, of the University of Pennsylvania, Philadelphia, and colleagues.

“There is recent growing interest in the role of gut microbiota in NAFLD pathogenesis, and there are several metaorganismal pathways linking altered gut microbiota ... and NAFLD,” the investigators wrote in Gastroenterology.According to the investigators, previous studies have shown that patients with NAFLD may have some characteristic alterations to their microbiota, such as increased Gram-negative bacteria or more abundant Ruminococcus species, the latter of which were associated with worse fibrosis.

“However, there is currently a lack of consistency in these findings due to the marked variance in the population studied, with differing ages, diets, and geographic locations,” the investigators wrote. “Nonetheless, despite these inconsistencies, there is the possibility that manipulation of the gut microbiota to a more favorable profile could provide a beneficial effect on liver disease in patients with NAFLD.”

To evaluate this possibility, the investigators enrolled 104 patients with NAFLD in the United Kingdom. Patients were randomly divided into a placebo (n = 49) and synbiotic group (n = 55), with the latter receiving 4 grams of fructo-oligosaccharides twice per day plus 10 billion colony-forming units of Bifidobacterium animalis subspecies lactis BB-12 on a daily basis. Treatments were given for 10-14 months.

Diagnostics were conducted across all participants at the beginning and end of the study. These included fecal microbiota analysis by 16s ribosomal DNA sequencing, liver fat measurement by proton magnetic resonance spectroscopy, biomarker-based liver fibrosis scoring, and liver stiffness assessment by vibration-controlled transient elastography.

At the end of the study, patients in the synbiotic group had increased abundance of Bifidobacterium and Faecalibacterium species and reduced proportions of Oscillibacter and Alistipes species, compared with baseline. These changes were not observed in the placebo group.

But changes in microbiota had no apparent impact on liver pathology. Although mean liver fat percentages dropped from 32.3% to 28.5% in the synbiotic group (approximately 4%), they also dropped in the placebo group, from 31.3% to 25.2% (approximately 6%), with differences between groups lacking statistical significance. Using multivariate analysis, the investigators linked these liver fat improvements, which occurred in 65% of participants, with weight loss.

“The fact that most patients had an improvement in ... liver fat, regardless of treatment allocation, is consistent with the so-called clinical trial effect, whereby participants benefit from participating in clinical trials,” the investigators wrote.

Similarly to liver fat content, no significant intergroup differences were found for liver fibrosis or stiffness, whereas, again, weight loss was linked with improvements in both disease parameters.

“Our randomized clinical trial suggests that changing the gut microbiota with this synbiotic may occur without clinically significant effects on the liver in NAFLD,” the investigators concluded.

Still, they noted that the failure of one synbiotic regimen does not discount the possibility of microbiota-based NAFLD interventions as a whole.

“Previous studies that have tested the effects of synbiotic treatment in NAFLD have also used a combination of multiple strains of probiotics as a component of the synbiotic treatment,” the investigators wrote. “Therefore, it might be possible that, because the intestine harbors trillions of bacteria, adding 1 single type of bacterium in a synbiotic may not be as effective as adding 3 or 6 different types of bacteria with the potential to influence many more bacterial species.”

The study was supported by the National Institute of Health Research, the Parnell Diabetes Trust, and Chr. Hansen Holding. One author reported funding from Chr. Hansen unrelated to this trial.

SOURCE: Scorletti E et al. Gastro. 2020 Jan 24. doi: 10.1053/j.gastro.2020.01.031.

Synbiotics can alter gut microbiota in patients with nonalcoholic fatty liver disease (NAFLD), but associated liver benefits remain unseen, according to a recent phase II study.

NAFLD patients who received a year-long regimen of fructo-oligosaccharides and Bifidobacterium animalis had no significant changes in liver fat content or fibrosis, compared with those who received placebo, reported lead author Eleonora Scorletti, MD, of the University of Pennsylvania, Philadelphia, and colleagues.

“There is recent growing interest in the role of gut microbiota in NAFLD pathogenesis, and there are several metaorganismal pathways linking altered gut microbiota ... and NAFLD,” the investigators wrote in Gastroenterology.According to the investigators, previous studies have shown that patients with NAFLD may have some characteristic alterations to their microbiota, such as increased Gram-negative bacteria or more abundant Ruminococcus species, the latter of which were associated with worse fibrosis.

“However, there is currently a lack of consistency in these findings due to the marked variance in the population studied, with differing ages, diets, and geographic locations,” the investigators wrote. “Nonetheless, despite these inconsistencies, there is the possibility that manipulation of the gut microbiota to a more favorable profile could provide a beneficial effect on liver disease in patients with NAFLD.”

To evaluate this possibility, the investigators enrolled 104 patients with NAFLD in the United Kingdom. Patients were randomly divided into a placebo (n = 49) and synbiotic group (n = 55), with the latter receiving 4 grams of fructo-oligosaccharides twice per day plus 10 billion colony-forming units of Bifidobacterium animalis subspecies lactis BB-12 on a daily basis. Treatments were given for 10-14 months.

Diagnostics were conducted across all participants at the beginning and end of the study. These included fecal microbiota analysis by 16s ribosomal DNA sequencing, liver fat measurement by proton magnetic resonance spectroscopy, biomarker-based liver fibrosis scoring, and liver stiffness assessment by vibration-controlled transient elastography.

At the end of the study, patients in the synbiotic group had increased abundance of Bifidobacterium and Faecalibacterium species and reduced proportions of Oscillibacter and Alistipes species, compared with baseline. These changes were not observed in the placebo group.

But changes in microbiota had no apparent impact on liver pathology. Although mean liver fat percentages dropped from 32.3% to 28.5% in the synbiotic group (approximately 4%), they also dropped in the placebo group, from 31.3% to 25.2% (approximately 6%), with differences between groups lacking statistical significance. Using multivariate analysis, the investigators linked these liver fat improvements, which occurred in 65% of participants, with weight loss.

“The fact that most patients had an improvement in ... liver fat, regardless of treatment allocation, is consistent with the so-called clinical trial effect, whereby participants benefit from participating in clinical trials,” the investigators wrote.

Similarly to liver fat content, no significant intergroup differences were found for liver fibrosis or stiffness, whereas, again, weight loss was linked with improvements in both disease parameters.

“Our randomized clinical trial suggests that changing the gut microbiota with this synbiotic may occur without clinically significant effects on the liver in NAFLD,” the investigators concluded.

Still, they noted that the failure of one synbiotic regimen does not discount the possibility of microbiota-based NAFLD interventions as a whole.

“Previous studies that have tested the effects of synbiotic treatment in NAFLD have also used a combination of multiple strains of probiotics as a component of the synbiotic treatment,” the investigators wrote. “Therefore, it might be possible that, because the intestine harbors trillions of bacteria, adding 1 single type of bacterium in a synbiotic may not be as effective as adding 3 or 6 different types of bacteria with the potential to influence many more bacterial species.”

The study was supported by the National Institute of Health Research, the Parnell Diabetes Trust, and Chr. Hansen Holding. One author reported funding from Chr. Hansen unrelated to this trial.

SOURCE: Scorletti E et al. Gastro. 2020 Jan 24. doi: 10.1053/j.gastro.2020.01.031.

Stratifying diagnostic cut-off values of tumor markers based on genetic variants may improve detection of pancreatic cancer, according to investigators.

Stratification had the greatest positive impact on accuracy of carbohydrate antigen 19-9 (CA19-9), reported lead author Toshiya Abe, MD, PhD, of Johns Hopkins Hospital, Baltimore, and colleagues.

“Despite the evidence that genetic factors influence tumor marker levels, the potential utility of using a genetic test to improve the interpretation of tumor markers has drawn limited attention,” the investigators wrote in Clinical Gastroenterology and Hepatology.

And improvements are needed, the investigators noted, particularly for early cancer detection in high-risk individuals.

“[T]he toughest hurdle for a pancreatic cancer detection blood test is the detection of stage I disease,” the investigators wrote. “Cancers generally shed biomarkers in proportion to their size, and small stage I pancreatic cancers shed fewer diagnostic biomarkers into the circulation, making diagnosis more difficult.”

Although a 2016 study by Dr. Guopei Luo and colleagues demonstrated that diagnostic accuracy of CA19-9 could be improved via genotyping, tumor marker performance was not characterized by high-specificity cut-off values, which the present study aimed to do.

The control group included 504 high-risk individuals who were prospectively enrolled in the Cancer of the Pancreas Screening (CAPS) studies from 2002 to 2018, while the case group included 245 patients with pancreatic ductal adenocarcinoma (PDAC) who underwent resection at Johns Hopkins from 2010 to 2017.

The control group was randomly divided into discovery and validation sets in order to achieve 99% specificity cut-off values, which were used to measure sensitivity in the case group. According to the investigators, high-specificity cut-off values are necessary for surveillance of asymptomatic high-risk individuals in order to minimize false-positive results.

In all patients, tumor markers and genotype were analyzed. Tumor markers included carcinoembryonic antigen (CEA), CA19-9, and cancer antigen 125 (CA-125). Genotyping included 16 single-nucleotide polymorphisms (SNPs) in 9 genes, including FUT2 and FUT3, which are known to influence levels of CA19-9.

In contrast with previous findings, which identified three relevant subgroups of FUT2/FUT3, the present study found that four distinct subgroups were significantly associated with CA19-9 levels: FUT3-null, FUT3+/-, FUT3+/+, and FUT2-null.

When CA19-9 cut-off levels were stratified by these four subgroups and applied to the 245 patients with pancreatic cancer, the investigators achieved a sensitivity of 60.8%, compared with 52.7% without stratification. The new cut-off values led to reclassification of 28 (11.4%) patients with pancreatic cancer, including 24 who switched from negative to positive, and 4 who switched from positive to negative.

Sensitivity of the SNP-adjusted CA19-9 test was improved to 66.4% when used exclusively in patients with functional FUT3 genes. Conversely, sensitivity was markedly lower, at 36.7%, when the test was used for patients with stage I disease.

While CA19-9 testing was notably improved by SNP-based stratification, results from CEA and CA-125 testing were more modest. Standard CEA testing had a sensitivity of 13.8%, compared with 15.9% when cut-off values were stratified by FUT2 status and ABO blood group. Similarly, modifying CA-125 values based on SNPs in GAL3ST2 raised sensitivity from 15.5% to 17.6%.

Although combining SNP-modified tumor marker results did increase overall sensitivity to as high as 66.1%, this also reduced specificity to as low as 95.4%

Still, Dr. Abe and colleagues suggested that the findings demonstrate proof of concept.

“Our results show that a tumor marker SNP test can improve the diagnostic accuracy of CA19-9 and, to a lesser extent, CEA and CA-125, but further work is needed to improve the diagnostic accuracy of our panel for the detection of early-stage pancreatic cancer,” they concluded.

The investigators also suggested that the technique could have value for surveillance of ovarian cancer; however, again, they emphasized the need for more research.The study was funded by the National Institutes of Health, Susan Wojcicki and Dennis Troper, the Pancreatic Cancer Action Network, and others. The investigators reported no conflicts of interest.

SOURCE: Abe T et al. Clin Gastro Hepatol. 2019 Oct 29. doi: 10.1016/j.cgh.2019.10.036.

Stratifying diagnostic cut-off values of tumor markers based on genetic variants may improve detection of pancreatic cancer, according to investigators.

Stratification had the greatest positive impact on accuracy of carbohydrate antigen 19-9 (CA19-9), reported lead author Toshiya Abe, MD, PhD, of Johns Hopkins Hospital, Baltimore, and colleagues.

“Despite the evidence that genetic factors influence tumor marker levels, the potential utility of using a genetic test to improve the interpretation of tumor markers has drawn limited attention,” the investigators wrote in Clinical Gastroenterology and Hepatology.

And improvements are needed, the investigators noted, particularly for early cancer detection in high-risk individuals.

“[T]he toughest hurdle for a pancreatic cancer detection blood test is the detection of stage I disease,” the investigators wrote. “Cancers generally shed biomarkers in proportion to their size, and small stage I pancreatic cancers shed fewer diagnostic biomarkers into the circulation, making diagnosis more difficult.”

Although a 2016 study by Dr. Guopei Luo and colleagues demonstrated that diagnostic accuracy of CA19-9 could be improved via genotyping, tumor marker performance was not characterized by high-specificity cut-off values, which the present study aimed to do.

The control group included 504 high-risk individuals who were prospectively enrolled in the Cancer of the Pancreas Screening (CAPS) studies from 2002 to 2018, while the case group included 245 patients with pancreatic ductal adenocarcinoma (PDAC) who underwent resection at Johns Hopkins from 2010 to 2017.

The control group was randomly divided into discovery and validation sets in order to achieve 99% specificity cut-off values, which were used to measure sensitivity in the case group. According to the investigators, high-specificity cut-off values are necessary for surveillance of asymptomatic high-risk individuals in order to minimize false-positive results.

In all patients, tumor markers and genotype were analyzed. Tumor markers included carcinoembryonic antigen (CEA), CA19-9, and cancer antigen 125 (CA-125). Genotyping included 16 single-nucleotide polymorphisms (SNPs) in 9 genes, including FUT2 and FUT3, which are known to influence levels of CA19-9.

In contrast with previous findings, which identified three relevant subgroups of FUT2/FUT3, the present study found that four distinct subgroups were significantly associated with CA19-9 levels: FUT3-null, FUT3+/-, FUT3+/+, and FUT2-null.

When CA19-9 cut-off levels were stratified by these four subgroups and applied to the 245 patients with pancreatic cancer, the investigators achieved a sensitivity of 60.8%, compared with 52.7% without stratification. The new cut-off values led to reclassification of 28 (11.4%) patients with pancreatic cancer, including 24 who switched from negative to positive, and 4 who switched from positive to negative.

Sensitivity of the SNP-adjusted CA19-9 test was improved to 66.4% when used exclusively in patients with functional FUT3 genes. Conversely, sensitivity was markedly lower, at 36.7%, when the test was used for patients with stage I disease.

While CA19-9 testing was notably improved by SNP-based stratification, results from CEA and CA-125 testing were more modest. Standard CEA testing had a sensitivity of 13.8%, compared with 15.9% when cut-off values were stratified by FUT2 status and ABO blood group. Similarly, modifying CA-125 values based on SNPs in GAL3ST2 raised sensitivity from 15.5% to 17.6%.

Although combining SNP-modified tumor marker results did increase overall sensitivity to as high as 66.1%, this also reduced specificity to as low as 95.4%

Still, Dr. Abe and colleagues suggested that the findings demonstrate proof of concept.

“Our results show that a tumor marker SNP test can improve the diagnostic accuracy of CA19-9 and, to a lesser extent, CEA and CA-125, but further work is needed to improve the diagnostic accuracy of our panel for the detection of early-stage pancreatic cancer,” they concluded.

The investigators also suggested that the technique could have value for surveillance of ovarian cancer; however, again, they emphasized the need for more research.The study was funded by the National Institutes of Health, Susan Wojcicki and Dennis Troper, the Pancreatic Cancer Action Network, and others. The investigators reported no conflicts of interest.

SOURCE: Abe T et al. Clin Gastro Hepatol. 2019 Oct 29. doi: 10.1016/j.cgh.2019.10.036.

Stratifying diagnostic cut-off values of tumor markers based on genetic variants may improve detection of pancreatic cancer, according to investigators.

Stratification had the greatest positive impact on accuracy of carbohydrate antigen 19-9 (CA19-9), reported lead author Toshiya Abe, MD, PhD, of Johns Hopkins Hospital, Baltimore, and colleagues.

“Despite the evidence that genetic factors influence tumor marker levels, the potential utility of using a genetic test to improve the interpretation of tumor markers has drawn limited attention,” the investigators wrote in Clinical Gastroenterology and Hepatology.

And improvements are needed, the investigators noted, particularly for early cancer detection in high-risk individuals.

“[T]he toughest hurdle for a pancreatic cancer detection blood test is the detection of stage I disease,” the investigators wrote. “Cancers generally shed biomarkers in proportion to their size, and small stage I pancreatic cancers shed fewer diagnostic biomarkers into the circulation, making diagnosis more difficult.”

Although a 2016 study by Dr. Guopei Luo and colleagues demonstrated that diagnostic accuracy of CA19-9 could be improved via genotyping, tumor marker performance was not characterized by high-specificity cut-off values, which the present study aimed to do.

The control group included 504 high-risk individuals who were prospectively enrolled in the Cancer of the Pancreas Screening (CAPS) studies from 2002 to 2018, while the case group included 245 patients with pancreatic ductal adenocarcinoma (PDAC) who underwent resection at Johns Hopkins from 2010 to 2017.

The control group was randomly divided into discovery and validation sets in order to achieve 99% specificity cut-off values, which were used to measure sensitivity in the case group. According to the investigators, high-specificity cut-off values are necessary for surveillance of asymptomatic high-risk individuals in order to minimize false-positive results.

In all patients, tumor markers and genotype were analyzed. Tumor markers included carcinoembryonic antigen (CEA), CA19-9, and cancer antigen 125 (CA-125). Genotyping included 16 single-nucleotide polymorphisms (SNPs) in 9 genes, including FUT2 and FUT3, which are known to influence levels of CA19-9.

In contrast with previous findings, which identified three relevant subgroups of FUT2/FUT3, the present study found that four distinct subgroups were significantly associated with CA19-9 levels: FUT3-null, FUT3+/-, FUT3+/+, and FUT2-null.

When CA19-9 cut-off levels were stratified by these four subgroups and applied to the 245 patients with pancreatic cancer, the investigators achieved a sensitivity of 60.8%, compared with 52.7% without stratification. The new cut-off values led to reclassification of 28 (11.4%) patients with pancreatic cancer, including 24 who switched from negative to positive, and 4 who switched from positive to negative.

Sensitivity of the SNP-adjusted CA19-9 test was improved to 66.4% when used exclusively in patients with functional FUT3 genes. Conversely, sensitivity was markedly lower, at 36.7%, when the test was used for patients with stage I disease.

While CA19-9 testing was notably improved by SNP-based stratification, results from CEA and CA-125 testing were more modest. Standard CEA testing had a sensitivity of 13.8%, compared with 15.9% when cut-off values were stratified by FUT2 status and ABO blood group. Similarly, modifying CA-125 values based on SNPs in GAL3ST2 raised sensitivity from 15.5% to 17.6%.

Although combining SNP-modified tumor marker results did increase overall sensitivity to as high as 66.1%, this also reduced specificity to as low as 95.4%

Still, Dr. Abe and colleagues suggested that the findings demonstrate proof of concept.

“Our results show that a tumor marker SNP test can improve the diagnostic accuracy of CA19-9 and, to a lesser extent, CEA and CA-125, but further work is needed to improve the diagnostic accuracy of our panel for the detection of early-stage pancreatic cancer,” they concluded.

The investigators also suggested that the technique could have value for surveillance of ovarian cancer; however, again, they emphasized the need for more research.The study was funded by the National Institutes of Health, Susan Wojcicki and Dennis Troper, the Pancreatic Cancer Action Network, and others. The investigators reported no conflicts of interest.

SOURCE: Abe T et al. Clin Gastro Hepatol. 2019 Oct 29. doi: 10.1016/j.cgh.2019.10.036.