Hemodynamic Complications Are Common in Veterans After TBI

HONOLULU—Cerebral vasospasm and intracranial hypertension may be frequent secondary insults following wartime traumatic brain injury (TBI), according to research presented at the 2013 International Stroke Conference.

In a retrospective study of 122 consecutive veterans, transcranial Doppler (TCD) ultrasonography signs of mild, moderate, and severe vasospasm involving anterior circulation vessels were observed in 71%, 42%, and 16% of the veterans with TBI, respectively. TCD signs involving posterior circulation vessels were observed in 57%, 32%, and 14%, respectively.

Intracranial hypertension was recorded in 43% of patients, lead author Alexander Razumovsky, PhD, reported. “Cerebral blood flow velocity measurements permit detection of early signs of cerebral vasospasm and allow physicians to better define management strategies,” he said.

TCD Commonly Used by US Army
TCD monitoring is routinely used by the US Army, but it has not been fully embraced elsewhere because many physicians are unaware of how it can be used within the continuum of TBI care to help reverse outcomes, said study coauthor Col. Rocco Armonda, MC, USA.

“There’s this lack of drive to change outcomes, because people haven’t seen how you can take someone who is in a comatose state and eventually gain functional independence,” said Dr. Armonda, who is the Director of Cerebrovascular Surgery and Interventional Neuroradiology at the National Naval Medical Center in Bethesda, Maryland.

A recent study from the Walter Reed National Military Medical Center, however, reported that 63% of veterans with a penetrating TBI and a mean discharge Glasgow Coma Scale (GCS) score of 6 to 8 progressed to functional independence, a number twice as high as would be expected, Dr. Armonda commented.

Dr. Razumovsky said that simple, noninvasive TCD monitoring should be performed in the daily management of hospitalized TBI patients to complement other monitoring strategies, and it can be used alone in emergency situations when intracranial pressure monitoring is contraindicated or not readily available.

TCD monitoring is not necessary during outpatient follow-up of patients with TBI, with the exception of the subset who have undergone hemicraniectomy, Dr. Armonda said.

“In those patients who’ve had hemicraniectomy, some of them suffer prolonged duration from atmospheric pressure of the cranial defect, and TCD has actually been helpful to look at the cerebral blood flow dynamics,” he said at a press briefing on the study.

The results confirm earlier data that TBI is associated with a high incidence of cerebral vasospasm, particularly in patients with severe TBI, and are applicable to civilian TBI patients, because a significant number will experience post-traumatic bleeding that will lead to vasospasm and intracranial hypertension, said Dr. Razumovsky, Director of Sentient NeuroCare Services in Hunt Valley, Maryland, which provides services to the National Naval Medical Hospital.

Detecting Vasospasm in TBI Patients
In the current study, patients were admitted to Walter Reed a mean of 6.7 days after injury from October 1, 2008, to November 30, 2012. Mean cerebral blood flow velocity (CBFV) of 100 to 139 cm/s was used to define mild vasospasm, 140 to 199 cm/s for moderate vasospasm, and more than 200 cm/s severe for vasospasm.

In all, 88 patients had penetrating head injury, of whom 45 (51%) had a secondary diagnosis of blast injury; and 34 patients had a closed head injury, of whom 15 (44%) had a secondary diagnosis of blast injury. Their mean age was 26 years.

In the mild vasospasm group, the mean anterior circulation CBFV was 122.5 cm/s and mean posterior CBFV was 61 cm/s. Their average GCS score changed from 8 at baseline to 6.1 at discharge, Dr. Razumovsky said.

In the moderate vasospasm group, the mean anterior circulation CBFV was 156.6 cm/s and mean posterior CBFV was 77.5 cm/s. Their average GCS score changed from 5.9 at baseline to 5.3 at discharge.

Patients with severe vasospasm had an average anterior circulation CBFV of 241.9 cm/s and a mean posterior CBFV of 101.8 cm/s. Their average GCS score was 4.8 at both time periods. Eight patients (7%) underwent transluminal angioplasty for post-traumatic symptomatic vasospasm, he said.

Larry Goldstein, MD, Director of the Duke Stroke Center in Durham, North Carolina, said in an interview that the detection of vasospasm by TCD was potentially important, because there is an increased risk of vasospasm after subarachnoid hemorrhage that can lead to delayed ischemic neurologic deficits. Although it was unclear from the data how many patients had traumatic subarachnoid hemorrhage associated with their brain injury, he noted that the risk of vasospasm seems to be similar for traumatic and nontraumatic subarachnoid hemorrhage.

“In many centers, both groups of patients are routinely monitored with transcranial Dopplers over the first couple of weeks or so, which is when the peak period of vasospasm develops,” Dr. Goldstein said. “Showing that monitoring leads to interventions that then change outcome, that’s not so straightforward.”

HONOLULU—Cerebral vasospasm and intracranial hypertension may be frequent secondary insults following wartime traumatic brain injury (TBI), according to research presented at the 2013 International Stroke Conference.

In a retrospective study of 122 consecutive veterans, transcranial Doppler (TCD) ultrasonography signs of mild, moderate, and severe vasospasm involving anterior circulation vessels were observed in 71%, 42%, and 16% of the veterans with TBI, respectively. TCD signs involving posterior circulation vessels were observed in 57%, 32%, and 14%, respectively.

Intracranial hypertension was recorded in 43% of patients, lead author Alexander Razumovsky, PhD, reported. “Cerebral blood flow velocity measurements permit detection of early signs of cerebral vasospasm and allow physicians to better define management strategies,” he said.

TCD Commonly Used by US Army
TCD monitoring is routinely used by the US Army, but it has not been fully embraced elsewhere because many physicians are unaware of how it can be used within the continuum of TBI care to help reverse outcomes, said study coauthor Col. Rocco Armonda, MC, USA.

“There’s this lack of drive to change outcomes, because people haven’t seen how you can take someone who is in a comatose state and eventually gain functional independence,” said Dr. Armonda, who is the Director of Cerebrovascular Surgery and Interventional Neuroradiology at the National Naval Medical Center in Bethesda, Maryland.

A recent study from the Walter Reed National Military Medical Center, however, reported that 63% of veterans with a penetrating TBI and a mean discharge Glasgow Coma Scale (GCS) score of 6 to 8 progressed to functional independence, a number twice as high as would be expected, Dr. Armonda commented.

Dr. Razumovsky said that simple, noninvasive TCD monitoring should be performed in the daily management of hospitalized TBI patients to complement other monitoring strategies, and it can be used alone in emergency situations when intracranial pressure monitoring is contraindicated or not readily available.

TCD monitoring is not necessary during outpatient follow-up of patients with TBI, with the exception of the subset who have undergone hemicraniectomy, Dr. Armonda said.

“In those patients who’ve had hemicraniectomy, some of them suffer prolonged duration from atmospheric pressure of the cranial defect, and TCD has actually been helpful to look at the cerebral blood flow dynamics,” he said at a press briefing on the study.

The results confirm earlier data that TBI is associated with a high incidence of cerebral vasospasm, particularly in patients with severe TBI, and are applicable to civilian TBI patients, because a significant number will experience post-traumatic bleeding that will lead to vasospasm and intracranial hypertension, said Dr. Razumovsky, Director of Sentient NeuroCare Services in Hunt Valley, Maryland, which provides services to the National Naval Medical Hospital.

Detecting Vasospasm in TBI Patients
In the current study, patients were admitted to Walter Reed a mean of 6.7 days after injury from October 1, 2008, to November 30, 2012. Mean cerebral blood flow velocity (CBFV) of 100 to 139 cm/s was used to define mild vasospasm, 140 to 199 cm/s for moderate vasospasm, and more than 200 cm/s severe for vasospasm.

In all, 88 patients had penetrating head injury, of whom 45 (51%) had a secondary diagnosis of blast injury; and 34 patients had a closed head injury, of whom 15 (44%) had a secondary diagnosis of blast injury. Their mean age was 26 years.

In the mild vasospasm group, the mean anterior circulation CBFV was 122.5 cm/s and mean posterior CBFV was 61 cm/s. Their average GCS score changed from 8 at baseline to 6.1 at discharge, Dr. Razumovsky said.

In the moderate vasospasm group, the mean anterior circulation CBFV was 156.6 cm/s and mean posterior CBFV was 77.5 cm/s. Their average GCS score changed from 5.9 at baseline to 5.3 at discharge.

Patients with severe vasospasm had an average anterior circulation CBFV of 241.9 cm/s and a mean posterior CBFV of 101.8 cm/s. Their average GCS score was 4.8 at both time periods. Eight patients (7%) underwent transluminal angioplasty for post-traumatic symptomatic vasospasm, he said.

Larry Goldstein, MD, Director of the Duke Stroke Center in Durham, North Carolina, said in an interview that the detection of vasospasm by TCD was potentially important, because there is an increased risk of vasospasm after subarachnoid hemorrhage that can lead to delayed ischemic neurologic deficits. Although it was unclear from the data how many patients had traumatic subarachnoid hemorrhage associated with their brain injury, he noted that the risk of vasospasm seems to be similar for traumatic and nontraumatic subarachnoid hemorrhage.

“In many centers, both groups of patients are routinely monitored with transcranial Dopplers over the first couple of weeks or so, which is when the peak period of vasospasm develops,” Dr. Goldstein said. “Showing that monitoring leads to interventions that then change outcome, that’s not so straightforward.”

HONOLULU—Cerebral vasospasm and intracranial hypertension may be frequent secondary insults following wartime traumatic brain injury (TBI), according to research presented at the 2013 International Stroke Conference.

In a retrospective study of 122 consecutive veterans, transcranial Doppler (TCD) ultrasonography signs of mild, moderate, and severe vasospasm involving anterior circulation vessels were observed in 71%, 42%, and 16% of the veterans with TBI, respectively. TCD signs involving posterior circulation vessels were observed in 57%, 32%, and 14%, respectively.

Intracranial hypertension was recorded in 43% of patients, lead author Alexander Razumovsky, PhD, reported. “Cerebral blood flow velocity measurements permit detection of early signs of cerebral vasospasm and allow physicians to better define management strategies,” he said.

TCD Commonly Used by US Army
TCD monitoring is routinely used by the US Army, but it has not been fully embraced elsewhere because many physicians are unaware of how it can be used within the continuum of TBI care to help reverse outcomes, said study coauthor Col. Rocco Armonda, MC, USA.

“There’s this lack of drive to change outcomes, because people haven’t seen how you can take someone who is in a comatose state and eventually gain functional independence,” said Dr. Armonda, who is the Director of Cerebrovascular Surgery and Interventional Neuroradiology at the National Naval Medical Center in Bethesda, Maryland.

A recent study from the Walter Reed National Military Medical Center, however, reported that 63% of veterans with a penetrating TBI and a mean discharge Glasgow Coma Scale (GCS) score of 6 to 8 progressed to functional independence, a number twice as high as would be expected, Dr. Armonda commented.

Dr. Razumovsky said that simple, noninvasive TCD monitoring should be performed in the daily management of hospitalized TBI patients to complement other monitoring strategies, and it can be used alone in emergency situations when intracranial pressure monitoring is contraindicated or not readily available.

TCD monitoring is not necessary during outpatient follow-up of patients with TBI, with the exception of the subset who have undergone hemicraniectomy, Dr. Armonda said.

“In those patients who’ve had hemicraniectomy, some of them suffer prolonged duration from atmospheric pressure of the cranial defect, and TCD has actually been helpful to look at the cerebral blood flow dynamics,” he said at a press briefing on the study.

The results confirm earlier data that TBI is associated with a high incidence of cerebral vasospasm, particularly in patients with severe TBI, and are applicable to civilian TBI patients, because a significant number will experience post-traumatic bleeding that will lead to vasospasm and intracranial hypertension, said Dr. Razumovsky, Director of Sentient NeuroCare Services in Hunt Valley, Maryland, which provides services to the National Naval Medical Hospital.

Detecting Vasospasm in TBI Patients
In the current study, patients were admitted to Walter Reed a mean of 6.7 days after injury from October 1, 2008, to November 30, 2012. Mean cerebral blood flow velocity (CBFV) of 100 to 139 cm/s was used to define mild vasospasm, 140 to 199 cm/s for moderate vasospasm, and more than 200 cm/s severe for vasospasm.

In all, 88 patients had penetrating head injury, of whom 45 (51%) had a secondary diagnosis of blast injury; and 34 patients had a closed head injury, of whom 15 (44%) had a secondary diagnosis of blast injury. Their mean age was 26 years.

In the mild vasospasm group, the mean anterior circulation CBFV was 122.5 cm/s and mean posterior CBFV was 61 cm/s. Their average GCS score changed from 8 at baseline to 6.1 at discharge, Dr. Razumovsky said.

In the moderate vasospasm group, the mean anterior circulation CBFV was 156.6 cm/s and mean posterior CBFV was 77.5 cm/s. Their average GCS score changed from 5.9 at baseline to 5.3 at discharge.

Patients with severe vasospasm had an average anterior circulation CBFV of 241.9 cm/s and a mean posterior CBFV of 101.8 cm/s. Their average GCS score was 4.8 at both time periods. Eight patients (7%) underwent transluminal angioplasty for post-traumatic symptomatic vasospasm, he said.

Larry Goldstein, MD, Director of the Duke Stroke Center in Durham, North Carolina, said in an interview that the detection of vasospasm by TCD was potentially important, because there is an increased risk of vasospasm after subarachnoid hemorrhage that can lead to delayed ischemic neurologic deficits. Although it was unclear from the data how many patients had traumatic subarachnoid hemorrhage associated with their brain injury, he noted that the risk of vasospasm seems to be similar for traumatic and nontraumatic subarachnoid hemorrhage.

“In many centers, both groups of patients are routinely monitored with transcranial Dopplers over the first couple of weeks or so, which is when the peak period of vasospasm develops,” Dr. Goldstein said. “Showing that monitoring leads to interventions that then change outcome, that’s not so straightforward.”