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High tibial osteotomy achieves sustained improvements in knee OA
A study of long-term outcomes after medial opening wedge high tibial osteotomy for knee osteoarthritis suggests the procedure is associated with significant and sustained improvements in pain, function, quality of life, and gait biomechanics.
At the OARSI 2021 World Congress, PhD candidate Codie Primeau, MSc, of the Fowler Kennedy Sport Medicine Clinic at the University of Western Ontario, London, presented the findings from a 10-year prospective cohort study of 102 patients with symptomatic medial compartment knee osteoarthritis who underwent medial opening wedge high tibial osteotomy but did not get a total knee replacement during the study.
The surgical procedure aims to correct malalignment by redistributing knee joint loads away from the affected compartment of the knee, with the ultimate goal of slowing disease progression and improving pain and function, Mr. Primeau told the conference, which was sponsored by the Osteoarthritis Research Society International.
At 10 years, the procedure was associated with a mean 14.3-point improvement in the 0-100 Knee Injury and Osteoarthritis Outcome Score (KOOS) for pain, a mean 12-point improvement in the score for function in daily living, a 15.5-point improvement in the score for function in sport and recreation, and a 24.5-point improvement in knee-related quality of life score. Researchers also saw a 35%-45% reduction in the magnitude of the external knee adduction moment from baseline, and a gradual reduction in the knee flexion moment over the course of the study.
While the improvements did decline somewhat over the 10 years, 53% of patients still met the criteria for responder at the end of the follow-up period, meaning that they had a relative change of at least 20% in both KOOS pain and function scores, and an absolute change of at least 10 points.
Mr. Primeau noted that the patient population represented those who were the best candidates for high tibial osteotomy, in that they were keen to avoid total knee replacement.
“While these types of patients may have the best outcomes, our studies suggest patients traditionally not considered ideal candidates for HTO [high tibial osteotomy] – such as females, and patients with limited disease in other knee compartments – also have large improvements in pain and function after HTO, and around 70% of those patients do not get a total knee replacement within 10 years,” he said in an interview.
Mr. Primeau suggested that the improvements achieved with high tibial osteotomy might extend the time before a knee replacement is required, or even help some patients avoid it altogether.
“Importantly, recent studies show HTO does not complicate future joint replacement surgery,” he said. “One can get a knee replacement after HTO; the reverse is not possible.”
The ideal patient for a high tibial osteotomy would be one whose osteoarthritis was confined to the medial compartment of the knee, was younger – in their 40s or 50s – and with relatively high activity levels, he said. Some studies also suggest better outcomes in men than women.
In response to an audience question about the rehabilitation requirements after high tibial osteotomy, Mr. Primeau commented that the design of the plates used in the procedure have changed over time, and this has influenced rehabilitation needs. When the study began, patients needed anywhere from 8 to 12 weeks of no weight bearing, using crutches, to allow for bone consolidation to occur.
“Since then, plate designs have changed a lot, and patients are able to start ambulating as early as 2 weeks after the surgery now,” he said. The rehabilitation is similar to what is required for knee osteoarthritis in general, focusing on range of motion, strengthening, proprioception, and muscle training.
No conflicts of interest were declared.
A study of long-term outcomes after medial opening wedge high tibial osteotomy for knee osteoarthritis suggests the procedure is associated with significant and sustained improvements in pain, function, quality of life, and gait biomechanics.
At the OARSI 2021 World Congress, PhD candidate Codie Primeau, MSc, of the Fowler Kennedy Sport Medicine Clinic at the University of Western Ontario, London, presented the findings from a 10-year prospective cohort study of 102 patients with symptomatic medial compartment knee osteoarthritis who underwent medial opening wedge high tibial osteotomy but did not get a total knee replacement during the study.
The surgical procedure aims to correct malalignment by redistributing knee joint loads away from the affected compartment of the knee, with the ultimate goal of slowing disease progression and improving pain and function, Mr. Primeau told the conference, which was sponsored by the Osteoarthritis Research Society International.
At 10 years, the procedure was associated with a mean 14.3-point improvement in the 0-100 Knee Injury and Osteoarthritis Outcome Score (KOOS) for pain, a mean 12-point improvement in the score for function in daily living, a 15.5-point improvement in the score for function in sport and recreation, and a 24.5-point improvement in knee-related quality of life score. Researchers also saw a 35%-45% reduction in the magnitude of the external knee adduction moment from baseline, and a gradual reduction in the knee flexion moment over the course of the study.
While the improvements did decline somewhat over the 10 years, 53% of patients still met the criteria for responder at the end of the follow-up period, meaning that they had a relative change of at least 20% in both KOOS pain and function scores, and an absolute change of at least 10 points.
Mr. Primeau noted that the patient population represented those who were the best candidates for high tibial osteotomy, in that they were keen to avoid total knee replacement.
“While these types of patients may have the best outcomes, our studies suggest patients traditionally not considered ideal candidates for HTO [high tibial osteotomy] – such as females, and patients with limited disease in other knee compartments – also have large improvements in pain and function after HTO, and around 70% of those patients do not get a total knee replacement within 10 years,” he said in an interview.
Mr. Primeau suggested that the improvements achieved with high tibial osteotomy might extend the time before a knee replacement is required, or even help some patients avoid it altogether.
“Importantly, recent studies show HTO does not complicate future joint replacement surgery,” he said. “One can get a knee replacement after HTO; the reverse is not possible.”
The ideal patient for a high tibial osteotomy would be one whose osteoarthritis was confined to the medial compartment of the knee, was younger – in their 40s or 50s – and with relatively high activity levels, he said. Some studies also suggest better outcomes in men than women.
In response to an audience question about the rehabilitation requirements after high tibial osteotomy, Mr. Primeau commented that the design of the plates used in the procedure have changed over time, and this has influenced rehabilitation needs. When the study began, patients needed anywhere from 8 to 12 weeks of no weight bearing, using crutches, to allow for bone consolidation to occur.
“Since then, plate designs have changed a lot, and patients are able to start ambulating as early as 2 weeks after the surgery now,” he said. The rehabilitation is similar to what is required for knee osteoarthritis in general, focusing on range of motion, strengthening, proprioception, and muscle training.
No conflicts of interest were declared.
A study of long-term outcomes after medial opening wedge high tibial osteotomy for knee osteoarthritis suggests the procedure is associated with significant and sustained improvements in pain, function, quality of life, and gait biomechanics.
At the OARSI 2021 World Congress, PhD candidate Codie Primeau, MSc, of the Fowler Kennedy Sport Medicine Clinic at the University of Western Ontario, London, presented the findings from a 10-year prospective cohort study of 102 patients with symptomatic medial compartment knee osteoarthritis who underwent medial opening wedge high tibial osteotomy but did not get a total knee replacement during the study.
The surgical procedure aims to correct malalignment by redistributing knee joint loads away from the affected compartment of the knee, with the ultimate goal of slowing disease progression and improving pain and function, Mr. Primeau told the conference, which was sponsored by the Osteoarthritis Research Society International.
At 10 years, the procedure was associated with a mean 14.3-point improvement in the 0-100 Knee Injury and Osteoarthritis Outcome Score (KOOS) for pain, a mean 12-point improvement in the score for function in daily living, a 15.5-point improvement in the score for function in sport and recreation, and a 24.5-point improvement in knee-related quality of life score. Researchers also saw a 35%-45% reduction in the magnitude of the external knee adduction moment from baseline, and a gradual reduction in the knee flexion moment over the course of the study.
While the improvements did decline somewhat over the 10 years, 53% of patients still met the criteria for responder at the end of the follow-up period, meaning that they had a relative change of at least 20% in both KOOS pain and function scores, and an absolute change of at least 10 points.
Mr. Primeau noted that the patient population represented those who were the best candidates for high tibial osteotomy, in that they were keen to avoid total knee replacement.
“While these types of patients may have the best outcomes, our studies suggest patients traditionally not considered ideal candidates for HTO [high tibial osteotomy] – such as females, and patients with limited disease in other knee compartments – also have large improvements in pain and function after HTO, and around 70% of those patients do not get a total knee replacement within 10 years,” he said in an interview.
Mr. Primeau suggested that the improvements achieved with high tibial osteotomy might extend the time before a knee replacement is required, or even help some patients avoid it altogether.
“Importantly, recent studies show HTO does not complicate future joint replacement surgery,” he said. “One can get a knee replacement after HTO; the reverse is not possible.”
The ideal patient for a high tibial osteotomy would be one whose osteoarthritis was confined to the medial compartment of the knee, was younger – in their 40s or 50s – and with relatively high activity levels, he said. Some studies also suggest better outcomes in men than women.
In response to an audience question about the rehabilitation requirements after high tibial osteotomy, Mr. Primeau commented that the design of the plates used in the procedure have changed over time, and this has influenced rehabilitation needs. When the study began, patients needed anywhere from 8 to 12 weeks of no weight bearing, using crutches, to allow for bone consolidation to occur.
“Since then, plate designs have changed a lot, and patients are able to start ambulating as early as 2 weeks after the surgery now,” he said. The rehabilitation is similar to what is required for knee osteoarthritis in general, focusing on range of motion, strengthening, proprioception, and muscle training.
No conflicts of interest were declared.
FROM OARSI 2021
Which comes first in osteoarthritis: The damage or the pain?
Is innervation of cartilage the driving force behind development of osteoarthritis and subsequent pain, or is the degeneration of joints in osteoarthritis affecting nerves and creating pain?
This was the question underpinning a fascinating debate at the OARSI 2021 World Congress, featuring two giants of the OA research community: Anne-Marie Malfait, MD, PhD, professor of medicine in the division of rheumatology at Rush Medical College, Chicago, and Stefan Lohmander, MD, PhD, professor emeritus of orthopedics at Lund (Sweden) University in Sweden.
At stake in the discussion is a greater understanding of the physiological processes that underpin both the development of OA in joints and the experience of pain in patients with OA.
Dr. Lohmander started by pointing out that, while pain is the primary symptoms of OA, it does not always overlap with the physiological processes of the disease, as measured by techniques such as MRI, x-ray, biomarkers, and gait analysis.
“This lack of complete overlap is often a problem when doing our clinical trials,” Dr. Lohmander told the conference, sponsored by Osteoarthritis Research Society International. “When talking about osteoarthritis, we also need to remind ourselves every so often that we are speaking of either the symptoms or the disease and maybe not always the both of them.”
While a healthy joint has pain receptors everywhere but the cartilage, studies have found that the osteoarthritic joint brings blood vessels, sensory nerves, and cells expressing nerve growth factor from the subchondral bone into even noncalcified articular cartilage, he said.
These nociceptor neurons are mechanosensitive, so mechanical injury to the joint triggers inflammation, and the inflammatory proteins themselves act on the nociceptors to generate pain signals in the brain, “so clearly, it is the joint that signals the brain,” Dr. Lohmander said.
However, Dr. Malfait pointed out that there is a body of evidence from animal studies showing that the absence of sensory nerves in joints – either from disease or removal – is associated with the onset or worsening of OA.
“Healthy nerves are really important to ensure healthy joints,” Dr. Malfait said. She said age-related loss of sensory nerves always preceded age-related OA, and was also associated with age-related loss of proprioception and vibratory perception.
Interestingly, animal studies suggest that removing intra-articular nociceptors can actually have a protective effect on the osteoarthritic joint, Dr. Malfait said. Studies in humans who have experienced neurologic lesions also suggests improvement in conditions such as rheumatoid arthritis.
She raised the idea of neurogenic inflammation: that peripheral neurons are releasing vasoactive mediators that contribute to inflammation in tissues. “These nerves and nerve products are talking to all the different cells in the joints,” she said.
Defending his argument that joint pathology is the cause of pain, not the pain causing the joint pathology, Dr. Lohmander gave the example of studies that looked at radiographic abnormalities between two knees of the same patient who also had discordant pain measures for each knee. This research “showed strong association between radiographic osteoarthritis and knee pain, supporting the argument that structural abnormalities cause knee pain,” he said.
Martin van der Esch, PhD, of the Amsterdam University of Applied Sciences, said the debate was one of the highlights of the conference because it addressed such an important and longstanding question in OA.
“Is osteoarthritis leading to a generalized pain, so involvement of the nervous system, but the source – the causality – is in the joint?” he said in an interview. “Or is it the other way around, so that means is there first a problem inside the nervous system – including also the vascular system – and which is presented in the joint?”
It is more than an academic discussion because the conclusions of that could mean different treatment approaches are needed for different groups of patients, and raises the different ways of thinking about OA, he said.
None of the sources for this story declared having any relevant conflicts of interest.
Is innervation of cartilage the driving force behind development of osteoarthritis and subsequent pain, or is the degeneration of joints in osteoarthritis affecting nerves and creating pain?
This was the question underpinning a fascinating debate at the OARSI 2021 World Congress, featuring two giants of the OA research community: Anne-Marie Malfait, MD, PhD, professor of medicine in the division of rheumatology at Rush Medical College, Chicago, and Stefan Lohmander, MD, PhD, professor emeritus of orthopedics at Lund (Sweden) University in Sweden.
At stake in the discussion is a greater understanding of the physiological processes that underpin both the development of OA in joints and the experience of pain in patients with OA.
Dr. Lohmander started by pointing out that, while pain is the primary symptoms of OA, it does not always overlap with the physiological processes of the disease, as measured by techniques such as MRI, x-ray, biomarkers, and gait analysis.
“This lack of complete overlap is often a problem when doing our clinical trials,” Dr. Lohmander told the conference, sponsored by Osteoarthritis Research Society International. “When talking about osteoarthritis, we also need to remind ourselves every so often that we are speaking of either the symptoms or the disease and maybe not always the both of them.”
While a healthy joint has pain receptors everywhere but the cartilage, studies have found that the osteoarthritic joint brings blood vessels, sensory nerves, and cells expressing nerve growth factor from the subchondral bone into even noncalcified articular cartilage, he said.
These nociceptor neurons are mechanosensitive, so mechanical injury to the joint triggers inflammation, and the inflammatory proteins themselves act on the nociceptors to generate pain signals in the brain, “so clearly, it is the joint that signals the brain,” Dr. Lohmander said.
However, Dr. Malfait pointed out that there is a body of evidence from animal studies showing that the absence of sensory nerves in joints – either from disease or removal – is associated with the onset or worsening of OA.
“Healthy nerves are really important to ensure healthy joints,” Dr. Malfait said. She said age-related loss of sensory nerves always preceded age-related OA, and was also associated with age-related loss of proprioception and vibratory perception.
Interestingly, animal studies suggest that removing intra-articular nociceptors can actually have a protective effect on the osteoarthritic joint, Dr. Malfait said. Studies in humans who have experienced neurologic lesions also suggests improvement in conditions such as rheumatoid arthritis.
She raised the idea of neurogenic inflammation: that peripheral neurons are releasing vasoactive mediators that contribute to inflammation in tissues. “These nerves and nerve products are talking to all the different cells in the joints,” she said.
Defending his argument that joint pathology is the cause of pain, not the pain causing the joint pathology, Dr. Lohmander gave the example of studies that looked at radiographic abnormalities between two knees of the same patient who also had discordant pain measures for each knee. This research “showed strong association between radiographic osteoarthritis and knee pain, supporting the argument that structural abnormalities cause knee pain,” he said.
Martin van der Esch, PhD, of the Amsterdam University of Applied Sciences, said the debate was one of the highlights of the conference because it addressed such an important and longstanding question in OA.
“Is osteoarthritis leading to a generalized pain, so involvement of the nervous system, but the source – the causality – is in the joint?” he said in an interview. “Or is it the other way around, so that means is there first a problem inside the nervous system – including also the vascular system – and which is presented in the joint?”
It is more than an academic discussion because the conclusions of that could mean different treatment approaches are needed for different groups of patients, and raises the different ways of thinking about OA, he said.
None of the sources for this story declared having any relevant conflicts of interest.
Is innervation of cartilage the driving force behind development of osteoarthritis and subsequent pain, or is the degeneration of joints in osteoarthritis affecting nerves and creating pain?
This was the question underpinning a fascinating debate at the OARSI 2021 World Congress, featuring two giants of the OA research community: Anne-Marie Malfait, MD, PhD, professor of medicine in the division of rheumatology at Rush Medical College, Chicago, and Stefan Lohmander, MD, PhD, professor emeritus of orthopedics at Lund (Sweden) University in Sweden.
At stake in the discussion is a greater understanding of the physiological processes that underpin both the development of OA in joints and the experience of pain in patients with OA.
Dr. Lohmander started by pointing out that, while pain is the primary symptoms of OA, it does not always overlap with the physiological processes of the disease, as measured by techniques such as MRI, x-ray, biomarkers, and gait analysis.
“This lack of complete overlap is often a problem when doing our clinical trials,” Dr. Lohmander told the conference, sponsored by Osteoarthritis Research Society International. “When talking about osteoarthritis, we also need to remind ourselves every so often that we are speaking of either the symptoms or the disease and maybe not always the both of them.”
While a healthy joint has pain receptors everywhere but the cartilage, studies have found that the osteoarthritic joint brings blood vessels, sensory nerves, and cells expressing nerve growth factor from the subchondral bone into even noncalcified articular cartilage, he said.
These nociceptor neurons are mechanosensitive, so mechanical injury to the joint triggers inflammation, and the inflammatory proteins themselves act on the nociceptors to generate pain signals in the brain, “so clearly, it is the joint that signals the brain,” Dr. Lohmander said.
However, Dr. Malfait pointed out that there is a body of evidence from animal studies showing that the absence of sensory nerves in joints – either from disease or removal – is associated with the onset or worsening of OA.
“Healthy nerves are really important to ensure healthy joints,” Dr. Malfait said. She said age-related loss of sensory nerves always preceded age-related OA, and was also associated with age-related loss of proprioception and vibratory perception.
Interestingly, animal studies suggest that removing intra-articular nociceptors can actually have a protective effect on the osteoarthritic joint, Dr. Malfait said. Studies in humans who have experienced neurologic lesions also suggests improvement in conditions such as rheumatoid arthritis.
She raised the idea of neurogenic inflammation: that peripheral neurons are releasing vasoactive mediators that contribute to inflammation in tissues. “These nerves and nerve products are talking to all the different cells in the joints,” she said.
Defending his argument that joint pathology is the cause of pain, not the pain causing the joint pathology, Dr. Lohmander gave the example of studies that looked at radiographic abnormalities between two knees of the same patient who also had discordant pain measures for each knee. This research “showed strong association between radiographic osteoarthritis and knee pain, supporting the argument that structural abnormalities cause knee pain,” he said.
Martin van der Esch, PhD, of the Amsterdam University of Applied Sciences, said the debate was one of the highlights of the conference because it addressed such an important and longstanding question in OA.
“Is osteoarthritis leading to a generalized pain, so involvement of the nervous system, but the source – the causality – is in the joint?” he said in an interview. “Or is it the other way around, so that means is there first a problem inside the nervous system – including also the vascular system – and which is presented in the joint?”
It is more than an academic discussion because the conclusions of that could mean different treatment approaches are needed for different groups of patients, and raises the different ways of thinking about OA, he said.
None of the sources for this story declared having any relevant conflicts of interest.
FROM OARSI 2021
Stable, supportive shoes reduce walking pain in severe knee OA
Wearing stable, supportive footwear reduces knee pain to a significantly greater extent than what’s felt with flat, flexible shoes in patients with severe knee osteoarthritis, according to results of a randomized, controlled trial presented at the OARSI 2021 World Congress.
Clinical guidelines for knee OA emphasize the importance of patients self-managing their condition with exercise, weight control, and appropriate footwear. However, there is limited evidence on which footwear is best, and some guidelines advocate stable supportive shoes based solely on expert opinion, Kade Paterson, PhD, of the University of Melbourne told the conference, sponsored by Osteoarthritis Research Society International.
“Recent research suggests that another type of shoe style – termed flat, flexible shoes – may be more beneficial,” Dr. Paterson said, citing a randomized, controlled trial that found greater improvement in pain and function with flat flexible shoes, compared with neutral tennis shoes. “Flat, flexible shoes are generally lighter, and have thinner, more flexible soles.”
In this study, which was published earlier this year in Annals of Internal Medicine, 164 individuals with knee OA who had experienced knee pain on most days of the past month were randomized to wear either stable, supportive shoes or flat, flexible shoes for at least 6 hours a day for 6 months. Six of each shoe type – three male styles and three female styles – were offered, having been chosen based on a survey in which participants were asked about a selection of commercially available shoes they were most likely to wear.
Researchers found participants who wore the stable, supportive shoes had significantly greater reductions in knee pain on walking during the previous week, representing a mean difference of 1.1 units on an 11-point numerical rating scale. More patients in the stable, supportive shoe arm of the study achieved minimal clinically important difference in pain than did those in the flat, flexible shoe group.
Stable, supportive shoes were also associated with greater improvements in knee-related quality of life scores and greater improvements in overall pain. However, there was no significant difference between the two groups in function. Patients wearing flat, flexible shoes reported significantly more adverse events – mainly onset of or increases in knee pain.
Dr. Paterson said the results were surprising, given previous research suggesting a benefit from lighter flat, flexible shoes. “Some previous research showed that those shoes reduced knee joint forces that were associated with pain and reduced it more than stable, supportive shoes, and based on the biomechanical research, we thought would be flat, flexible shoes,” he said in an interview.
Another observation to come from the study was the poor quality of most patients’ everyday shoes. Dr. Paterson said that most of the participants’ usual shoes were very old, and many were also wearing inappropriate footwear for knee OA, including shoes with heels or slippers.
“We would strongly recommend that clinicians ask patients to even bring in their most commonly worn shoes and then recommend new shoes, and based on our data, certainly stable supportive shoes,” he said.
Commenting on the findings, Jos Runhaar, PhD, of Erasmus University Medical Center in Rotterdam, the Netherlands, said this study provided high-quality evidence for this specific intervention in this specific group of patients, namely those with more severe, end-stage OA who had long-lasting changes in their foot posture and gait.
“Based on this, I would say that restoring the original posture of the foot – because that’s how the stable, supportive shoes are probably designed – is more beneficial than actually supporting the natural gait that people are already adapted to at that stage,” Dr. Runhaar said in an interview.
Dr. Paterson noted that the findings of the study were not generalizable to people with mild knee OA, and also that the study did not compare either shoe type with participants’ usual shoes.
The study and three authors were supported by the Australian National Health and Medical Research Council. No conflicts of interest were declared.
Wearing stable, supportive footwear reduces knee pain to a significantly greater extent than what’s felt with flat, flexible shoes in patients with severe knee osteoarthritis, according to results of a randomized, controlled trial presented at the OARSI 2021 World Congress.
Clinical guidelines for knee OA emphasize the importance of patients self-managing their condition with exercise, weight control, and appropriate footwear. However, there is limited evidence on which footwear is best, and some guidelines advocate stable supportive shoes based solely on expert opinion, Kade Paterson, PhD, of the University of Melbourne told the conference, sponsored by Osteoarthritis Research Society International.
“Recent research suggests that another type of shoe style – termed flat, flexible shoes – may be more beneficial,” Dr. Paterson said, citing a randomized, controlled trial that found greater improvement in pain and function with flat flexible shoes, compared with neutral tennis shoes. “Flat, flexible shoes are generally lighter, and have thinner, more flexible soles.”
In this study, which was published earlier this year in Annals of Internal Medicine, 164 individuals with knee OA who had experienced knee pain on most days of the past month were randomized to wear either stable, supportive shoes or flat, flexible shoes for at least 6 hours a day for 6 months. Six of each shoe type – three male styles and three female styles – were offered, having been chosen based on a survey in which participants were asked about a selection of commercially available shoes they were most likely to wear.
Researchers found participants who wore the stable, supportive shoes had significantly greater reductions in knee pain on walking during the previous week, representing a mean difference of 1.1 units on an 11-point numerical rating scale. More patients in the stable, supportive shoe arm of the study achieved minimal clinically important difference in pain than did those in the flat, flexible shoe group.
Stable, supportive shoes were also associated with greater improvements in knee-related quality of life scores and greater improvements in overall pain. However, there was no significant difference between the two groups in function. Patients wearing flat, flexible shoes reported significantly more adverse events – mainly onset of or increases in knee pain.
Dr. Paterson said the results were surprising, given previous research suggesting a benefit from lighter flat, flexible shoes. “Some previous research showed that those shoes reduced knee joint forces that were associated with pain and reduced it more than stable, supportive shoes, and based on the biomechanical research, we thought would be flat, flexible shoes,” he said in an interview.
Another observation to come from the study was the poor quality of most patients’ everyday shoes. Dr. Paterson said that most of the participants’ usual shoes were very old, and many were also wearing inappropriate footwear for knee OA, including shoes with heels or slippers.
“We would strongly recommend that clinicians ask patients to even bring in their most commonly worn shoes and then recommend new shoes, and based on our data, certainly stable supportive shoes,” he said.
Commenting on the findings, Jos Runhaar, PhD, of Erasmus University Medical Center in Rotterdam, the Netherlands, said this study provided high-quality evidence for this specific intervention in this specific group of patients, namely those with more severe, end-stage OA who had long-lasting changes in their foot posture and gait.
“Based on this, I would say that restoring the original posture of the foot – because that’s how the stable, supportive shoes are probably designed – is more beneficial than actually supporting the natural gait that people are already adapted to at that stage,” Dr. Runhaar said in an interview.
Dr. Paterson noted that the findings of the study were not generalizable to people with mild knee OA, and also that the study did not compare either shoe type with participants’ usual shoes.
The study and three authors were supported by the Australian National Health and Medical Research Council. No conflicts of interest were declared.
Wearing stable, supportive footwear reduces knee pain to a significantly greater extent than what’s felt with flat, flexible shoes in patients with severe knee osteoarthritis, according to results of a randomized, controlled trial presented at the OARSI 2021 World Congress.
Clinical guidelines for knee OA emphasize the importance of patients self-managing their condition with exercise, weight control, and appropriate footwear. However, there is limited evidence on which footwear is best, and some guidelines advocate stable supportive shoes based solely on expert opinion, Kade Paterson, PhD, of the University of Melbourne told the conference, sponsored by Osteoarthritis Research Society International.
“Recent research suggests that another type of shoe style – termed flat, flexible shoes – may be more beneficial,” Dr. Paterson said, citing a randomized, controlled trial that found greater improvement in pain and function with flat flexible shoes, compared with neutral tennis shoes. “Flat, flexible shoes are generally lighter, and have thinner, more flexible soles.”
In this study, which was published earlier this year in Annals of Internal Medicine, 164 individuals with knee OA who had experienced knee pain on most days of the past month were randomized to wear either stable, supportive shoes or flat, flexible shoes for at least 6 hours a day for 6 months. Six of each shoe type – three male styles and three female styles – were offered, having been chosen based on a survey in which participants were asked about a selection of commercially available shoes they were most likely to wear.
Researchers found participants who wore the stable, supportive shoes had significantly greater reductions in knee pain on walking during the previous week, representing a mean difference of 1.1 units on an 11-point numerical rating scale. More patients in the stable, supportive shoe arm of the study achieved minimal clinically important difference in pain than did those in the flat, flexible shoe group.
Stable, supportive shoes were also associated with greater improvements in knee-related quality of life scores and greater improvements in overall pain. However, there was no significant difference between the two groups in function. Patients wearing flat, flexible shoes reported significantly more adverse events – mainly onset of or increases in knee pain.
Dr. Paterson said the results were surprising, given previous research suggesting a benefit from lighter flat, flexible shoes. “Some previous research showed that those shoes reduced knee joint forces that were associated with pain and reduced it more than stable, supportive shoes, and based on the biomechanical research, we thought would be flat, flexible shoes,” he said in an interview.
Another observation to come from the study was the poor quality of most patients’ everyday shoes. Dr. Paterson said that most of the participants’ usual shoes were very old, and many were also wearing inappropriate footwear for knee OA, including shoes with heels or slippers.
“We would strongly recommend that clinicians ask patients to even bring in their most commonly worn shoes and then recommend new shoes, and based on our data, certainly stable supportive shoes,” he said.
Commenting on the findings, Jos Runhaar, PhD, of Erasmus University Medical Center in Rotterdam, the Netherlands, said this study provided high-quality evidence for this specific intervention in this specific group of patients, namely those with more severe, end-stage OA who had long-lasting changes in their foot posture and gait.
“Based on this, I would say that restoring the original posture of the foot – because that’s how the stable, supportive shoes are probably designed – is more beneficial than actually supporting the natural gait that people are already adapted to at that stage,” Dr. Runhaar said in an interview.
Dr. Paterson noted that the findings of the study were not generalizable to people with mild knee OA, and also that the study did not compare either shoe type with participants’ usual shoes.
The study and three authors were supported by the Australian National Health and Medical Research Council. No conflicts of interest were declared.
FROM OARSI 2021
Insoles or braces show best pain relief for knee OA
The use of braces or insoles in combination with nonbiomechanical treatments appear to deliver the greatest pain relief for patients with medial tibiofemoral osteoarthritis, although the evidence supporting these interventions has a high degree of uncertainty, according findings from a large meta-analysis of randomized, controlled trials presented at the OARSI 2021 World Congress.
“It’s been highlighted for several years now that due to the high rate of joint replacement, we need to promote more effective nonsurgical treatments,” Ans van Ginckel, PhD, of Ghent (Belgium) University, told the conference.
However, guidelines on the use of biomechanical treatments for knee OA pain vary widely, and there are few studies that compare the effectiveness of different interventions.
To address this, Dr. van Ginckel and colleagues conducted a network meta-analysis of 27 randomized, controlled trials – involving a total of 2,413 participants – of biomechanical treatments for knee OA pain. The treatments included were valgus braces, combined brace treatment (with added nonbiomechanical treatment), lateral or medial wedged insoles, combined insole treatment (with added nonbiomechanical treatment), contralateral cane use, gait retraining, and modified shoes.
“These treatments are mainly based on the premise that people with knee osteoarthritis likely experience a higher external knee adduction moment during walking, compared to healthy people,” Dr. van Ginckel told the conference, which is sponsored by the Osteoarthritis Research Society International. “This has been associated to some extent with disease onset, severity, and progression.”
When compared to nonbiomechanical controls, walking sticks and canes were the only intervention that showed a benefit in reducing pain, although the authors described the data supporting this as “high risk.”
When all the treatments were ranked according to the degree of pain relief seen in studies, combined insole and/or combined brace treatments showed the greatest degree of benefit.
However, Dr. van Ginckel said the evidence supporting even these treatments was of low to very low certainty, there was significant variation in the control treatments used in the studies, and the confidence intervals were wide. This also reflected the multifactorial nature of pain in knee OA, she said.
“A plausible explanation is the partial role in the biomechanics of the pathogenesis of pain and the multifactorial nature of pain,” she said.
Commenting on the study, Rik Lories, MD, PhD, head of the division of rheumatology at University Hospitals Leuven (Belgium) and of the department of development and regeneration at Catholic University Leuven, said the findings of the analysis show how difficult it is to study biomechanical interventions for knee OA.
“It was a smart approach to try to get some more information about a wide array of studies that have been performed, being selective with regards to what to include,” Dr. Lories said. “It’s still a big challenge in terms of how do you control for confounders.”
Dr. Lories said that he took a positive view of the findings, suggesting that these interventions are unlikely to cause harm, and are therefore “not a road to avoid” in helping to reduce knee OA pain. But he also argued that the analysis pointed to a clear need for better studies of biomechanical interventions for knee OA. “I think that’s an important message that somehow the field has to improve the quality of their trials,” he said in an interview, although he acknowledged that such trials may be difficult to run and get funding for.
Dr. van Ginckel was supported by an EU Horizon 2020 fellowship, and a coauthor was supported by the Australian National Health and Medical Research Council. No conflicts of interest were declared.
The use of braces or insoles in combination with nonbiomechanical treatments appear to deliver the greatest pain relief for patients with medial tibiofemoral osteoarthritis, although the evidence supporting these interventions has a high degree of uncertainty, according findings from a large meta-analysis of randomized, controlled trials presented at the OARSI 2021 World Congress.
“It’s been highlighted for several years now that due to the high rate of joint replacement, we need to promote more effective nonsurgical treatments,” Ans van Ginckel, PhD, of Ghent (Belgium) University, told the conference.
However, guidelines on the use of biomechanical treatments for knee OA pain vary widely, and there are few studies that compare the effectiveness of different interventions.
To address this, Dr. van Ginckel and colleagues conducted a network meta-analysis of 27 randomized, controlled trials – involving a total of 2,413 participants – of biomechanical treatments for knee OA pain. The treatments included were valgus braces, combined brace treatment (with added nonbiomechanical treatment), lateral or medial wedged insoles, combined insole treatment (with added nonbiomechanical treatment), contralateral cane use, gait retraining, and modified shoes.
“These treatments are mainly based on the premise that people with knee osteoarthritis likely experience a higher external knee adduction moment during walking, compared to healthy people,” Dr. van Ginckel told the conference, which is sponsored by the Osteoarthritis Research Society International. “This has been associated to some extent with disease onset, severity, and progression.”
When compared to nonbiomechanical controls, walking sticks and canes were the only intervention that showed a benefit in reducing pain, although the authors described the data supporting this as “high risk.”
When all the treatments were ranked according to the degree of pain relief seen in studies, combined insole and/or combined brace treatments showed the greatest degree of benefit.
However, Dr. van Ginckel said the evidence supporting even these treatments was of low to very low certainty, there was significant variation in the control treatments used in the studies, and the confidence intervals were wide. This also reflected the multifactorial nature of pain in knee OA, she said.
“A plausible explanation is the partial role in the biomechanics of the pathogenesis of pain and the multifactorial nature of pain,” she said.
Commenting on the study, Rik Lories, MD, PhD, head of the division of rheumatology at University Hospitals Leuven (Belgium) and of the department of development and regeneration at Catholic University Leuven, said the findings of the analysis show how difficult it is to study biomechanical interventions for knee OA.
“It was a smart approach to try to get some more information about a wide array of studies that have been performed, being selective with regards to what to include,” Dr. Lories said. “It’s still a big challenge in terms of how do you control for confounders.”
Dr. Lories said that he took a positive view of the findings, suggesting that these interventions are unlikely to cause harm, and are therefore “not a road to avoid” in helping to reduce knee OA pain. But he also argued that the analysis pointed to a clear need for better studies of biomechanical interventions for knee OA. “I think that’s an important message that somehow the field has to improve the quality of their trials,” he said in an interview, although he acknowledged that such trials may be difficult to run and get funding for.
Dr. van Ginckel was supported by an EU Horizon 2020 fellowship, and a coauthor was supported by the Australian National Health and Medical Research Council. No conflicts of interest were declared.
The use of braces or insoles in combination with nonbiomechanical treatments appear to deliver the greatest pain relief for patients with medial tibiofemoral osteoarthritis, although the evidence supporting these interventions has a high degree of uncertainty, according findings from a large meta-analysis of randomized, controlled trials presented at the OARSI 2021 World Congress.
“It’s been highlighted for several years now that due to the high rate of joint replacement, we need to promote more effective nonsurgical treatments,” Ans van Ginckel, PhD, of Ghent (Belgium) University, told the conference.
However, guidelines on the use of biomechanical treatments for knee OA pain vary widely, and there are few studies that compare the effectiveness of different interventions.
To address this, Dr. van Ginckel and colleagues conducted a network meta-analysis of 27 randomized, controlled trials – involving a total of 2,413 participants – of biomechanical treatments for knee OA pain. The treatments included were valgus braces, combined brace treatment (with added nonbiomechanical treatment), lateral or medial wedged insoles, combined insole treatment (with added nonbiomechanical treatment), contralateral cane use, gait retraining, and modified shoes.
“These treatments are mainly based on the premise that people with knee osteoarthritis likely experience a higher external knee adduction moment during walking, compared to healthy people,” Dr. van Ginckel told the conference, which is sponsored by the Osteoarthritis Research Society International. “This has been associated to some extent with disease onset, severity, and progression.”
When compared to nonbiomechanical controls, walking sticks and canes were the only intervention that showed a benefit in reducing pain, although the authors described the data supporting this as “high risk.”
When all the treatments were ranked according to the degree of pain relief seen in studies, combined insole and/or combined brace treatments showed the greatest degree of benefit.
However, Dr. van Ginckel said the evidence supporting even these treatments was of low to very low certainty, there was significant variation in the control treatments used in the studies, and the confidence intervals were wide. This also reflected the multifactorial nature of pain in knee OA, she said.
“A plausible explanation is the partial role in the biomechanics of the pathogenesis of pain and the multifactorial nature of pain,” she said.
Commenting on the study, Rik Lories, MD, PhD, head of the division of rheumatology at University Hospitals Leuven (Belgium) and of the department of development and regeneration at Catholic University Leuven, said the findings of the analysis show how difficult it is to study biomechanical interventions for knee OA.
“It was a smart approach to try to get some more information about a wide array of studies that have been performed, being selective with regards to what to include,” Dr. Lories said. “It’s still a big challenge in terms of how do you control for confounders.”
Dr. Lories said that he took a positive view of the findings, suggesting that these interventions are unlikely to cause harm, and are therefore “not a road to avoid” in helping to reduce knee OA pain. But he also argued that the analysis pointed to a clear need for better studies of biomechanical interventions for knee OA. “I think that’s an important message that somehow the field has to improve the quality of their trials,” he said in an interview, although he acknowledged that such trials may be difficult to run and get funding for.
Dr. van Ginckel was supported by an EU Horizon 2020 fellowship, and a coauthor was supported by the Australian National Health and Medical Research Council. No conflicts of interest were declared.
FROM OARSI 2021
Intramuscular glucocorticoid injections seen as noninferior to intra-articular in knee OA
Intramuscular injections of glucocorticoids have efficacy similar to that of intra-articular injections in reducing pain in knee osteoarthritis but without the concerns about joint infection and the challenges of administration, according to results from a randomized, controlled trial reported at the OARSI 2021 World Congress.
Intra-articular injections of glucocorticoids are commonly used to relieve OA pain, but some general practitioners have difficulty administering them to patients, said Qiuke Wang, a PhD candidate at Erasmus University Medical Center in Rotterdam, the Netherlands. There are also concerns about whether intra-articular injections may cause damage to knee cartilage, Mr. Wang said at the conference, which is sponsored by the Osteoarthritis Research Society International.
Mr. Wang and colleagues conducted a randomized, controlled trial in which 145 patients with symptomatic knee OA received either an intramuscular or intra-articular injection of 40 mg triamcinolone acetonide, and then followed up at regular intervals for 24 weeks.
The study showed that Knee Injury and Osteoarthritis Outcome Scores for pain improved in both the intra-articular and intramuscular groups. Improvements in pain scores peaked in the intra-articular injection group at the 4-week mark, when the difference with intramuscular injections was statistically significant. However, the two groups showed no significant differences in pain improvement at the 8-, 12-, and 24-week follow-up points.
“Intra-articular injection can act immediately on inhibiting joint inflammation after injection,” Mr. Wang said in an interview. “In contrast, for intramuscular injection, glucocorticoid needs firstly to be absorbed by muscle into blood and then travel into the knee via the circulatory system.”
The study also showed no significant differences between the two groups in the secondary outcomes of patient symptoms, stiffness, function, and sport and quality of life scores. There were more adverse events in the intra-articular injection group: 42% of patients reported an adverse event, compared to 33% in the intramuscular group, and the adverse events reported in the intramuscular group were nonserious events, such as headache and flushing.
Mr. Wang told the conference that while the intramuscular injection was inferior to intra-articular injections at 4 weeks, it was noninferior at 8 and 24 weeks and should be considered an effective way to reduce pain in patients with knee OA.
“This trial provides evidence for shared decision making because in some cases a patient may have a preference for specific injection and the GP may feel incompetent to administer the intra-articular injection,” he said.
An audience member pointed out that there was now a growing body of evidence suggesting that intra-articular injections may contribute to faster progression of knee OA because of effects on knee cartilage.
Mr. Wang acknowledged that their own research had shown these side effects of intra-articular injections, which was why the trial was intended to examine whether intramuscular injections might achieve the same pain relief.
“In the real practice, I would say that both injections are effective, but the intra-articular injection may provide a slightly [better] effect in the short term,” he said.
Commenting on the findings, Martin van der Esch, PhD, of Amsterdam University of Applied Sciences, said there were no guidelines as to whether intra-articular or intramuscular injections were the best option, so it really came down to the clinician’s decision.
“Therefore this is really an interesting study, because it gives some light – not the answer – but some light in what direction it could go for specific groups of patients,” Dr. van der Esch said in an interview.
Dr. van der Esch suggested that intramuscular injections might be more appropriate for patients with more systemic disease affecting multiple joints, but intra-articular injections might offer greater benefits in a patient with severe and long-lasting disease in a single joint.
No conflicts of interest were declared.
Intramuscular injections of glucocorticoids have efficacy similar to that of intra-articular injections in reducing pain in knee osteoarthritis but without the concerns about joint infection and the challenges of administration, according to results from a randomized, controlled trial reported at the OARSI 2021 World Congress.
Intra-articular injections of glucocorticoids are commonly used to relieve OA pain, but some general practitioners have difficulty administering them to patients, said Qiuke Wang, a PhD candidate at Erasmus University Medical Center in Rotterdam, the Netherlands. There are also concerns about whether intra-articular injections may cause damage to knee cartilage, Mr. Wang said at the conference, which is sponsored by the Osteoarthritis Research Society International.
Mr. Wang and colleagues conducted a randomized, controlled trial in which 145 patients with symptomatic knee OA received either an intramuscular or intra-articular injection of 40 mg triamcinolone acetonide, and then followed up at regular intervals for 24 weeks.
The study showed that Knee Injury and Osteoarthritis Outcome Scores for pain improved in both the intra-articular and intramuscular groups. Improvements in pain scores peaked in the intra-articular injection group at the 4-week mark, when the difference with intramuscular injections was statistically significant. However, the two groups showed no significant differences in pain improvement at the 8-, 12-, and 24-week follow-up points.
“Intra-articular injection can act immediately on inhibiting joint inflammation after injection,” Mr. Wang said in an interview. “In contrast, for intramuscular injection, glucocorticoid needs firstly to be absorbed by muscle into blood and then travel into the knee via the circulatory system.”
The study also showed no significant differences between the two groups in the secondary outcomes of patient symptoms, stiffness, function, and sport and quality of life scores. There were more adverse events in the intra-articular injection group: 42% of patients reported an adverse event, compared to 33% in the intramuscular group, and the adverse events reported in the intramuscular group were nonserious events, such as headache and flushing.
Mr. Wang told the conference that while the intramuscular injection was inferior to intra-articular injections at 4 weeks, it was noninferior at 8 and 24 weeks and should be considered an effective way to reduce pain in patients with knee OA.
“This trial provides evidence for shared decision making because in some cases a patient may have a preference for specific injection and the GP may feel incompetent to administer the intra-articular injection,” he said.
An audience member pointed out that there was now a growing body of evidence suggesting that intra-articular injections may contribute to faster progression of knee OA because of effects on knee cartilage.
Mr. Wang acknowledged that their own research had shown these side effects of intra-articular injections, which was why the trial was intended to examine whether intramuscular injections might achieve the same pain relief.
“In the real practice, I would say that both injections are effective, but the intra-articular injection may provide a slightly [better] effect in the short term,” he said.
Commenting on the findings, Martin van der Esch, PhD, of Amsterdam University of Applied Sciences, said there were no guidelines as to whether intra-articular or intramuscular injections were the best option, so it really came down to the clinician’s decision.
“Therefore this is really an interesting study, because it gives some light – not the answer – but some light in what direction it could go for specific groups of patients,” Dr. van der Esch said in an interview.
Dr. van der Esch suggested that intramuscular injections might be more appropriate for patients with more systemic disease affecting multiple joints, but intra-articular injections might offer greater benefits in a patient with severe and long-lasting disease in a single joint.
No conflicts of interest were declared.
Intramuscular injections of glucocorticoids have efficacy similar to that of intra-articular injections in reducing pain in knee osteoarthritis but without the concerns about joint infection and the challenges of administration, according to results from a randomized, controlled trial reported at the OARSI 2021 World Congress.
Intra-articular injections of glucocorticoids are commonly used to relieve OA pain, but some general practitioners have difficulty administering them to patients, said Qiuke Wang, a PhD candidate at Erasmus University Medical Center in Rotterdam, the Netherlands. There are also concerns about whether intra-articular injections may cause damage to knee cartilage, Mr. Wang said at the conference, which is sponsored by the Osteoarthritis Research Society International.
Mr. Wang and colleagues conducted a randomized, controlled trial in which 145 patients with symptomatic knee OA received either an intramuscular or intra-articular injection of 40 mg triamcinolone acetonide, and then followed up at regular intervals for 24 weeks.
The study showed that Knee Injury and Osteoarthritis Outcome Scores for pain improved in both the intra-articular and intramuscular groups. Improvements in pain scores peaked in the intra-articular injection group at the 4-week mark, when the difference with intramuscular injections was statistically significant. However, the two groups showed no significant differences in pain improvement at the 8-, 12-, and 24-week follow-up points.
“Intra-articular injection can act immediately on inhibiting joint inflammation after injection,” Mr. Wang said in an interview. “In contrast, for intramuscular injection, glucocorticoid needs firstly to be absorbed by muscle into blood and then travel into the knee via the circulatory system.”
The study also showed no significant differences between the two groups in the secondary outcomes of patient symptoms, stiffness, function, and sport and quality of life scores. There were more adverse events in the intra-articular injection group: 42% of patients reported an adverse event, compared to 33% in the intramuscular group, and the adverse events reported in the intramuscular group were nonserious events, such as headache and flushing.
Mr. Wang told the conference that while the intramuscular injection was inferior to intra-articular injections at 4 weeks, it was noninferior at 8 and 24 weeks and should be considered an effective way to reduce pain in patients with knee OA.
“This trial provides evidence for shared decision making because in some cases a patient may have a preference for specific injection and the GP may feel incompetent to administer the intra-articular injection,” he said.
An audience member pointed out that there was now a growing body of evidence suggesting that intra-articular injections may contribute to faster progression of knee OA because of effects on knee cartilage.
Mr. Wang acknowledged that their own research had shown these side effects of intra-articular injections, which was why the trial was intended to examine whether intramuscular injections might achieve the same pain relief.
“In the real practice, I would say that both injections are effective, but the intra-articular injection may provide a slightly [better] effect in the short term,” he said.
Commenting on the findings, Martin van der Esch, PhD, of Amsterdam University of Applied Sciences, said there were no guidelines as to whether intra-articular or intramuscular injections were the best option, so it really came down to the clinician’s decision.
“Therefore this is really an interesting study, because it gives some light – not the answer – but some light in what direction it could go for specific groups of patients,” Dr. van der Esch said in an interview.
Dr. van der Esch suggested that intramuscular injections might be more appropriate for patients with more systemic disease affecting multiple joints, but intra-articular injections might offer greater benefits in a patient with severe and long-lasting disease in a single joint.
No conflicts of interest were declared.
FROM OARSI 2021
Weight cycling linked to cartilage degeneration in knee OA
Repetitive weight loss and gain in overweight or obese patients with knee osteoarthritis is associated with significantly greater cartilage and bone marrow edema degeneration than stable weight or steady weight loss, research suggests.
A presentation at the OARSI 2021 World Congress outlined the results of a study using Osteoarthritis Initiative data from 2,271 individuals with knee osteoarthritis and a body mass index (BMI) of 25 kg/m2 or above, which examined the effects of “weight cycling” on OA outcomes.
Gabby Joseph, PhD, of the University of California, San Francisco, told the conference – which was sponsored by the Osteoarthritis Research Society International – that previous studies had shown weight loss improves OA symptoms and slow progression, and weight gain increases OA risk. However no studies had yet examined the effects of weight cycling.
The study compared 4 years of MRI data for those who showed less than 3% loss or gain in weight over that time – the control group – versus those who lost more than 5% over that time and those who gained more than 5%. Among these were 249 individuals in the top 10% of annual weight change over that period, who were designated as weight cyclers. They tended to be younger, female, and with slightly higher average BMI than noncyclers.
Weight cyclers had significantly greater progression of cartilage degeneration and bone marrow edema degeneration – as measured by whole-organ magnetic resonance score – than did noncyclers, regardless of their overall weight gain or loss by the end of the study period.
However, the study did not see any significant differences in meniscus progression between cyclers and noncyclers, and cartilage thickness decreased in all groups over the 4 years with no significant effects associated with weight gain, loss, or cycling. Dr. Joseph commented that future studies could use voxel-based relaxometry to more closely study localized cartilage abnormalities.
Researchers also examined the effect of weight cycling on changes to walking speed, and found weight cyclers had significantly lower walking speeds by the end of the 4 years, regardless of overall weight change.
“What we’ve seen is that fluctuations are not beneficial for your joints,” Dr. Joseph told the conference. “When we advise patients that they want to lose weight, we want to do this in a very steady fashion; we don’t want yo-yo dieting.” She gave the example of one patient who started the study with a BMI of 36, went up to 40 then went down to 32.
Commenting on the study, Lisa Carlesso, PhD, of McMaster University, Hamilton, Ont., said it addresses an important issue because weight cycling is common as people struggle to maintain weight loss.
While it is difficult to speculate on the physiological mechanisms that might explain the effect, Dr. Carlesso noted that there were significantly more women than men among the weight cyclers.
“We know, for example, that obese women with knee OA have significantly higher levels of the adipokine leptin, compared to men, and leptin is involved in cartilage degeneration,” Dr. Carlesso said. “Similarly, we don’t have any information about joint alignment or measures of joint load, two things that could factor into the structural changes found.”
She suggested both these possibilities could be explored in future studies of weight cycling and its effects.
“It has opened up new lines of inquiry to be examined to mechanistically explain the relationship between cycling and worse cartilage and bone marrow degeneration,” Dr. Carlesso said.
The study was supported by the National Institutes of Health. No conflicts of interest were declared.
Repetitive weight loss and gain in overweight or obese patients with knee osteoarthritis is associated with significantly greater cartilage and bone marrow edema degeneration than stable weight or steady weight loss, research suggests.
A presentation at the OARSI 2021 World Congress outlined the results of a study using Osteoarthritis Initiative data from 2,271 individuals with knee osteoarthritis and a body mass index (BMI) of 25 kg/m2 or above, which examined the effects of “weight cycling” on OA outcomes.
Gabby Joseph, PhD, of the University of California, San Francisco, told the conference – which was sponsored by the Osteoarthritis Research Society International – that previous studies had shown weight loss improves OA symptoms and slow progression, and weight gain increases OA risk. However no studies had yet examined the effects of weight cycling.
The study compared 4 years of MRI data for those who showed less than 3% loss or gain in weight over that time – the control group – versus those who lost more than 5% over that time and those who gained more than 5%. Among these were 249 individuals in the top 10% of annual weight change over that period, who were designated as weight cyclers. They tended to be younger, female, and with slightly higher average BMI than noncyclers.
Weight cyclers had significantly greater progression of cartilage degeneration and bone marrow edema degeneration – as measured by whole-organ magnetic resonance score – than did noncyclers, regardless of their overall weight gain or loss by the end of the study period.
However, the study did not see any significant differences in meniscus progression between cyclers and noncyclers, and cartilage thickness decreased in all groups over the 4 years with no significant effects associated with weight gain, loss, or cycling. Dr. Joseph commented that future studies could use voxel-based relaxometry to more closely study localized cartilage abnormalities.
Researchers also examined the effect of weight cycling on changes to walking speed, and found weight cyclers had significantly lower walking speeds by the end of the 4 years, regardless of overall weight change.
“What we’ve seen is that fluctuations are not beneficial for your joints,” Dr. Joseph told the conference. “When we advise patients that they want to lose weight, we want to do this in a very steady fashion; we don’t want yo-yo dieting.” She gave the example of one patient who started the study with a BMI of 36, went up to 40 then went down to 32.
Commenting on the study, Lisa Carlesso, PhD, of McMaster University, Hamilton, Ont., said it addresses an important issue because weight cycling is common as people struggle to maintain weight loss.
While it is difficult to speculate on the physiological mechanisms that might explain the effect, Dr. Carlesso noted that there were significantly more women than men among the weight cyclers.
“We know, for example, that obese women with knee OA have significantly higher levels of the adipokine leptin, compared to men, and leptin is involved in cartilage degeneration,” Dr. Carlesso said. “Similarly, we don’t have any information about joint alignment or measures of joint load, two things that could factor into the structural changes found.”
She suggested both these possibilities could be explored in future studies of weight cycling and its effects.
“It has opened up new lines of inquiry to be examined to mechanistically explain the relationship between cycling and worse cartilage and bone marrow degeneration,” Dr. Carlesso said.
The study was supported by the National Institutes of Health. No conflicts of interest were declared.
Repetitive weight loss and gain in overweight or obese patients with knee osteoarthritis is associated with significantly greater cartilage and bone marrow edema degeneration than stable weight or steady weight loss, research suggests.
A presentation at the OARSI 2021 World Congress outlined the results of a study using Osteoarthritis Initiative data from 2,271 individuals with knee osteoarthritis and a body mass index (BMI) of 25 kg/m2 or above, which examined the effects of “weight cycling” on OA outcomes.
Gabby Joseph, PhD, of the University of California, San Francisco, told the conference – which was sponsored by the Osteoarthritis Research Society International – that previous studies had shown weight loss improves OA symptoms and slow progression, and weight gain increases OA risk. However no studies had yet examined the effects of weight cycling.
The study compared 4 years of MRI data for those who showed less than 3% loss or gain in weight over that time – the control group – versus those who lost more than 5% over that time and those who gained more than 5%. Among these were 249 individuals in the top 10% of annual weight change over that period, who were designated as weight cyclers. They tended to be younger, female, and with slightly higher average BMI than noncyclers.
Weight cyclers had significantly greater progression of cartilage degeneration and bone marrow edema degeneration – as measured by whole-organ magnetic resonance score – than did noncyclers, regardless of their overall weight gain or loss by the end of the study period.
However, the study did not see any significant differences in meniscus progression between cyclers and noncyclers, and cartilage thickness decreased in all groups over the 4 years with no significant effects associated with weight gain, loss, or cycling. Dr. Joseph commented that future studies could use voxel-based relaxometry to more closely study localized cartilage abnormalities.
Researchers also examined the effect of weight cycling on changes to walking speed, and found weight cyclers had significantly lower walking speeds by the end of the 4 years, regardless of overall weight change.
“What we’ve seen is that fluctuations are not beneficial for your joints,” Dr. Joseph told the conference. “When we advise patients that they want to lose weight, we want to do this in a very steady fashion; we don’t want yo-yo dieting.” She gave the example of one patient who started the study with a BMI of 36, went up to 40 then went down to 32.
Commenting on the study, Lisa Carlesso, PhD, of McMaster University, Hamilton, Ont., said it addresses an important issue because weight cycling is common as people struggle to maintain weight loss.
While it is difficult to speculate on the physiological mechanisms that might explain the effect, Dr. Carlesso noted that there were significantly more women than men among the weight cyclers.
“We know, for example, that obese women with knee OA have significantly higher levels of the adipokine leptin, compared to men, and leptin is involved in cartilage degeneration,” Dr. Carlesso said. “Similarly, we don’t have any information about joint alignment or measures of joint load, two things that could factor into the structural changes found.”
She suggested both these possibilities could be explored in future studies of weight cycling and its effects.
“It has opened up new lines of inquiry to be examined to mechanistically explain the relationship between cycling and worse cartilage and bone marrow degeneration,” Dr. Carlesso said.
The study was supported by the National Institutes of Health. No conflicts of interest were declared.
FROM OARSI 2021