Michael Barbella, Managing Editor03.07.23
Marc J. Philippon, M.D., FAAOS, has been presented with the 2023 Orthopaedic Research and Education Foundation (OREF) Clinical Research Award, which recognizes outstanding clinical research related to musculoskeletal disease or injury.
As managing partner of the Steadman Clinic and chair of Steadman Philippon Research Institute (SPRI) in Vail, Colo., Philippon built and leads a research team and laboratory facilities to support a long-standing, multifaceted approach to research in hip disorders, sports medicine, and hip arthroscopy. For more than 25 years, Philippon and his investigative team have validated and advanced hip arthroscopy and developed techniques such as labral repair and reconstruction, and orthobiologic approaches to attain the best possible outcomes. Consequently, he has helped treat painful joint injuries in countless patients, including nearly 1,000 professional and Olympic athletes, many of whom have achieved significant accomplishments in their sport after treatment.
Entitled "Hip Chondrolabral Dysfunction: The Road from Excision to Repair, Replace, and Regeneration," the award-winning research explores the impact of Philippon's career in hip arthroscopy. Hip arthroscopy was first introduced in 1931 by Michael Burman, M.D., but did not fully emerge as a modern treatment until the 1990s, moving beyond an experimental procedure to one that could treat specific pathologies. In these early days of hip arthroscopy treatment, much of the labrum was removed. Through Philippon's work, the labrum is now repaired or reconstructed instead of removed, allowing physicians to successfully treat disorders like femoroacetabular impingement (FAI). FAI is a condition that occurs when the hip bones do not form normally during adolescence, or through repetitive motion in sports like ice hockey, ballet, tennis and others.
"Hip disorders and injuries, especially in young patients, has always been one of the last frontiers in sports medicine," Philippon said. "The hip can be more difficult to scope than a knee, shoulder or ankle since it's a deeper joint. The technical challenges inherent to hip arthroscopy created a barrier to widespread adoption, delaying its acceptance as a mainstream procedure."
While attending McMaster University Medical School in Hamilton, Ontario, Canada, Philippon was trained in evidence-based medicine by Dr. Dave Sackett, which required a critical look at techniques to optimize results for patients.
"Validating hip arthroscopy and making it a standard procedure to safely treat hip injuries, prevent further hip degeneration and osteoarthritis has always been one of my goals," Philippon noted. "In doing so, our team provided extensive evidence-based support for hip arthroscopic procedures that led to positive long-term outcomes based on four pillars: large clinical outcomes studies; biomechanics; biomotion/imaging; and therapies for regenerative and personalized medicine."
One of the main areas of Philippon's research has focused on better understanding the role of the labrum for hip preservation. The labrum is an important fibrocartilage structure of the hip that lines the acetabular rim of the hip joint and contains nerve fibers that help mediate pain and provide a person's sense of position in space (proprioceptors). Factors such as wear and tear from repetitive motion or extreme ranges of motion in athletes, a hip injury or FAI can all lead to a torn labrum, causing subsequent hip pain and debilitation.
"Based on previous research demonstrating the importance of the labrum for maintaining hip biomechanics and tissue health, I was convinced we needed to preserve tissue and repair the labrum; however, at the time, many surgeons and scientists questioned if the labrum would even heal with labral repair and felt it was easier to just remove the torn tissue," Philippon stated. "In collaboration with Steven Arnoczky, Ph.D., we first demonstrated that the labrum did heal following repair, and we then performed biomechanical studies to evaluate techniques for repairing and preserving the labrum and hip cartilage."
Over the years, Dr. Philippon and his team have made contributions in different areas of research including anatomy, labral debridement, labral repair, labral reconstruction and augmentation, novel orthobiologics and identifying factors that lead to optimal patient outcomes. Since 1990 SPRI has published the most papers in arthroscopy.i Highlights of the team's work include:
The OREF Clinical Research Award was established in 1995 to recognize outstanding clinical research related directly to musculoskeletal disease or injury. All submitted manuscripts are reviewed, graded, and selected by the AAOS Research Development Committee. The award provides $20,000 to recipients.
The Orthopaedic Research and Education Foundation (OREF) is an independent, 501(c)3 non-profit organization that raises funds to support research on diseases and injuries of bones, nerves and muscles and to enhance clinical care leading to improved health, increased activity and a better quality of life for patients. To further its mission, OREF is committed to exploring ways to partner with others to move the field of musculoskeletal research forward.
With more than 39,000 members, the American Academy of Orthopaedic Surgeons is the world's largest medical association of musculoskeletal specialists. The AAOS provides comprehensive education to help orthopedic surgeons and allied health professionals best treat patients. The AAOS is the source for information on bone and joint conditions, treatments and related musculoskeletal health care issues and it leads the health care discussion on advancing quality.
Reference
i Tang N, Zhang W, George DM, Wei C, Su Y, Huang T, The Top 100 Most Cited Articles on Arthroscopy: Most Popular Topic is Rotator Cuff Rather Than Cartilage in the Recent 5 Years, Arthroscopy: The Journal of Arthroscopic and Related Surgery (2021), doi: https://doi.org/10.1016/j.arthro.2021.01.039.
As managing partner of the Steadman Clinic and chair of Steadman Philippon Research Institute (SPRI) in Vail, Colo., Philippon built and leads a research team and laboratory facilities to support a long-standing, multifaceted approach to research in hip disorders, sports medicine, and hip arthroscopy. For more than 25 years, Philippon and his investigative team have validated and advanced hip arthroscopy and developed techniques such as labral repair and reconstruction, and orthobiologic approaches to attain the best possible outcomes. Consequently, he has helped treat painful joint injuries in countless patients, including nearly 1,000 professional and Olympic athletes, many of whom have achieved significant accomplishments in their sport after treatment.
Entitled "Hip Chondrolabral Dysfunction: The Road from Excision to Repair, Replace, and Regeneration," the award-winning research explores the impact of Philippon's career in hip arthroscopy. Hip arthroscopy was first introduced in 1931 by Michael Burman, M.D., but did not fully emerge as a modern treatment until the 1990s, moving beyond an experimental procedure to one that could treat specific pathologies. In these early days of hip arthroscopy treatment, much of the labrum was removed. Through Philippon's work, the labrum is now repaired or reconstructed instead of removed, allowing physicians to successfully treat disorders like femoroacetabular impingement (FAI). FAI is a condition that occurs when the hip bones do not form normally during adolescence, or through repetitive motion in sports like ice hockey, ballet, tennis and others.
"Hip disorders and injuries, especially in young patients, has always been one of the last frontiers in sports medicine," Philippon said. "The hip can be more difficult to scope than a knee, shoulder or ankle since it's a deeper joint. The technical challenges inherent to hip arthroscopy created a barrier to widespread adoption, delaying its acceptance as a mainstream procedure."
While attending McMaster University Medical School in Hamilton, Ontario, Canada, Philippon was trained in evidence-based medicine by Dr. Dave Sackett, which required a critical look at techniques to optimize results for patients.
"Validating hip arthroscopy and making it a standard procedure to safely treat hip injuries, prevent further hip degeneration and osteoarthritis has always been one of my goals," Philippon noted. "In doing so, our team provided extensive evidence-based support for hip arthroscopic procedures that led to positive long-term outcomes based on four pillars: large clinical outcomes studies; biomechanics; biomotion/imaging; and therapies for regenerative and personalized medicine."
One of the main areas of Philippon's research has focused on better understanding the role of the labrum for hip preservation. The labrum is an important fibrocartilage structure of the hip that lines the acetabular rim of the hip joint and contains nerve fibers that help mediate pain and provide a person's sense of position in space (proprioceptors). Factors such as wear and tear from repetitive motion or extreme ranges of motion in athletes, a hip injury or FAI can all lead to a torn labrum, causing subsequent hip pain and debilitation.
"Based on previous research demonstrating the importance of the labrum for maintaining hip biomechanics and tissue health, I was convinced we needed to preserve tissue and repair the labrum; however, at the time, many surgeons and scientists questioned if the labrum would even heal with labral repair and felt it was easier to just remove the torn tissue," Philippon stated. "In collaboration with Steven Arnoczky, Ph.D., we first demonstrated that the labrum did heal following repair, and we then performed biomechanical studies to evaluate techniques for repairing and preserving the labrum and hip cartilage."
Over the years, Dr. Philippon and his team have made contributions in different areas of research including anatomy, labral debridement, labral repair, labral reconstruction and augmentation, novel orthobiologics and identifying factors that lead to optimal patient outcomes. Since 1990 SPRI has published the most papers in arthroscopy.i Highlights of the team's work include:
- Publishing the "Most Influential Paper in Hip Arthroscopy," (Barbera et al.; Arthroscopy 2020) which provided evidence for the now commonly followed rule of ≤2mm of joint space as a contraindication for hip preservation surgery, as these patients were 39 times more likely to eventually need total hip arthroplasty (THA).
- Developing tools to accurately measure and validate outcomes following labral repair and FAI, which included Hip Outcome Score for Activities of Daily Living (HOS-ADL) and for Sports (HOS-Sport). This score continues to be used today.
- Determining that with labral repair, proper reattachment of the labrum to the acetabular rim can reestablish the appropriate seal for the hip joint, restoring proper tracking of the labrum on the femoral head cartilage and increasing the surface area for pressure distribution within the hip joint. Failure in any of these areas will cause subsequent pain, potential instability, and further degeneration of the cartilage. Additional clinical studies demonstrated improved outcomes in patients over 10 years.
- Identifying novel biologic and pharmaceutical approaches—including Losartan (a U.S. Food and Drug Administration-approved drug)—reduced the formation of adhesions/scar tissue to improve tissue healing. This work, undertaken in conjunction with Johnny Huard, Ph.D., chief scientific officer and director of the Linda and Mitch Hart Center for Regenerative and Personalized Medicine at SPRI, is helping to induce the regeneration of cartilage within the joint, thus directly addressing the monumental problem of early post-traumatic osteoarthritis and therefore preventing or postponing THA.
- Developing a new technique for replacing the severely damaged labrum: the labral reconstruction. This technique is now used all globally, and SPRI's research has shown positive patient outcomes with a median satisfaction score of 10 out of 10 at the 10-year follow-up.
The OREF Clinical Research Award was established in 1995 to recognize outstanding clinical research related directly to musculoskeletal disease or injury. All submitted manuscripts are reviewed, graded, and selected by the AAOS Research Development Committee. The award provides $20,000 to recipients.
The Orthopaedic Research and Education Foundation (OREF) is an independent, 501(c)3 non-profit organization that raises funds to support research on diseases and injuries of bones, nerves and muscles and to enhance clinical care leading to improved health, increased activity and a better quality of life for patients. To further its mission, OREF is committed to exploring ways to partner with others to move the field of musculoskeletal research forward.
With more than 39,000 members, the American Academy of Orthopaedic Surgeons is the world's largest medical association of musculoskeletal specialists. The AAOS provides comprehensive education to help orthopedic surgeons and allied health professionals best treat patients. The AAOS is the source for information on bone and joint conditions, treatments and related musculoskeletal health care issues and it leads the health care discussion on advancing quality.
Reference
i Tang N, Zhang W, George DM, Wei C, Su Y, Huang T, The Top 100 Most Cited Articles on Arthroscopy: Most Popular Topic is Rotator Cuff Rather Than Cartilage in the Recent 5 Years, Arthroscopy: The Journal of Arthroscopic and Related Surgery (2021), doi: https://doi.org/10.1016/j.arthro.2021.01.039.