�ݺ�ߣshows by User: SPRIVail

�ݺ�ߣshows by User: SPRIVail / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: SPRIVail / Mon, 30 Jan 2012 11:56:48 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: SPRIVail Snapping Scapula Syndrome | Medial Knee Reconstruction | Hip Arthroscopy | Microfracture in the Pediatric Knee | Biomechanics Research /slideshow/snappingscapulasyndromemedialkneereconstructionhiparthroscopymicrofractureinthepediatrickneebiomechanicsresearch/11337575 steadmanreport-120130115653-phpapp01
www.sprivail.org The Steadman Philippon Research Institute 2011 Annual Report Snapping scapula syndrome is a rare condition of the shoulder that is poorly understood. Due to the lack of knowl- edge about this syndrome, many patients are misdiagnosed or suffer with symptoms for many years. The most common complaint is pain when the shoulder blade rubs and clicks against the ribs. There are many factors that can cause a snapping scapula, including problems between the scapula (shoulder blade) and chest wall, muscle tears, fractures in the shoulder area, a bony lump on the shoulder blade, rheumatoid diseases and shoulder injuries. X-rays and CT scans (3-D imaging) are used to show bone spurs or abnormalities of the scapula. MRI is also used to look for related conditions, such as scapular bursitis—where the soft tissues between the scapula and the chest wall are thick, irri- tated, or inflamed. Treatment starts with injections of steroids to provide pain relief, along with physical therapy to improve muscle strength. Unfortunately, some bone or tissue abnormali- ties do not respond to these treatments—in which case surgery may be necessary. Content: 2 The Year in Review 4 Governing Boards 9 Scientific Advisory Committee 13 Friends of the Institute 24 Corporate and Institutional Friends 25 Research and Education (Medial Knee Reconstruction) 26 Basic Science Research (Snapping Scapula Syndrome) (Microfracture in the Pediatric Knee) 29 Clinical Research (Hip Arthroscopy) 45 Biomechanics Research 48 Imaging Research 53 Education & Fellowship 57 Presentations and Publications 73 In the Media 74 Recognition 77 Associates 78 Audited 2010 Financial Statements]]>
www.sprivail.org The Steadman Philippon Research Institute 2011 Annual Report Snapping scapula syndrome is a rare condition of the shoulder that is poorly understood. Due to the lack of knowl- edge about this syndrome, many patients are misdiagnosed or suffer with symptoms for many years. The most common complaint is pain when the shoulder blade rubs and clicks against the ribs. There are many factors that can cause a snapping scapula, including problems between the scapula (shoulder blade) and chest wall, muscle tears, fractures in the shoulder area, a bony lump on the shoulder blade, rheumatoid diseases and shoulder injuries. X-rays and CT scans (3-D imaging) are used to show bone spurs or abnormalities of the scapula. MRI is also used to look for related conditions, such as scapular bursitis—where the soft tissues between the scapula and the chest wall are thick, irri- tated, or inflamed. Treatment starts with injections of steroids to provide pain relief, along with physical therapy to improve muscle strength. Unfortunately, some bone or tissue abnormali- ties do not respond to these treatments—in which case surgery may be necessary. Content: 2 The Year in Review 4 Governing Boards 9 Scientific Advisory Committee 13 Friends of the Institute 24 Corporate and Institutional Friends 25 Research and Education (Medial Knee Reconstruction) 26 Basic Science Research (Snapping Scapula Syndrome) (Microfracture in the Pediatric Knee) 29 Clinical Research (Hip Arthroscopy) 45 Biomechanics Research 48 Imaging Research 53 Education & Fellowship 57 Presentations and Publications 73 In the Media 74 Recognition 77 Associates 78 Audited 2010 Financial Statements]]> Mon, 30 Jan 2012 11:56:48 GMT /slideshow/snappingscapulasyndromemedialkneereconstructionhiparthroscopymicrofractureinthepediatrickneebiomechanicsresearch/11337575 SPRIVail@slideshare.net(SPRIVail) Snapping Scapula Syndrome | Medial Knee Reconstruction | Hip Arthroscopy | Microfracture in the Pediatric Knee | Biomechanics Research SPRIVail www.sprivail.org The Steadman Philippon Research Institute 2011 Annual Report Snapping scapula syndrome is a rare condition of the shoulder that is poorly understood. Due to the lack of knowl- edge about this syndrome, many patients are misdiagnosed or suffer with symptoms for many years. The most common complaint is pain when the shoulder blade rubs and clicks against the ribs. There are many factors that can cause a snapping scapula, including problems between the scapula (shoulder blade) and chest wall, muscle tears, fractures in the shoulder area, a bony lump on the shoulder blade, rheumatoid diseases and shoulder injuries. X-rays and CT scans (3-D imaging) are used to show bone spurs or abnormalities of the scapula. MRI is also used to look for related conditions, such as scapular bursitis—where the soft tissues between the scapula and the chest wall are thick, irri- tated, or inflamed. Treatment starts with injections of steroids to provide pain relief, along with physical therapy to improve muscle strength. Unfortunately, some bone or tissue abnormali- ties do not respond to these treatments—in which case surgery may be necessary. Content: 2 The Year in Review 4 Governing Boards 9 Scientific Advisory Committee 13 Friends of the Institute 24 Corporate and Institutional Friends 25 Research and Education (Medial Knee Reconstruction) 26 Basic Science Research (Snapping Scapula Syndrome) (Microfracture in the Pediatric Knee) 29 Clinical Research (Hip Arthroscopy) 45 Biomechanics Research 48 Imaging Research 53 Education & Fellowship 57 Presentations and Publications 73 In the Media 74 Recognition 77 Associates 78 Audited 2010 Financial Statements <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/steadmanreport-120130115653-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> www.sprivail.org The Steadman Philippon Research Institute 2011 Annual Report Snapping scapula syndrome is a rare condition of the shoulder that is poorly understood. Due to the lack of knowl- edge about this syndrome, many patients are misdiagnosed or suffer with symptoms for many years. The most common complaint is pain when the shoulder blade rubs and clicks against the ribs. There are many factors that can cause a snapping scapula, including problems between the scapula (shoulder blade) and chest wall, muscle tears, fractures in the shoulder area, a bony lump on the shoulder blade, rheumatoid diseases and shoulder injuries. X-rays and CT scans (3-D imaging) are used to show bone spurs or abnormalities of the scapula. MRI is also used to look for related conditions, such as scapular bursitis—where the soft tissues between the scapula and the chest wall are thick, irri- tated, or inflamed. Treatment starts with injections of steroids to provide pain relief, along with physical therapy to improve muscle strength. Unfortunately, some bone or tissue abnormali- ties do not respond to these treatments—in which case surgery may be necessary. Content: 2 The Year in Review 4 Governing Boards 9 Scientific Advisory Committee 13 Friends of the Institute 24 Corporate and Institutional Friends 25 Research and Education (Medial Knee Reconstruction) 26 Basic Science Research (Snapping Scapula Syndrome) (Microfracture in the Pediatric Knee) 29 Clinical Research (Hip Arthroscopy) 45 Biomechanics Research 48 Imaging Research 53 Education & Fellowship 57 Presentations and Publications 73 In the Media 74 Recognition 77 Associates 78 Audited 2010 Financial Statements

Snapping Scapula Syndrome | Medial Knee Reconstruction | Hip Arthroscopy | Microfracture in the Pediatric Knee | Biomechanics Research from Steadman Philippon Research Institute

]]> 4386 20 https://cdn.slidesharecdn.com/ss_thumbnails/steadmanreport-120130115653-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds presentation White http://activitystrea.ms/schema/1.0/post

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0 Joint Preservation | Patient Centered Outcomes Research | Biomechanics Research /slideshow/jointpreservationpatientcenteredoutcomesresearchbiomechanicsresearch/11164872 2008annualreport-120119180236-phpapp02
www.sprivail.org Approximately 250,000 anterior cruciate ligament (ACL) reconstructions are performed every year in the United States. ACL injuries are most commonly caused during an activ- ity that involves a twisting or pivoting motion of the knee, causing the ACL to tear and creating a popping noise in the joint. Various studies have shown that ACL reconstructions with autograft tissue (tissue from the patient’s own knee) report a failure rate of approximately 5-10 percent of all surger- ies performed each year. Despite the prevalence of this procedure, a debate still exists regarding the ideal graft choice. The use of allograft tissue (cadaveric donor tissue) continues to gain popularity because it lacks the inherent disadvan- tages that are specific to the utilization of autograft tissue. Some of the disad- vantages of autograft use include harvest- site morbidity (disease), scarring and tendinitis, patella fracture, etc. Despite these disadvantages, ACL autograft use is still considered advantageous for a number of reasons, including lower surgi- cal costs, lack of cell death, improved graft incorporation, and lack of donor- to-host disease transmission. Contrary to autograft tissue, the use of allograft tissue avoids harvest-site morbidity, provides less peri-operative pain, and shortens opera- tive time significantly. The preparation of allograft tissue has changed significantly in recent years, significantly decreasing the chances of disease transmission, while still preserving the collagen integrity of the graft. The purpose of this study was to document ACL revi- sion rates and subjective outcomes following anterior cruciate ligament reconstruction with Achilles allograft, bone-patel- lar tendon-bone (B-PT-B) allograft, hamstring autograft and B-PT-B autograft, while controlling for surgical technique and rehabilitation. Our hypothesis was that revision rates and outcomes of ACL allograft and ACL autograft procedures. would be similar among ACL reconstruction groups performed by the same surgeon with the same rehabilitation. CONTENT: 2 The Year in Review 4 Governing Boards 6 Scientific Advisory Committee 12 Friends of the Foundation 26 Corporate and Institutional Friends 28 Research and Education 30 Basic Science Research (Joint Preservation) 32 Clinical Research (Patient-based outcomes research) 44 Biomechanics Research Laboratory 54 Imaging Research (Biomechanics Research) 59 Education 63 Presentations and Publications 75 In the Media 76 Recognition 79 Associates 83 Financial Statements ]]>
www.sprivail.org Approximately 250,000 anterior cruciate ligament (ACL) reconstructions are performed every year in the United States. ACL injuries are most commonly caused during an activ- ity that involves a twisting or pivoting motion of the knee, causing the ACL to tear and creating a popping noise in the joint. Various studies have shown that ACL reconstructions with autograft tissue (tissue from the patient’s own knee) report a failure rate of approximately 5-10 percent of all surger- ies performed each year. Despite the prevalence of this procedure, a debate still exists regarding the ideal graft choice. The use of allograft tissue (cadaveric donor tissue) continues to gain popularity because it lacks the inherent disadvan- tages that are specific to the utilization of autograft tissue. Some of the disad- vantages of autograft use include harvest- site morbidity (disease), scarring and tendinitis, patella fracture, etc. Despite these disadvantages, ACL autograft use is still considered advantageous for a number of reasons, including lower surgi- cal costs, lack of cell death, improved graft incorporation, and lack of donor- to-host disease transmission. Contrary to autograft tissue, the use of allograft tissue avoids harvest-site morbidity, provides less peri-operative pain, and shortens opera- tive time significantly. The preparation of allograft tissue has changed significantly in recent years, significantly decreasing the chances of disease transmission, while still preserving the collagen integrity of the graft. The purpose of this study was to document ACL revi- sion rates and subjective outcomes following anterior cruciate ligament reconstruction with Achilles allograft, bone-patel- lar tendon-bone (B-PT-B) allograft, hamstring autograft and B-PT-B autograft, while controlling for surgical technique and rehabilitation. Our hypothesis was that revision rates and outcomes of ACL allograft and ACL autograft procedures. would be similar among ACL reconstruction groups performed by the same surgeon with the same rehabilitation. CONTENT: 2 The Year in Review 4 Governing Boards 6 Scientific Advisory Committee 12 Friends of the Foundation 26 Corporate and Institutional Friends 28 Research and Education 30 Basic Science Research (Joint Preservation) 32 Clinical Research (Patient-based outcomes research) 44 Biomechanics Research Laboratory 54 Imaging Research (Biomechanics Research) 59 Education 63 Presentations and Publications 75 In the Media 76 Recognition 79 Associates 83 Financial Statements ]]> Thu, 19 Jan 2012 15:35:24 GMT /slideshow/jointpreservationpatientcenteredoutcomesresearchbiomechanicsresearch/11164872 SPRIVail@slideshare.net(SPRIVail) Joint Preservation | Patient Centered Outcomes Research | Biomechanics Research SPRIVail www.sprivail.org Approximately 250,000 anterior cruciate ligament (ACL) reconstructions are performed every year in the United States. ACL injuries are most commonly caused during an activ- ity that involves a twisting or pivoting motion of the knee, causing the ACL to tear and creating a popping noise in the joint. Various studies have shown that ACL reconstructions with autograft tissue (tissue from the patient’s own knee) report a failure rate of approximately 5-10 percent of all surger- ies performed each year. Despite the prevalence of this procedure, a debate still exists regarding the ideal graft choice. The use of allograft tissue (cadaveric donor tissue) continues to gain popularity because it lacks the inherent disadvan- tages that are specific to the utilization of autograft tissue. Some of the disad- vantages of autograft use include harvest- site morbidity (disease), scarring and tendinitis, patella fracture, etc. Despite these disadvantages, ACL autograft use is still considered advantageous for a number of reasons, including lower surgi- cal costs, lack of cell death, improved graft incorporation, and lack of donor- to-host disease transmission. Contrary to autograft tissue, the use of allograft tissue avoids harvest-site morbidity, provides less peri-operative pain, and shortens opera- tive time significantly. The preparation of allograft tissue has changed significantly in recent years, significantly decreasing the chances of disease transmission, while still preserving the collagen integrity of the graft. The purpose of this study was to document ACL revi- sion rates and subjective outcomes following anterior cruciate ligament reconstruction with Achilles allograft, bone-patel- lar tendon-bone (B-PT-B) allograft, hamstring autograft and B-PT-B autograft, while controlling for surgical technique and rehabilitation. Our hypothesis was that revision rates and outcomes of ACL allograft and ACL autograft procedures. would be similar among ACL reconstruction groups performed by the same surgeon with the same rehabilitation. CONTENT: 2 The Year in Review 4 Governing Boards 6 Scientific Advisory Committee 12 Friends of the Foundation 26 Corporate and Institutional Friends 28 Research and Education 30 Basic Science Research (Joint Preservation) 32 Clinical Research (Patient-based outcomes research) 44 Biomechanics Research Laboratory 54 Imaging Research (Biomechanics Research) 59 Education 63 Presentations and Publications 75 In the Media 76 Recognition 79 Associates 83 Financial Statements <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2008annualreport-120119180236-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> www.sprivail.org Approximately 250,000 anterior cruciate ligament (ACL) reconstructions are performed every year in the United States. ACL injuries are most commonly caused during an activ- ity that involves a twisting or pivoting motion of the knee, causing the ACL to tear and creating a popping noise in the joint. Various studies have shown that ACL reconstructions with autograft tissue (tissue from the patient’s own knee) report a failure rate of approximately 5-10 percent of all surger- ies performed each year. Despite the prevalence of this procedure, a debate still exists regarding the ideal graft choice. The use of allograft tissue (cadaveric donor tissue) continues to gain popularity because it lacks the inherent disadvan- tages that are specific to the utilization of autograft tissue. Some of the disad- vantages of autograft use include harvest- site morbidity (disease), scarring and tendinitis, patella fracture, etc. Despite these disadvantages, ACL autograft use is still considered advantageous for a number of reasons, including lower surgi- cal costs, lack of cell death, improved graft incorporation, and lack of donor- to-host disease transmission. Contrary to autograft tissue, the use of allograft tissue avoids harvest-site morbidity, provides less peri-operative pain, and shortens opera- tive time significantly. The preparation of allograft tissue has changed significantly in recent years, significantly decreasing the chances of disease transmission, while still preserving the collagen integrity of the graft. The purpose of this study was to document ACL revi- sion rates and subjective outcomes following anterior cruciate ligament reconstruction with Achilles allograft, bone-patel- lar tendon-bone (B-PT-B) allograft, hamstring autograft and B-PT-B autograft, while controlling for surgical technique and rehabilitation. Our hypothesis was that revision rates and outcomes of ACL allograft and ACL autograft procedures. would be similar among ACL reconstruction groups performed by the same surgeon with the same rehabilitation. CONTENT: 2 The Year in Review 4 Governing Boards 6 Scientific Advisory Committee 12 Friends of the Foundation 26 Corporate and Institutional Friends 28 Research and Education 30 Basic Science Research (Joint Preservation) 32 Clinical Research (Patient-based outcomes research) 44 Biomechanics Research Laboratory 54 Imaging Research (Biomechanics Research) 59 Education 63 Presentations and Publications 75 In the Media 76 Recognition 79 Associates 83 Financial Statements

Joint Preservation | Patient Centered Outcomes Research | Biomechanics Research from Steadman Philippon Research Institute

]]> 5333 13 https://cdn.slidesharecdn.com/ss_thumbnails/2008annualreport-120119180236-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds document White http://activitystrea.ms/schema/1.0/post

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0 Femoroacetabular Impingement | Knee Microfracture | Patient Outcomes | Shoulder Joint Research /slideshow/femoroacetabularimpingementkneemicrofracturepatientoutcomesshoulderjointresearch/11139784 2007annualreport-120118120632-phpapp02
www.sprivailorg The Steadman Philippon Research Institute 2007 Annual Report Patients with hip pain may suffer from femoro- acetabular impingement, or FAI, in which bony abnormalities of both the femur and acetabulum irregularly and repetitively contact each other, creating damage to articular cartilage and labrum. This may lead to a more rapid onset of osteoar- thritis, which is the leading cause of disability in the United States. In the past, the treatment for FAI was an open surgical dislocation procedure to repair this pathology. It has shown good mid-term results, but it is a highly invasive procedure. The recovery from this open surgical dislocation procedure may limit activities for nine months. This length of postoperative inactivity is not feasible for the recreational or professional athlete. Dr. Marc J. Philippon has developed an arthroscopic technique to repair this hip joint disease that allows individu- als to return to activities, including athletics, as early as three months. Patients with osteoarthritis of the shoulder have pain and loss of function that significantly affect their quality of life. When the disease becomes more advanced and the symptoms do not respond to conservative methods, total shoulder arthroplasty (TSA) is the preferred surgical treatment. The number of TSAs performed annually in the U.S. has increased from about 5,000 in the early 1990s to more than 20,000 in 2005. This is largely because an aging population wants to stay active, but it may also be due to better prosthesis designs, better surgical techniques, and better training of surgeons. While the overall outcomes after shoulder replacements are excellent, the motions of the bones or implants inside the shoulder joint during motion in living subjects are not well known because we haven’t been able to “see” inside the joint. Contents: The Year in Review 2 Governing Boards 4 Scientific Advisory Committee Femoroacetabular Impingement 5 Imaging Research Set to Become Newest Area of Science 6 Lee Schmidt: A Lesson in the Art of Giving 8 John Kelly: An Elite Photographer 20 Research and Education (Shoulder Joint Research) 22 Basic Science Research (knee micro fracture) Osteoarthritis Knee Treatment Patient Outcomes ]]>
www.sprivailorg The Steadman Philippon Research Institute 2007 Annual Report Patients with hip pain may suffer from femoro- acetabular impingement, or FAI, in which bony abnormalities of both the femur and acetabulum irregularly and repetitively contact each other, creating damage to articular cartilage and labrum. This may lead to a more rapid onset of osteoar- thritis, which is the leading cause of disability in the United States. In the past, the treatment for FAI was an open surgical dislocation procedure to repair this pathology. It has shown good mid-term results, but it is a highly invasive procedure. The recovery from this open surgical dislocation procedure may limit activities for nine months. This length of postoperative inactivity is not feasible for the recreational or professional athlete. Dr. Marc J. Philippon has developed an arthroscopic technique to repair this hip joint disease that allows individu- als to return to activities, including athletics, as early as three months. Patients with osteoarthritis of the shoulder have pain and loss of function that significantly affect their quality of life. When the disease becomes more advanced and the symptoms do not respond to conservative methods, total shoulder arthroplasty (TSA) is the preferred surgical treatment. The number of TSAs performed annually in the U.S. has increased from about 5,000 in the early 1990s to more than 20,000 in 2005. This is largely because an aging population wants to stay active, but it may also be due to better prosthesis designs, better surgical techniques, and better training of surgeons. While the overall outcomes after shoulder replacements are excellent, the motions of the bones or implants inside the shoulder joint during motion in living subjects are not well known because we haven’t been able to “see” inside the joint. Contents: The Year in Review 2 Governing Boards 4 Scientific Advisory Committee Femoroacetabular Impingement 5 Imaging Research Set to Become Newest Area of Science 6 Lee Schmidt: A Lesson in the Art of Giving 8 John Kelly: An Elite Photographer 20 Research and Education (Shoulder Joint Research) 22 Basic Science Research (knee micro fracture) Osteoarthritis Knee Treatment Patient Outcomes ]]> Wed, 18 Jan 2012 12:06:31 GMT /slideshow/femoroacetabularimpingementkneemicrofracturepatientoutcomesshoulderjointresearch/11139784 SPRIVail@slideshare.net(SPRIVail) Femoroacetabular Impingement | Knee Microfracture | Patient Outcomes | Shoulder Joint Research SPRIVail www.sprivailorg The Steadman Philippon Research Institute 2007 Annual Report Patients with hip pain may suffer from femoro- acetabular impingement, or FAI, in which bony abnormalities of both the femur and acetabulum irregularly and repetitively contact each other, creating damage to articular cartilage and labrum. This may lead to a more rapid onset of osteoar- thritis, which is the leading cause of disability in the United States. In the past, the treatment for FAI was an open surgical dislocation procedure to repair this pathology. It has shown good mid-term results, but it is a highly invasive procedure. The recovery from this open surgical dislocation procedure may limit activities for nine months. This length of postoperative inactivity is not feasible for the recreational or professional athlete. Dr. Marc J. Philippon has developed an arthroscopic technique to repair this hip joint disease that allows individu- als to return to activities, including athletics, as early as three months. Patients with osteoarthritis of the shoulder have pain and loss of function that significantly affect their quality of life. When the disease becomes more advanced and the symptoms do not respond to conservative methods, total shoulder arthroplasty (TSA) is the preferred surgical treatment. The number of TSAs performed annually in the U.S. has increased from about 5,000 in the early 1990s to more than 20,000 in 2005. This is largely because an aging population wants to stay active, but it may also be due to better prosthesis designs, better surgical techniques, and better training of surgeons. While the overall outcomes after shoulder replacements are excellent, the motions of the bones or implants inside the shoulder joint during motion in living subjects are not well known because we haven’t been able to “see” inside the joint. Contents: The Year in Review 2 Governing Boards 4 Scientific Advisory Committee Femoroacetabular Impingement 5 Imaging Research Set to Become Newest Area of Science 6 Lee Schmidt: A Lesson in the Art of Giving 8 John Kelly: An Elite Photographer 20 Research and Education (Shoulder Joint Research) 22 Basic Science Research (knee micro fracture) Osteoarthritis Knee Treatment Patient Outcomes <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2007annualreport-120118120632-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> www.sprivailorg The Steadman Philippon Research Institute 2007 Annual Report Patients with hip pain may suffer from femoro- acetabular impingement, or FAI, in which bony abnormalities of both the femur and acetabulum irregularly and repetitively contact each other, creating damage to articular cartilage and labrum. This may lead to a more rapid onset of osteoar- thritis, which is the leading cause of disability in the United States. In the past, the treatment for FAI was an open surgical dislocation procedure to repair this pathology. It has shown good mid-term results, but it is a highly invasive procedure. The recovery from this open surgical dislocation procedure may limit activities for nine months. This length of postoperative inactivity is not feasible for the recreational or professional athlete. Dr. Marc J. Philippon has developed an arthroscopic technique to repair this hip joint disease that allows individu- als to return to activities, including athletics, as early as three months. Patients with osteoarthritis of the shoulder have pain and loss of function that significantly affect their quality of life. When the disease becomes more advanced and the symptoms do not respond to conservative methods, total shoulder arthroplasty (TSA) is the preferred surgical treatment. The number of TSAs performed annually in the U.S. has increased from about 5,000 in the early 1990s to more than 20,000 in 2005. This is largely because an aging population wants to stay active, but it may also be due to better prosthesis designs, better surgical techniques, and better training of surgeons. While the overall outcomes after shoulder replacements are excellent, the motions of the bones or implants inside the shoulder joint during motion in living subjects are not well known because we haven’t been able to “see” inside the joint. Contents: The Year in Review 2 Governing Boards 4 Scientific Advisory Committee Femoroacetabular Impingement 5 Imaging Research Set to Become Newest Area of Science 6 Lee Schmidt: A Lesson in the Art of Giving 8 John Kelly: An Elite Photographer 20 Research and Education (Shoulder Joint Research) 22 Basic Science Research (knee micro fracture) Osteoarthritis Knee Treatment Patient Outcomes

Femoroacetabular Impingement | Knee Microfracture | Patient Outcomes | Shoulder Joint Research from Steadman Philippon Research Institute

]]> 4064 13 https://cdn.slidesharecdn.com/ss_thumbnails/2007annualreport-120118120632-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds presentation White http://activitystrea.ms/schema/1.0/post

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0 Torn Miniscus | Knee Osteoarthritis Treatment | Microfracture | Hip Arthroscopy Labral Tear /slideshow/tornminiscuskneeosteoarthritistreatmentmicrofracturehiparthroscopylabraltear/11139031 2006annualreport-120118112621-phpapp01
www.sprivail.org The Steadman Philippon Research Institute 2006 Annual Report The purpose of our Basic Science Research is to gain a better understanding of factors which lead to: (1) degenerative joint disease; (2) osteoarthritis; (3) improved healing of soft tissues such as ligaments, tendons, articular cartilage, and meniscus cartilage; and (4) novel and untried approaches of treatment modalities. Our focus is to develop new surgical techniques, innovative adjunct therapies, rehabilitative treatments, and related programs that will help delay, minimize, or prevent the development of degenerative joint disease. In 2006, we collaborated with various educational institutions, predominantly Colorado State University and Michigan State University. We believe that our combined efforts will lead directly to slowing the degenerative processes, as well as finding new ways to enhance healing and regeneration of injured tissues. The relatively new area of regenerative medicine is an exciting one that has gained global attention. There are many new and inno- vative techniques under investigation by scientists around the world. One of the broad goals of this work can be stated simply as joint preservation. In 2006 we focused our efforts almost exclusively on regeneration of an improved tissue for resurfacing of articular cartilage (chondral) defects that typically lead to degenerative osteoarthritis. We have been working in the promising area of gene therapy in col- laboration with Drs. Wayne McIlwraith and David Frisbie at Colorado State University. We have now completed our initial studies, and we have enough important data to take this project to the next level. In 2006 we also published an extremely important manuscript that examined the effects of leaving or removing a certain layer of tissue during lesion preparation for microfracture. This manuscript will help guide surgeons and should improve outcomes of microfrac- ture performed by surgeons worldwide. We also completed data collection of a study involving electrostimulation to enhance cartilage healing. CONTENTS: 2 The Year in Review 7 The Steadman-Hawkins Difference 10 Friends of the Foundation 21 The Knee, the Package, and the Gift (Torn Miniscus) 23 Steadman-Hawkins and Össur Team Up 24 Research and Education (Knee Osteoarthritis Treatments) 25 Basic Science (Microfracture) 27 The Human-Horse Connection 28 Bad Knee Leads to Good News 29 Clinical Research (hip arthroscopy labral tear) 37 Impingement Can Lead to Arthritis 45 Biomechanics Research Laboratory 49 IRA Rollover Legislation 51 Education 52 Research Foundation Provides Students with a Close Look at Medicine 56 Publications and Presentations 67 Recognition]]>
www.sprivail.org The Steadman Philippon Research Institute 2006 Annual Report The purpose of our Basic Science Research is to gain a better understanding of factors which lead to: (1) degenerative joint disease; (2) osteoarthritis; (3) improved healing of soft tissues such as ligaments, tendons, articular cartilage, and meniscus cartilage; and (4) novel and untried approaches of treatment modalities. Our focus is to develop new surgical techniques, innovative adjunct therapies, rehabilitative treatments, and related programs that will help delay, minimize, or prevent the development of degenerative joint disease. In 2006, we collaborated with various educational institutions, predominantly Colorado State University and Michigan State University. We believe that our combined efforts will lead directly to slowing the degenerative processes, as well as finding new ways to enhance healing and regeneration of injured tissues. The relatively new area of regenerative medicine is an exciting one that has gained global attention. There are many new and inno- vative techniques under investigation by scientists around the world. One of the broad goals of this work can be stated simply as joint preservation. In 2006 we focused our efforts almost exclusively on regeneration of an improved tissue for resurfacing of articular cartilage (chondral) defects that typically lead to degenerative osteoarthritis. We have been working in the promising area of gene therapy in col- laboration with Drs. Wayne McIlwraith and David Frisbie at Colorado State University. We have now completed our initial studies, and we have enough important data to take this project to the next level. In 2006 we also published an extremely important manuscript that examined the effects of leaving or removing a certain layer of tissue during lesion preparation for microfracture. This manuscript will help guide surgeons and should improve outcomes of microfrac- ture performed by surgeons worldwide. We also completed data collection of a study involving electrostimulation to enhance cartilage healing. CONTENTS: 2 The Year in Review 7 The Steadman-Hawkins Difference 10 Friends of the Foundation 21 The Knee, the Package, and the Gift (Torn Miniscus) 23 Steadman-Hawkins and Össur Team Up 24 Research and Education (Knee Osteoarthritis Treatments) 25 Basic Science (Microfracture) 27 The Human-Horse Connection 28 Bad Knee Leads to Good News 29 Clinical Research (hip arthroscopy labral tear) 37 Impingement Can Lead to Arthritis 45 Biomechanics Research Laboratory 49 IRA Rollover Legislation 51 Education 52 Research Foundation Provides Students with a Close Look at Medicine 56 Publications and Presentations 67 Recognition]]> Wed, 18 Jan 2012 11:26:19 GMT /slideshow/tornminiscuskneeosteoarthritistreatmentmicrofracturehiparthroscopylabraltear/11139031 SPRIVail@slideshare.net(SPRIVail) Torn Miniscus | Knee Osteoarthritis Treatment | Microfracture | Hip Arthroscopy Labral Tear SPRIVail www.sprivail.org The Steadman Philippon Research Institute 2006 Annual Report The purpose of our Basic Science Research is to gain a better understanding of factors which lead to: (1) degenerative joint disease; (2) osteoarthritis; (3) improved healing of soft tissues such as ligaments, tendons, articular cartilage, and meniscus cartilage; and (4) novel and untried approaches of treatment modalities. Our focus is to develop new surgical techniques, innovative adjunct therapies, rehabilitative treatments, and related programs that will help delay, minimize, or prevent the development of degenerative joint disease. In 2006, we collaborated with various educational institutions, predominantly Colorado State University and Michigan State University. We believe that our combined efforts will lead directly to slowing the degenerative processes, as well as finding new ways to enhance healing and regeneration of injured tissues. The relatively new area of regenerative medicine is an exciting one that has gained global attention. There are many new and inno- vative techniques under investigation by scientists around the world. One of the broad goals of this work can be stated simply as joint preservation. In 2006 we focused our efforts almost exclusively on regeneration of an improved tissue for resurfacing of articular cartilage (chondral) defects that typically lead to degenerative osteoarthritis. We have been working in the promising area of gene therapy in col- laboration with Drs. Wayne McIlwraith and David Frisbie at Colorado State University. We have now completed our initial studies, and we have enough important data to take this project to the next level. In 2006 we also published an extremely important manuscript that examined the effects of leaving or removing a certain layer of tissue during lesion preparation for microfracture. This manuscript will help guide surgeons and should improve outcomes of microfrac- ture performed by surgeons worldwide. We also completed data collection of a study involving electrostimulation to enhance cartilage healing. CONTENTS: 2 The Year in Review 7 The Steadman-Hawkins Difference 10 Friends of the Foundation 21 The Knee, the Package, and the Gift (Torn Miniscus) 23 Steadman-Hawkins and Össur Team Up 24 Research and Education (Knee Osteoarthritis Treatments) 25 Basic Science (Microfracture) 27 The Human-Horse Connection 28 Bad Knee Leads to Good News 29 Clinical Research (hip arthroscopy labral tear) 37 Impingement Can Lead to Arthritis 45 Biomechanics Research Laboratory 49 IRA Rollover Legislation 51 Education 52 Research Foundation Provides Students with a Close Look at Medicine 56 Publications and Presentations 67 Recognition <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2006annualreport-120118112621-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> www.sprivail.org The Steadman Philippon Research Institute 2006 Annual Report The purpose of our Basic Science Research is to gain a better understanding of factors which lead to: (1) degenerative joint disease; (2) osteoarthritis; (3) improved healing of soft tissues such as ligaments, tendons, articular cartilage, and meniscus cartilage; and (4) novel and untried approaches of treatment modalities. Our focus is to develop new surgical techniques, innovative adjunct therapies, rehabilitative treatments, and related programs that will help delay, minimize, or prevent the development of degenerative joint disease. In 2006, we collaborated with various educational institutions, predominantly Colorado State University and Michigan State University. We believe that our combined efforts will lead directly to slowing the degenerative processes, as well as finding new ways to enhance healing and regeneration of injured tissues. The relatively new area of regenerative medicine is an exciting one that has gained global attention. There are many new and inno- vative techniques under investigation by scientists around the world. One of the broad goals of this work can be stated simply as joint preservation. In 2006 we focused our efforts almost exclusively on regeneration of an improved tissue for resurfacing of articular cartilage (chondral) defects that typically lead to degenerative osteoarthritis. We have been working in the promising area of gene therapy in col- laboration with Drs. Wayne McIlwraith and David Frisbie at Colorado State University. We have now completed our initial studies, and we have enough important data to take this project to the next level. In 2006 we also published an extremely important manuscript that examined the effects of leaving or removing a certain layer of tissue during lesion preparation for microfracture. This manuscript will help guide surgeons and should improve outcomes of microfrac- ture performed by surgeons worldwide. We also completed data collection of a study involving electrostimulation to enhance cartilage healing. CONTENTS: 2 The Year in Review 7 The Steadman-Hawkins Difference 10 Friends of the Foundation 21 The Knee, the Package, and the Gift (Torn Miniscus) 23 Steadman-Hawkins and Össur Team Up 24 Research and Education (Knee Osteoarthritis Treatments) 25 Basic Science (Microfracture) 27 The Human-Horse Connection 28 Bad Knee Leads to Good News 29 Clinical Research (hip arthroscopy labral tear) 37 Impingement Can Lead to Arthritis 45 Biomechanics Research Laboratory 49 IRA Rollover Legislation 51 Education 52 Research Foundation Provides Students with a Close Look at Medicine 56 Publications and Presentations 67 Recognition

Torn Miniscus | Knee Osteoarthritis Treatment | Microfracture | Hip Arthroscopy Labral Tear from Steadman Philippon Research Institute

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http://activitystrea.ms/schema/1.0/posted

0 Articular Cartilage Damage | Electrostimulation of Joint | Arthritic Knee Treatment /slideshow/articularcartilagedamageelectrostimulationofjointarthritickneetreatment/11138035 2005annualreport-120118103414-phpapp01
www.sprivail.org The Steadman Philippon Research Institute 2005 Annual Report The relatively new area of regenerative medicine is an exciting one. There are many new and innovative techniques under investiga- tion by scientists around the world. In 2005, we focused our efforts almost exclusively on regeneration of an improved tissue for resurfac- ing of articular cartilage (chondral) defects that typically lead to degenerative osteoarthritis. We have been working in the promising area of gene therapy in collaboration with Drs. Wayne McIlwraith and David Frisbie at Colorado State University. We completed all aspects of our study looking at the effects of leaving or removing a certain layer of tissue during lesion preparation for microfracture. We also began a new area of study involving electrostimulation to enhance cartilage healing. Following is some background information and a summary of our most recent find- ings. This work is ongoing, and the encouraging results presented here will allow us to continue to focus on this work in the coming years. Osteoarthritis is a debilitating, progressive disease characterized by the deterioration of articular cartilage accompanied by changes in the bone and soft tissues of the joint. Traumatic injury to joints is also often associated with acute damage to the articular cartilage. Unfortunately, hyaline articular (joint) cartilage is a tissue with very poor healing or regenerative potential. Once damaged, articular cartilage typically does not heal, or it may heal with functionless fibrous tissue. Such tissue does not possess the biomechanical and biochemical properties of the original hyaline cartilage; hence, the integrity of the articular surface and normal joint function are compromised. The result is often osteoarthritis. Contents: 47 Education 50 Vail Cartilage Symposium 52 Presentations and Publications Articular Cartilage Damage Electrostimulation of Joint Arthritic Knee Treatment 63 Media 64 Associates 65 Independent Accountants’ Report 66 Statements of Financial Position 67 Statements of Activities 69 Statements of Cash Flow 70 Statements of Functional Expenses 72 Notes to Financial Statements]]>
www.sprivail.org The Steadman Philippon Research Institute 2005 Annual Report The relatively new area of regenerative medicine is an exciting one. There are many new and innovative techniques under investiga- tion by scientists around the world. In 2005, we focused our efforts almost exclusively on regeneration of an improved tissue for resurfac- ing of articular cartilage (chondral) defects that typically lead to degenerative osteoarthritis. We have been working in the promising area of gene therapy in collaboration with Drs. Wayne McIlwraith and David Frisbie at Colorado State University. We completed all aspects of our study looking at the effects of leaving or removing a certain layer of tissue during lesion preparation for microfracture. We also began a new area of study involving electrostimulation to enhance cartilage healing. Following is some background information and a summary of our most recent find- ings. This work is ongoing, and the encouraging results presented here will allow us to continue to focus on this work in the coming years. Osteoarthritis is a debilitating, progressive disease characterized by the deterioration of articular cartilage accompanied by changes in the bone and soft tissues of the joint. Traumatic injury to joints is also often associated with acute damage to the articular cartilage. Unfortunately, hyaline articular (joint) cartilage is a tissue with very poor healing or regenerative potential. Once damaged, articular cartilage typically does not heal, or it may heal with functionless fibrous tissue. Such tissue does not possess the biomechanical and biochemical properties of the original hyaline cartilage; hence, the integrity of the articular surface and normal joint function are compromised. The result is often osteoarthritis. Contents: 47 Education 50 Vail Cartilage Symposium 52 Presentations and Publications Articular Cartilage Damage Electrostimulation of Joint Arthritic Knee Treatment 63 Media 64 Associates 65 Independent Accountants’ Report 66 Statements of Financial Position 67 Statements of Activities 69 Statements of Cash Flow 70 Statements of Functional Expenses 72 Notes to Financial Statements]]> Wed, 18 Jan 2012 10:34:11 GMT /slideshow/articularcartilagedamageelectrostimulationofjointarthritickneetreatment/11138035 SPRIVail@slideshare.net(SPRIVail) Articular Cartilage Damage | Electrostimulation of Joint | Arthritic Knee Treatment SPRIVail www.sprivail.org The Steadman Philippon Research Institute 2005 Annual Report The relatively new area of regenerative medicine is an exciting one. There are many new and innovative techniques under investiga- tion by scientists around the world. In 2005, we focused our efforts almost exclusively on regeneration of an improved tissue for resurfac- ing of articular cartilage (chondral) defects that typically lead to degenerative osteoarthritis. We have been working in the promising area of gene therapy in collaboration with Drs. Wayne McIlwraith and David Frisbie at Colorado State University. We completed all aspects of our study looking at the effects of leaving or removing a certain layer of tissue during lesion preparation for microfracture. We also began a new area of study involving electrostimulation to enhance cartilage healing. Following is some background information and a summary of our most recent find- ings. This work is ongoing, and the encouraging results presented here will allow us to continue to focus on this work in the coming years. Osteoarthritis is a debilitating, progressive disease characterized by the deterioration of articular cartilage accompanied by changes in the bone and soft tissues of the joint. Traumatic injury to joints is also often associated with acute damage to the articular cartilage. Unfortunately, hyaline articular (joint) cartilage is a tissue with very poor healing or regenerative potential. Once damaged, articular cartilage typically does not heal, or it may heal with functionless fibrous tissue. Such tissue does not possess the biomechanical and biochemical properties of the original hyaline cartilage; hence, the integrity of the articular surface and normal joint function are compromised. The result is often osteoarthritis. Contents: 47 Education 50 Vail Cartilage Symposium 52 Presentations and Publications Articular Cartilage Damage Electrostimulation of Joint Arthritic Knee Treatment 63 Media 64 Associates 65 Independent Accountants’ Report 66 Statements of Financial Position 67 Statements of Activities 69 Statements of Cash Flow 70 Statements of Functional Expenses 72 Notes to Financial Statements <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2005annualreport-120118103414-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> www.sprivail.org The Steadman Philippon Research Institute 2005 Annual Report The relatively new area of regenerative medicine is an exciting one. There are many new and innovative techniques under investiga- tion by scientists around the world. In 2005, we focused our efforts almost exclusively on regeneration of an improved tissue for resurfac- ing of articular cartilage (chondral) defects that typically lead to degenerative osteoarthritis. We have been working in the promising area of gene therapy in collaboration with Drs. Wayne McIlwraith and David Frisbie at Colorado State University. We completed all aspects of our study looking at the effects of leaving or removing a certain layer of tissue during lesion preparation for microfracture. We also began a new area of study involving electrostimulation to enhance cartilage healing. Following is some background information and a summary of our most recent find- ings. This work is ongoing, and the encouraging results presented here will allow us to continue to focus on this work in the coming years. Osteoarthritis is a debilitating, progressive disease characterized by the deterioration of articular cartilage accompanied by changes in the bone and soft tissues of the joint. Traumatic injury to joints is also often associated with acute damage to the articular cartilage. Unfortunately, hyaline articular (joint) cartilage is a tissue with very poor healing or regenerative potential. Once damaged, articular cartilage typically does not heal, or it may heal with functionless fibrous tissue. Such tissue does not possess the biomechanical and biochemical properties of the original hyaline cartilage; hence, the integrity of the articular surface and normal joint function are compromised. The result is often osteoarthritis. Contents: 47 Education 50 Vail Cartilage Symposium 52 Presentations and Publications Articular Cartilage Damage Electrostimulation of Joint Arthritic Knee Treatment 63 Media 64 Associates 65 Independent Accountants’ Report 66 Statements of Financial Position 67 Statements of Activities 69 Statements of Cash Flow 70 Statements of Functional Expenses 72 Notes to Financial Statements

Articular Cartilage Damage | Electrostimulation of Joint | Arthritic Knee Treatment from Steadman Philippon Research Institute

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http://activitystrea.ms/schema/1.0/posted

0 Gene Therapy | Joint Restoration | Osteoarthritis Research /slideshow/genetherapyjointrestorationosteoarthritis-research/11137368 2004annualreport-120118100514-phpapp01
www.sprivail.org The Steadman Philippon Research Institute 2004 Annual Report The area of regenerative medicine is an excit- ing one. There are many new and innovative techniques under investigation by scientists around the world. In 2004 we focused our efforts almost exclusively on regeneration of an improved tissue for resurfacing of articular cartilage (chondral) defects that typically lead to degenerative osteoarthritis. We have been working in the promising area of gene therapy in collaboration with Drs. Wayne McIlwraith and David Frisbie at Colorado State University. The following provides some background information and a summary of our most recent findings. This work is ongoing, and the encouraging results presented here will allow us to continue to focus on this work in the coming years. Osteoarthritis is a debilitating, progres- sive disease characterized by the deterioration of articular cartilage and accompanied by changes in the bone and soft tissues of the joint. Traumatic injury to joints is also often associated with acute damage to the articular cartilage. Unfortunately, joint cartilage is a tissue with very poor healing potential. Once damaged, cartilage typically does not heal, or it may heal with fibrous tissue that serves no purpose. This tissue does not possess the properties of the original cartilage, so the integrity of the articular surface and normal joint function are compromised. The result is often osteoarthritis. Content: 2 The Year in Review 5 An Active Legacy 8 Governing Boards 9 Al Perkins 11 Scientific Advisory Board 13 Friends of the Foundation 23 Corporate and Institutional Friends 24 Basic Science Research (Gene Therapy) 28 Clinical Research (Joint Restoration) 36 Biomechanics Research Laboratory (Osteoarthritis Research) 44 Education 48 Presentations and Publications 57 Recognition 58 Media 60 Development 63 Associates 65 Independent Accountants’ Report 66 Statements of Financial Position 67 Statements of Activities 69 Statements of Cash Flow 70 Statements of Functional Expenses]]>
www.sprivail.org The Steadman Philippon Research Institute 2004 Annual Report The area of regenerative medicine is an excit- ing one. There are many new and innovative techniques under investigation by scientists around the world. In 2004 we focused our efforts almost exclusively on regeneration of an improved tissue for resurfacing of articular cartilage (chondral) defects that typically lead to degenerative osteoarthritis. We have been working in the promising area of gene therapy in collaboration with Drs. Wayne McIlwraith and David Frisbie at Colorado State University. The following provides some background information and a summary of our most recent findings. This work is ongoing, and the encouraging results presented here will allow us to continue to focus on this work in the coming years. Osteoarthritis is a debilitating, progres- sive disease characterized by the deterioration of articular cartilage and accompanied by changes in the bone and soft tissues of the joint. Traumatic injury to joints is also often associated with acute damage to the articular cartilage. Unfortunately, joint cartilage is a tissue with very poor healing potential. Once damaged, cartilage typically does not heal, or it may heal with fibrous tissue that serves no purpose. This tissue does not possess the properties of the original cartilage, so the integrity of the articular surface and normal joint function are compromised. The result is often osteoarthritis. Content: 2 The Year in Review 5 An Active Legacy 8 Governing Boards 9 Al Perkins 11 Scientific Advisory Board 13 Friends of the Foundation 23 Corporate and Institutional Friends 24 Basic Science Research (Gene Therapy) 28 Clinical Research (Joint Restoration) 36 Biomechanics Research Laboratory (Osteoarthritis Research) 44 Education 48 Presentations and Publications 57 Recognition 58 Media 60 Development 63 Associates 65 Independent Accountants’ Report 66 Statements of Financial Position 67 Statements of Activities 69 Statements of Cash Flow 70 Statements of Functional Expenses]]> Wed, 18 Jan 2012 10:05:12 GMT /slideshow/genetherapyjointrestorationosteoarthritis-research/11137368 SPRIVail@slideshare.net(SPRIVail) Gene Therapy | Joint Restoration | Osteoarthritis Research SPRIVail www.sprivail.org The Steadman Philippon Research Institute 2004 Annual Report The area of regenerative medicine is an excit- ing one. There are many new and innovative techniques under investigation by scientists around the world. In 2004 we focused our efforts almost exclusively on regeneration of an improved tissue for resurfacing of articular cartilage (chondral) defects that typically lead to degenerative osteoarthritis. We have been working in the promising area of gene therapy in collaboration with Drs. Wayne McIlwraith and David Frisbie at Colorado State University. The following provides some background information and a summary of our most recent findings. This work is ongoing, and the encouraging results presented here will allow us to continue to focus on this work in the coming years. Osteoarthritis is a debilitating, progres- sive disease characterized by the deterioration of articular cartilage and accompanied by changes in the bone and soft tissues of the joint. Traumatic injury to joints is also often associated with acute damage to the articular cartilage. Unfortunately, joint cartilage is a tissue with very poor healing potential. Once damaged, cartilage typically does not heal, or it may heal with fibrous tissue that serves no purpose. This tissue does not possess the properties of the original cartilage, so the integrity of the articular surface and normal joint function are compromised. The result is often osteoarthritis. Content: 2 The Year in Review 5 An Active Legacy 8 Governing Boards 9 Al Perkins 11 Scientific Advisory Board 13 Friends of the Foundation 23 Corporate and Institutional Friends 24 Basic Science Research (Gene Therapy) 28 Clinical Research (Joint Restoration) 36 Biomechanics Research Laboratory (Osteoarthritis Research) 44 Education 48 Presentations and Publications 57 Recognition 58 Media 60 Development 63 Associates 65 Independent Accountants’ Report 66 Statements of Financial Position 67 Statements of Activities 69 Statements of Cash Flow 70 Statements of Functional Expenses <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2004annualreport-120118100514-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> www.sprivail.org The Steadman Philippon Research Institute 2004 Annual Report The area of regenerative medicine is an excit- ing one. There are many new and innovative techniques under investigation by scientists around the world. In 2004 we focused our efforts almost exclusively on regeneration of an improved tissue for resurfacing of articular cartilage (chondral) defects that typically lead to degenerative osteoarthritis. We have been working in the promising area of gene therapy in collaboration with Drs. Wayne McIlwraith and David Frisbie at Colorado State University. The following provides some background information and a summary of our most recent findings. This work is ongoing, and the encouraging results presented here will allow us to continue to focus on this work in the coming years. Osteoarthritis is a debilitating, progres- sive disease characterized by the deterioration of articular cartilage and accompanied by changes in the bone and soft tissues of the joint. Traumatic injury to joints is also often associated with acute damage to the articular cartilage. Unfortunately, joint cartilage is a tissue with very poor healing potential. Once damaged, cartilage typically does not heal, or it may heal with fibrous tissue that serves no purpose. This tissue does not possess the properties of the original cartilage, so the integrity of the articular surface and normal joint function are compromised. The result is often osteoarthritis. Content: 2 The Year in Review 5 An Active Legacy 8 Governing Boards 9 Al Perkins 11 Scientific Advisory Board 13 Friends of the Foundation 23 Corporate and Institutional Friends 24 Basic Science Research (Gene Therapy) 28 Clinical Research (Joint Restoration) 36 Biomechanics Research Laboratory (Osteoarthritis Research) 44 Education 48 Presentations and Publications 57 Recognition 58 Media 60 Development 63 Associates 65 Independent Accountants’ Report 66 Statements of Financial Position 67 Statements of Activities 69 Statements of Cash Flow 70 Statements of Functional Expenses

Gene Therapy | Joint Restoration | Osteoarthritis Research from Steadman Philippon Research Institute

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0 Joint Disease - Osteoarthritis | Microfracture Outcomes | Biomechanical Testing /slideshow/jointdiseaseosteoarthritismicrofractureoutcomesbiomechanicaltesting/11116770 2003annualreport-120117142718-phpapp01
www.sprivail.org Steadman Philippon Research Institute 2003 Annual Report The area of regenerative medicine is an excit- ing one. There are many new and innovative techniques under investigation by scientists around the world. In 2003, we focused our efforts almost exclusively on regeneration of an improved tissue for resurfacing of articular cartilage defects that typically lead to degenera- tive osteoarthritis. We have been working in the promising area of gene therapy in collabo- ration with Drs. Wayne McIlwraith and David Frisbie at Colorado State University. Following is some background information and a summary of our most recent findings. This work is ongoing, and the encouraging results presented here will allow us to continue to focus on this work in the coming years. Osteoarthritis is a debilitating, progressive disease characterized by the deterioration of articular cartilage and accompanied by changes in the bone and soft tissues of the joint. Traumatic injury to joints is also often associated with acute damage to the articular carti- lage. Unfortunately, joint cartilage is a tissue with poor healing poten- tial. Once damaged, cartilage typically does not heal, or it may heal with fibrous tissue that does not function as it should. Such tissue does not possess the biomechanical and biochemical properties of the original hyaline cartilage; hence, the integrity of the articular sur- face and normal joint function are compromised. The result often is osteoarthritis. CONTENTS: The Year in Review Mission and History Governing and Advisory Boards EARL GRAVES: AN ENTERPRISING TOUCH Friends of the Foundation Corporate and Institutional Friends Basic Science Research: Understanding Joint Disease (Osteoarthritis) CINDY NELSON: SKIING OR GOLF, STAYING THE COURSE Clinical Research: “Outcomes” and “Process” Research (Microfracture) Biomechanics Research (testing) Laboratory INSIDE THE STEADMAN◆HAWKINS FOUNDATION: A FELLOW’S PERSPECTIVE Education Presentations and Publications Recognition Associates Independent Accountants’ Report Statement of Financial Position Statement of Activities Statement of Cash Flow Statement of Functional Expenses Notes to Financial Statements ]]>
www.sprivail.org Steadman Philippon Research Institute 2003 Annual Report The area of regenerative medicine is an excit- ing one. There are many new and innovative techniques under investigation by scientists around the world. In 2003, we focused our efforts almost exclusively on regeneration of an improved tissue for resurfacing of articular cartilage defects that typically lead to degenera- tive osteoarthritis. We have been working in the promising area of gene therapy in collabo- ration with Drs. Wayne McIlwraith and David Frisbie at Colorado State University. Following is some background information and a summary of our most recent findings. This work is ongoing, and the encouraging results presented here will allow us to continue to focus on this work in the coming years. Osteoarthritis is a debilitating, progressive disease characterized by the deterioration of articular cartilage and accompanied by changes in the bone and soft tissues of the joint. Traumatic injury to joints is also often associated with acute damage to the articular carti- lage. Unfortunately, joint cartilage is a tissue with poor healing poten- tial. Once damaged, cartilage typically does not heal, or it may heal with fibrous tissue that does not function as it should. Such tissue does not possess the biomechanical and biochemical properties of the original hyaline cartilage; hence, the integrity of the articular sur- face and normal joint function are compromised. The result often is osteoarthritis. CONTENTS: The Year in Review Mission and History Governing and Advisory Boards EARL GRAVES: AN ENTERPRISING TOUCH Friends of the Foundation Corporate and Institutional Friends Basic Science Research: Understanding Joint Disease (Osteoarthritis) CINDY NELSON: SKIING OR GOLF, STAYING THE COURSE Clinical Research: “Outcomes” and “Process” Research (Microfracture) Biomechanics Research (testing) Laboratory INSIDE THE STEADMAN◆HAWKINS FOUNDATION: A FELLOW’S PERSPECTIVE Education Presentations and Publications Recognition Associates Independent Accountants’ Report Statement of Financial Position Statement of Activities Statement of Cash Flow Statement of Functional Expenses Notes to Financial Statements ]]> Tue, 17 Jan 2012 14:27:16 GMT /slideshow/jointdiseaseosteoarthritismicrofractureoutcomesbiomechanicaltesting/11116770 SPRIVail@slideshare.net(SPRIVail) Joint Disease - Osteoarthritis | Microfracture Outcomes | Biomechanical Testing SPRIVail www.sprivail.org Steadman Philippon Research Institute 2003 Annual Report The area of regenerative medicine is an excit- ing one. There are many new and innovative techniques under investigation by scientists around the world. In 2003, we focused our efforts almost exclusively on regeneration of an improved tissue for resurfacing of articular cartilage defects that typically lead to degenera- tive osteoarthritis. We have been working in the promising area of gene therapy in collabo- ration with Drs. Wayne McIlwraith and David Frisbie at Colorado State University. Following is some background information and a summary of our most recent findings. This work is ongoing, and the encouraging results presented here will allow us to continue to focus on this work in the coming years. Osteoarthritis is a debilitating, progressive disease characterized by the deterioration of articular cartilage and accompanied by changes in the bone and soft tissues of the joint. Traumatic injury to joints is also often associated with acute damage to the articular carti- lage. Unfortunately, joint cartilage is a tissue with poor healing poten- tial. Once damaged, cartilage typically does not heal, or it may heal with fibrous tissue that does not function as it should. Such tissue does not possess the biomechanical and biochemical properties of the original hyaline cartilage; hence, the integrity of the articular sur- face and normal joint function are compromised. The result often is osteoarthritis. CONTENTS: The Year in Review Mission and History Governing and Advisory Boards EARL GRAVES: AN ENTERPRISING TOUCH Friends of the Foundation Corporate and Institutional Friends Basic Science Research: Understanding Joint Disease (Osteoarthritis) CINDY NELSON: SKIING OR GOLF, STAYING THE COURSE Clinical Research: “Outcomes” and “Process” Research (Microfracture) Biomechanics Research (testing) Laboratory INSIDE THE STEADMAN◆HAWKINS FOUNDATION: A FELLOW’S PERSPECTIVE Education Presentations and Publications Recognition Associates Independent Accountants’ Report Statement of Financial Position Statement of Activities Statement of Cash Flow Statement of Functional Expenses Notes to Financial Statements <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2003annualreport-120117142718-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> www.sprivail.org Steadman Philippon Research Institute 2003 Annual Report The area of regenerative medicine is an excit- ing one. There are many new and innovative techniques under investigation by scientists around the world. In 2003, we focused our efforts almost exclusively on regeneration of an improved tissue for resurfacing of articular cartilage defects that typically lead to degenera- tive osteoarthritis. We have been working in the promising area of gene therapy in collabo- ration with Drs. Wayne McIlwraith and David Frisbie at Colorado State University. Following is some background information and a summary of our most recent findings. This work is ongoing, and the encouraging results presented here will allow us to continue to focus on this work in the coming years. Osteoarthritis is a debilitating, progressive disease characterized by the deterioration of articular cartilage and accompanied by changes in the bone and soft tissues of the joint. Traumatic injury to joints is also often associated with acute damage to the articular carti- lage. Unfortunately, joint cartilage is a tissue with poor healing poten- tial. Once damaged, cartilage typically does not heal, or it may heal with fibrous tissue that does not function as it should. Such tissue does not possess the biomechanical and biochemical properties of the original hyaline cartilage; hence, the integrity of the articular sur- face and normal joint function are compromised. The result often is osteoarthritis. CONTENTS: The Year in Review Mission and History Governing and Advisory Boards EARL GRAVES: AN ENTERPRISING TOUCH Friends of the Foundation Corporate and Institutional Friends Basic Science Research: Understanding Joint Disease (Osteoarthritis) CINDY NELSON: SKIING OR GOLF, STAYING THE COURSE Clinical Research: “Outcomes” and “Process” Research (Microfracture) Biomechanics Research (testing) Laboratory INSIDE THE STEADMAN◆HAWKINS FOUNDATION: A FELLOW’S PERSPECTIVE Education Presentations and Publications Recognition Associates Independent Accountants’ Report Statement of Financial Position Statement of Activities Statement of Cash Flow Statement of Functional Expenses Notes to Financial Statements

Joint Disease - Osteoarthritis | Microfracture Outcomes | Biomechanical Testing from Steadman Philippon Research Institute

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0 ACL Functions | The Healing Response | Biomechanical Research /slideshow/acl-functions-the-healing-response-biomechanical-research/11091548 acl-functions-the-healing-response-biomechanical-research-120116165521-phpapp02
http://www.sprivail.org Steadman Philippon Research Institute 2002 Annual Report. The year will be remembered as a period of progress and excit- ing development in our Basic Science research. Our collaborative effort with the Equine Science Center at Colorado State University has been devoted to unlocking the promise of gene therapy in treating cartilage defects. We are encouraged by these findings this year which indicate that by combining growth factors with gene therapy we can control the quality of cartilage repair tissue. One of the important objectives of our research is to develop highly replicable surgical procedures that are minimally invasive. We have been involved in pioneering a system that helps simplify rotator cuff repair while aiming to match the outcomes of open proce- dures. Thanks to a series of groundbreaking biomedical innovations, this arthroscopic procedure has shown great promise. Through our clinical research, we continue to learn from our patients. Our focus has been on determining predictors of disability and satisfaction, patient expectations, and patient outcomes from sur- gical procedures. In 2002, we completed several studies, such as those on Microfracture and Healing Response, that investigated the outcome of techniques developed here in Vail. In both cases, findings showed that patient activity level had increased and the patients were highly satisfied. We hope these and other outcomes will help establish future guidelines and expectations in the treatment of patients. The quality of our research has attained a level of excellence rec- ognized throughout the world. The American Society of Biomechanics selected an abstract authored by Biomechanics Research Laboratory Staff Scientist Kevin Shelburne, Ph.D., and Director Michael Torry, Ph.D., as winner in the 2002 Journal of Biomechanics Award competition. This is one of the most prestigious international awards conferred in Biomechanics. This report includes: 1 The Year in Review 2 History and Mission 3 Governing and Advisory Boards 5 Friends of the Foundation 13 Corporate and Institutional Friends 14 Bode Miller: The Healing Response (Microfracture) and the Comeback Kid 17 Basic Science Research: Understanding Joint Disease 20 Judy Collins: Shouldering on 22 Clinical Research: “Outcomes” and “Process” Research 32 Biomechanics Research Laboratory (Biomechanical Resesarch) 36 Major John Tokish, M.D. 38 Education 41 Presentations and Publications 47 Recognition 48 Knee Ligament Forces During Walking (ACL Functions) 50 In the Media 52 Associates 53 Independent Accountants’ Report 54 Statements of Financial Position 55 Statements of Activities 57 Statements of Cash Flow 58 Statements of Functional Expenses 60 Notes to Financial Statements]]>
http://www.sprivail.org Steadman Philippon Research Institute 2002 Annual Report. The year will be remembered as a period of progress and excit- ing development in our Basic Science research. Our collaborative effort with the Equine Science Center at Colorado State University has been devoted to unlocking the promise of gene therapy in treating cartilage defects. We are encouraged by these findings this year which indicate that by combining growth factors with gene therapy we can control the quality of cartilage repair tissue. One of the important objectives of our research is to develop highly replicable surgical procedures that are minimally invasive. We have been involved in pioneering a system that helps simplify rotator cuff repair while aiming to match the outcomes of open proce- dures. Thanks to a series of groundbreaking biomedical innovations, this arthroscopic procedure has shown great promise. Through our clinical research, we continue to learn from our patients. Our focus has been on determining predictors of disability and satisfaction, patient expectations, and patient outcomes from sur- gical procedures. In 2002, we completed several studies, such as those on Microfracture and Healing Response, that investigated the outcome of techniques developed here in Vail. In both cases, findings showed that patient activity level had increased and the patients were highly satisfied. We hope these and other outcomes will help establish future guidelines and expectations in the treatment of patients. The quality of our research has attained a level of excellence rec- ognized throughout the world. The American Society of Biomechanics selected an abstract authored by Biomechanics Research Laboratory Staff Scientist Kevin Shelburne, Ph.D., and Director Michael Torry, Ph.D., as winner in the 2002 Journal of Biomechanics Award competition. This is one of the most prestigious international awards conferred in Biomechanics. This report includes: 1 The Year in Review 2 History and Mission 3 Governing and Advisory Boards 5 Friends of the Foundation 13 Corporate and Institutional Friends 14 Bode Miller: The Healing Response (Microfracture) and the Comeback Kid 17 Basic Science Research: Understanding Joint Disease 20 Judy Collins: Shouldering on 22 Clinical Research: “Outcomes” and “Process” Research 32 Biomechanics Research Laboratory (Biomechanical Resesarch) 36 Major John Tokish, M.D. 38 Education 41 Presentations and Publications 47 Recognition 48 Knee Ligament Forces During Walking (ACL Functions) 50 In the Media 52 Associates 53 Independent Accountants’ Report 54 Statements of Financial Position 55 Statements of Activities 57 Statements of Cash Flow 58 Statements of Functional Expenses 60 Notes to Financial Statements]]> Mon, 16 Jan 2012 16:55:19 GMT /slideshow/acl-functions-the-healing-response-biomechanical-research/11091548 SPRIVail@slideshare.net(SPRIVail) ACL Functions | The Healing Response | Biomechanical Research SPRIVail http://www.sprivail.org Steadman Philippon Research Institute 2002 Annual Report. The year will be remembered as a period of progress and excit- ing development in our Basic Science research. Our collaborative effort with the Equine Science Center at Colorado State University has been devoted to unlocking the promise of gene therapy in treating cartilage defects. We are encouraged by these findings this year which indicate that by combining growth factors with gene therapy we can control the quality of cartilage repair tissue. One of the important objectives of our research is to develop highly replicable surgical procedures that are minimally invasive. We have been involved in pioneering a system that helps simplify rotator cuff repair while aiming to match the outcomes of open proce- dures. Thanks to a series of groundbreaking biomedical innovations, this arthroscopic procedure has shown great promise. Through our clinical research, we continue to learn from our patients. Our focus has been on determining predictors of disability and satisfaction, patient expectations, and patient outcomes from sur- gical procedures. In 2002, we completed several studies, such as those on Microfracture and Healing Response, that investigated the outcome of techniques developed here in Vail. In both cases, findings showed that patient activity level had increased and the patients were highly satisfied. We hope these and other outcomes will help establish future guidelines and expectations in the treatment of patients. The quality of our research has attained a level of excellence rec- ognized throughout the world. The American Society of Biomechanics selected an abstract authored by Biomechanics Research Laboratory Staff Scientist Kevin Shelburne, Ph.D., and Director Michael Torry, Ph.D., as winner in the 2002 Journal of Biomechanics Award competition. This is one of the most prestigious international awards conferred in Biomechanics. This report includes: 1 The Year in Review 2 History and Mission 3 Governing and Advisory Boards 5 Friends of the Foundation 13 Corporate and Institutional Friends 14 Bode Miller: The Healing Response (Microfracture) and the Comeback Kid 17 Basic Science Research: Understanding Joint Disease 20 Judy Collins: Shouldering on 22 Clinical Research: “Outcomes” and “Process” Research 32 Biomechanics Research Laboratory (Biomechanical Resesarch) 36 Major John Tokish, M.D. 38 Education 41 Presentations and Publications 47 Recognition 48 Knee Ligament Forces During Walking (ACL Functions) 50 In the Media 52 Associates 53 Independent Accountants’ Report 54 Statements of Financial Position 55 Statements of Activities 57 Statements of Cash Flow 58 Statements of Functional Expenses 60 Notes to Financial Statements <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/acl-functions-the-healing-response-biomechanical-research-120116165521-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> http://www.sprivail.org Steadman Philippon Research Institute 2002 Annual Report. The year will be remembered as a period of progress and excit- ing development in our Basic Science research. Our collaborative effort with the Equine Science Center at Colorado State University has been devoted to unlocking the promise of gene therapy in treating cartilage defects. We are encouraged by these findings this year which indicate that by combining growth factors with gene therapy we can control the quality of cartilage repair tissue. One of the important objectives of our research is to develop highly replicable surgical procedures that are minimally invasive. We have been involved in pioneering a system that helps simplify rotator cuff repair while aiming to match the outcomes of open proce- dures. Thanks to a series of groundbreaking biomedical innovations, this arthroscopic procedure has shown great promise. Through our clinical research, we continue to learn from our patients. Our focus has been on determining predictors of disability and satisfaction, patient expectations, and patient outcomes from sur- gical procedures. In 2002, we completed several studies, such as those on Microfracture and Healing Response, that investigated the outcome of techniques developed here in Vail. In both cases, findings showed that patient activity level had increased and the patients were highly satisfied. We hope these and other outcomes will help establish future guidelines and expectations in the treatment of patients. The quality of our research has attained a level of excellence rec- ognized throughout the world. The American Society of Biomechanics selected an abstract authored by Biomechanics Research Laboratory Staff Scientist Kevin Shelburne, Ph.D., and Director Michael Torry, Ph.D., as winner in the 2002 Journal of Biomechanics Award competition. This is one of the most prestigious international awards conferred in Biomechanics. This report includes: 1 The Year in Review 2 History and Mission 3 Governing and Advisory Boards 5 Friends of the Foundation 13 Corporate and Institutional Friends 14 Bode Miller: The Healing Response (Microfracture) and the Comeback Kid 17 Basic Science Research: Understanding Joint Disease 20 Judy Collins: Shouldering on 22 Clinical Research: “Outcomes” and “Process” Research 32 Biomechanics Research Laboratory (Biomechanical Resesarch) 36 Major John Tokish, M.D. 38 Education 41 Presentations and Publications 47 Recognition 48 Knee Ligament Forces During Walking (ACL Functions) 50 In the Media 52 Associates 53 Independent Accountants’ Report 54 Statements of Financial Position 55 Statements of Activities 57 Statements of Cash Flow 58 Statements of Functional Expenses 60 Notes to Financial Statements

ACL Functions | The Healing Response | Biomechanical Research from Steadman Philippon Research Institute

]]> 4925 18 https://cdn.slidesharecdn.com/ss_thumbnails/acl-functions-the-healing-response-biomechanical-research-120116165521-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds document White http://activitystrea.ms/schema/1.0/post

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0 https://public.slidesharecdn.com/v2/images/profile-picture.png The Steadman Philippon Research Institute was founded in 1988 by orthopaedic surgeon Dr. J. Richard Steadman as an independent, tax-exempt (IRS code 501(c)(3)) charitable organization, employing scientists, researchers, fellows, visiting scholars, and interns. It is known throughout the world for our research into the causes, prevention and treatment of orthopaedic disorders. Research- degenerative arthritis, articular cartilage damage, microfracture, joint restoration, the healing response, osteoarthritis, shoulder arthroscopy, acl functions, gene therapy, femoroacetabular impingement, joint preservation; Patient Outcomes; Biomechanical Research; Imaging Research. www.sprivail.org https://cdn.slidesharecdn.com/ss_thumbnails/steadmanreport-120130115653-phpapp01-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/snappingscapulasyndromemedialkneereconstructionhiparthroscopymicrofractureinthepediatrickneebiomechanicsresearch/11337575 Snapping Scapula Syndr... https://cdn.slidesharecdn.com/ss_thumbnails/2008annualreport-120119180236-phpapp02-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/jointpreservationpatientcenteredoutcomesresearchbiomechanicsresearch/11164872 Joint Preservation | P... https://cdn.slidesharecdn.com/ss_thumbnails/2007annualreport-120118120632-phpapp02-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/femoroacetabularimpingementkneemicrofracturepatientoutcomesshoulderjointresearch/11139784 Femoroacetabular Impin...