View clinical trials related to Femoracetabular Impingement.
Filter by:Femoroacetabular impingement syndrome (FAIS) is a condition caused by an abnormal bone structure that causes the bones on either side of the hip joint to impinge on each other during certain movements, thus causing pain. This condition can be surgically treated with hip arthroscopy. For patients undergoing hip arthroscopy, there are currently two protocols related to how they may bear their weight after surgery: 1) Delayed Weightbearing: Patients use crutches and put very little weight on the surgical side. After 6 weeks, they are able to bear weight, 2) Immediate Weightbearing: Patients bear weight on the affected side, as tolerated, immediately after surgery with crutches for additional support. They are then permitted to stop using the crutches in the weeks after surgery as they feel comfortable and are stable on the operative leg. The purpose of this study is to determine whether immediate or delayed weightbearing protocols following hip arthroscopy impact patient outcomes and complication rates. Participants will be randomly allocated into one of the two aforementioned groups, and followed up for 2 years to assess function and patient-reported outcomes.
The aim of the study is to investigate the feasibility of a training intervention in patients with femoroacetabular impingement syndrome (FAIS).
The purpose is to explore the possible benefit of administration of Fisetin, (a senolytic agent) to improve the benefit of Platelet-Rich Plasma and losartan for treatment of femoroacetabular impingement and labral tear. We believe that giving Fisetin, a senolytic agent, will improve the benefit of PRP by eliminating senescent cells and senescence-associated secretory phenotype (SASP), known to exist in PRP. The main objectives of this study are to determine if pre- and post-operative administration of a senolytic agent will improve the beneficial effects of PRP when used in conjunction with surgical treatment of FAI and/or labral tear, to determine whether pre- and postoperative administration of Fisetin is associated with adverse events, and to determine if pre- and post-operative administration of Fisetin leads to a decrease in systemic senescence, serum SASP, and fibrotic markers. Patients suffering from femoroacetabular impingement and labral tear, who are planning to undergo hip arthroscopy combined with standard of care intra-operative PRP injection and post-operative losartan administration will be recruited from the clinical practice of the Principal Clinical Investigator or his designee at The Steadman Clinic (TSC).
To study the effect of arthroscopy on the treatment of hip diseases and to evaluate the regularity and treatment of hip joint diseases.
Femoral acetabular impingement (FAI) is a common disease of the hip joint. In this study, whole-genome sequencing was used to further explore the pathogenesis of this disease.
To assess the feasibility of using intraoperative ultrasound to evaluate the femoral head formation; to evaluate the improvement of the forming effect using the intraoperative ultrasound combined with c-arm.
In order to investigate the relationship between the iliac joint capsular muscle and the development of the hip joint, this study used ultrasound Doppler to measure the anatomical circumference of the iliac joint capsular muscle to explore the relationship
To evaluate the prognosis of femoral acetabular impingement syndrome (FAIS) patients with gluteus medius lesions after hip arthroscopy.
To explore the changes of the muscles around the hip joint after hip arthroscopy for patients with femoral acetabular impingement syndrome.
Femoroacetabular impingement (FAI) is a hip disorder resulting from a mismatch of the hip joint, resulting in hip pain and can potentially cause osteoarthritis. As the head of the femur (ball of the hip) and the acetabulum (socket of the hip) impinge or rub together with this mismatch, patients can suffer damage to their articular cartilage which covers both. Currently, the standard of care to surgically treat articular cartilage damage is a procedure called 'microfracture' - where the surgeon makes multiple holes in the bone under the defects causing bone marrow cells and blood from the holes to combine to form a "super clot" that covers the damaged area and is meant to be the basis for new tissue formation or 'fibrocartilage'. However, native articular cartilage is made of hyaline, rather than fibrocartilage, which is a more flexible and durable tissue able to withstand a great deal of force on the hip when it moves. Therefore, a more recently developed strategy that has gained popularity for use in the repair of articular cartilage in the knee involves the implantation of bone marrow aspirate (BMA) along with a scaffold made of hyaluronic acid (HA) in a single-step procedure, with the goal of promoting new hyaline-like tissue. While this has shown promising results in treating knee cartilage damage, this treatment method has yet to be studied in the hip. This randomized controlled trial will evaluate in patients with painful articular cartilage damage of the hip, the effect of implantation of an HA scaffold along with BMA in comparison to microfracture on hip pain and function, cartilage regeneration, and any complications at 24 months post-surgery.