View clinical trials related to Femoracetabular Impingement.
Filter by: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).
Femoroacetabular impingement is an orthopedic condition that is primarily characterized by the presence of anatomic bony abnormalities in the femoral head and/or the acetabulum resulting in an abnormal contact between the two during hip motion, especially in positions of increased hip flexion and rotation, ultimately leading to hip pain. The main study was initiated with the goal of exploring the etiology of FAI in a multidimensional and novel way that addresses the major gaps in literature. Within the main study a 3D motion capture protocol has been designed in line with the latest literature recommendations, which called for more hip ROM specific movements and athlete oriented 3D motion capture protocols that incorporate the spinopelvic complex. While the protocol surely contains movements that have been previously validated and published such as squats and lunges, a unique addition of high velocity soccer kicks and hop- lunges have been included. Such additions elevate the relevancy of the 3D motion analysis protocol, however they also pose questions on how reliable and accurate these additions are. This is especially important a 3D motion analysis has a very subjective component, which is the placement of the skin markers by the clinician. Errors or alteration to markers placement between different sessions or different subjects have been shown to significantly affect the quality of data. Furthermore, not all physical movement can be properly documented using motion analysis. The velocity at which the movement is preformed combined with how complex it is can affect the quality of data collected by the motion analysis system. Also another important component is the uniqueness of the population recruited for the main study. Most studies with highly dynamic motion protocols have been validated and published on adult populations. Thus the investigators cannot use their findings liberally to compare with the adolescent protocol, as differences in patterns of motion between adults and adolescence have been documented. Indeed, a need to test the reliability of the investigators' protocol among their own study groups is highly imperative.
Hip arthroscopy for treatment of femoroacetabular impingement syndrome (FAIS) involves reshaping of the osseous sources of impingement ("osteoplasty") and treatment of impingement-associated labral tears with labral repair. Postoperative hip braces are advocated to decrease postoperative pain by offloading hip musculature. However there are no studies looking at efficacy of hip braces after hip arthroscopy, and on average 50% of high-volume hip arthroscopists use bracing. The objective of this study is to use a randomized controlled trial to test the cited benefits of postoperative hip bracing on short term patient reported pain scores, validated hip-specific pain scores, and physical exam findings of hip flexor tendonitis.
Femoroacetabular impingement (FAI) is a clinical problem in which abnormal contact occurs between the thighbone and the hip socket. In intensive, mostly still young, male athletes, this problem seems to be related to a bony deformity on the head of this thighbone, a so-called CAM. FAI itself gives rise to pain symptoms, but in time can even lead to premature osteoarthritis. However, the cause of a CAM deformity itself, nor how FAI then arises, is insufficiently known. In view of FAI prevention and its better treatment, this project thus tries to better understand the underlying mechanisms. For this purpose, we will combine detailed biomechanical evaluations of specific movement patterns with advanced medical imaging and state of the art clinical evaluations to longitudinally follow up a group with a known high risk of developing a CAM deformity, being young male elite soccer players. Findings within this study will be additionally compared with similar analyses performed in patients with FAI. This research aims to thus form a basis to define novel (sports-specific) training schemes for the prevention of FAI, but also to define the actual treatment and rehabilitation plans in more patient-specific and a better-informed way.
Accurate femoroplasty has been shown to be critical in achieving success following treatment of femoroacetabular impingement (Matsuda, Schnieder, and Sehgal 2014; Mansor et al. 2018; Larson et al. 2014). Nearly 75% of cases undergoing revision hip arthroscopy do so due to residual femoroacetabular impingement (Ricciardi et al. 2014). Femoroplasty remains one of the most challenging and time-consuming procedures in hip arthroscopy and methods to improve accuracy and optimize time management are essential. The HipCheck system is a navigational tool based on intraoperative fluoroscopy that aims at improving accuracy and efficiency of femoroplasty. The objective of this study is to two-fold. (1) To prospectively compare surgical and (2) radiographic outcomes of patients undergoing femoroplasty with guidance of Stryker's HipCheck system to patients undergoing femoroplasty with conventional fluoroscopic methods.
The overarching goal of the study is to improve the surgical treatment outcomes of FAI, which is affecting an increasing number of military personnel and young active individuals in the general population. The proposed study will investigate critical patient, disease, and surgical treatment predictors of FAI surgery outcomes.
Pre-arthritic hip disorders can cause pain, interfere with daily activities and exercise, and lead to the development of osteoarthritis in young adults. Surgical and conservative treatment options are being developed and studied, but it is currently unclear why some patients improve with a particular treatment plan while others do not. The goal of this research project is to develop a tool that predicts which combination of treatment options will be most effective for each individual patient.
The purpose of this study is to examine whether using an exercise regime on people with femoroacetabular impingement (FAI) can help reduce pain and improve function. Also, it examines whether the exercise regime will help prevent the worsening of hip cartilage deterioration.
Tears of the acetabular labrum appear to be common with the prevalence of asymptomatic tears in the general population approaching 66% and 70% based on cadaveric dissection and magnetic resonance imaging, respectively. Despite this prevalence, there is no currently accepted justification for performing labral repair in an asymptomatic patient despite the many postulated biomechanical benefits that an intact labrum imparts to the hip joint. Representing a smaller proportion of all tears, symptomatic tears of the acetabular labrum present a therapeutic challenge. Current treatment modalities range from conservative measures to open surgical intervention. Conservative measures have typically included: activity modification, the use of non-steroidal anti-inflammatory drugs (NSAIDs), physical therapy (PT), core strengthening and improvement of sensory motor control. In the past two decades, technological advances in the form of surgical instrumentation and traction devices have facilitated less invasive arthroscopic techniques to diagnose and treat hip problems and as such is now the preferred treatment modality for many orthopedic surgeons treating patients with hip pathology. Determining which patients, using age and arthritic burden as predictors, can benefit from labral repair is paramount for several reasons. Showing arthroscopic repair is of little or no benefit to a specific cohort can reduce the number of unnecessary surgeries performed, increase the use of conservative therapy (if validated) and reduce the interval between diagnosis and total hip replacement.
Femoroacetabular impingement (FAI) is a condition of the hip where there is a mis-fit between the femoral head (ball) and hip acetabulum (socket). The abnormalities on the hip bones collide or "impinge" during movements such as hip flexion and rotation. Typically, patients with this condition are young adults who present with hip pain, loss of hip function, and in many cases, osteoarthritis later in life. The rate of diagnoses of FAI has dramatically risen across all age groups, but it has been especially notable within adolescent populations. There has been a corresponding increase in the number of surgeries performed on younger and younger hips to treat pain and loss of function due to this condition. Preliminary small-scale research has hypothesized that increased activity, such as sport specialization (i.e. playing only one sport for most of the year) at an early age when the hip is still developing, may be the cause. In the past 20 years, sport injuries among children have dramatically increased, where close to 45 million young athletes participate in organized sports annually in Canada and the US alone. There is a current trend among coaches and parents to have children focus on one sport with the thought that this dedication will allow them to reach an elite level. We are proposing the first international, longitudinal cohort study to determine the effect of sport specialization on the development of FAI during the critical phase of hip development (i.e. between the ages of 12-14 years). Volunteer participants will be recruited across Canada and internationally and will be evaluated clinically and radiographically (i.e. using MRI) over 2 years. This study will not only prospectively evaluate the role of sport activity the development of FAI, but also inform preventative training protocols to potentially reduce its incidence among adolescents, and later as adults, as well as identify parameters to detect hips that are at risk for developing FAI.