Introduction. Golf is a recommended form of physical activity for older adults. However, clinicians have no evidence-based research regarding the demands on the hips of older adults during golf. The purpose of our in vivoobservational study was to quantify the hip biomechanics of older adult golfers. Methods. Seventeen healthy older male golfers(62.2±8.8 years, handicap 8.7±4.9) free from orthopaedic injuries and surgeries volunteered for participation in this IRB-approved study. A 10-camera motion capture system recorded kinematics, and two force plates collected kinetic data. Participants performed eight shots using their own driver. Data processing was performed in Visual3D. The overall range of excursion and three-dimensional net joint moments normalized to body weight for the lead and trail hips were extracted. Results. Kinematics (mean excursion and range) of lead and trail hips in all three planes during a golf swing are presented in Table 1. The trail leg experiences higher excursion in the sagittal plane, while the lead leg has more frontal plane movement. Average maximum net joint moments of the lead and trail hips were 1.2 ± 0.2 and 1.7 ± 0.3 Nm/kg, respectively. Conclusion. Our study is the first to quantify the kinematics and kinetics of the hip joint in healthy older male golfers. While the golf swing is often considered to be a predominant transverse plane motion, our results indicate considerable excursion at the hip joints in all three planes. Furthermore, the trail leg experiences 40% greater loading than the lead leg throughout the swing, suggesting that the trail leg may have a larger impact on golf performance while also leaving it more susceptible to overuse injury. For clinicians with patients who experience osteoarthritis of the hip or who have recently undergone hip surgery, this study may provide novel insight into the demands of golf on the hips. For any tables or figures, please contact the authors directly

We studied prospectively 81 consecutive patients undergoing hip surgery using the Hardinge (1982) approach. The abductor muscles of the hip in these patients were assessed electrophysiologically and clinically by the modified Trendelenburg test. Power was measured using a force plate. We performed assessment at two weeks, and at three and nine months after operation. At two weeks we found that 19 patients (23%) showed evidence of damage to the superior gluteal nerve. By three months, five of these had recovered. The nine patients with complete denervation at three months showed no signs of recovery when reassessed at nine months. Persistent damage to the nerve was associated with a positive Trendelenburg test

Aims

The aim of this study was to assess the functional gain achieved following hip resurfacing arthroplasty (HRA).

Aims

Abnormal femoral torsion (FT) is increasingly recognized as an additional cause for femoroacetabular impingement (FAI). It is unknown if in-toeing of the foot is a specific diagnostic sign for increased FT in patients with symptomatic FAI. The aims of this study were to determine: 1) the prevalence and diagnostic accuracy of in-toeing to detect increased FT; 2) if foot progression angle (FPA) and tibial torsion (TT) are different among patients with abnormal FT; and 3) if FPA correlates with FT.

Objectives

In order to address acetabular defects, porous metal revision acetabular components and augments have been developed, which require fixation to each other. The fixation technique that results in the smallest relative movement between the components, as well as its influence on the primary stability with the host bone, have not previously been determined.