Endoscopic Transtendinous Repair for Partial-Thickness Proximal Hamstring Tendon Tears

Partial tears of the proximal hamstring tendon can successfully be managed with tendon repair in cases of failed conservative management. As in partial-thickness gluteus medius repair, a transtendinous technique can be used to repair partial-thickness undersurface tears of the hamstring origin. This report details an endoscopic transtendinous approach for the treatment of partial-thickness hamstring tendon tears

Technique of Arthroscopically Assisted Transtrochanteric Drilling for Femoral Head Chondral Defects

Microfracture is a marrow-stimulation technique in which damaged cartilage is drilled or punched, perforating the subchondral bone and generating a blood clot within the defect that matures into fibrocartilage. Microfracture for the treatment of small cartilage defects of the hip has shown good results. Arthroscopic procedures are less invasive than open procedures and have a reduced incidence of complications such as infection or avascular necrosis of the femoral head. Furthermore, arthroscopic procedures allow for a shorter recovery time, resulting in not only lower overall treatment costs but also higher patient satisfaction. Medial and parafoveal cartilage defects of the femoral head can be challenging to effectively microfracture using standard arthroscopy portals because of the acute angles required for instrument manipulation. This report describes a technique for microfracturing these challenging areas of the femoral head using a 2.7-mm K-wire and drilling in a transtrochanteric direction using arthroscopic and imaging guidance to target the area of chondral damage

Arthroscopic Ligamentum Teres Reconstruction

The ligamentum teres (LT) has been studied since the 19th century, and its anatomy and biomechanical function have been well described. Recent advancements in hip arthroscopy have caused increased awareness of LT pathology. Previous reports have estimated the incidence of LT tears during hip arthroscopy to be 4% to 51%, and LT tears have been estimated to be the third most common reason for hip pain in athletes. Biomechanical studies have shown the LT's role in stability of the hip. Despite the growing body of literature on LT anatomy and function, its role as a causative factor in hip pain and hip instability has yet to be clearly defined, and the treatment of LT tears remains controversial. However, in certain cases where hip subluxation and overt instability are related to a traumatic full-thickness tear of the LT, reconstruction of the ligamentum has been suggested. We describe a technique for arthroscopic LT reconstruction using either a semitendinosus autograft or allograft in the supine position