BackgroundHamstring injury is the single most common injury in professional football. MRI is commonly used to confi rm the diagnosis and provide a prognosis of lay-off time.Objective To evaluate the use of MRI as a prognostic tool for lay-off after hamstring injuries in professional football players and to study the association between MRI fi ndings and injury circumstances. Methods Prospective cohort study where 23 European professional teams, were followed between 2007 and 2011. Team medical staffs recorded individual player exposure and time-loss injuries. Radiological grading was performed using a modifi ed Peetrons classifi cation into four grades where grades 2 and 3 represent fi bre disruption. Results In total, 516 hamstring injuries occurred and 58% of these were examined by MRI. Thirteen per cent were grade 0 injuries, 57% grade 1, 27% of grade 2 and 3% of grade 3. Grade 0 and 1 injuries accounted for 56% (2141/3830 days) of the total lay-off. The layoff time differed between all four radiological grades of injury (8±3, 17±10, 22±11 and 73±60 days, p<0.0001). Eighty-three per cent of injuries affected the biceps femoris while 11% and 5% occurred to the semimembranosus and semitendinosus, respectively. Re-injuries (N=34/207) constituted 16% of injuries. All re-injuries occurred to the biceps femoris. Conclusion MRI can be helpful in verifying the diagnosis of a hamstring injury and to prognosticate layoff time. Radiological grading is associated with lay-off times after injury. Seventy per cent of hamstring injuries seen in professional football are of radiological grade 0 or 1, meaning no signs of fi bre disruption on MRI, but still cause the majority of absence days.
The advent of ultra-high-frequency sonographic transducers has significantly enhanced our ability to image superficial structures. As a result, sonography now can be used to assess injuries of the tendons in the wrist and hand. A clear understanding of normal sonographic anatomy is required to prevent misdiagnosis and ensure optimal patient care. The anatomy of the wrist and hand is best described by considering the extensor and flexor surfaces separately. The carpal extensor retinaculum divides the dorsal extensor tendons into six separate synovial compartments, which are demarcated by the points of its attachment to the radius and ulna. The course of these tendons from the wrist to the sites of their insertion can be traced by using sonography. The intrinsic wrist ligaments, triangular fibrocartilage, and dorsal finger extensor hood also can be assessed sonographically. The anatomy of the flexor surface of the wrist is defined principally by the flexor retinaculum. The median nerve, which is located deep to the retinaculum in the carpal tunnel, and the ulnar nerve, which is superficial to the retinaculum in the Guyon canal, can be easily detected. The long flexor tendons in the wrist and hand are also clearly depicted at sonography. The flexor annular pulley system is formed by five foci of thickening along the long flexor finger tendon synovial sheath, and the second and fourth annular pulleys can be identified sonographically in most patients. Sonography provides a rapid, cheap, noninvasive, and dynamic method for examination of the soft-tissue structures of the wrist and hand. Familiarity with the appearance of normal anatomic structures is a prerequisite for reliable interpretation of the resultant sonograms.
The normal range of pelvic organ descent in asymptomatic subjects seen on dynamic MR imaging included cystocele, uterocervical prolapse, and excessive anorectal junction descent. Although we encountered pelvic prolapse in seven volunteers, it was infrequent and low grade, suggesting that criteria for abnormality derived from proctography are generally applicable to MR imaging.
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