Osteotomy as a treatment option in dysplasia epiphyseal hemimelica of the distal radius: a case report.

Dysplasia epiphysialis hemimelica (DEH), also known as Trevor disease, is a very rare disease characterized by an overgrowth of the osteocartilaginous epiphyseal caused by unknown factors. The medial side of the epiphysis is affected twice as often as the lateral side and more than one epiphysis was affected in two-thirds of the cases. Only a few cases of DEH in the upper extremities have been published, as the lower limb is usually the most affected, especially in the bones of the ankle joint. The symptoms vary from little significant deformities to symptomatic cases, pain, and decreased function depending on the location and the size of the lesion. When surgery is indicated, the complete excision of the lesion is the procedure of choice. If this is not possible, because of the location or size of the lesion, a realignment osteotomy may be necessary. We report the case of a 12-year-old patient with a distal epiphysis DEH on the left radius, treated by wedge osteotomy realignment at the level of the lesion with Kirschner wires. The clinical outcome of realignment osteotomy of the radial epiphysis has been the correction of the deformity with a normal and painless function of the wrist and hand. The case reported was an extremely rare location in the distal radial epiphysis of DEH. We are aware of only one case published previously with involvement of the distal radius in children. The surgical treatment of realignment osteotomy without complete removal of the lesion has enabled anatomical and functional improvement of the joint as well as a reduction in lesion size. LEVEL OF EVIDENCE: Level IV case report.

Effects of Vibration on Leg Blood Flow After Intense Exercise and Its Influence on Subsequent Exercise Performance.

This study aimed to determine the effects of vibration on leg blood flow after intense exercise and find out whether or not these effects can influence subsequent maximal exercise performance. Twenty-three participants performed an exercise test-to-exhaustion followed by a recovery period using six 1-minute sets of whole-body vibration (WBV; 25 Hz-4 mm) or a passive control (noWBV; 0 Hz-0 mm) in the seated position on separate days in random order. Blood flow was assessed at baseline and during each 1-minute interset rest periods post-WBV and noWBV. Thereafter, participants performed a cycle-ergometer test, and time to exhaustion and total distance covered (TDC) were recorded. During recovery, a similar trend was observed in both systolic and diastolic peak frequency dynamics in both conditions. The pulsatility index decreased (p < 0.01) from baseline during postbout 1 in both trials and during post-4 and post-5 in the WBV trial. Significant between-group differences were observed during post-4 (p ≤ 0.05) with greater decreases in pulsatility index after WBV compared with noWBV. Time to exhaustion and TDC were higher after WBV compared with noWBV. In conclusion, WBV decreased pulsatility index in the popliteal artery after maximal exercise and was effective to increase performance in a later exercise test-to-exhaustion.