Healing of forefoot cleft wounds can be a difficult management problem in patients with peripheral vascular disease, diabetes or both. This is a prospective review of 15 patients with these conditions with nonhealing middle-ray cleft wounds managed with a temporary mini-external fixator to close the cleft wound. Fourteen (93%) of the 15 patients had a successful obliteration of the cleft and skin coverage. Twelve (80%) of 15 were able to resume their previous level of activity with the reconstructed, mechanically sound forefoot. Fourteen (93%) of the 15 patients received hyperbaric oxygen treatments as an adjunct to wound healing. All patients avoided a transmetatarsal or higher amputation.
Controversy exists as to what transcutaneous oxygen (P(tc)O2) levels are required for wound healing and what role hyperbaric oxygen has for this. Current information suggests that 30 to 40 mmHg juxta-wound oxygen tensions in room air are required. We recorded P(tc)O2 measurements in room air and with hyperbaric oxygen in 190 patients with foot wounds; then looked retrospectively and prospectively whether there was any effect on healing. Transcutaneous oxygen measurements under hyperbaric oxygen conditions defined a responder group (P(tc)O2 > 200 mmHg) with a sensitivity of 0.80 and a positive predictive value of 0.88 for healing, regardless of room air measurements when hyperbaric oxygen was used as an adjunct to wound management. This information helps to objectify the indications for hyperbaric oxygen and predict healing especially in those patients with problem wounds of the foot and ankle.
In this report, we present two cases of refractory chronic lower extremity tendinopathies treated with collagen bioinductive implant augmentation: a 20-year-old male football player with chronic patellar tendinopathy and a 40-year-old active female with chronic proximal hamstring tendinopathy. We demonstrate that bioaugmentation may represent an effective strategy in the surgical treatment of chronic tendinopathies. Both patients were able to return to their pre-injury activity levels at an accelerated rate.
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