Objective To investigate the application of modified adjustable skin stretching and secure wound-closure system in repairing of skin and soft tissue defect. Methods Between March 2016 and April 2017, 21 cases of skin and soft tissue defects were repaired with the modified adjustable skin stretching and secure wound-closure system (the size of regulating pressure and the times of adjustment were determined according to the color, temperature, capillary response, and swelling degree of the skin edge). There were 11 males and 10 females, with an average age of 49.2 years (range, 21-67 years). Among them, 1 case was the residual wound after amputation of leg; 18 cases were the wounds after traumatic injury operation, including 4 cases in the lower leg, 3 cases in the knee joint, 7 cases in the upper limb, and 4 cases in the foot; and 2 cases were diabetic feet. The skin defect area ranged from 4.0 cm×2.5 cm to 21.0 cm×10.0 cm. Results Skin defect wounds closed directly in one stage in 4 cases; 12 cases were closed after continuously stretching for 5-14 days (mean, 10 days); 5 cases were reduced to less than one-half area, and the wound healed after the second skin grafting or flap repairing. All the 21 patients were followed up 3-12 months (mean, 5.2 months). The wound was linear healing with small scar, and no invasive margin, poor blood flow, necrosis, and poor sensory function happened. Conclusion The modified adjustable skin stretching and secure wound-closure system can reduce the skin and soft tissue defects or close the wound directly, and even replace the skin graft and skin flap repairing. It was a good method for the treatment of skin and soft tissue defect.
ObjectiveTo summarize the effectiveness of modified arterialized venous flaps in repairing soft tissue defect of fingers.MethodsBetween January 2017 and April 2018, 16 patients with soft defects of fingers were treated. There were 12 males and 4 females, with an average age of 41 years (range, 24-74 years). One case was resulted from resection of cicatricial contracture and 15 cases was caused by mechanical strangulation. The defects located at thumb in 3 cases, index finger in 5 cases, middle finger in 4 cases, ring finger in 2 cases, and little finger in 2 cases; and at the palmar aspect in 4 cases, and dorsal aspect in 12 cases. The size of defect ranged from 3 cm×2 cm to 10 cm×3 cm. All flaps were harvested from the palmar aspect of the ipsilateral forearm. The distal ports of the two veins were ligation. Partial fat was eliminated and the all connecting minute branches between the two veins were ligation under microscope in order to achieve the thorough shunt restriction. Then the flaps were positioned over the recipient site without inversion. The size of flap ranged from 3.5 cm×2.5 cm to 10.5 cm×3.5 cm. All donor sites were directly sutured except that 1 case was recovered with free skin graft.ResultsAll flaps survived entirely except that 1 case happened vein crisis. Three flaps demonstrated mild-to-moderate venous congestion without any treatment and the swelling of flaps gradually subsided after 1 week. Skin grafting at donor site survived and all incisions healed by first intension. Thirteen patients were followed up 8-16 months (mean, 11 months). The textures and appearances of the flaps were satisfactory. At last follow-up, the mean size of the Semmes-Weinstein (SW) monofilament test of the flaps was 4.01 g (range, 2.83-4.56 g); the mean static two-point discrimination of the flaps was 12 mm (range, 6-20 mm).ConclusionModified arterialized venous flaps with thoroughly restriction of arteriovenous shunting can offer decreased congestion of venous flaps and improve survival rate. Better effectiveness can be achieved by using this flap to repair soft tissue defect of finger.