To summarize the results of the free transplantation of anti-valve-inflow and pro-valveoutflow arterial ized venous flap in repairing soft tissue defect of fingers in emergency treatment. Methods From October 2002 to March 2007, 7 cases of soft tissue defects of fingers were repaired with arterial ized venous flaps. There were 6 males and 1 female, aged 17-46 years. Defect was caused by crush injury in 6 cases and by stab injury in 1 case. The interval between injuryand operation was 2-7 hours and the size of defects ranged from 3.0 cm × 2.0 cm to 6.0 cm × 3.5 cm. All defects were repaired by arterial ized free venous flap from the ipsilateral forearm, in which the proximal ends of veins were anastomosed to artery and vein of the finger. The donor site was directly sutured. Results Six cases of arterial ized venous flap survived completely and 1 case had partial superficial necrosis and healed with conservative management. The donor site healed by first intention. Postoperative follow-up ranged from 3 months to 4 years, the texture and the thickness of the flaps were satisfactory, only one presented partial pigment deposits because of superficial necrosis. No sclerosis, contracture and l imited range of motion occurred in all flaps. According to the evaluation criteria for upper l imb function issued by Hand Surgery Branch of Chinese Medical Association, the results were excellent in 3 cases and good in 4 cases. Conclusion It is an ideal method to repair soft tissue defect of fingers by using anti-valve-inflow and pro-valve-outflow arterial ized venous flap.
OBJECTIVE: To study the forms of microcirculation of arterialized venous flap. METHODS: Twenty New Zealand rabbits were equally divided into two groups, arterialized venous flap group (group A) and control group (group B). The microcirculatory haemodynamic of arterialized venous flap was studied through observation of transparent chamber in rabbit’s ears with aspecial TV set with manification of 1000. RESULTS: The blood of arterilized venous flap flowed through venule anastomosis and drained to another venule. CONCLUSION: It is the main form of microcirculation in early stage that blood flows from venule to draining venule by way of communicating networks between venules.
In order to investigate the survival mechanism and the role of venous drainage in arterialized venous skin flap, 60 rabbits’ ears were used for research and clinical application of the flap was performed subsequently in two cases. The rabbits were divided into 4 groups. Experimental group was standard arterialized venous skin flap, control 1 group was venous skin flap, control 2 group was arterialized venous skin flap with only one drainage vein and control 3 group was normal skin flap. The process of survival of the flaps was observed by hemodynamic and histological method. The results showed that there was no significant difference between standard arterialized venous skin flap and normal skin flap (P gt; 0.01). Two cases of arterialized venous skin flap survived completely. The conclusion were as follow: 1. the opening of collateral circulation between the veinlets was the main change of the microcirculation; 2. the blood flow of the graft was changed from unphysiological circulation to physiological circulation as the time elapsed and 3. amelioration of venous drainage was important in inproving the survival rate of arterialized vein graft.
ObjectiveTo observe the effectiveness of the forearm free arterialized venous flap in repairing soft tissue defect of the hand. MethodsBetween December 2008 and January 2013, 49 cases of soft tissue defects of the hand were treated. There were 39 males and 10 females, aged 16-52 years (mean, 34 years). Defect was caused by crush injury in 34 cases, cutting injury in 7 cases, avulsion injury in 5 cases, and hot crush injury in 3 cases. The locations were index finger in 21 cases, middle finger in 14 cases, ring finger in 10 cases, little finger in 1 case, and the first web space and the dorsal palm in 3 cases. The duration of injury and admission was 2-10 hours (mean, 4.5 hours). The size of defects ranged from 2.5 cm×1.5 cm to 6.0 cm×4.5 cm. Of them, 46 cases had fracture of metacarpal or finger bone and/or injury of tendon and nerve. Emergency operation was performed in 43 cases and selective operation in 6 cases. All defects were repaired by free arterialized venous flap from the ipsilateral forearm, in which the proximal ends of veins were anastomosed to artery and vein of the finger. The flap size ranged from 3.5 cm×2.5 cm to 7.5 cm×5.3 cm. The donor site was directly sutured. ResultsSeven flaps survived which was similar to physiological free flap. Mild or medium swelling and blister were observed in 39 flaps and heavy swelling and partial necrosis occurred in 3 flaps after operation. The patients were followed up 6 months-2 years (mean, 13.5 months). The flaps had soft texture, slightly bulky appearance, and deeper color than normal skin. At last follow-up, the two-point discrimination was 16-22 mm (mean, 20 mm). According to the standard for functional evaluation issued by Hand Surgery Association of Chinese Medical Association, the results were excellent in 21 cases, good in 21 cases, fair in 3 cases, and poor in 4 cases. ConclusionIt is an ideal method to repair soft tissue defect of the hand to use forearm free arterialized venous flap. It has the advantages of massive area, no major blood vessel needed to be sacrificed, safe and easy operation, and satisfactory appearance.
ObjectiveTo explore the effectiveness of the free anastomosis cutaneous nerve double arterialized venous flap graft in repairing finger defect. MethodsBetween May 2010 and May 2013, 39 patients with finger defect were treated. There were 27 males and 12 females with an average age of 31 years (range, 17-45 years). The injury to admission time was 30-90 minutes (mean, 60 minutes). The causes included mechanical injury in 23 cases, crush injury in 11 cases, and other injury in 5 cases. The thumb was involved in 13 cases, the index finger in 11 cases, the middle finger in 9 cases, the ring finger in 4 cases, and the little finger in 2 cases. Skin soft tissue defect ranged from 2 cm×1 cm to 4 cm×2 cm. of them, 22 cases had tendon injury, 17 cases had tendon and phalanx injuries. The size of free anastomosis cutaneous nerve double arterialized venous flap ranged from 2.5 cm×1.5 cm to 4.5 cm×2.5 cm. The donor site was directly sutured. ResultsTension blister and swelling were observed at distal flap in 5 cases at 3-5 days after operation and were cured after symptomatic treatment; the other 34 flaps survived, and wound healed by first intention. Primary healing at donor site was obtained. The patients were followed up 6-12 months (mean, 9 months). The flap appearance and texture were good with two-point discrimination of 6-9 mm (mean, 7.5 mm). According to the upper extremity function evaluation criteria issued by the Hand Surgery Society of Chinese Medical Association, the results were excellent in 35 cases and good in 4 cases. ConclusionThe free anastomosis cutaneous nerve double arterialized venous flap not only can ensure the flap blood supply, but also can obviously improve the sensory function of the flap, which greatly reduces the risk of postoperative flap atrophy, and can achieved satisfactory effectiveness.
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.