Objective To present a method for quantifying the anastomosis between two vessels based on angiograpy and provide a theoretical basis for vascular study in skin flap. Methods Ten bilateral skin flaps of 20 cm×20 cmbased on deep iliac circumflex vessels were elevated fromthe abdominal wall including musculus rectus abdominis and deep superior epigastric vessels in 5 minipigs which were 100-115 cm in length and 25-35 kg in weight. One side was inserted an expander under the panniculus carnosus and was expanded regularly with 30-40 ml isotonic Na chloride injection (expanded group) and the other was unexpanded group which were without any treatment. A X-ray image of the flap vessles was obtained after a gelatinlead oxide mixture was carotid arterially injected and 24 hours of cryopreservation of the body. Three parallel lines with equal interval perpendicular to long axis of the two vessels were designed at the communication area. Vessel anastomosis quantifying was determined by counting the number of marks derived from the intersections of the lines and the vessels and statistical analysis was carried out. Results The mark of intersectionin expanded group (81.20±10.33) was more than that in unexpanded group (22.40±5.41), showing significant difference(Plt;0.01). Conclusion The method for quantifying vessel anastomosis in skin flap is simple, reliable, and easytoperform. The principles of this procedure may also be applied to other experimental and clinical studies.
Objective To investigate the origin of small saphenous vein of distally-based of sural nerve nutrient vessels flap and its clinical application. Methods The origins of nutrient vessels of small saphenousvein and communicating branches of superficial-deep vein were observed on specimens of 30 adult cadaveric low limbs by perfusing red gelatin to dissect the artery. Results The nutrient vessels of small saphenous vein originated from the heel lateral artery, the terminal perforator branches of peroneal artery and intermuscular septum perforating branches of peroneal artery. There were 2 to 5 branches ofsuch distally-based perforating branches whose diameters ranged from 0.6 to 1.0 mm. Those perforating branches included fascia branches, cutaneous branches nerve and vein nutrient branches. Those nutrient vessels formed a longitudinalvessel chain of sural nerve shaft, vessel chain of vein side and vessel networkof deep superficial fascia. The small saphenous vein had 1 to 2 communicating branches of superficial-deep vein whose diameter was 1.7±0.5 mm, 3.4±0.9 cm to the level of cusp of lateral malleolus, and converged into the fibular vein. Conclusion Distally-based sural nerve, small saphenous vein, and nutrient vessles of fascia skin have the same region. The communicating branches of superficial-deep vein is 3 to 4 cm to the level of cusp lateral malleolus. These communicating branches could improve the venousdrainage of the flap.
目的 探讨腔镜深筋膜下交通支离断术(subfascial endoscopic perforating vein surgery,SEPS)治疗下肢静脉性溃疡的效果及优势。方法 对苏州大学附属第一医院2006年12月至2008年5月期间收治的30例下肢静脉性溃疡患者(32条患肢)实施SEPS。术后观察溃疡的愈合情况及其他症状的改善情况。结果 全组随访3~15个月(平均8.5个月),静脉性溃疡于术后27~103 d(平均65 d)内愈合,湿疹消失,色素沉着逐渐变浅; 随访期间无切口感染等并发症,未见溃疡复发及新生溃疡。结论 SEPS安全有效,损伤小,并发症少,是治疗下肢静脉性溃疡较为有效的方法。
目的 探讨腔镜深筋膜下交通支结扎(SEPS)+溃疡周围环缝术联合治疗慢性下肢静脉性溃疡的临床疗效。方法 2004年3月至2006年9月对23例慢性下肢静脉性溃疡患者实施SEPS+溃疡周围环缝术(联合治疗组)。另有SEPS组(19例)和溃疡周围环缝组(30例)作对照。所有病例均行常规大隐静脉高位结扎+剥脱术。结果 联合治疗组溃疡于术后12~60 d愈合,平均25.7 d; SEPS组于术后18~90 d愈合,平均35.1 d; 溃疡周围环缝组于术后21~90 d愈合,平均47.3 d,各组间差异均有统计学意义(P<0.05)。3组间复发率比较,差异无统计学意义(Pgt;0.05)。结论 SEPS+溃疡周围环缝术能够有效地治疗慢性下肢静脉性溃疡,2个术式联合应用其溃疡愈合时间较单独应用缩短。