OBJECTIVE: To investigate the relationship between the different defect length of vessels and the options of vascular repair, and to compare the different options of repair because of the longitudinal biomechanical effect. METHODS: A clinical analysis was undertaken to evaluate the major arterial and venous injuries in human extremities repaired by end-to-end anastomoses or venous autograft(177 cases, 185 vessels). Compared the defect length of the same kind of vessels repaired by different options (Student-t test). Evaluated the defect length to repair arterial injuries between by end-to-end anastomoses and by vein graft by means of 95% confidence interval. RESULTS: There was significant difference between the defect length of brachial artery repaired by end-to-end anastomosis and femoral artery and popliteal artery repaired by autogenous vein graft (P lt; 0.01). The upper limit of confidence interval in the defect length of brachial artery, femoral artery and popliteal artery was 3.17 cm, 2.81 cm and 2.44 cm respectively by end-to-end anastomosis by means of 95% confidence interval. The lower limit of confidence interval in the defect length of brachial artery, femoral artery and popliteal artery was 2.82 cm, 2.41 cm and 2.17 cm respectively by vein graft by means of 95% confidence interval. The defect length of brachial artery, femoral artery and popliteal artery repaired by vein graft was linear correlation with the length of graft. CONCLUSION: Because of the longitudinal biomechanical difference of arteries and veins in human extremities, different options of repair are necessary to different arterial injuries.
In order to develope a new method to overcome the difficulties in anastomosis of blood vessels with different diameter, phleboplasty was utilized at the join-point to expand the diameter of branched vein graft, with a funnel-shaped stoma formed consequently. After successfully experimented in fresh blood vessels in vitro, the method was practised clinically to repair injured arteries in extremities, with the outcome that phleboplasty of branched vein graft could enlarge the diameter by 1-1.25 times, and with satisfied effects in 3 clinic cases. So, the conclusion was that: phleboplasty of branched vein graft was a new effective and convinient method to repair injured arteries with different diameters
Abstract During 1960 to 1995, 19 of the 269 casesof arterial injuries in limbs treated developed ischemic contracture (7.06%), in which 14 in the lower limbs and 5 in the upper limbs. In the 19 cases, 3 injured arteries were not treated; 1 had his injured arteries repaired infailure; 5 cases had the concomitant veins injured, and 3 of them had their injured veins ligated in the primary treatment. Only 1 case received fasciotomy in his former treatment in other hospital. Four cases were admitted in our Institute in 14 hours, 8 cases were 34 to 57 hours and 7 were 19 days to 19 months after injury. Seventeen out of the 19 injured ateries and 5 out of the 8 injured vein were repaired. Eight cases received fasciotomy. The follow up ranged from 3months to 28 years (averaged 5 years). Sixteen out of the 17 injured arteries remained patent after repair, and the patency were proved by Bultrasound. The causes of ischemic contracture in these cases were analyzed. It was concluded that in order to prevent the limb from ischemic contracture, it should be emphasized that the accurate diagnosis of the injury of the artery and its concomitant ein be made early, the proper treatment be given to the injured artery and vein,and fasciotomy be done immediately as indicated.