Objective To investigate the procedure and clinical effect of revascularization for arterial occlusion in lower extremity. Methods From July 1998 to March 2005, 29 cases of arterial occlusion were treated by microsurgery. Of 29 cases, there 22 males and 7 females, aging 22-86 years, including 9 cases of thromboangiitis obliterans(TAO), 17 cases of arterial sclerosis obstruction(ASO) and 3 cases of diabetic foot(DF). The location was the left in 17 cases, the right in 11 cases and both sides in 1 case. All cases were inspected by color-Doppler ultrasonic scanning before operation. The cases of ASO and DF were checked with MRA. The results of examinations showed that the locations of arteriostenosis and obstruction were: in 9 cases of TAO, the distal superficial femoral artery in 3 cases, popliteal artery in 5 cases, bilateral dorsal metatarsal artery in 1 case; in 17 cases of ASO, common iliac artery in 2 cases, external iliac artery in 4 cases, femoral artery in 10 cases and popliteal artery in 1 case; and were all superficial femoral artery in 3 cases of DF. DSA examination confirmed that there was appropriate outflow in 15 cases. Basing on the location and extent of the arterial occlusion, 11 cases were treated by the primary deep vein arterializing, 16 cases by arterial bypass distribution and 2 cases of extensive common iliac arterial occlusion were amputated in the level of 1/3 distal thigh. Results The postoperative duration of follow-up for all cases was 3 months to 7 years. In 9 cases of TAO, 2 healed by first intention after deterioration, 4 healed after changing dressing and 3 had fresh soft tissue growth after debrided superficial secondary necrosis. In 17 cases of ASO, 13 healed by first intention, 2 healed after changing dressing and 2 were amputated. In 3 cases of DF, 2 healed after changed dressing and debrided, 1 was aggravated with the second toe necrosis. Conclusion Performing primary deep veinarteriolization and arterial bypassdistribution is effective for treatment of arterial occlusion of lower extremity. The arterial reconstructive patency rate can be improved by microsurgical treatment.
Objective To investigate the etiology, diagnosis, and treatment of acute carpal tunnel syndrome (ACTS) after reduction of Colles’ fracture. Methods Between December 2006 and June 2010, 22 patients with ACTS after reduction of Colles’ fracture were treated with expectant treatment and surgical treatment. There were 9 males and 13 females with an average age of 46.2 years (range, 23-60 years). Fractures were caused by traffic accident in 9 cases, fall ing in 8 cases, fall ing from height in 2 cases, hitting in 2 cases, and crushing in 1 case. The mechanism of fracture was direct violence in 3 cases and indirect violence in 19 cases. According to Gartland & Werley classification, there were 2 cases of type I, 5 cases of type II, 14 cases of type III, and 1 case of type IV. Closed reduction was performed in 19 cases and open reduction and internal fixation (ORIF) in 3 cases. The average symptom time of ACTS after reduction of Colles’ fracture was 11.6 hours (range, 1 hour 30 minutes to 48 hours) in patients undergoing closed reduction and was 24 hours in 1 patient and 2 weeks in 2 patients undergoing ORIF. Expectant treatment was performed first, the forearms were put in neutral position in closed reduction cases; if there was no rel ief of ACTS symptom 1 week later, the mixture of 1 mL glucocorticosteroid and 1 mL 2% l idocaine was injected into carpal tunnel once a week for 2 weeks. The mixture was injected into carpal tunnel directly once a week for 2 weeks in ORIF cases. In the patients who failed to expectant treatments, ORIF was performed. Results In 7 cases of type III that failed expectant treatment, ACTS symptoms were rel ief completely after ORIF. All the 22 patients were followed up 12 months on average (range, 8-18 months). The average time of complete disappearance of median nerve compression symptom was 11 days (range, 2-25 days). All the patients had normal finger motion, sensation, and opposition of thumb with no sensation of anaesthesia and pinprick. The results of Tinel test, Phalen test, and Reverse Phalen test were all negative. The X-ray film showed good fracture reduction and heal ing with an average heal ing time of 6 weeks (range, 3-14 weeks). According to GU Yudong’s criteria for functionalassessment, the results were excellent in 18 cases and good in 4 cases; the excellent and good rate was 100%. Conclusion Malposition, displacement of fracture fragments, and ulnar deviation of the wrist after plaster immobil ization are the mostimportant risk factors for ACTS. Expectant treatments are recommended in patients with Colles’ fracture of types I, II, and IV,but surgical treatment is the first choice for Colles’ fracture of type III.