To explore the effectiveness and methods of intervention assistant operation in the treatment of phalanx closed fracture combined with artery crisis. Methods Between August 2002 and December 2008, 24 cases (31 toes) of phalanx closed fracture combined with artery crisis were treated. There were 17 males (22 toes) and 7 females (9 toes), aged from 16 to 62 years (mean, 38 years). The causes of injury included crush and bruise (20 cases), traffic accident (3 cases),and machine twist (1 case). The locations were the first toe (19 toes), the second toe (10 toes), and the third toe (2 toes). The period between injury and hospital ization was 1-10 hours (mean, 6.8 hours). Phalanx angiography was performed by using venous indwell ing needle for dorsal is pedis artery and posterior tibial artery puncture; according to angiography results, proper treatment could be done, then the constrast medium was injected to the artery to observe the blood supply. According to different types and locations of fracture, Kirschner wire and plate were choosen to fix fracture after the blood supply were recovered. Results Two cases (2 toes) received amputation due to necrosis at 4 days and 6 days after interventional therapy, respectively. Twenty-two cases (29 toes) survived. Incision healed primarily in 21 cases. Exudation occurred at wound of 1 case and was cured at 3 weeks after dressing change. Twenty-two cases (29 toes) were followed up 1-6 years (mean, 3.5 years) postoperatively. Two cases (3 toes) felt cool or anaesthesia and could not tolerate even in cold environment. The other toes had no senses of cold pain and paresthesia. Two cases (2 toes) had nonunion and achieved fracture heal ing after grafting bone. The mean union time was 4.5 months (range, 3-6 months) in other cases. Conclusion Intervention assistant operation is an effective measure in the treatment of phalanx closed fracture combined with artery crisis.
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.
Objective To explore the clinical experience on treatment of thromboangitis obliterans (TAO) by embolectomy. Methods Fourteen of 121 patients with TAO treated in our hospital from March 2000 to March 2010 were included in this study. Total 14 limbs consisted of 2 upper extremities and 12 lower extremities. Among these cases, 8 cases underwent embolectomy and 6 cases received embolectomy combined the stem cell transplantation. Results Of 14 cases of TAO patients, 11 cases were successfully treated by surgery and 3 cases failed. After successful operation, patient’s pain disappeared and anklebrachial index improved obviously. Seven patients treated successfully by surgery were followed up from 5 months to 8.5 years (mean 4 years), in whom the intermittent claudication and rest pain disappeared in 4 cases, and disease deteriorated in 2 cases who always smoked, and one case had intermittent claudication who stopped smoking. For 3 cases patients failed to operation, one lost followup, one had to receive a below knee amputation due to keep smoking after operation, and one case who stopped smoking underwent alleviative symptoms for 3 years. Conclusion Embolectomy is a safe and effective technique for treating TAO.
OBJECTIVE: To observe the architecture of elastic fiber of anastomosed artery. METHODS: The right femoral arteries of 60 Wistar rats were cut off transversely and end-to-end anastomosis were performed. On the 3rd, 7th, 14th, 21st, 30th and 90th days after operation, the anastomosed artery segments were harvested and fixed by 10% formalin. After routine processed, the architecture of elastic fiber of anastomosed artery was observed under scanning electronic microscope and was compared with that of normal artery. RESULTS: On the 3rd and 7th days after anastomosis, there was no the elastic fiber in the middle of the anastomosed area. From 14 to 90 days after anastomosis, the newborn elastic fiber connected the anastomosed area. The reconstruction of elastic fiber could be divided into quiescent stage, proliferation stage, and rebuilding stage. CONCLUSION: The reconstruction of elastic fiber occurs after arterious anastomosis and newborn elastic fiber originates from endoarterious layer. The structure of elastic fiber can return to normal 30 days after anastomosis.
Objective To explore the methods of early diagnosis of arteriosclerosis obliterans of lower extremity (ASOLE). Methods The related literatures on ASOLE detection means adopted clinically were reviewed, and their advantages and disadvantages were compared.Results Asymptomatic ASOLE could be discovered by determination of ankle brachial index (ABI) and toe brachial index (TBI), which was a good index for arterial function assessment of lower extremity. Pulse wave velocity (PWV) was more vulnerable and less sensitive than ABI, and therefore more suitable for screening of a large sample. ASI was an index to assess arterial structure and function, and it had a good correlation with PWV. Flow-mediated dilation (FMD) was a measurement evaluating the function of endothelial cell; Pulse wave measurement was simple, sensitive, and its result was reliable. Color Doppler ultrasonography could localizate the lesion and determine the degree of stenosis at the same time. Multiple-slice CT angiography (MSCTA) was more accurate than color Doppler ultrasonography, but its inherent shortcomings, such as nephrotoxicity of contrast agent, was still need to be resolved. 3D-contrast enhancement magnetic resonance angiography (CEMRA) had little nephrotoxicity, but a combination of other imaging methods was necessary. Microcirculation detections required high consistency of the measurement environment, but they were simple, sensitive and noninvasive, and therefore could be used for screening of ASO. Conclusion Publicity and education of highrisk groups, and reasonable selection of all kinds of detection means, are helpful to improve the early diagnosis of ASOLE.
This experiment consisted of removing a segment of femoral artery measuring 3cm from Japanese white rabbits. The arterial segments were divided into 3 groups and grafted as homograft at different periods of time. The segments in group 1 were grafted immediatly after their removals, those in the group 2 and group 3 were stored at -30 and -196 degrees centigrade before grafting, respectively. The results from gross and histological examinations, it was noted that following deep freezing the long term patency rate after grafting of the arterial homografts was superior to those not undergoing deep freezing. Those stored at 30 degrees centigrade for 12 weeks had the lowest patency rate.
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 improve arterial anastomosis method for rat renal transplantation. Methods Renal transplantations were performed on 72 wistar rats. The donor superior mesenteric artery was end-to-end anastomosed to the recipient left renal artery by using of sleeve anastomosis technique. The external diameters of the vessels anastomosed were 0.60±0.05 mm (left renal artery) or 0.80±0.07 mm (superior mesenteric artery). The procedure consisted of a guidingsuture and two fixing sutures. The guiding suture was used to “telescope” therecipient left renal artery into the donor superior mesenteric artery about 2 millimetre. Two fixing sutures were applied 180°apart from each other and tied. Three sutures passed through all layers of the donor superior mesenteric artery andconstricted the vessel lumen, but only penetrated the adventitia of the recipient left renal artery. Results The time for arterial anastomoses was approximately 6 to 8 minutes. The renal grafts perfused very well after the recipient left renal artery clamp was removed. Complications included anastomotic hemorrhage(1 case) and thrombosis (1 case). Histologic examination of 34 grafts at different postoperative time ranging from 6 to 30 days revealed that renal artery was fully patent, with no evidence of ischemic injury. Conclusion The modified arterial sleeve anastomosis technique is simple and feasible regardless of experimentalcondition and can be easily performed.
Objective To investigate the clinical application of fistulation of artery and vein with self-blood vessel transplantation. Methods Seven patients with renal failure were given antebrachial fistulation of artery and veinwith great saphenous veins of themselves. The ortho- and pachy-great saphenous vein was chosed after it was cut. The great saphenous vein was passed bridge inside forearm in straight line or morpha-U. The method was anastomosis of the radial artery or brachial artery and cephalic vein, basilic vein or median cubital vein. Results The fistulations of artery and vein were successfuland all patients were in hemodialysis regularly. Conclusion The fistulation of artery andvein with selfblood vessel transplantation is a convenient, easy, cheap operation. It can coincide with the clinical demand and be used to make up the failureof fistulation or the fistulation that there is no blood vessel in the forearm.
Objective To explore the feasibility of high-pressure injection to transfer human thrombomodulin (hTM) gene into arterial wall of rabbits.Methods Eighty-four healthy New Zealand rabbits were randomly divided into three groups: pcDNA3.1/hTM plasmid group (n=28), pcDNA3.1(+)/neo plasmid group (n=28) and untransfected group (n=28). After gene transfection, the model of arterial injury-blocking was established. Then, the expressions of hTM mRNA and protein in arterial wall were examined by RT-PCR and immunohistochemistry at 3 d, 7 d, 14 d and 28 d after operation. Results Seventeen rabbits died accidentally from the day of operation to 3 d after operation. The expressions of hTM mRNA of different time points in pcDNA3.1/hTM plasmid group were significantly higher than that in pcDNA3.1(+)/neo plasmid group and untransfected group (Plt;0.01). For the expressions of hTM mRNA at different time points in pcDNA3.1(+)/neo plasmid group and untransfected group, the difference of inter-group and intra-group was not significant (Pgt;0.05). hTM protein was expressed in every group and mainly localized in the inner lining of arterial wall. The expressions of hTM protein at different time points in pcDNA3.1/hTM plasmid group were significantly higher than that in pcDNA3.1(+)/neo plasmid group and untransfected group (Plt;0.05). The expression of hTM protein at different time points in pcDNA3.1(+)/neo plasmid group and untransfected group kept relative constancy, the difference of inter-group and intra-group was also not significant (Pgt;0.05). Conclusion High-pressure injection is feasible to transfer pcDNA3.1/hTM plasmid into arterial wall of live animals.