T ree cases of sarcomas of theJ we femur were treated by region-a?ir? ation with overdosage of me-chlorethamine for 3 weeks and there-after a high amputation was done,and the distal leg was replantedwith the length that the anklewould act as a knee joint and thefoot pointing backword. Follow-upfor 1 -5 years discovered no me-tastasie of the tumor and the artifi-cial limb showed a better function.
OBJECTIVE: To discuss the indication of replantation of destructive amputation of multiple fingers for improvement of the function of injured fingers. METHODS: From February 1996 to August 1999, 23 amputated fingers in 8 cases were shortened and replanted. The crushed digital bones were fixed by Kirschner wires, flexor tendons repaired by Kessler suture technique, and digital extensor tendons repaired by mattress suture. The arteries and veins were anastomosed in each finger at the ratio of 1 to 2 or 2 to 3. The defect of blood vessels was repaired by free graft of autologous veins in 5 fingers. All of the cases were followed up for 10 to 18 months, and clinical evaluation was performed. RESULTS: All replanted fingers survived in the 8 cases, with good sensation, two point discrimination of 6 to 12 mm, and satisfied function, such as pinching, grasping and hooking. The fingers were shortened for 2.6 cm in average, ranging from 2.2 cm to 4.0 cm. CONCLUSION: Multiple digits replantation by shortening fingers is beneficial to functional restoration of segmental destructive fingers.
Objective To evaluate the early clinical effect of reimplantation in the treatment of bicuspid aortic valve (BAV) with aortic root aneurysm. Methods The clinical data of 25 patients with BAV and aortic root aneurysm[mean diameter: 45-63 (52.68±5.55) mm] undergoing reimplantation in West China Hospital from November 2019 to May 2021 were retrospectively reviewed. There were 22 males and 3 females. The mean age was 15-65 (50.00±13.10) years and body surface area was 1.79±0.23 m2. ResultsThe pathological classification of BAV malformation was confirmed during the operation: Type 0 in 3 patients and Type 1 in 22 patients. There were 12 patients undergoing cusp central plication, and 2 patients were sutured with a closed fusion crest. Postoperative valve leaflet coaptation height was 0.78±0.15 cm, and effective height was 1.27±0.19 cm. In operation, maximum aortic valve flow velocity was 1.65±0.42 m/s, pressure difference was 5.46±3.05 mm Hg, and aortic valve annulus diameter was 21.32±0.95 mm. Cardiopulmonary bypass time was 225.84±35.34 min, and aortic block time was 189.60±26.51 min. In-hospital time was 11.64±3.07 d, ICU stay time was 2.64±0.99 d, and mechanical ventilation time was 1.48±0.87 d. The follow-up time was 17.20±4.70 months, and no death or major complications occurred during the follow-up in all patients. The cardiac function of the patients significantly improved postoperatively (P≤0.05). Echocardiography suggested that 12 patients had no aortic regurgitation, 10 minor aortic regurgitation, 3 mild aortic regurgitation, and no patients with moderate or more severe regurgitation. The diameter of the aortic sinus, left ventricular end-diastolic diameter and volume decreased during the follow-up, compared to preoperative ones (P≤0.05). The maximum flow velocity of the aortic valve was 1.54±0.36 m/s, and the pressure difference was 5.17±2.38 mm Hg during the follow-up. ConclusionReimplantation technology has a good clinical effect for highly selective BAV patients. It can effectively avoid long-term postoperative anticoagulation, but the maximum flow rate after surgery is slightly increased, which may be related to the configuration of BAV itself. While compared with valve replacement, the effect is still worthy of recognition.
OBJECTIVE: To investigate an effective technique of temporary ectopic implantation for amputated extremity under complex condition. METHODS: Two cases of amputated foot, which could not be implanted primarily, were treated with temporary ectopic implantation. The other leg of patient was chosen as recipient site. The posterotibial artery and saphenous vein were chosen as recipient vessels. When the general condition and the proximal condition of the amputated part were suitable, the ectopic implanted feet were transferred to their anatomic positions. RESULTS: All the feet survived after the replantation. The injured limbs recovered their normal length and sensation. The patients could walk after 4-6 months. CONCLUSION: Temporary ectopic implantation is an ideal technique for the salvage of amputated limb and organ under special condition. Severed foot and lower segment of the leg under complex condition were the best indication for the temporary ectopic implantation.
OBJECTIVE To explore the pathogenic mechanism of intrinsic muscle contracture after replantation of severed palm or wrist, and put forward the prevention and treatment methods. METHODS From 1985 to 1997, 48 cases were received replantation of severed palm or wrist, among them, 9 cases with thumb adductor contracture and 6 cases with intrinsic muscle contracture were occurred in different degree. Two cases with mild thumb adductor contracture were received conservative treatment, and 7 cases with moderate thumb adductor contracture and 6 cases with intrinsic muscle contracture were received operative treatment. The pathogenic mechanism, clinical results, and prevention methods were studied in those 15 cases. RESULTS The postoperative function recovery was better in 4 cases, moderate in 5 cases with thumb adductor contracture, and better in 3 cases, moderate in 1 case with intrinsic muscle contracture, and moderate in 1 case, poor in 1 case with intrinsic muscle contracture of cord-like induration. Followed up 1 to 10 years, no recurrence was observed in all of 15 cases. The incidence and degree of thumb adductor contracture and intrinsic muscle contracture were closely related to the ischemia time of replanting graft. CONCLUSION Prevention of thumb adductor contracture and intrinsic muscle contracture is most important in severed palm or wrist replantation. When the ischemia time of replanting graft is longer than 12 hours, the effective decompression in myofascial compartment is performed in time to reach satisfactory result.