目的 探讨经肛门内镜显微手术(TEM)治疗直肠肿瘤的疗效。方法 回顾性分析2009年1~12月期间我院行TEM治疗7例直肠腺瘤患者的临床资料。结果 7例直肠肿瘤均获完整切除,切缘均阴性。手术时间55~240 min,平均110 min; 术中出血量5~100 ml,平均45 ml。术后病理诊断: 直肠绒毛状腺瘤4例,绒毛管状腺瘤2例,直肠腺癌1例。手术并发症: 术中直肠穿孔1例,肺部感染1例,尿潴留1例。 7例随访6~13个月,平均8个月,肿瘤无复发。结论 TEM治疗直肠肿瘤安全、有效。
Objective To investigate the time l imit of repairing old sciatic nerve defect in rats and observe the repair effect of autogenous nerve transplantation on old sciatic nerve defect in rats. Methods Thirty-six SD rats of clean grade wererandomized into 6 groups (n=6 per group). The animal model of nerve defect was made by transecting left sciatic nerve at the mid-thigh level. For groups A1, B1 and C1, defects were repaired by the contralateral autogenous nerve transplantation 1, 3 or 6 months after nerve damage and for the control groups of A2, B2 and C2, defects were not repaired. After operation, the gait, toe skin and leg muscle were examined weekly. Three months after autograft, a combination of electrophysiology examination, fluoro gold (FG) retrograde tracing and histological assessment including l ight microscopy, TEM was util ized to investigate the nerve functional recovery. Results Lameness and foot skin ulcers were observed in each group after nerve damage. At 2 months after autograft, such denervation symptoms were only improved in groups A1 and B1. At 3 months after autograft, the motor conduction velocity was (21.84 ± 6.74), (20.02 ± 4.17) and (16.09 ± 8.21) m/s in groups A1, B1 and C1, respectively, showing no statistically significant difference between them (P gt; 0.05). The ampl itude of compound muscle action potential (CAMP) was (12.68 ± 4.38), (9.20 ± 3.43) and (1.22 ± 0.39) mV in groups A1, B1 and C1, respectively, indicating significant differences between groups A1, B1 and group C1 (P lt; 0.05). No CAMP was evident in groups A2, B2 and C2. FG retrograde tracing conducted 3 months after autograft showed that the positive cells were most common in group A1 with big soma, mild in group B1 and lest in group C1 with smallest soma. Gastrocnemius Masson staining showed that the fiber morphology of gastrocnemius in groups A1 and B1 was close to normal, while the rest 4 groups had an obvious atrophy of muscle fiber. The fiber cross-section area was (340.73 ± 118.46), (299.88 ± 119.75), (54.33 ± 53.43), (78.60 ± 51.38), (65.62 ± 25.36), and (40.93 ± 28.22) μm2 in groups A1, B1, C1, A2, B2 and C2, respectively, indicating a significant difference between groups A1, B1 and groups C1, A2, B2 (P lt; 0.05). Neurohistology observation showed that more regenerated nerve fibers were observed in group A1 and B1, but less in group C1. The myel in sheath was thick in groups A1 and B1, while it was thin in group C1. Only SCs and hyperplastic collagen fiber were found in groups A2, B2 and C2. Conclusion Autogenous nerve transplantation is capable of repairing 1- and 3- month sciatic nerve defect to some degree in rat, but repair effect is not obvious on 6-month sciatic nerve defect in rats.