Objective To evaluate the surgical method and the results of endoscopic decompression and anterior transposition of the ulnar nerve for treatment of cubital tunnel syndrome. Methods Between May 2008 and August 2009, 13 cases of cubital tunnel syndrome were treated with endoscopic decompression and anterior transposition of the ulnar nerve. There were 4 males and 9 females with an average age of 47.5 years (range, 32-60 years). The injury was caused by fractures of the humeral medial condyle in 1 case, by long working in elbow flexion position with no obvious injury in 10 cases, and subluxafion of ulnar nerve in 2 cases. The locations were the left side in 6 cases and the right side in 7 cases. The disease duration was 4-30 months. The time from onset to operation was 3-20 months (mean, 8.5 months). Ten patients compl icated by intrinsic muscle atrophy. Results The operation was successfully performed in 13 cases, and the operation time was 45-60 minutes. All the wounds gained primary heal ing. All patients were followed up 12-18 months (mean, 14 months). The numbness of ring finger, l ittle finger, and the ulnar side of hand were decreased obviously on the first day after operation. The examination of electromyogram showed that the ulnar nerve conduction increased at 2 weeks, the ampl itude was improved, and recruitment of the intrinsic muscles of hand enhanced. In 10 cases compl icated by intrinsic muscle atrophy, myodynamia was recovered to the normal in 7 cases and was mostly recovered in 3 cases at 3 months after operation. The symptom of cubital tunnel syndrome disappeared and gained a normal function at 12 months after operation. According to the assessment of Chinese Medical Association and Lascar et al. grading criteria, the cl inical results were excellent in 10 cases and good in 3; the excellent and good rate was 100%. Patients recovered to work 12-16 days (mean, 14 days) after operation. No recurrence occurred during followup. Conclusion The surgical method of endoscope and microscope assisted three small incisions for treatment cubital tunnel syndrome has less invasion with small incision and complete decompression. Patients can recover to work early. It is a convenient and efficient procedure for treating cubital tunnel syndrome.
Objective To evaluate and compare the efficacy of anterior subcutaneous and submuscular transposition of the ulnar nerve in treating cubital tunnel syndrome. Methods From August 2006 to August 2008, 66 patients with cubital tunnel syndrome were treated with anterior subcutaneous transposition (subcutaneous group, 24 cases) and with anterior submuscular transposition (submuscular group, 42 cases). According to McGowan stages, all patients were at Stage2 or 3 entrapment neuropathy with paresthesia in the ring and small fingers. Respectively, 3 cases and 8 cases compl icated by interosseous muscle atrophy in subcutaneous group and in submuscular group. No significant difference was found in gender, age, duration of the disease, and compl ication between two groups (P lt; 0.05). The surgical features, distribution of Bishop rates, two-point discrimination test, muscular strength, and compl ications were recorded. Results The operation time was (28.4 ± 5.2) minutes in subcutaneous group and (43.8 ± 5.6) minutes in submuscular group, showing significant difference (P lt; 0.01). The incision length was (12.2 ± 2.5) cm in subcutaneous group and (13.6 ± 2.8) cm in submuscular group, showing significant difference (P lt; 0.05). All patients were followed up 1-3 years. According to Bishop scoring system, the results were excellent in 18 cases, good in 4 cases, and poor in 2 cases in subcutaneous group; excellent in 36 cases, good in 3 cases, and poor in 3 cases in submuscular group; and showing no significant difference between two groups (P gt; 0.05). At 6 months postoperatively, twopoint discrimination and grip strength were improved when compared with that of preoperation (P lt; 0.05), but there was no significant difference between two groups (P gt; 0.05). Pain and dysesthesia of the scar were noted in 1 patient of the subcutaneous group and 3 patients of the submuscular group. No infection or hematoma was found and no patient needed reoperation. Conclusion Both operative methods are effective alternative for treating cubital tunnel syndrome. The anterior ubcutaneous anterior transposition of the ulnar nerve has fewer traumas, and it is a better choice for some old patients.
Objective To investigate the effect of neurolysis on intractable greater occipital nerve neuralgia. Methods From March 1998 to August 2005, twentysix patients suffering from intractable greater occipital nerve neuralgia were treated. There were 12 males and 14 females with an average age of 52 years(ranged 38-63 years). The disease course was 3-7 years. Sixteen cases had a long duration of work with bowing head, 5 cases symptoms appeared after trauma, and others had no identified causes. The visual analogue scales(VAS) scoring was 6.0 to 9.5, averaged 8.6. Seven cases were treated by apocope of obliquus capitis inferior under general anaesthesia and 19 cases were treated by neurolysis of greater occipital nerve under local anaesthesia. The compression mass were examined. Results Symptoms ameliorated or disappeared in 26 cases immediately after operation. The wounds healedby first intention. The pathological results of the removal mass included lymphnode (3 cases), neurilemmoma (2 cases) and scar (5 cases). The VAS scoring of 26 cases was 0 to 5 ( average, 2) 3 days after operation. Twentythree cases were followed up for 1 to 3 years. The VAS scoring of 23 cases was 0 to 4.5 ( average, 1.9) 1 months after operation. Only two cases recurred and the symptoms were ameliorated. Pain aggavated after tiredness and reliveed after oral antiinflammatory analgesics in 6 cases. No relapse occurred in the others. Conclusion The complete neurolysis of greater occipital nerve (including apocope of obliquuscapitis inferior, release between the cucullaris and semispinalis) which make the greater occipital nerve goes without any compression is the key point to treat intractable greater occipital nerve neuralgia.
OBJECTIVE: To investigate the changes of regeneration and conduction function for peripheral nerve after neurolysis by nerve special staining and electrophysiology. METHODS: Sixty Sprague-Dawley male rats were randomly divided into four groups(n = 15), four methods were designed on rats models of sciatic nerve compression. There were simple decompression as group A, internal neurolysis after decompression as group B, lemithason(0.5 mg/kg) injected in the epineurium after decompression as group C, and lemithason(0.5 mg/kg) injected around the epineurium after decompression and internal neurolysis as group D. Motor nerve conduction velocity(MNCV) and motor latency (Lan) were monitored at 1,2,3,4,5 weeks after decompression, sections were regularly taken from the previously compressed area to perform morphometric analysis. RESULTS: After 2 weeks of decompression, the significant recovery were observed in both MNCV and Lan of four groups. Up to the 5th week of decompression, recovery of electrophysiology was significantly faster in group C and D than that of group A and B, particular in group C(P lt; 0.05), while group A compared with group B, there was no statistical difference in both MNCV and Lan(P gt; 0.05). Morphometric analysis showed that a lot of neural regeneration fibers were observed in group C and D after 3 weeks of decompression. CONCLUSION: Decompression can improve nerve conduction function significantly, while injection of lemithason in epineurium after decompression can promote the structure and function recovery of injured nerve.
ObjectiveTo investigate the effectiveness of tibial transverse transport (TTT) combined with modified neurolysis in treatment of diabetic foot ulcer (DFU) through a prospective randomized controlled study. Methods The patients with DFU and diabetic peripheral neuropathy, who were admitted between February 2020 and February 2022, were selected as the research objects, of which 31 cases met the selection criteria and were included in the study. The patients were divided into two groups by random number table method. The 15 patients in the trial group were treated with TTT combined with modified neurolysis, and the 16 patients in the control group received treatment with TTT alone. There was no significant difference in gender, age, duration of DFU, ulcer area, Wagner classification, as well as preoperative foot skin temperature, visual analogue scale (VAS) score, ankle-brachial index (ABI), motor nerve conduction velocity (MNCV) of the common peroneal nerve, MNCV of the tibial nerve, MNCV of the deep peroneal nerve, two-point discrimination (2-PD) of heel, and cross-sectional area (CSA) of the common peroneal nerve between the two groups (P>0.05). The time for ulcer healing, foot skin temperature, VAS scores, ABI, 2-PD of heel, and CSA of the common peroneal nerve before operation and at 6 and 12 months after operation were recorded and compared between groups. The differences in MNCV of the common peroneal nerve, MNCV of the tibial nerve, and MNCV of the deep peroneal nerve between pre-operation and 12 months after operation were calculated. Results All patients in both groups were followed up 12-24 months (mean, 13.9 months). The surgical incisions in both groups healed by first intention and no needle tract infections occurred during the bone transport phase. Ulcer wounds in both groups healed successfully, and there was no significant difference in the healing time (P>0.05). During the follow-up, there was no ulcer recurrences. At 12 months after operation, the MNCV of the common peroneal nerve, the MNCV of the tibial nerve, and the MNCV of the deep peroneal nerve in both groups accelerated when compared to preoperative values (P<0.05). Furthermore, the trial group exhibited a greater acceleration in MNCV compared to the control group, and the difference was significant (P<0.05). The foot skin temperature, VAS score, ABI, 2-PD of heel, and CSA of the common peroneal nerve at 6 and 12 months after operation significantly improved when compared with those before operation in both groups (P<0.05). The 2-PD gradually improved over time, showing significant difference (P<0.05). The 2-PD of heel and VAS score of the trial group were superior to the control group, and the differences were significant (P<0.05). There was no significant difference in ABI, foot skin temperature, and CSA of the common peroneal nerve between groups after operation (P>0.05). Conclusion Compared with TTT alone, the TTT combined with modified neurolysis for DFU can simultaneously solve both microcirculatory disorders and nerve compression, improve the quality of nerve function recovery, and enhance the patient’s quality of life.