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find Keyword "Nerve compression syndrome" 3 results
  • SURGICAL TREATMENT OF SUPRASCAPULAR NERVE COMPRESSION SYNDROME THROUGH POSTERIORAPPROACH

    Objective To discuss the optimal approach to treat suprascapular nerve compression syndrome. Methods From January 2000 to June 2003, 8 cases of suprascapular nerve compression syndrome were treated by surgical intervention to cut the transverse scapular ligament through posterior approach. Of the 8 patients, there were 2 males and 6 females (age ranged from 21 to 53) with duration of 6 months to 3 years. The change of symptom, muscle power, and muscle atrophy after operation were observed. Results One week after operation, pain around the scapular disappeared, muscle power of supraspinatus and infraspinatus muscles recovered to normal. One, 6, 12 and 16 months after the operation, the patients were followed up. No recurrence was observed. Muscle atrophy didn’t recover.Conclusion To treat suprascapular nerve compression syndrome with operation through posterior approach is easy to operate. When the suprascapular nerve is entrapped in scapular notch, this approach is a good choice.

    Release date:2016-09-01 09:28 Export PDF Favorites Scan
  • THE DIAGNOSIS AND TREATMENT OF QUADRILATERAL SPACE SYNDROME

    OBJECTIVE: To investigate the compression feature, clinical manifestation and the results of treatment of quadrilateral space syndrome. METHODS: Four patients with axillary nerve entrapment at quadrilateral space had been treated and followed up for 5 to 12 months from May 1999 to June 2000. The causes, symptoms, signs and the treatment management of those cases were analyzed. RESULTS: Among the 3 cases which received operation, sensation and motor function completely recovered in 2 cases and partially recovered in 1 case. No obvious recovery of sensation and motor function in the case which received local nerve blocking treatment. CONCLUSION: The main diagnostic evidence for axillary nerve entrapment is the deltoid muscle paralysis and paresthesia in the lateral side of shoulder, and early neurolysis is recommended as soon as the diagnosis is clarified.

    Release date:2016-09-01 10:21 Export PDF Favorites Scan
  • EXPRESSION OF CONNECTIVE TISSUE GROWTH FACTOR IN SCIATIC NERVE AFTER CHRONIC COMPRESSION INJURY AND EFFECT OF RHODIOLA SACHALINENSIS ON ITS EXPRESSION

    ObjectiveTo investigate the expression of connective tissue growth factor (CTGF) in the chronic sciatic nerve compression injury and to explore the effect of rhodiola sachalinensis on the expression of CTGF. MethodsForty-five adult male Sprague Dawley rats were randomly divided into groups A, B, and C:In group A (sham-operated group), only the sciatic nerve was exposed; in group B (compression group), sciatic nerve entrapment operation was performed on the right hind leg according to Mackinnon method to establish the chronic sciatic nerve compression model; and in group C (compression and rhodiola sachalinensis group), the sciatic nerve entrapment operation was performed on the right hind leg and rhodiola sachalinensis (2 g/mL) was given by gavage at a dose of 0.5 mL/100 g for 2 weeks. The nerve function index (SFI) was observed and neural electrophysiology was performed; histology, transmission electron microscope, real-time fluorescent quantitative PCR, and Western blot were performed to observe the morphological changes of the compressed nerve tissue and to determine the mRNA and protein levels of CTGF, collagen type I, and collagen type Ⅲ at 2, 6, and 10 weeks after operation. ResultsAt 6 and 10 weeks after operation, SFI of groups A and C were significantly better than that of group B (P < 0.05), but there was no significant difference between groups A and C (P > 0.05). The nerve function test showed that the nerve motor conduction velocity (MCV) and the amplitude of compound muscle action potential (CMAP) of group B were significantly lower than those of groups A and C, and distal motor latency (DML) was significantly prolonged in group B (P < 0.05), but there was no significant difference between groups A and C (P > 0.05). Histology and transmission electron microscope observations showed that myelinated nerve fibers degenerated and collagen fiber hyperplasia after sciatic nerve chronic injury in group B, and rhodiola sachalinensis could promote the repair of nerve fibers in group C. At 2 weeks postoperatively, the number of myelinated nerve fibers in groups B and C were significantly less than that of group A (P < 0.05), and the myelin sheath thickness of groups B and C were significantly larger than that of group A (P < 0.05). At 6 and 10 weeks postoperatively, the number of myelinated nerve fibers in groups B and C were significantly more than that of group A (P < 0.05); the myelin sheath thickness of group B was significantly less than that of groups A and C (P < 0.05). The effective area of nerve fiber had no significant difference among groups at each time point (P > 0.05). Real-time fluorescent quantitative PCR and Western blot results showed that the mRNA and protein expressions of CTGF, collagen type I, and collagen type Ⅲ in group B were significantly higher than those in groups A and C at each time point (P < 0.05), but there was no significant difference between groups A and C (P > 0.05). ConclusionSciatic nerve fibrosis can be caused by chronic nerve compression. The increased expression of CTGF suggests that CTGF plays an important role in the process of neural injury and fibrosis. Rhodiola sachalinensis can significantly reduce the level of CTGF and plays an important role in nerve functional recovery.

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