Objective To explore the effectiveness of cyanoacrylates (Fuaile) for spinal subdural benign tumorectomy to prevent the cerebrospinal fluid leakage. Methods Between January 2009 and March 2013, 35 patients underwent spinal subdural benign tumorectomy. Of 35 patients, Fuaile and gelatin sponge were used after stitch suture for a watertight closure of the dura in 19 cases (trial group), and only gelatin sponge was used after stitch suture in 16 cases (control group). There was no significant difference in gender, age, disease duration, types of tumors, and sites of tumors between 2 groups (P gt; 0.05). The ratio of watertight closure, incision healing, and relative complications were compared between 2 groups. Results All patients in 2 groups achieved watertight closure of the dura intraoperatively. There was no significant difference in operation time, intraoperative blood loss, length of dura incision, hospitalization time, total drainage volume, and drainage time between 2 groups (P gt; 0.05). Primary incision healing was obtained; no delayed healing, infection, or nerve compression occurred in all patients. At last follow-up, the ratios of successful watertight closure of trial and control groups were 89.5% (17/19) and 50.0% (8/16) respectively, showing significant difference (P=0.02). No delayed cerebrospinal fluid leakage or incision infection was found at 1 and 3 months after operation. Conclusion The application of cyanoacrylates for watertight closure of dura in spinal subdural benign tumorectomy is safe and effective.
ObjectiveTo study the long-term prevention effect of self-developed chitosan electrospun membrane on cerebrospinal fluid leakage. MethodsTwenty-five healthy adult New Zealand rabbits were selected to prepare the bilateral dural defect (0.8 cm×0.8 cm in size) via midline incision of head.Defect of the right was repaired with chitosan electrospun membrane as the experimental group; defect of the left was not repaired as the control group.At 2-16 weeks after operation,one rabbit was sacrificed for the general observation of inflammatory response surrounding bone window and absorption of chitosan electrospun membrane; at 3 and 6 weeks after operation,5 rabbits were sacrificed for sampling to observe histological change and collagen expression by HE and Masson staining,and to measure the expressions of epidermal growth factor receptor (EGFR) and basic fibroblast growth factor (bFGF) by immunohistochemical staining. ResultsNo inflammatory reaction of swelling,exudation,and sppuration appeared in the skin and subcutaneous tissue after operation in 2 groups.There was no adhesion around the chitosan electrospun membrane,and new fiber membrane formed under the chitosan electrospun membrane in the experimental group; no cerebrospinal fluid leakage happened; the chitosan electrospun membrane was gradually degraded with time,and was completely absorbed at 16 weeks.There was uneven scar around the dural detect in control group.Histological observation showed less inflammatory cell infiltration in the experimental group,showing significant difference in the number of inflammatory cells compared with control group at 3,6 weeks (P<0.05); capillary,granulation tissue and collagen fiber massively proliferated; collagen fiber arranged in line,and there was a clear borderline between chitosan electrospun membrane and adjacent collagen fiber.The immunohistochemical staining showed that there were high expressions of bFGF and EGFR in the experimental group,and low expressions of bFGF and EGFR in the control group. ConclusionChitosan electrospun membrane for dural defect of rabbit can effectively reconstruct the dura,and it has exact long-term prevention effect on cerebrospinal fluid leakage.
Objective To investigate the therapeutic effect of artificial dura mater on the prevention and treatment of cerebrospinal fluid (CSF) leakage associated with thoracolumbar fracture and dislocation. Methods A total of 58 patients with thoracolumbar fracture and dislocation combined with dura mater injury and CSF leakage were treated in Affiliated Hospital of Southwest Medical University from January 2011 to December 2016, including 30 males and 28 females, aged from 15 to 86 years, with an average of (51.8±16.3) years. All patients were treated with posterior pedicle screw system for decompression, reduction fixation and fusion, dura mater and spinal cord injury were investigated, and external nerve roots or caudate nerves were exposed. At the same time; the dura mater was sutured and repaired and partially covered with gelatinous sponge (group A, 24 cases), or after dura mater was sutured and repaired, the artificial dura mater was partially covered (group B, 34 cases). The curative effect and complications of the two different treatment methods were evaluated. Results All operations were successfully completed. The operative time was 110–340 minutes, with an average of (195.0±10.4) minutes; the intraoperative blood loss was 200–2 800 mL, with an average of (845.0±26.5) mL. In group A, 13 patients (54.1%) acquired wound healing, and the average CSF leakage duration was (13.4±1.6) days postoperatively, among whom 3 cases were complicated with pseudomeningocele; 11 cases (45.9%) failed and necessitated additional management. Among the 11 cases, 6 case had no decreasing tendency of CSF leakage after 10-day drainage, and after subarachnoid drainage was performed, CSF leakage disappeared about 15 days after operation; 3 (12.5%) with wound infection underwent operative incision debridement, after the repair of the dura sac, the subarachnoid CSF was drainage at the lumbar part combined with the systemic situation with antibiotics and other symptomatic treatment, and the patients were cured about 16 days after the operation; 2 (8.3%) with spinal meningitis underwent subarachnoid CSF drainage and administration of antibiotics, and the CSF leakage ceased about 14 days after operation. In group B, 27 patients (79.4%) acquired wound healing, and the average CSF leakage duration was (9.1±1.7) days postoperatively; among whom, 4 cases were complicated with pseudomeningocele; 7 cases (20.6%) failed and necessitated additional management. Among the 7 cases, 5 cases had no decreasing tendency of CSF leakage after 10-day drainage, and CSF leakage disappeared around 12 days after treatment; 1 case (2.9%) with wound infection and 1 case (2.9%) with spinal meningitis, both were cured after the treatment as in group A. Conclusion Dural suture repair combined with artificial dura mater mulch repair can more effectively repair the dura tears associated with thoracolumbar vertebral fracture dislocation and reduce the incidence of CSF leakage.