ObjectiveTo reporte the nursing experience of non-healing incision due to allograft rejection after osteosarcoma surgery. MethodsOne patient with non-healing incision due to allograft rejection after osteosarcoma surgery treated in September 2013 was selected. The suitable moist healing dressings was chosen to control inflammation, prevent infection, manage exudation, promote the growth of granulation, protect the surrounding skin, shorten the dressing time and reduce the suffering of patients. ResultThe wound healed well after 65 days of dressing with the function of the right upper limb recovered. ConclusionThe moist healing dressing not only improved the quality of patient's life and increased the patient's confidence of overcoming the disease, but also made the patients more active to cooperate in the next treatment.
OBJECTIVE: To observe the difference of the fracture reparation using autogeneic-iliac bone and allogenic bone. METHODS: Comminuted fracture of humerus in two sides were made in rabbits. Autogeneic-iliac bone was implanted in one side, while allogenic bone of equal capacity was implanted in the other side. General observation, X-ray, and HE histologic section were done when the rabbits were put to death in different stages. RESULTS: One week after implantation, the graft had been enclosed by connective tissue without infiltration of the inflammatory cells. At the 2nd week, the graft had been enclosed in osteoplastic granulation tissue, and the cartilage callus had formed. At the 3rd week, there had been broken sequestrum among the callus; the cartilage had actively formed the bone; and the medulla had been making. At the 4th week, the sequestrum had disappeared, and the mature callus had appeared; the osteoblasts had arranged in a line around the edge of the mature callus. At the 5th week, the callus was b, compact and approached mature bones. At the 6th week, there had been the compact lamellar structures and the complete haversian’s systems. There was no significant difference between callus of two sides by using image quantitative analysis in the 3rd, 4th week (P gt; 0.05). CONCLUSION: The allogenic bone has good histocompatibility and bone conduction effect, and can be used for bone transplantation substitute with autogenous-iliac bone.
Objective To study the effect of the allogeneic bone sheet that has been treated by the freezedrying and radiation sterilization in preventing the epidural adhesion after laminectomy in sheep. Methods Laminectomy was performed on L3,4and L4,5 of 12 adult male sheep. Afteroperation, one site of L3,4 or L4,5was covered by the allogeneicbone sheet in “H” shape after the freeze-drying and radiation sterilization treatment; and the other site was used as a control. The sheep were killed and the specimens were retrieved at 4,8,12,16,20 and 24 weeks after operation to observe the scar formation process. X-ray andCT scan were performed in the segments of L3,4and L4,5at 4 and 24weeks. Results Four weeks after operation, the position and the shape of the allogeneic bone sheet were good in condition, and no lumbar spinal stenosis or compression of the dura was found in the experimental sections. Twentyfour weeks after operation theexamination on the experimental sections revealed that the vertebral canal reconstruction was completed, the allograft was absorbed almost completely, and inosculation with the lamina of the vertebra and the shape of the lumbar spine were good, with no fibroid tissues found in the epidural area. Compared with the control segment, the dura adhesion degree in the laminoplasty segment was significantly decreased (Plt;0.01), and the dura sac remained in a good shape. There was no obvious compression on the dura. Conclusion The allogeneic bone sheet after the treatment of freeze-drying and radiation sterilization can effectively reduce the scar formation after laminectomy and prevent postoperative recurrence of the spinal stenosis.
Objective To investigate the osteoblasts effect, compl ications and influencing factors in the appl ication of small freeze-drying allogeneic bone plots mixed autologous bone fragments in spinal surgery, and to compare with autogenous bone graft. Methods From January 2003 to January 2007, 515 cases of spinal injuries were treated. A total of 324 cases weretreated with small freeze-drying allogeneic bone plots mixed with autologous bone grafts (group A), including 211 males and 113 females with an average age of 36 years (18-83 years). There were 182 cases of thoracolumbar vertebra fracture, 68 cases of lumbar spondylol isthesis, 47 cases of lumbar vertebral canal stenosis, 17 cases of cervical disc herniation, 5 cases of cervical spine fracture-dislocation and 5 cases of thoracolumbar vertebra tumor. The weight of bone graft was 10-60 g (mean 30 g). A total of 191 cases were treated with autogenous bone grafting (group B), including 135 males and 56 females with an average age of 32 years (23-78 years). There were 109 cases of thoracolumbar vertebra fracture, 23 cases of lumbar spondylol isthesis, 17 cases of lumbar vertebral canal stenosis, 19 cases of cervical disc herniation, and 23 cases of cervical spine fracture-dislocation. The weight of bone graft was 10-50 g (mean 25 g). Results In group A, effusion of wound increased in 4 cases and the result of bacterial culture was negative; effusion was absorbed after 2 weeks of local irrigation, drainege and cortin management. In group B, no obvious effusion was observed. The follow-up time was 10-36 months (mean 17.4 months) in group A and 8-36 months (mean 16.8 months) in group B. The bone heal ing was achieved in 308 cases within 4-10 months (mean 8.1 months) and in 184 cases within 4-10 months (mean 5.8 months), and the bone fusion rates were 95.06% and 96.34% in groups Aand B, respectively. There was no significant difference in bone fusion rate between groups (P gt; 0.05). According to Mankin and Komender evaluation standard, the response rates were 95.06% and 96.34% in groups A and B, respectively, showing no significant difference (P gt; 0.05). Conclusion Mix-bone grafting has the same effective to autologous bone grafting in bone fusion rate. It could be used as the supplement of the autologous bone inadequacy.
Objective To evaluate the cl inical results of allogeneic bone graft for interbody fusion in cervical tuberculosis. Methods Between January 2000 and January 2008, 30 cases of cervical tuberculosis were treated with allogeneic (group A, n=15) or autologous (group B, n=15) il iac crest bone graft combined with anterior fixation after radical debridement. In group A, there were 8 males and 7 females with an average age of 38 years; the disease duration was 6 to 14 months; the preoperative kyphosis Cobb angle was (8.6 ± 11.3)°; the preoperative Japanese Orthopaedic Association (JOA) score was 13.0 ± 3.1 for neurological function; and the length of bone graft was 32 mm on average. In group B, there were 9males and 6 females with an average age of 42 years; the disease duration was 4 to 17 months; the preoperative kyphosis Cobb angle was (4.9 ± 7.4)°; the preoperative JOA score 12.3 ± 4.2; and the length of bone graft was 34 mm on average. There was no significant difference in general data between 2 groups (P gt; 0.05). Results The operation time and bleeding volume in group A were significantly less than those in group B (P lt; 0.05). Wound effusion were found in 2 cases of group A, and the other incisions healed by first intention. No infection occurred in group B. In group A, 13 cases were followed up 12-48 months; in group B, 14 cases were followed up 13-46 months. The time of bone graft heal ing in group A [(7.6 ± 2.1) months] was significantly longer than that in group B [(4.2 ± 1.1) months] (t=2.773, P=0.005). The kyphosis Cobb angles were significantly improved at 6 months and last follow-up after operation in 2 groups when compared with that before operation (P lt; 0.05), but no significant difference was found between 2 groups at different time after operation (P gt; 0.05). There was no significant difference in JOA score at 6 months after operation between group A (14.1 ± 2.6) and group B (14.3 ± 2.4) (t=1.655, P=0.162). The improvement rate for neural function were 83.7% in group A and 87.8% in group B, showing no significant difference (χ2=3.150, P=0.071). There was no loosening of internal fixation and recurrence of tuberculosis in 2 groups during follow-up. Five cases had chronic pain at il iac donor sites in group B. According to Bridwell et al. evaluation standard, the bone fusion was satisfactory in 11 cases (84.6%) and unsatisfactory in 2 cases (15.4%) in group A, and was satisfactory for all in 14 cases (100%) in group B. The satisfactory rate of bone fusion showed no significant difference between 2 groups (χ2=2.680, P=0.115).Conclusion Allogeneic bone grafting has a good cl inical result for spinal fusion in cervical tuberculosis surgery, which can treat tuberculosis bone defect effectively.
Objective To investigate the clinical application and complicationof the lyophilized small-segment allogeneic bone used in repairing bone defectscaused by benign bone tumor and tumor-like lesions after resection and curettage. Methods From December 1999 to December 2005, 230 patients (156 males, 74 females; age, 5-56years, averaged 32.8 years), who had bone defects caused by benign bone tumors and tumor-like lesions after surgical resection and curettage, were treated by the lyophilized small-segment allogeneic bones. The cavities left by the tumor curettage ranged in size from 1.0 cm×0.8 cm to 10.0 cm×2.0 cm, andthe bone defects were about 1.0 to 3.5 cm in diameter after the localized resection of the bones. According to the bone defect degrees, the autogenous nonvascular iliac bone and the bone allograft (0.5-30.0 g) were implanted, followed by the drainage for 2-3 days and the use of antibiotics to prevent infection. The postoperative systemic and local reactions were observed, and the regular X-ray examinations were performed to observe the bone union. ResultsThere was no significant difference in the allergic reactions, such as postoperative temperature, drained amount, and body swelling, between this kind of transplantation and the autogenous bonetransplantation. The wounds in 196 patients were healed by the first intension.The wounds in 34 patients had extravasate. Among them, the wound was healed by changing dressing in 30cases; the wound had delayed healing in 4, including 3 whose wounds were healedby changing dressing for 3-4 weeks,and 1 whose wound was healed by taking out the implants. The follow-up for 6-60 months (average, 38 months) revealed that all the patients had the allograft unions of the bones within 6-18 months after the transplantation, and only 6patients had recurrence of the tumor (3.0%). Evaluated by the Mankin,Komender and WANG Zhiqiang’s standards, 196 (85.22%) patients were satisfied with their outcomes while the other 34 (14.78%) patients were not satisfied. Conclusion The lyophilized small-segment allogeneic bone has a good compatibility and osteogenesis, when it is used in repairing bone defects caused by benign bone tumor and tumor-like lesions after resection and curettage. So, this kind of bone is a good, convenient and safe material for the bone transplantation. The important factors affecting the allograft union are as follows: the mechanical stability in the recipient region, local blood supply, and management of the bone cavity left by resection and curettage of the bone tumor.
Objective To investigate the efficacy of the pedicle screw fixation and allograft bone in posterior spinal fusion for the treatment of thoracolumbar vertebral fractures. Methods From September 2006 to March 2008, 105 cases of thoracolumbar vertebral fractures were treated with allograft bone in posterior spinal fusion after the pedicle screw fixation,including 75 males and 30 males aged 15-65 years (mean 37 years). The mixture which consisted of spinous process and vertebral plate sclerotin and homogeneity variant bone was used as bone graft to implant into articular process and processus transversus space or vertebral plate space. The time from injury to surgery varied from 8 hours to 21 days, with an average of 3 days. There were 52 cases of fall ing injuries from height, 35 cases of traffic accident injuries, 11 cases of bruise injuries and 7 cases of tumbl ing injuries. Before operation, the primary cl inical symptoms of patients included local pain combined with l imitation of activity, 30 cases compl icated by various degrees of spinal cord and nerve root functional disturbance. According to Mcaffee classification, there were 7 cases of flexion depressed fractures, 86 cases of blow-out fractures, 9 cases of Chance fractures and 3 cases of dislocation-fracture. According to Frankel grade, there were 11 cases of grade A, 2 cases of grade B, 7 cases of grade C, 10 cases of grade D and 75 cases of grade E. The X-ray examination of all patients denoted that the bodies of injuryed vertebra were compressed and wedge-shaped, and the CT scan showed that 98 cases had spinal stenosis. After 2 weeeks and 3, 6, 12 months, the X-ray films were taken to evaluate bone graft fusion. The Cobb angle was measured. The recovery of nerve function was analyzed. Results The operation time was 55-180 minutes (mean 90 minutes) and the blood loss was 100-900 mL (mean 200 mL). All patients achieved heal ing by first intention with no compl ication. After operation, 93 cases were followed up for 6-15 months with an average of 11 months. Except for 11 patients who were at grade A before operation, one to two grade recover was observed in other patients. The average Cobb angle of injury segment was improved from preoperative 32.1° to postoperative 5.2°. The height of anterior border of injuried vertebral body was recovered from the preoperative average compressed remaining height 61.5% to postoperative 96.8%. The vestigial degree of canal is spinal is anteroposterior diameter was recovered from preoperative 65.7% to postoperative 89.9%. Imageology examination showed that all the patient achieved bone union within 6 months. The fusion rate of bone graft in spinal fusion was 100%. No loosening and breaking of nails occurred. Conclusion Pedicle fixators can restore and fix the thoracolumbar fractures, and the combination of autograft and allograft bone transplantation is a safe, rel iable and effective method.
Objective To evaluate the cl inical effect of local autogenous bone chips extended with allogeneic bone grafts in the posterolateral lumbar fusion. Methods From March 2005 to April 2007, 22 cases which underwent posterolaterallumbar fusion with allograft bone mixed with local autograft bone were analyzed retrospectively. The postoperative temperature, drainage flow and heal ing time of the incision were analyzed; postoperative lumbar pain was evaluated by visual analog scale (VAS) and JOA score; the postoperative efficacy was assessed by MacNab criteria and Oswestry disabil ity index (ODI); the fusion rate was defined by Jorgenson fusion criteria. Results All cases were followed up for 17-35 months with an average of 21 months, the wound all healed by first intention; no red swell ing, exudation and infection occurred. The excellent and good rate was 81.8% for JOA score (excellent in 4 cases, good in 14 cases, fair in 4 cases), 77.3% for MacNab criteria (excellent in 4 cases, good in 13 cases, fair in 5 cases) and 90.9% for ODI index (excellent in 3 cases, good in 17 cases, fair in 2 cases). The postoperative X-ray fusion rate within 1 year was 90.9%. Conclusion Allograft bone mixed with local autograft bone can achieve good efficacy and fusion rate in posterolateral lumbar fusion.
ObjectiveTo explore the feasibility of chitosan/allogeneic bone powder composite porous scaffold as scaffold material of bone tissue engineering in repairing bone defect. MethodsThe composite porous scaffolds were prepared with chitosan and decalcified allogeneic bone powder at a ratio of 1∶5 by vacuum freeze-drying technique. Chitosan scaffold served as control. Ethanol alternative method was used to measure its porosity, and scanning electron microscopy (SEM) to measure pore size. The hole of 3.5 mm in diameter was made on the bilateral femoral condyles of 40 adult Sprague Dawley rats. The composite porous scaffolds and chitosan scaffolds were implanted into the hole of the left femoral condyle (experimental group) and the hole of the right femoral condyle (control group), respectively. At 2, 4, 8, and 12 weeks after implantation, the tissues were harvested for gross observation, histological observation, and immunohistochemical staining. ResultsThe composite porous scaffold prepared by vacuum freeze-drying technique had yellowish color, and brittle and easily broken texture; pore size was mostly 200-300μm; and the porosity was 76.8%±1.1%, showing no significant difference when compared with the porosity of pure chitosan scaffold (78.4%±1.4%) (t=-2.10, P=0.09). The gross observation and histological observation showed that the defect area was filled with new bone with time, and new bone of the experimental group was significantly more than that of the control group. At 4, 8, and 12 weeks after implantation, the bone forming area of the experimental group was significantly larger than that of the control group (P < 0.05). The immunohistochemical staining results showed that osteoprotegerin (OPG) positive expression was found in the experimental group at different time points, and the positive expression level was significantly higher than that in the control group (P < 0.05). ConclusionChitosan/allogeneic bone powder composite porous scaffold has suitable porosity and good osteogenic activity, so it is a good material for repairing bone defect, and its bone forming volume and bone formation rate are better than those of pure chitosan scaffold.
ObjectiveTo investigate the short-term effectiveness of allogeneic bone transplantation for pelvic reconstruction of large skeletal defects after tumor resection. MethodsBetween January 2008 and November 2009, 9 patients with pelvic tumor were treated, and the clinical data were retrospectively analyzed. There were 1 male and 8 females with an average age of 36.1 years (range, 18-44 years). There were 5 cases of giant cell tumor of bone, 2 cases of chondrosarcoma, 1 case of malignant giant cell tumor of bone, and 1 case of Ewing sarcoma. According to the Enneking system for staging musculoskeletal tumors, the lesion involved ilium (region I) in 4 cases, acetabulum (region II) in 6 cases, pubis and ischium (region III) in 3 cases, and sacrum (region IV) in 1 case. The average disease duration was 6.8 months (range, 1-36 months). After accurate resection of the tumor, allograft ilium with or without acetabulum was used in 6 cases and 2 cases respectively, and allogenous bone plate in 1 case for pelvic reconstruction; total hip arthroplasty was performed in 6 cases; sacrum screw was used in 1 case. ResultsInfection of incision and abdominal distention occurred in 1 case, and was cured after debridement; primary healing of incision was obtained in the other cases, without infection, lower limb deep venous thrombosis, or dislocation. The average follow-up was 11.8 months (range, 8-15 months). The X-ray films showed breakage of plate in 1 case at 8 months after operation and partial bone resorption in 2 cases; good position of the prosthesis, plate, and transplanted bone was observed in the other cases. No local recurrence was found. At last follow-up, the average musculoskeletal tumor score (MSTS) was 23 (range, 18-29). ConclusionAllogeneic bone transplantation for pelvic reconstruction of large skeletal defects after tumor resection can achieve satisfactory short-term surgical and functional effectiveness.