Objective To investigate the operative procedure and the effectiveness of cranial bone reconstruction after one-stage resection of scalp squamous carcinoma invading the skull. Methods Between January 2005 and December 2008,14 patients with scalp squamous carcinoma invading the skull were treated. There were 6 males and 8 females with a median age of 53 years (range, 29-76 years). The disease duration ranged from 3 to 8 years (mean, 6 years). The tumor locations were right temporal area in 2 cases, left temporal area in 2 cases, right frontal area in 3 cases, left frontal area in 1 case, right occi pital area in 1 case, left occi pital area in 2 cases, frontal area in 2 cases, and the top of the head in 1 case. Scalp lesions showed exogenous growth, and lesion diameter ranged from 5 to 12 cm (mean, 8 cm). TNM classification showed T4N0M0 tumor in all cases. MRI showed that tumors invaded the skull, 12 cases had smooth intradural side and 2 cases had brain involvement without lymph node metastasis or detected distant metastasis. Under general anesthesia, all the lesions of the scalp, skull, dura, and brain tissue were removed completely. The size defect of the scalp, skull, and dura ranged from 8 cm × 7 cm to 15 cm × 14 cm, from 5 cm × 4 cm to 12 cm × 12 cm, and from 4 cm × 4 cm to 9 cm × 8 cm, respectively, which were repaired with artificial patch, titanium metal, mesh, and local flaps, respectively. The donor site was repaired by spl it-thickness skin graft. Results The skin flaps and grafts survived and incision healed by first intention without cerebrospinal fluid leakage, intracranial and subdural hemorrhage, andother compl ications. All patients were followed up 2 to 5 years (mean, 4 years), and no recurrence was found. The compatibil ity of titanium mesh and local tissue was good. The patients had good hair growth without exposure of titanium mesh, seizures, partial paralysis, and other neurological damage performance. Conclusion After one-stage resection of scalp squamous carcinoma invading the skull, it is effective to reconstruct the skull with titanium mesh and to repair dural defects with artificial dura.
Objective To investigate the clinical application of self-cranial bone powder in one stage cranioplasty.Methods From October 1999 to December 2002,self-cranial bone powder and medical adhesive were used to repair the skull defect, for one stage cranioplasty, caused by operations on cranium in 128 casesof severe dangerous craniocerebral injury, acute intracranial hematome, sick skull and intracranial tumor.The bone growth was observed by CT or X-ray examination 3-24 months after replantation of cranioplasty.Results The decompression and cranioplasty were performed simultaneously, the time prolonged 5-10 minutes than that of routine, the appearance of repaired cranial bone was normal, without concavity and convexity. After 12 months of operation, the replanted bone merged with the normal bone completely, with normal appearance. The operation successful rate was 96.1%(123/125) without any complication. Only fivecases were not better in growing because of less bone powder, but withoutcerebral pulse and defective syndrome. All the cases did not need secondary cranioplasty.Conclusion The effect of cranioplasty with self-cranial bone powder effect is good in taking shape. This new method can avoid the traditional secondary cranioplasty for skull defect and complications.
Objective To observe the relationship of osteoblasts, endothelial cells and ceramic scaffold during reconstruction of rat critical size calvarial defects with tissue engineering technique under transmission electron microscope. Methods Fourteen male adult Sprague Dawley rats were divided randomly into experimental and control groups. Bone marrow was obtained from left femurs and tibias of all rats. In experimental group, respective autogenous osteoblasts derived from bone marrow stromal cells(MSCs) different iated and proliferated in vitro and then were seeded and subcultured on porous calcium phosphate ceramics. The cell-ceramic compounds were used to repair critical-sized (8 mm diameter) calvarial defects in the corresponding rats. In control group, the ceramic without autogenous osteoblosts was used. One rat of each group was sacrificed postoperatively in the 4th, 8th, 12th, 24th, 28th weeks respectively and involved samples were removed to make decalcified ultrath in sections and observed under transmissionelectron microscope. Results Osteoblasts or osteoblast-like cells always located next to sprouting capillaries and the relationship between osteoblasts and endothelial cells was relevant in experimental group. There was a calcium depositzone distributed along the boundary of newly formed bone and the remnants of decalcified ceramic, which meant osseointegration between the ceramic and newly formed bone. The above changes did not appear in control group simultaneously.Conclusion The nanometer scale structure of ceramic scaffold benefits to angiogenesis, osteogenesis and extracellular matrix formation in repair bone defects with tissue engineering technique.
OBJECTIVE: To determine whether culture expanded bone marrow derived mesenchymal stem cells (MSCs) in combination with beta-tricalcium phosphate(beta-TCP) can repair critical cranial defects in New Zealand rabbits. METHODS: In group A(n = 20), MSCs from homogeneous rabbits were isolated and expanded in vitro and then implanted onto the pre-molded porous beta-TCP. The MSCs-beta-TCP complexes were implanted into rabbit critical cranial defects. In group B (n = 10), The defects were repaired with beta-TCP only. In group C(n = 4), the defects were left un-repaired. Samples were extracted 6 and 12 weeks after operation for histological, histochemical and immunohistochemical analysis. RESULTS: In group A, bone-like tissue formation could be seen on the surface of the implants. Microscopic analysis demonstrated certain degradation of beta-TCP and extensive new bone filling in rich extracellular matrix after 6 weeks. The cells were stained positively for type I collagen. After 12 weeks, the bioceramics had almost completely degraded and abundant bone formation could be seen in the whole defects. In group B, marginal bone ingrowth was observed after 6 weeks and the number of osteoblasts increased significantly after 12 weeks. However, no new bone formation could be detected in the middle of the material. In group C, only a small quantity of new bone formation was found along the margin of defects. CONCLUSION: Transplantation of MSCs with beta-TCP can serve as an example of a cell-based treatment for bone regeneration in skeletal defects.
In order to investigate the possibility of porous hydroxyapatite ceramics (HAC) in the repair of skull bone defect, twenty-four rabbits were used. The bone defect model was created by operation to obtain a defect in parietal bone in a size of 1 cm x 1 cm. Filled the defect with HAC and methyl-methacrylate-syrene copolymer (MMAS) to fill the defect as control. At 1st, 2nd and 3rd months after operation, behavior of the rabbits was observed and then these animals were sacrificed and specimens were examined under microscope. Results showed as follows: after operation, behavior of all animals were normal. By histological examination, it was found that in HAC group, there were granulation tissue, fibrous tissue and newly formed vessels grew into the pores and the osteoblasts formed osseous trabeculae. There was no inflammatory cell infiltration. In the MMAS grafted asea, there was formation of fibrous membrane. It suggested that HAC might be a good material for bone substitute in repair of skull bone defect.
Based on the dye injection investigation, the territory of blood supply through the superficial temperal artery system was defined. Vascularized grafts, composed of temperal-parietal fascia, periosteum and outer-table of calvarial bone, can be transferred by microvascular anastomosis or transposed to repair full-thickness defects of skull bone was demonstrated. Six of such cases following electrical burn were successfully treated. The average size of skull bone defects was 50cm2. The largest one among them was 80cm2.
Good results were achieved in Ⅰ8 cases of cranioplasty in which a new meterial of medical polymer had been used. The properties of the material and the operation method are also described in this paper, The advantages of the new matiral become more obvious, in comparison with other methods which are usually used in cranioplasty.
摘要:目的:进行深低温贮存回植自体颅骨瓣的临床应用效果研究。方法:将74例患者术后骨瓣深低温(零下80℃)贮存,2~12月后予以原位回植,术中取骨标本病检,随诊1~36月。结果:74例中72例伤口Ⅰ期愈合,颅骨复位良好。病检示回植骨有正常骨细胞,与新鲜颅骨对照无骨母细胞。2例患者回植骨吸收明显,失去支撑作用而再次行修补钛网,2例感染,余下70例患者2~4月后骨缝不同程度增宽1~2 mm,6月后骨缝不再增宽,12~36月后骨缝部分变窄,达骨性愈合,而颅骨钻孔处及颞下骨缝较宽区未见骨性结构,为纤维疤痕愈合。结论:深低温贮存的自体颅骨部分骨细胞能长时间存活,回植后无免疫排异性。回植手术简便,患者容易接受,临床应用效果较好。