It is very difficult to repair large articular cartilage defect of the hip. From May 1990 to April 1994, 47 hips in 42 patients of large articuler cartilage defects were repaired by allograft of skull periosteum. Among them, 14 cases, whose femoral heads were grade. IV necrosis, were given deep iliac circumflex artery pedicled iliac bone graft simultaneously. The skull periosteum had been treated by low tempreturel (-40 degrees C) before and kept in Nitrogen (-196 degrees C) till use. During the operation, the skull periosteum was sutured tightly to the femoral head and sticked to the accetabulum by medical ZT glue. Thirty eight hips in 34 patients were followed up for 2-6 years with an average of 3.4 years. According to the hip postoperative criteria of Wu Zhi-kang, 25 cases were excellent, 5 cases very good, 3 cases good and 1 case fair. The mean score increased from 6.4 before operation to 15.8 after operation. The results showed, in compare with autograft of periosteum for biological resurface of large articular defect, this method is free of donor-site morbidity. Skull periosteum allograft was effective for the treatment of large articular cartilage defects in hip.
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.
Objective To investigate the effectiveness and adverse effect of the absorbable fixation system on cranial bone flap reposition and fixation after craniotomy. Methods Between July 2010 and December 2011, 67 cases underwent cranial bone flap reposition and fixation with absorbable fixation system after craniotomy and resection of intracranial lesions. There were 38 males and 29 females with a median age of 32 years (range, 5 months to 73 years). The disease duration ranged from 3 months to 6 years (median, 25 months). Forty-one lesions were located at supratentorial and 26 at subtentorial, including at the frontotemporal site in 13 cases, at the frontoparietal site in 12 cases, at the temporal oprietal site in 8 cases, at the temporooccipital site in 5 cases, at the occipitoparietal site in 4 cases, and at the posterior cranial fossa in 25 cases. The diagnosis results were glioma in 15 cases, cerebral vascular diseases (aneurysm, arteriovenous malformation, and cavemous angioma) in 8 cases, meningioma in 7 cases, arachnoid cyst in 7 cases, acoustic neurinoma in 5 cases, cholesteatoma in 3 cases, primary trigeminal neuralgia in 5 cases, cerebral abscess in 3 cases, hypophysoma in 2 cases, craniopharyngioma in 2 cases, metastatic tumor in 2 cases, radiation encephalopathy in 2 cases, medulloblastoma in 1 case, ependymocytoma in 1 case, germinoma in 1 case, atypical teratoma/rhabdoid tumor in 1 case, facial spasm in 1 case, and subdural hematoma in 1 case. Intracranial lesion size ranged from 3 cm × 2 cm to 7 cm × 5 cm. The changes of local incision and general condition were observed. Results Subcutaneous effusion occurred in 2 supratentorial lesions and 3 subtentorial lesions, which was cured at 2 weeks after puncture and aspiration. All incisions healed primarily and no redness or swelling occurred. CT scans showed good reposition of the cranial bone flap and smooth inner and outer surfaces of the skull at 2 weeks after operation. All 67 patients were followed up 3-20 months (mean, 10.3 months). During follow-up, the skull had satisfactory appearance without discomfort, local depression, or effusion. Moreover, regular CT and MRI scans showed no subside, or displacement of the cranial bone flap or artifacts. Conclusion Absorbable fixation system for reposition and fixation of the cranial bone flap not only is simple, safe, and reliable, but also can eliminate the postoperative CT or MRI artifact caused by metals fixation system.
To investigate the microsurgical management of cranionasal tumors and the method of the reconstruction of the skull base. Methods From June 2005 to October 2007, 20 patients with cranionasal tumor were treated. There were 10 males and 10 females, aged between 13 and 77 years (median 49 years). The disease course was 2 months to 13 years.The cranionasal tumors, proved by MRI and CT scans, located in the anterior skull base, paranasal sinus, nasal and/or orbit cavity. And their cl inical presentations were l isted as follows: dysosphresia in 14 patients, headache in 11 patients, nasal obstruction in 9 patients, epistaxis in 8 patients, visual disorder in 4 patients, exophthalmos in 4 patients and conscious disturbance in 2 patients. All 20 patients underwent transbasal surgery combined with transnasal surgery, and tumors were resected by one-stage operation. The skull base was reconstructed by surgical technique “Pull Down Sandwich” with pedicle periosteum flap. Results Tumors were resected by one-stage operation, and the anterior skull bases were reconstructed. Pathological examination showed 8 cases of mal ignant tumors and 12 cases of benign tumors. The total surgical excision was complete in 16 patients, and 4 patients with subtotal excision. There was no operative death. Eighteen patients were followed up 3 months to 2 years and 6 months. Transient cerebrospinal fluid rhinorrhea was found in 2 cases which were cured by lumbar drainage. And recurrence of tumor was observed in 5 patients 3 months to 2 years after operation. Conclusion Microsurgical operation via subfrontal approach assisted bytransnasal endoscopy is an effective method in management of cranionasal tumors, with the advantages of econstruction of the skull base with pedicle periosteum flap or “Pull Down Sandwich” and low compl ication rate.
Objective To investigate the method to repair immedicable ulcer in skull cap in senile patient and the clinical effect of expanded bipedical axialflap in skull cap. Methods From September 2002 to June 2006, 5 patients with immedicable and chronic ulcer in skull cap were treated. All patients were males, aging 55-76 years. Among them, the causes of disease were trauma in 1 case, infection in 1 case, squamous cell carcinoma in 2 cases, and basal cell carcinoma in 1case. The disease course was 625 months. All patients had been treated by 1-4 operations. The area of ulcer ranged from 5 cm×3 cm to 10 cm×9 cm. At first stage,soft tissue expander was implanted under the frontal branch of superficial temporal artery and the musculus frontalis according to preoperative design. Then periodic saline injection was carried out after operation. At second stage, the soft tissue expander was taken out. The immedicable ulcer in skull cap was removed,then expanded bipedical axial flap in forehead was designed and transferred to the wound according to the size of the wound. And the donor site was covered with odd expanded flap or splitthickness skin graft. The defect size was 6.0 cm×3.5 cm to 12.0 cm×10.5 cm. The size of the flap was from 26 cm×10 cm to 34 cm×17cm. Results All the expanded bipedical axial flap survived after operation. The wound had a primary healing. The donor sites healed well. No complications occurred at donor site. All patients were followed up from 3 to 24 months (mean 10 months).No ulcer recurrence and no incompetence in papebral fissurewas found. The patients were satisfied with the operation results. Conclusion The satisfactory clinical results are obtained in repairing immedical ulcer in skull cap in old patients by using expanded bipedical axial flap in skull cap. This operation design can be used as a new method to repair immedical ulcer in skull cap in senile patients.
In order to repair cartilage defect in joint with transplantation of cryopreserved homologous embryonic periosteum, 30 rabbits were used and divided into two groups. A 4 mm x 7 mm whole thickness cartilage defect was made in the patellar groove of femur of each rabbit. The homologous embryonic rabbit skull periosteum (ERSP), preserved in two-step freezing schedule, was transplanted onto the cartilage defect of joints of one group and autogenous periosteal graft was done in the joint defect of the other group. The knees were not immobilized, following operation and 16 weeks later, the newly formed tissue in the defects were assessed by gross observation, histochemical examination and biochemical analysis. The results showed that new hyaline-like cartilage was formed in the cryopreserved ERSP grafted knee, and had no significant difference from that of the knee receiving autogenous periosteal graft, but had significant difference from that of the fresh ERSP grafted knee and the non-grafted knee. Furthermore, the new hyaline-like cartilage had the biochemical characteristics of a fibrous cartilage. The conclusion was that this method might be feasible to repair articular cartilage defects.
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 explore the effectiveness of two-stage operation on free latissimus dorsi myocutaneous flap transplantation and skull contour reconstruction in the treatment of head titanium mesh exposure complicated with soft tissue infection. Methods Between January 2015 and December 2021, 13 patients with head titanium mesh exposure complicated with soft tissue infection were admitted. There were 9 males and 4 females with a mean age of 42.9 years (range, 23-64 years). The duration of titanium mesh exposure was 22-609 days (median, 102 days). The wound site located at the frontal part in 3 cases, the parietal part in 1 case, the occipital part in 2 cases, the frontal-parietal part in 1 case, the temporal-parietal part in 4 cases, and the frontotemporal part in 2 cases. The titanium mesh had been taken out in 5 patients before admission, leaving skull defect and shape collapse, with signs of infection. The bacterial culture was positive in 7 cases and negative in 6 cases. The imaging examination revealed that the size of the skull defect ranged from 6 cm×5 cm to 21 cm×17 cm and the scalp defect ranged from 1 cm×1 cm to 15 cm×10 cm. The soft tissue infection did not reach dura in 5 cases, reached dura in 6 cases, and reached frontal sinus in 2 cases. The two-stage surgical protocol was used in all patients. In the first-stage operation, the latissimus dorsi myocutaneous flap was designed to repair the skull and scalp defects after removing the titanium mesh and thorough debridement. The size of muscle flap ranged from 13.5 cm×4.0 cm to 21.0 cm×17.0 cm, and the skin flap ranged from 7.0 cm×4.0 cm to 15.0 cm×10.0 cm. After the flap survived and stabilized, the second-stage operation was performed. The titanium mesh was implanted to reconstruct the skull contour. The size of titanium mesh ranged from 7.0 cm×6.0 cm to 21.5 cm×17.5 cm. The interval between the first- and second-stage operations was 3.7-17.8 months, with an average of 11.4 months. The survival of the skin flap, the appearance of the head, and the presence of re-exposed titanium mesh and infection were observed after operation. Results At the first-stage operation, venous embolism occurred in 1 case, and no obvious abnormality was observed after treatment. All the flaps survived and the incisions healed by first intention. Besides, the incisions of the second-stage operation healed by first intention. All patients were followed up 1-96 months (median, 14 months). During follow-up, no exposure to titanium mesh, infection, or other complications occurred. The appearance satisfaction rate of the patients was 92.31% (11/13). There was no significant difference in the skull contour between the affected side and the healthy side in all patients. Conclusion For the head titanium mesh exposure with soft tissue infection, the application of two-stage operation on free latissimus dorsi myocutaneous flap transplantation and skull contour reconstruction can reduce the risks of implant exposure and infection again by increasing the thickness of the scalp and blood supply, filling the wound cavity, and obtain good effectiveness.
ObjectiveTo investigate the feasibil ity and effectiveness of the modified traction arch of skull (crossbar traction arch) for skull traction in treating cervical spine injury by comparing with traditional traction arch of skull. MethodsBetween June 2009 and June 2013, 90 patients with cervical vertebrae fractures or dislocation were treated with modified skull traction surgery (trial group, n=45) and traditional skull traction surgery (control group, n=45). There was no significant difference in gender, age, injury types, injury level, the interval between injury and admission, and Frankel grading of spinal injury between 2 groups (P>0.05). The cl inical efficacy was evaluated after operation by the indexes such as traction arch sl i ppage times, operation time, the infection incidence of the pin hole, incidence of skull perforation, visual analogue scale (VAS), and reduction status of cervical dislocation. ResultsThe traction arch slippage times, the infection incidence of the pin hole, operation time, blood loss, and postoperative VAS score in trial group were significantly lower than those in control group (P<0.05). There was no significant difference in the incidence of skull perforation caused by clamp crooks of traction arch between 2 groups (P=1.000). At 2 weeks after operation, the patients had no headaches, infections, or other complications in 2 groups. In patients with cervical dislocation, 4 of the trial group and 6 of the control group failed to be reset, the reduction rate was 83.33% (20/24) and 68.42% (13/19) respectively, showing no significant difference (χ2=0.618, P=0.432). ConclusionThe operation with modified traction arch of skull has significant advantages to reduce postoperative complication compared with tradition traction arch of skull.
Objective To summarize the treatment of chronic osteomyel itis of the skull and its effectiveness. Methods Between January 2004 and February 2009, 24 patients with chronic osteomyel itis of skull were diagnosed and treated, including 16 males and 8 females with an average age of 45.6 years (range, 18-56 years). The mean disease duration was 5.8 years (range, 3-11 years). The causes included infection after craniotomy in 3 cases, burn in 15 cases, and electrical injury in 6 cases, and the leision was located at the frontal and parietal of the skull in 10 cases, at the temporal and parietal of skull in 8 cases, and at the occipital of the skull in 6 cases. The soft tissue defects ranged from 7 cm × 6 cm to 19 cm × 12 cm, and the skull defects ranged from 5 cm × 4 cm to 10 cm × 7 cm. After wide thorough debridement of necrotic tissue, soft tissue defects were repaired with adjacent scalp flap in 12 cases, trapezius myocutaneous flap in 6 cases, and free anterolateral thigh flap in 6 cases; the flap size ranged from 8 cm × 7cm to 20 cm × 13 cm. The donor sites were sutured directly or covered with spl itthickness skin. Results All pathological examinations showed pyogenic osteomyel itis of the skull, and local ized squamous carcinoma was found in 1 case. One patient had sub-flap infection at 2 weeks after operation, and heal ing was achieved after surgical removal of residual tissue; the remaining flaps survived, and incision healed by first intention. All patients were followed up 10 months to 4 years with an average of 2 years after operation. The color and texture of the flaps were good. No recurrence of osteomyel itis happened during follow-up. The patient diagnosed as having local ized squamous carcinoma was followed up 4 years without recurrence. At 3 to 6 months after operation, 8 patients had headache or felt dizzy, and the skull was reconstructed by the titanium meshes. Conclusion In patients with chronic osteomyel itis of skull, the infected foci should be cleaned out thoroughly as early as possible, and the skin flap or myocutaneous flap is used to repair the wounds, thus the good results can be achieved.