Dystrophic spinal deformity in neurofibromatosis

A retrospective review was performed to investigate patterns of spinal deformity associated with neurofibromatosis and the incidence of pseudarthrosis and curve progression after spinal fusion. Twenty-three of the 32 patients (72%) with spinal deformity had dystrophic curve patterns. The incidence of pseudarthrosis was 38% for the dystrophic group undergoing isolated posterior fusion. Their average curve progression was 12.7 degrees and required an average of 1.7 procedures to achieve solid posterior fusion. Kyphoscoliotic curves should be treated with combined anterior/posterior fusion.     

Spinal deformity in Marfan syndrome

Fourteen patients with classic Marfan syndrome and spinal deformity treated at Texas Scottish Rite Hospital for Crippled Children (Dallas, TX) after 1975 have been conservatively treated to maturity or are at least 2 years after spinal fusion. Brace treatment was successful in one of nine patients. Nine patients underwent fusion. Three had a solid fusion, two lost 20 degrees of correction, and four required revision for multiple pseudarthroses. These latter four all had or developed a kyphotic deformity. Although Marfan syndrome patients can achieve solid fusion, they require massive bone graft, secure segmental internal fixation, and careful observation for pseudarthrosis. Kyphotic deformities require anterior fusion.     

Scoliosis surgery in neurofibromatosis

Twenty-three patients who were treated by posterior spinal fusion with neurofibromatous scoliosis were reviewed to study the adequacy of spinal fusion, rate of pseudarthrosis, and incidence of complications. Twenty patients achieved a solid fusion with posterior surgery alone. Thirteen patients required one or more posterior augmentation procedures because of progressive deformity. Three patients with dystrophic kyphoscoliosis required an anterior spinal fusion in addition to the posterior fusion to achieve a solid fusion mass. The type of graft material, Harrington instrumentation, and degree of kyphosis or scoliosis had no effect on the rate of pseudarthrosis. Preoperative neuroradiographic evaluation was found to be warranted for all patients with neurofibromatous scoliosis.     

Anterior and posterior spinal fusion for paralytic scoliosis

Twenty-three patients with paralytic scoliosis were treated with a combination of anterior and posterior spinal instrumentation and fusion. The sequence was anterior surgery first in 19 patients and posterior surgery first in 4. The average age was 14.4 years. Preoperative correction with a halo-hoop apparatus was performed in 12 patients. The average preoperative curve for the group measured 100 degrees, and the average postoperative curve at a mean follow-up time of 21 months was 37 degrees. The mean loss of correction was 8 degrees. Although superior hook dislodgment occurred in 5 patients, no pseudarthrosis or beinding of the fusion mass was documented.     

The treatment of scoliosis in cerebral palsy by posterior spinal fusion with Luque-rod segmental instrumentation

Thirty-three patients who had cerebral palsy and scoliosis underwent posterior spinal fusion with Luque-rod segmental instrumentation. The mean curve measured 65 degrees preoperatively and 30 degrees postoperatively. The mean loss of correction was 3 degrees after a mean length of follow-up of forty months. As of the time of writing, pseudarthrosis had not developed in any patient. No patient had a broken rod or an increased neurological deficit. There were no major pulmonary complications. The most common early postoperative complication was wound infection, which occurred in five patients, none of whom required removal of the hardware. We concluded that posterior spinal fusion with Luque-rod segmental instrumentation is an effective method of obtaining and maintaining correction of a spinal curve, with minimum complications, in patients who have cerebral palsy and progressive scoliosis.     

Surgical treatment of congenital kyphosis

STUDY DESIGN: In this study, 26 cases of congenital kyphosis and kyphoscoliosis treated surgically were retrospectively reviewed. OBJECTIVE: To assess the clinical outcomes and surgical indications for posterior only versus anteroposterior surgery in the child. SUMMARY OF BACKGROUND DATA: Congenital kyphosis usually is progressive without surgical intervention. Current recommended treatment includes posterior arthrodesis for deformities of less than 50 degrees to 60 degrees, and anterior release or decompression, anterior fusion, and posterior instrumented arthrodesis for large deformities and cord compression. METHODS: Cases involving myelodysplasia, spinal dysgenesis, and skeletal dysplasia were excluded from the study. Kyphoscoliosis was included if the kyphotic deformity was greater than the scoliotic deformity. Patients were grouped by age and surgical technique. The patients in group P1 underwent posterior arthrodesis at an age younger than 3 years, and those in group P2 underwent the procedure at an age older than 3 years. The patients in group AP1 underwent anterior and posterior procedures at an age younger than 3 years, and those in group AP2 underwent the procedures at an age older than 3 years. The preoperative deformity, complications, and postoperative deformity correction were analyzed. There were nine Type 1 (failure of formation), nine Type 2 (failure of segmentation), and eight Type 3 (mixed) deformities. Four patients had associated spinal dysraphism. Three patients with Type 1 deformities had clinical or radiographic evidence of cord compression. RESULTS: In Group P1, five patients at an average age of 16 months underwent posterior arthrodesis alone for an average kyphotic deformity of 49 degrees. The immediate postoperative correction improved over a period of 6 years and 9 months by an additional 10 degrees, resulting in a final deformity of 26 degrees. Pseudarthrosis developed in two patients, requiring fusion mass augmentation or anterior arthrodesis. Neither patient was instrumented. In Group P2, five patients at an average age of 13 years and 7 months underwent posterior arthrodesis with instrumentation for kyphotic deformity of 59 degrees. Approximately 30 degrees of intraoperative correction was achieved safely using compression instrumentation and positioning. No further correction occurred with growth. The final residual kyphotic deformity was 29 degrees after a follow-up period of 4 years and 5 months. In Group AP1, seven patients underwent anterior release or vertebra resection for deformity correction and posterior arthrodesis for an average kyphotic deformity of 48 degrees at the age of 16 months. There were no iatrogenic neurologic injuries. The final residual kyphotic deformity was 22 degrees after a follow-up period of 6 years and 3 months. In Group AP2, nine patients underwent anterior release or decompression with posterior arthrodesis for kyphotic deformity of 77 degrees at the age of 11 years and 6 months. The deformity was corrected to 37 degrees, with no significant loss over a follow-up period of 5 years and 2 months. There were two postoperative neurologic complications. CONCLUSIONS: After reviewing their experience, the authors made the following observations: 1) The pseudarthrosis rate was low even without routine augmentation of fusion mass if instrumentation was used; 2) gradual correction of kyphosis may occur with growth in patients younger than 3 years with Types 2 and 3 deformities after posterior fusion, but appears to be unpredictable; 3) the risk of neurologic injury with anterior and posterior fusion for kyphotic deformity was associated with greater age, more severe deformity, and preexisting spinal cord compromise.     

Submuscular Isola rod with or without limited apical fusion in the management of severe spinal deformities in young children: preliminary report

STUDY DESIGN: Retrospective review of the results of submuscular rod placement with and without limited apical fusion for the treatment of severe spinal deformities in young children. OBJECTIVES: To determine the success of this method for controlling severe deformities while allowing for spinal growth and to compare this method with previously reported results. SUMMARY OF BACKGROUND DATA: A variety of methods for controlling scoliosis in young children have been reported, but complications including spontaneous fusion, loss of correction, instrumentation failure, and limited spinal growth are common. METHODS: The cases of 29 young children with progressive scoliosis or kyphoscoliosis as a result of a variety of diagnoses treated with a submuscular Isola rod and a postoperative orthosis were retrospectively reviewed. Eleven patients also had a short anterior and posterior apical fusion or convex hemiepiphysiodesis to aid in correction and stabilization of their deformity. The remaining 18 patients had a submuscular rod only. RESULTS: The mean age at surgery was 6.7 years (range, 1-11 years). The initial preoperative mean magnitude of the major curve was 66 degrees (range, 42-112 degrees ). After surgery this decreased to a mean of 38 degrees (range, 16-70 degrees ). The most recent radiographs demonstrated a mean 47 degrees curve (range, 28-79 degrees ). The mean number of lengthenings per patient has been two (range, 0-5). Nine patients have reached a suitable age and have been converted to a posterior spinal fusion and segmental spinal instrumentation. Nine complications have occurred in seven patients (24%). These included five hook displacements and three rod breakages. These were treated by hook reinsertion and rod exchange or sleeve and a repeat lengthening. There was one superficial infection treated medically. CONCLUSION: This technique is useful in the management of severe spinal deformities in young children who have either failed, or have a contraindication to, orthotic management. Complications are relatively frequent but well tolerated.     

The safety and efficacy of Isola-Galveston instrumentation and arthrodesis in the treatment of neuromuscular spinal deformities

BACKGROUND: Implant systems that realign and stabilize a deformed spine continue to evolve. The purpose of the study of this case series was to determine the safety and effectiveness of a system designed to integrate hook, wire, screw, and post anchors for the treatment of a wide spectrum of neuromuscular disorders associated with pelvic deformity or the potential for deformity. METHODS: Forty-seven consecutive patients who had a spinal deformity that was due to cerebral palsy or an upper motor-neuron cerebral palsy-like disease (thirty-one patients), myelomeningocele (nine), Duchenne muscular dystrophy (four), or other disorders (three) were managed with Isola-Galveston instrumentation and arthrodesis. The average age at the time of the operation was fourteen years and three months (range, five years and four months to twenty-three years and nine months). Eight patients (17 percent) had an additional anterior discectomy and arthrodesis without instrumentation, and three (6 percent) had an additional decancellation egg-shell osteotomy. The forty-seven patients were followed for an average of forty-seven months (range, twenty-four to 100 months). The complications were tabulated to assess the safety of the procedure, and the correction of each deformity was calculated to determine the efficacy. RESULTS: There were no deaths, acute wound infections, or serious neurological problems. Reoperation was necessary in five patients (11 percent). One reoperation was performed because of a delayed deep wound infection; one, because of delayed sterile drainage; and one, for a pseudarthrosis repair. The remaining two reoperations were done for removal of an implant because the cephalad portion had become prominent. In addition to the pseudarthrosis that required a reoperation, there were three possible pseudarthroses that did not require a reoperation (overall prevalence of pseudarthrosis, 9 percent). Postoperative bracing was used for eleven patients (23 percent); it did not influence the rate of pseudarthrosis or possible pseudarthrosis. The average preoperative scoliosis of 70 degrees was corrected to 24 degrees (a 66 percent correction) at the time of the latest follow-up, and the average preoperative pelvic obliquity of 27 degrees was corrected to 5 degrees (an 81 percent correction). A survey of the patients, parents, and caregivers indicated that 96 percent of them were satisfied or very satisfied with the result of the operation. CONCLUSIONS: Isola-Galveston instrumentation seems as safe and effective as other types of instrumentation that have been studied in comparable series in the literature. Isola-Galveston instrumentation is probably more effective for the correction of pelvic obliquity and the maintenance of correction. Only a posterior procedure is used, and the instrumentation appears to decrease the need for an additional anterior approach. Spinal hook, wire, screw, and post anchors have been successfully integrated into one posterior spinal implant system.     

Spinal fusion augmented by luque-rod segmental instrumentation for neuromuscular scoliosis

Seventy-four patients who had deformity of the spine secondary to a neuromuscular disorder were treated using posterior fusion with Luque-rod segmental instrumentation. The mean curve was 73 degrees preoperatively and 38 degrees postoperatively. The mean loss of correction was 4 degrees at an average duration of follow-up of forty-two months (range, 2.0 to 7.3 years). Complications included one death, three deep wound infections, two pressure sores, six sets of broken rods, and one instance of distal rotation and migration of the rod. There were no major perioperative neurological complications. Failure of instrumentation occurred more frequently with 3/16-inch (4.8-millimeter) diameter than with 1/4-inch (6.4-millimeter) diameter stainless-steel rods. There was a tendency for cephalad progression of deformity when the fusion ended cephalad at or below the fourth thoracic vertebra. We concluded that Luque-rod segmental instrumentation with posterior spinal fusion is an effective treatment for patients who have neuromuscular scoliosis.     

Single stage decompression, anterior interbody fusion and posterior instrumentation for tuberculous kyphosis of the dorso-lumbar spine

STUDY DESIGN: To evaluate the role of single stage decompression with anterior interbody fusion with posterior instrumentation and deformity correction of tuberculous kyphosis of the dorso-lumbar spine in patients with/without neurological deficit. OBJECTIVES: (1) To evaluate the amount of kyphosis correction with single stage surgery and its progression with time. (2) To evaluate the neurological recovery. (3) To evaluate the bony anterior interbody fusion. SETTING: King Edward Memorial Hospital, Bombay, India. METHODS: Twenty-eight patients with post-tuberculous kyphosis deformity averaging 64.3 degrees (range 17 to 105) were treated by a single stage posterolateral decompression, correction of kyphosis, anterior interbody fusion and posterior instrumentation. RESULTS: The mean kyphosis correction obtained was 62.5% with the mean post-operative kyphosis angle reducing to 24.1 (range 5-60). At a mean follow-up of 5.8 years (4-7 years) the mean kyphosis angle loss was 3.2 degrees (range 0-5 degrees ). Of the 23 patients with neurological deficit, recovery was seen in 21 cases (91.3%) while deterioration was seen in one case (4.3%). The remaining five patients were neurologically intact pre-operatively. Bony fusion was seen in all cases at 9 months. One patient with subpulmonary function died post-operatively (mortality 3.5%). CONCLUSION: The results of our series are encouraging. However single stage decompression with fusion and kyphosis correction is a very demanding surgery and should be performed after taking into account the risks and benefits involved. This surgery perhaps prevents progression of neurological deficit and recurrence of late onset paraplegia in these complex cases in developing countries.     

患椎间手术治疗非连续性多椎体脊柱结核

目的：探讨经患椎间手术治疗非连续性多椎体脊柱结核的临床疗效。方法2000年1月～2008年1月手术治疗非连续性多椎体脊柱结核患者38例。38例共发生病变88处,平均每例2．3处;共累及190个椎体,平均每处2．1个椎体。病变相隔1个正常椎间者12例、相隔≥2个椎间者26例。术前有神经功能损害者15例。常规术前抗结核2～4周后手术,后路矫形、固定、前路病灶清除并植骨26例;前路病灶清除、矫形、植骨融合、器械内固定12例。结果38例均获随访,平均随访6年。术后后凸Cobb角为8．7°±6．1°,矫正率为71．3％;末次随访丢失率为7．8％。34例至术后平均4．9个月时血沉及C反应蛋白恢复正常。术后平均5．4个月植骨全部愈合。末次随访时神经功能Frankel分级均达到E级。。结论经患椎间彻底病灶清除、畸形矫正、植骨融合、器械内固定治疗非连续性多椎体脊柱结核是可行有效的。     

Adult idiopathic scoliosis treated by posterior spinal fusion and Harrington instrumentation

Ninety-one patients with idiopathic scoliosis, who underwent posterior spinal fusion and instrumentation from January 1977 to December 1982, were reviewed. All patients were 20 years or older at the time of surgery and none had undergone a prior surgical procedure. Indications for surgery included pain, progressive deformity, and pulmonary symptoms. All patients had a posterior spinal fusion with Harrington instrumentation and autogenous iliac bone graft, with the addition of segmental wiring in only eight. No patient had an anterior fusion or fusion to the sacrum. Follow-up averaged 3.5 years (range: 2-7 years). The average correction at the time of surgery was 38%, and 32% at the time of last follow-up. Seventy-nine percent of the patients reported complete relief of the symptom(s) for which they had surgery. There were 34 complications in 30 (33%) patients. Pseudarthrosis occurred in 14 (15%), requiring 15 additional procedures to achieve a solid arthrodesis. Urinary tract infection occurred in 8 (9%) patients and Harrington hook dislodgement in 5 (5%). One patient sustained a partial paraparesis with recovery to a minimal deficit. No deaths occurred. Although largely successful, posterior fusion with Harrington instrumentation for adult scoliosis has a significant incidence of pseudarthrosis and instrumentation problems.     

The surgical management of congenital kyphosis and kyphoscoliosis.

STUDY DESIGN: A retrospective study of surgery for congenital kyphosis and kyphoscoliosis. OBJECTIVE: To assess the effectiveness of different types of spine surgery in the management of congenital kyphosis and kyphoscoliosis. SUMMARY OF BACKGROUND DATA: Congenital kyphosis and kyphoscoliosis are much less common than congenital scoliosis but potentially more serious, because these curves can progress rapidly and Type I deformities can lead to spinal cord compression and paraplegia. No one operative procedure can be applied to all types and sizes of deformity. The method of surgical treatment depends on the age of the patient, the type and size of the deformity, and the presence or absence of spinal cord compression causing a neurologic deficit. METHODS: Sixty-five patients with a congenital kyphosis (n = 14) or kyphoscoliosis (n = 51) were treated by five different methods of spine arthrodesis: prophylactic posterior arthrodesis before age of 5 years (n = 11), posterior arthrodesis after age 5 years without instrumentation (n = 26) and with instrumentation (n = 12), combined anterior and posterior arthrodesis without instrumentation (n = 7) and with instrumentation (n = 9). Six patients had preoperative lower limb spastic paraparesis caused by spinal cord compression. The mean age at surgery was 9 years 6 months (range, 11 months to 25 years), and all 65 patients were observed for a minimum of 2 years (mean 6 years 6 months, range 2 to 18 years). Fifty-seven patients reached skeletal maturity. RESULTS: A posterior arthrodesis performed before the age of 5 years resulted in a gradual reduction of the kyphosis by a mean 15 degrees in 9 of the 11 patients, followed up for a mean of 11 years, whose initial kyphosis was less than 55 degrees. Patients treated after the age of 5 years by a posterior arthrodesis followed by cast application had poor correction and a high incidence of pseudarthrosis. This was not significantly improved by the addition of posterior instrumentation. For curves greater than 60 degrees, the most successful results were achieved by an anterior spinal release and arthrodesis with strut graft correction followed by posterior arthrodesis with instrumentation (if possible). CONCLUSION: All patients with a Type I or Type III congenital kyphosis or kyphoscoliosis should be treated by a posterior arthrodesis before the age of 5 years and before the kyphosis exceeds 50 degrees. A kyphosis that does not reduce to less than 50 degrees as measured on the lateral spine radiograph made with the patient supine requires an anterior release and arthrodesis with strut grafting followed by posterior arthrodesis with instrumentation (if possible).     

Surgical treatment of Scheuermann's disease with segmental compression instrumentation

Twenty-one patients with Scheuermann's kyphosis had surgery for progressive kyphotic deformity of 50 degrees or greater. There were six adolescents, with a mean age of 15.6 years (range, 13-17 years) and 15 young adults, with a mean age of 25.4 years (range, 18-40 years). All patients had posterior spine arthrodesis with segmental compression instrumentation. Seven patients with rigid kyphosis had combined anterior and posterior spine arthrodesis. One patient died of superior mesenteric artery syndrome. In the group of 13 patients with posterior arthrodesis only, followup was 4.5 years. The mean preoperative thoracic kyphotic curve of 68.5 degrees improved to 40 degrees at latest review, with an average loss of correction of 5.75 degrees. Junctional kyphosis occurred in two patients with a short arthrodesis: one at the cephalad end and one at the caudal end of the fused kyphotic curve. In the second group of seven patients with combined anterior and posterior arthrodesis, followup was 6 years. The mean preoperative thoracic kyphotic curve of 86.3 degrees improved to 46.4 degrees at latest review, with an average loss of correction of 4.4 degrees. Overall, there was no postoperative neurologic deficit and no pseudarthrosis. Thus, posterior arthrodesis and segmental compression instrumentation seems to be effective for correcting and stabilizing kyphotic deformity in Scheuermann's disease. Despite a long operating time, this technique provided significant correction, avoiding the development of any secondary deformity in most patients. Combined anterior and posterior spine arthrodesis is recommended for rigid, more severe kyphotic deformities.     

Lumbosacral fusion in children and adolescents using the modified sacral bar technique.

Between 1986 and 1995 10 patients who were 9 to 18 years of age underwent posterior spinal fusion and instrumentation to the pelvis for correction of spinal deformity using the modified sacral bar technique at the authors' institution. Etiologies of the spinal deformity included congenital scoliosis, cerebral palsy, myelomeningocele, neurofibromatosis, and postlaminectomy kyphosis. Indications for pelvic instrumentation were progressive scoliosis of the lower lumbar spine, pelvic obliquity greater than 15 degrees, and dysraphic posterior elements. Five of the patients had prior spinal surgery. Five patients had a prior or a planned pelvic osteotomy. Nine of the patients achieved lumbosacral fusion without an additional procedure. Major complications included loss of pelvic fixation in two patients, and a dural leak and a wound infection in another patient with myelomeningocele. Mean scoliotic curve correction was from 71.9 degrees to 34.5 degrees at final followup. Lumbar lordosis essentially was unchanged. Pelvic obliquity was corrected from a mean of 20.5 degrees preoperatively to a mean of 7.6 degrees at final followup. The modified sacral bar technique was selected for fusion to the sacrum because of planned or prior pelvic osteotomies, prior posterior spinal fusion and instrumentation, sacral dysraphism, or local anatomic anomalies. The modified sacral bar technique proved to be an effective technique in these patients.     

Late paraparesis due to pseudarthrosis after posterior spinal fusion

The authors report three cases in which paraparesis related to a pseudarthrosis occurred several years after a posterior spinal fusion, but with a different mechanism (stretching of the spinal cord for progression of the deformity in kyphosis in two cases, and spinal cord compression for bone overgrowth within the canal in the site of pseudarthrosis in the third patient). Treatment was different. Partial correction of the deformity and stabilization of the spine by combined fusion (anterior and posterior) was sufficient in the first two cases for a complete neurological recovery. Posterior spinal cord decompression and stabilization of the spine by combined fusion was necessary for complete recovery in the third.     

Management of adult spinal deformity with combined anterior-posterior arthrodesis and Luque-Galveston instrumentation.

Twenty-five consecutive adult women with nonparalytic spinal deformity were treated with fusion to the sacrum. Two patients were lost to follow-up and one patient died, leaving 22 patients for review. All patients underwent a first-stage anterior spinal fusion without instrumentation followed by a second-stage posterior spinal fusion with Luque-Galveston instrumentation. The average age of the patients was 47 years (range, 25-64 years). The average follow-up was 39 months (range, 24-60 months). Ten patients had had previous surgery in the area of the instrumentation. The main indications were pain (22 patients), loss of sagittal plane balance (17 patients), and progression of the deformity (13 patients). Additional procedures included anterior corpectomies (five patients), anterior and posterior osteotomies (two patients), posterior osteotomies (eight patients), and posterior decompression (five patients). The average curve correction was 27% for thoracic scoliosis and 44% for lumbar scoliosis. Physiologic sagittal plane realignment was obtained in four patients who presented preoperatively with sagittal plane deformities. Pain improvement was reported in 14 of 22 (63%) patients. Nineteen (82%) patients had 34 complications. Pseudarthrosis occurred in nine patients (41%) and was successfully repaired in four; hence the fusion rate was 77% at follow-up. Of the 23 patients, one died from pulmonary embolism, 15 (66%) were in good condition, one (4%) was in fair condition, and seven (30%) were in poor condition. Previous surgery and additional procedures such as vertebrectomies or osteotomies did not adversely affect the outcome. There were no permanent neurologic deficits related to the instrumentation or the passage of sublaminar wires. The Luque-Galveston method provided correction of sagittal plane deformities and flatback syndrome.     

The Cotrel-Dubousset system--results in spinal reconstruction. Early experience in 47 patients.

Forty-seven patients were treated with spinal fusion and Cotrel-Dubousset instrumentation and were followed for an average of 28 months. Spinal procedures included: 1) posterior spinal fusion for idiopathic scoliosis (26 patients); 2) posterior pseudarthrosis repair (5 patients); 3) combined anterior/posterior fusion to the sacrum (6 patients); and 4) combined anterior/posterior osteotomies (10 patients). Group 1: Partial derotational correction was achieved for adolescent idiopathic scoliosis. Group 2: Successful pseudarthrosis repair was achieved in four patients. Group 3: A solid arthrodesis was obtained in two patients, whereas the other three patients underwent revision of sacral screw fixation for pseudarthrosis. One patient died postoperatively. Group 4: Pain relief and a balanced correction was achieved in all patients. The Cotrel-Dubousset system appears to be a versatile system and provides a wide range of possibilities for a variety of spinal problems.     

一期前路病灶清除椎间植骨联合内固定治疗脊柱结核

目的探讨病灶彻底清除后,自体髂骨块椎间植骨联合前路或后路内固定的效果。方法1999年6月～2004年4月期间一期手术治疗脊柱结核89例,其中前路病灶清除、自体髂骨椎间植骨,前方或侧前方内固定73例;前路病灶清除、自体髂骨椎间植骨,后路内固定16例。术后支具保护6个月,正规抗结核化疗12个月。根据术前、术后及最后一次随访的X线平片分析融合情况和畸形矫正的进展。结果随访1～5年,平均28个月;除2例复发、1例内固定松动、2例出现药物性肝炎、2例出现供骨区严重疼痛外,无其他并发症;88例获骨性愈合,愈合时间3～6个月。平均4个月;术前、术后、最后一次Cobb角分别为35.3°、16.3°、19.5°。结论对合适的病例,该法可有效稳定脊柱、维持其畸形的矫正;达到牢固地融合,临床效果明显。     

胸腰段陈旧骨折继发后凸畸形的外科治疗

目的总结分析胸腰段陈旧骨折继发后凸畸形的手术治疗效果。方法回顾研究胸腰段陈旧骨折继发后凸畸形33例,平均年龄40 3岁。病史平均36 0个月。后凸Cobb角平均40 8°(20°~82°)。全部患者均有脊髓损伤,括约肌功能障碍26例。12例有显著腰背部疼痛。23例既往曾有手术史。手术方式包括前路椎体间隙松解植骨+后路截骨矫形固定15例,后路截骨减压矫形12例,前路松解、椎体间撑开植骨固定6例。结果全部患者后凸畸形矫正率平均为86 0%。无严重手术并发症。随访时间平均24 6个月(6个月~84个月), 32例骨性融合, 1例植骨未融合,行二次手术后骨性融合。10例术后神经功能有改善, 10例术后括约肌功能部分恢复。有显著腰背部疼痛者术后症状均明显减轻。结论单纯后路截骨矫形适用于角度较小( <45°)的后凸畸形。前路松解、后方经关节突截骨矫形适用于不同程度的后凸畸形,尤其对后凸严重或二次手术的病例更显优势。对于合并脊髓不全损伤的病例即使病史较长,手术仍然可能获得一定疗效,特别是对于腰部疼痛的缓解效果显著。