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@#Introduction: To report the indications and early treatment outcomes of pre-operative halo-pelvic traction in patients with neurofibromatosis associated with severe proximal thoracic (PT) spinal deformity. Materials and methods: We reviewed four patients with neurofibromatosis with severe PT spinal deformity. Case 1, a 16-year-old male presented with severe PT kyphoscoliosis (scoliosis: 89°, kyphosis: 124°) and thoracic myelopathy. Case 2 was a 14-year-old, skeletally immature male who presented with a PT lordoscoliosis (scoliosis: 85°). Case 3, a 13-year-old male, presented with severe PT kyphoscoliosis (scoliosis: 100°, kyphosis: 95°). Case 4, a 35-year-old gentleman, presented with severe PT kyphoscoliosis (scoliosis: 113°, kyphosis: 103°) and thoracic myelopathy. All patients underwent pre-operative halo-pelvic traction. After a period of traction, all patients underwent posterior spinal fusion (PSF) with autologous bone grafts (local and fibula bone grafts) and recombinant human bone morphogenetic protein-2 (rhBMP-2). Results: Both patients with thoracic myelopathy regained near normal neurological status after halo-pelvic traction. Following traction, the scoliosis correction rate (CR) ranged from 18.0% to 38.9%, while the kyphosis CR ranged from 14.6% to 37.1%. Following PSF, the scoliosis CR ranged from 24.0% to 58.8%, while the kyphosis CR ranged from 29.1% to 47.4%. The total distraction ranged from 50-70mm. Duration of distraction ranged from 26-95 days. The most common complication encountered during halo-pelvic traction was pin-related e.g. pin tract infection, pin loosening and migration, osteomyelitis, and halo-pelvic strut breakage. No patients had cranial nerve palsies or neurological worsening. Conclusion: Pre-operative correction of severe PT spinal deformities could be performed safely and effectively with the halo-pelvic device prior to definitive surgery.
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Objective To evaluate the clinical efficacy of bilateral lung transplantation combined with Nuss operation on the treatment of bronchiolitis obliterans syndrome (BOS) complicated with pectus excavatum after hematopoietic stem cell transplantation. Methods On March 24, 2015, one patient presenting with BOS complicated with pectus excavatum after hematopoietic stem cell transplantation underwent extracorporeal membrane oxygenation (ECMO)-assisted bilateral lung transplantation in the Department of Thoracic Surgery and Lung Transplantation Center of Wuxi People's Hospital affiliated to Nanjing Medical University. Simutaneously, Nuss operation was successfully performed to treat pectus excavatum. After anti-inflammation and anti-fungal treatment, a triple immunosuppressive regimen consisting of tacrolimus + mycophenolate mofetil + adrenocortical hormone was implemented. Results The patient was properly recovered and discharged on 25 d after operation. The Nuss steel plate was removed from the chest at postoperative 2 years. The thoracic deformity was corrected. The patient received long-term postoperative follow-up. Until submission date, the patient survived for more than 3 years. The lung function was well restored and the quality of life was satisfactory. Conclusions Bilateral lung transplantation combined with Nuss operation is an effective approach in the treatment of end-stage BOS complicated thoracic deformity.
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@#Objective To introduce an integral classification method of thoracic deformity. Methods From March 2015 to March 2017, 869 patients with thoracic deformity were observed. The patients were classified according to the traditional classification method at first, and then were classified according to the integral classification method. According to the standard plane of the normal chest wall, the chest deformities were classified into types Ⅰ and Ⅱ: those below the plane belonged to type Ⅰ, and those above the plane belonged to type Ⅱ. Then two types were divided into subtypes Ⅰ-a, Ⅰ-b, Ⅰ-c, Ⅰ-d, Ⅰ-e, Ⅰ-f, Ⅰ-g and Ⅱ-a, Ⅱ-b, Ⅱ-c, Ⅱ-d according to the specific characteristics of malformation. Results There were 840 patients included in the classification system, accounting for 96.7% of the total patients, and the remaining 29 (3.3%) were complicated malformations, which could not be accurately described by using a single classification type. Compared with the traditional classification methods, patients with pectus excavatum and pectus carinatum were divided into different subtypes. Poland syndrome did not exist any longer, and Dove chest alone became the type Ⅱ-c. Conclusion Integral classification method is a simple and practical classification method. Since the method directly depends on the characteristics of malformation which is related to the operation, it plays a guiding role in the operation. But its superiority needs to be further confirmed.
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Objective@#To establish the three-dimensional digital model of congenital thoracic deformity and the rib defect templates.@*Methods@#22 patients(admitted from Feb 2000 to Feb 2016) with thoracic deformity all received continuous volumetric scanning of chest with 64 slice spiral CT and 3D model reconstruction was performed .The digital data were processed by the Mimics 17.0 software and the entity thoracic model could be made by 3D printers with these processed data. Digital normal thorax model was also reversed by the mirror method.@*Results@#These digital data models of 22 cases with thoracic deformity were established and entity models were gained by 3D printers. Normal ribs templates were made for 11 cases(5 Poland syndrome cases, 5 funnel chest cases and 1 rib defect case).@*Conclusions@#Digital model of thoracic deformity can be established by Mimics 17.0 software with processed CT scan data. 3D printers can be used to gain the entity models, which play the important role in designing accurate and personalized thoracic contour for plastic surgery in the future.