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Query: UMLS:C0729233 (Thoracic)
 6,478 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Vertebral fracture is the most prevalent manifestation of osteoporosis in women, but there is very little information concerning vertebral fracture in men. These studies begin to determine the prevalence, radiographic character, and relationship to bone mineral density of vertebral deformity in men. A group of 144 white men aged 34-94 years (83% between 50 and 80 years) were studied. Thoracic and lumbar spine radiographs were obtained using standardized techniques, and morphometric measures of vertebrae (T6-L5) were obtained using a computerized digitization pad. Vertebral deformities (wedge, midbody, and crush) were identified using several criteria. In addition, a skeletal radiologist independently identified vertebral deformities, as well as vertebrae affected by epiphysitis (Scheuermann's disease), using classic radiographic criteria. Bone mineral density was measured at lumbar spine and proximal femoral sites using dual-photon absorptiometry. The prevalence of vertebral deformity was related to the criteria used for their identification. Utilizing vertebral-specific criteria (anterior/posterior or midbody/posterior vertebral height more than 3 SD below vertebral specific mean), 10% of subjects had vertebral deformity. Wedge deformity occurred primarily in thoracic vertebrae and were more common than midbody deformity, which occurred more commonly in lumbar vertebrae. Crush deformities were not observed. Evidence of vertebral epiphysitis was present in 9% of subjects but was not responsible for vertebral deformity sufficient to be falsely identified using the more than -3 SD criterion. Bone mineral density in subjects with vertebral deformity was clearly reduced at both vertebral (p = 0.003) and proximal femoral (p = 0.002) measurements sites. The number of vertebral deformities was negatively correlated with vertebral bone mineral density.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Vertebral deformity in men. 146 52

This is the case report of a 42-year-old woman with chronic thoracic pain, nonradicular and refractory to all nonoperative treatment. Radiographs showed the classic findings of Scheuermann's disease, but without abnormal kyphosis. Magnetic resonance imaging scans showed multilevel thoracic disc degeneration typical of long-term Scheuermann's disease. Thoracic discography revealed concordant pain at T6-7 and T7-8. Treatment consisted of an anterior fusion, T5-11, and posterior fusion of T3 through L1, with Cotrel-Dubousset instrumentation. At follow-up, she was pain free and able to work full time and had been able to return to golf, her favorite recreation. Discography of the thoracic spine, as of the lumbar spine, can reveal the true source of pain and thus lead to precise and effective treatment.
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PMID:Painful adult thoracic Scheuermann's disease. Diagnosis by discography and treatment by combined arthrodesis. 895 59

The aim of this prospective study was to evaluate radiographic findings, patient satisfaction and clinical outcome, and to report complications and instrumentation failure after operative treatment of Scheuermann's disease using a combined anterior and posterior spondylodesis. The loss of sagittal plane correction after removal of the posterior instrumentation was analysed. The indication for surgery was a thoracic kyphosis greater than 60 degrees in adolescents and adults with persistent back pain, which failed to respond to conservative treatment. Thoracic kyphosis and lumbar lordosis angles were measured by the Cobb method at preselected time points and at final follow-up. Sagittal plane alignment was measured as translation. The validated Scoliosis Research Society Instrument (SRSI) questionnaire was sent to all patients at follow-up. P-values were calculated using the Wilcoxon signed rank test (P<0.05 is significant). Between October 1987 and August 1999, 23 consecutive patients underwent operative treatment. The median follow-up was 75 months (range 25-126 months). Median preoperative thoracic kyphosis was 70 degrees (range 62 degrees-78 degrees) and median preoperative lumbar lordosis was 68 degrees (range 54 degrees-84 degrees). Immediate postoperative median thoracic kyphosis was 39 degrees (range 28 degrees-54 degrees) (P<0.05) and immediate postoperative median lumbar lordosis was 49 degrees (range 35 degrees-63 degrees) (P<0.05). These significant corrections were maintained at early follow-ups conducted 1 year and 2 years postoperatively. At final follow-up, the median thoracic kyphosis had significantly increased, to 55 degrees (range 36 degrees-65 degrees) (P<0.05 relative to immediate postoperative value), and the median lumbar lordosis had increased to 57 degrees (range 44 degrees-70 degrees) (P<0.05). The late deterioration of correction in the sagittal plane was mainly caused by removal of the posterior instrumentation, and occurred despite radiographs, bone scans and thorough intra-operative explorations demonstrating solid fusions. The median SRSI score was 83 points (range 55-106). There was no significant correlation between the radiographic outcome and the SRSI score (P>0.05). Our series showed relatively fair outcome after operative treatment in Scheuermann's disease. Therefore, the indication for surgery in patients with Scheuermann's disease can be questioned.
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PMID:Clinical outcome and radiographic results after operative treatment of Scheuermann's disease. 1561 74

In children with low back pain (LBP), a specific cause is often identified. LBP has a relatively high prevalence during school years. However, only a minority of the children suffering from LBP seek medical attention. Protracted back pain in childhood is a serious condition that should be thoroughly investigated. This article is a systematic review of the intrinsic causes of LBP. Imaging modalities are discussed, with emphasis on magnetic resonance imaging. We have divided the intrinsic causes of LBP into four main groups: mechanical, developmental, infectious/inflammatory, and neoplastic. Disk protrusion is prevalent in young athletes. Spondylolysis and spondylolisthesis are the most common causes of chronic LBP in children. Thoracic or thoracolumbar Scheuermann disease causes kyphosis while a lumbar localization is more painful. Childhood diskitis is associated with fever and leukocytosis. Spinal inflammatory arthritides in children include juvenile rheumatoid arthritis, the juvenile spondyloarthropathies, and SAPHO syndrome, where spine as well as sacroiliac joint changes may be seen. Cysts, tumors, tumor-like lesions, and metastases are infrequent causes of back pain in children. Several of these conditions are described and illustrated in this review of LBP in children and adolescents.
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PMID:Imaging of low back pain in children and adolescents. 1566 19

Thoracic and thoracolumbar kyphosis is a common deformity in pediatric and adolescent populations. Kyphotic deformation of the spine is defined as a curve which shows an increase in the dorsal convex angulation. The most common causes of kyphosis in pediatric and adolescent populations are Scheuermann's disease, postural and congenital kyphosis. The fundamental principles of treatment are analysis of the kyphotic deformity and restoration or maintenance of sagittal balance. Clinically significant sagittal deformities can lead to severe pain, substantial cosmetic alterations, spinal cord dysfunction, problems with swallowing, gastrointestinal and cardiopulmonary complications. When the kyphotic deformity exceeds a certain point and conservative therapy options are no longer sufficient surgical intervention is indicated. The available operative options for treatment of the various types of pediatric and adolescent thoracolumbar kyphosis include dorsal instrumentation and fusion combined with ventral fusion and purely ventral instrumentation and fusion.
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PMID:[Correction of adolescent kyphosis. What is the state of the art?]. 2172 78