An analysis of thoracic cage deformities and pulmonary function tests in congenital scoliosis
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- 作者:Xuhong Xue ; Jianxiong Shen ; Jianguo Zhang ; Hong Zhao ; Shugang Li…
- 关键词:Congenital scoliosis ; Pulmonary function ; Thoracic cage ; Rib deformity
- 刊名:European Spine Journal
- 出版年:2015
- 出版时间:July 2015
- 年:2015
- 卷:24
- 期:7
- 页码:1415-1421
- 全文大小:528 KB
- 参考文献:1.Takahashi S, Suzuki N, Asazuma T, Kono K, Ono T, Toyama Y (2007) Factors of thoracic cage deformity that affect pulmonary function in adolescent idiopathic thoracic scoliosis. Spine 32:106-12PubMed View Article
2.Gagnon S, Jodoin A, Martin R (1989) Pulmonary function test study and after spinal fusion in young idiopathic scoliosis. Spine 14:486-90PubMed View Article
3.Kearon C, Viviani GR, Kirkley A, Killian KJ (1993) Factors determining pulmonary function in adolescent idiopathic thoracic scoliosis. Am Rev Respir Dis 148:288-94PubMed View Article
4.Leech JA, Ernst P, Rogala EJ, Gurr J, Gordon I, Becklake MR (1985) Cardiorespiratory status in relation to mild deformity in adolescent idiopathic scoliosis. J Pediatr 106:143-49PubMed View Article
5.Johnston CE, Richards BS, Sucato DJ, Bridwell KH, Lenke LG, Erickson M, Spinal Deformity Study Group (2011) Correlation of preoperative deformity magnitude and pulmonary function tests in adolescent idiopathic scoliosis. Spine 36:1096-102PubMed View Article
6.Canavese F, Dimeglio A (2013) Normal and abnormal spine and thoracic cage development. World J Orthop 4:167-74PubMed Central PubMed View Article
7.Winter RB (1983) Congenital deformities of the spine. Thieme-Stratton, New York
8.Newton PO, Faro FD, Gollogly S, Betz RR, Lenke LG, Lowe TG (2005) Results of preoperative pulmonary function testing of adolescents with idiopathic scoliosis. A study of six hundred and thirty-one patients. J Bone Joint Surg Am 87:1937-946PubMed View Article
9.Kim YJ, Lenke LG, Bridwell KH, Cheh G, Whorton J, Sides B (2007) Prospective pulmonary function comparison following posterior segmental spinal instrumentation and fusion of adolescent idiopathic scoliosis: is there a relationship between major thoracic curve correction and pulmonary function test improvement? Spine 32:2685-693PubMed View Article
10.Zhang JG, Wang W, Qiu GX, Wang YP, Weng XS, Xu HG (2005) The role of preoperative pulmonary function tests in the surgical treatment of scoliosis. Spine 30:218-21PubMed View Article
11.Obikili EN, Okoye IJ (2006) Transverse thoracic diameter in frontal chest radiographs of an adult Nigerian population. West Afr J Med 25:186-89PubMed
12.Lin MC, Liaw MY, Chen WJ, Cheng PT, Wong AM, Chiou WK (2001) Pulmonary function and spinal characteristics: their relationships in persons with idiopathic and postpoliomyelitic scoliosis. Arch Phys Med Rehabil 82:335-41PubMed View Article
13.Smyth RJ, Chapman KR, Wright TA, Crawford JS, Rebuck AS (1984) Pulmonary function in adolescents with mild idiopathic scoliosis. Thorax 39:901-04PubMed Central PubMed View Article
14.Saki? K, Pe?ina M, Pavici? F (1992) Pulmonary function in adolescents with idiopathic scoliosis. Int Orthop 16:207-12PubMed View Article
15.Uphadhyay SS, Day GA, Saji MJ, Leong JC (1993) Restrictive pattern of pulmonary functions in idiopathic and congenital scoliosis following spinal fusion. Eur Spine J 2(1):22-8View Article
16.Koller H, Zenner J, Gajic V, Meier O, Ferraris L, Hitzl W (2012) The impact of halo-gravity traction on curve rigidity and pulmonary function in the treatment of severe and rigid scoliosis and kyphoscoliosis: a clinical study and narrative review of the literature. Eur Spine J 21(3):514-29PubMed Central PubMed View Article
17.Min K, Haefeli M, Mueller D, Klammer G, Hahn F (2012) Anterior short correction in thoracic adolescent idiopathic scoliosis with mini-open thoracotomy approach: prospective clinical, radiological and pulmonary function results. Eur Spine J 21(Suppl 6):S765–S772PubMed View Article
18.Campbell RM Jr, Smith MD, Mayes TC, Mangos JA, Willey-Courand DB, Kose N, Pinero RF, Alder ME, Duong HL, Surber JL (2003) The characteristics of thoracic insufficiency syndrome associated with fused ribs and congenital scoliosis. J Bone Joint Surg Am 85-A:399-08PubMed
19.Campbell RM Jr, Smith MD (2007) Thoracic insufficiency syndrome and exotic scoliosis. J Bone Joint Surg Am 89(Suppl 1):108-22PubMed View Article
20.Diméglio A (1993) Growth of the spine before age 5?years. J Pediatr Orthop Part B 1:102-07View Article
21.Dimeglio A, Canavese F (2012) The growing spine: how spinal deformities influence normal spine and thoracic cage growth. Eur Spine J 21:64-0PubMed Central PubMed View Article
22.Dimeglio A (2001) Growth in pediatric orthopaedics. J Pediatr Orthop 21:549-55PubMed
23.Canavese F, Dimeglio A, Volpatti D et al (2007) Dorsal arthrodesis of thoracic spine and effects on thorax growth in prepubertal New Zealand white rabbits. Spine 32:E443–E450PubMed View Article
24.Karol L, Johston C, Mladenov K et al (2008) Pulmonary function following early thoracic fusion in non neuromuscular scoliosis. J Bone Joint Surg Am 90:1272-281PubMed View Article - 作者单位:Xuhong Xue (1)
Jianxiong Shen (1)
Jianguo Zhang (1)
Hong Zhao (1)
Shugang Li (1)
Yipeng Wang (1)
Jinqian Liang (1)
Xisheng Weng (1)
Guixing Qiu (1)
1. Department of Orthopedics, Peking Union Medical College Hospital, Chinese Academy of Medical Science, Peking Union Medical College, No. 1 Shuai Fu Yuan, Wang Fu Jing Street, Beijing, 100730, China - 刊物类别:Medicine
- 刊物主题:Medicine & Public Health
Surgical Orthopedics
Neurosurgery - 出版者:Springer Berlin / Heidelberg
- ISSN:1432-0932
文摘
Purpose To determine: (1) the relationship of thoracic cage parameters and preoperative pulmonary function tests (PFTs) in congenital scoliosis (CS) patients. (2) if patients with rib deformity have greater impairment of PFTs than those without rib deformity. Methods A total of 218 patients with CS and pulmonary dysfunction (FVC?<?80?%) were conducted in one spine center between Jan 2009 and Mar 2013. The demographic distribution, medical records, PFTs and radiographs of all patients were collected. The association of PFTs and thoracic cage deformities was analyzed. Results In total, 143 patients (65.6?%) had a clinically relevant impairment of pulmonary function. They had smaller BMI, larger thoracic transverse and anteroposterior diameter, more thorax height, scoliotic angle and number of involved vertebra than no clinically impairment. PFTs were negative correlation significantly with scoliotic angle, number of involved vertebra and thoracic sagittal diameter, while thorax height is significant positive. The T1-2 height was significant positive correlation with age, stature, weight, thoracic transverse and sagittal longitudinal diameter, while negative correlation with scoliotic curve, number of involved vertebra, as well as kyphotic angle. PFTs do not correlate with T1-2 height, but significantly associated with the rib anomalies. The FVC and FEV1 were significantly lower in patients with rib anomalies than without rib anomalies. There was no association between the pulmonary function and the location of rib deformities. Conclusions PFTs correlate significantly with scoliotic angle, number of involved vertebra, thoracic sagittal diameter, and thorax height. PFTs were significantly lower in patients with rib anomalies, particular to the patients with fused rib.