Establishment of thoracic and abdominal volume models of adolescent idiopathic scoliosis based on three-dimensional motion capture system

doi:10.12307/2022.802

Abstract

Abstract: BACKGROUND: Three-dimensional motion capture technology has developed a variety of models for different diseases through its computer-aided characteristics. There are no good models available for clinically instructive assessment of adolescent idiopathic scoliosis.
OBJECTIVE: To establish the thoracic volume and abdominal volume models of adolescent idiopathic scoliosis based on 3D motion capture system.
METHODS: Fourteen patients with adolescent idiopathic scoliosis, aged 10-18 years, were selected from Shanghai Yangzhi Rehabilitation Hospital (Shanghai Sunshine Rehabilitation Center), Shanghai No. 6 People’s Hospital Affiliated to Shanghai Jiao Tong University, and Shanghai Children’s Medical Center Affiliated to Shanghai Jiao Tong University from July 2020 to July 2021, including 2 males and 12 females. Chest circumference and Cobb’s angle of all patients were measured. The models of thoracic volume and abdominal volume were established by three-dimensional motion capture system. The correlation of thoracic volume and abdominal volume with age, chest circumference and Cobb’s angle was analyzed.
RESULTS AND CONCLUSION: The thoracic and abdominal volumes at maximum inhalation and maximum exhalation were positively correlated with chest circumference, but not correlated with Cobb’s angle. The models of thoracic volume and abdominal volume of adolescent idiopathic scoliosis were established based on three-dimensional motion capture system. This method is proven to be a harmless, accurate and quantitative detection of thoracic and abdominal volumes for patients with Cobb’s angle ranging from 10° to 45°.

Key words: adolescent idiopathic scoliosis, 3D motion capture, thoracic volume, abdominal volume

CLC Number:

Lu Yangyang, Xu Chunxin, Chen Cen, Ren Jie, Zhai Xinyi, Zhu Shenyu, Shen Min. Establishment of thoracic and abdominal volume models of adolescent idiopathic scoliosis based on three-dimensional motion capture system[J]. Chinese Journal of Tissue Engineering Research, 2022, 26(36): 5807-5811.

Figures/Tables 6

References

[1] 邱贵兴.青少年特发性脊柱侧弯的流行病学研究进展[J].中华医学杂志,2006,86(11):790-792.
[2] GHANDHARI H, AMERI E, SAFARI MB, et al. The effect of Cobb angle correction on spinal length gain in patients with adolescent idiopathic scoliosis. J Pediatr Orthop B. 2019;28(1):22-26.
[3] ALTAF F, GIBSON A, DANNAWI Z, et al.Adolescent idiopathic scoliosis.BMJ. 2013;346:f2
[4] NEGRINI S, DONZELLI S, AULISA AG, et al.2016 SOSORT guidelines: orthopaedic and rehabilitation treatment of idiopathic scoliosis during growth.Scoliosis Spinal Disord.2018;10(13):3.
[5] WEINSTEIN SL, DOLANLA, WRIGHTJG, et al. Effects of bracing in adolescents with idiopathic scoliosis. N Engl J Med. 2013;369(16): 1512-1521.
[6] KYRÖLÄ K, HÄKKINEN AH, YLINEN J, et al. Further validation of the Scoliosis Research Society (SRS-30) questionnaire among adult patients with degenerative spinal disorder. Disabil Rehabil. 2021;43(1):98-103.
[7] HADDAS R, KISINDE S, MAR D, et al. Does improved radio‐graphic alignment truly enhance dynamic functional balance?. Spine Deform. 2020;8(4):685-694.
[8] 谭菁华,晏怡果.光学式三维运动捕捉在运动系统相关研究中的应用[J]. 海南医学,2018,29(14):2029-2032.
[9] 谭菁华,薛静波,谢勇,等.光学三维运动捕捉系统用于生物力学测试的精准度分析[J].中国组织工程研究,2022,26(12):1822-1827.
[10] 蔡美玲.三维人体运动分析与动作识别方法[D].长沙:中南大学,2013.
[11] YAN Y, BELL KM, HARTMAN RA, et al. In vitro evaluation of translating and rotating plates using a robot testing system under follower load. Eur Spine J. 2017;26(1):189-199.
[12] BELL KM, YAN Y, DEBSKI RE, et al. Influence of varying compressive loading methods on physiologic motion patterns in the cervical spine. J Biomech. 2016;49(2):167-172.
[13] COBIAN DG, DAEHN NS, ANDERSON PA, et al. Active cervical and lumbar range of motion during performance of activities of daily living in healthy young adults. Spine. 2013;38(20):1754-1763.
[14] SCHMID S, STUDER D, HASLER CC, et al. Quantifying spinal gait kinematics using an enhanced optical motion capture approach in adolescent idiopathic scoliosis. Gait Posture. 2016;44:231-237.
[15] 晏怡果,谢勇,王程,等.基于LabVIEW与6轴机械臂的脊柱生物力学测试系统构建及初步可靠性研究[J].医用生物力学 ,2019, 34(1):47-57.
[16] PHUTANE U, LIPHARDT AM, BRÄUNIG J, et al. Evaluation of Optical and Radar Based Motion Capturing Technologies for Characterizing Hand Movement in Rheumatoid Arthritis-A Pilot Study. Sensors (Basel). 2021;21(4):1208.
[17] CUADRADO J, MICHAUD F, LUGRÍS U, et al. Using Accelerometer Data to Tune the Parameters of an Extended Kalman Filter for Optical Motion Capture: Preliminary Application to Gait Analysis. Sensors (Basel). 2021;21(2):427.
[18] 张峻霞,窦树斐,苏海龙,等.上、下楼梯步态参数变化特征研究[J].医用生物力学 ,2016,31(3):266-271.
[19] MAZZARELLA J, MCNALLY M, RICHIE D, et al. 3D Motion Capture May Detect Spatiotemporal Changes in Pre-Reaching Upper Extremity Movements with and without a Real-Time Constraint Condition in Infants with Perinatal Stroke and Cerebral Palsy: A Longitudinal Case Series. Sensors (Basel). 2020;20(24):7312.
[20] 柯扬,刘汝落.青少年脊柱侧凸流行病学研究进展[J].中国矫形外科杂志,2009,17(13):990-993.
[21] 尹华英,谢小芬,黎海芪,等.儿童保健专科护士体格测量数据的可信度研究[J].中国循证儿科杂志,2011,6(2):135-139.
[22] 邱勇,吴亮,王斌.特发性脊柱侧凸两侧椎旁肌的影像学差异及其临床意义[J].中华骨科杂志,2006,26(4):228-231.
[23] 邱贵兴,郭盛杰,刘勇.脊柱侧凸关节突中I、II型胶原和TGF-β表达的研究[J].中华医学杂志,2005,85(34):2391-2394.
[24] PARENT S, NEWON PO, WENGER DR. Adolescent idiopathic scoliosis: etiology, anatomy, natural, History, and bracing. Instr Course Lect. 2005;54(1):529-536.
[25] CAMPBELL RM, JR SMITH MD, MAYES TC, et al. The characteristics of thoracic insufficiency syndrome associated with fusedribs and congenital scoliosis. J Bone Joint Surg Am. 2003;85(3):399-408.
[26] CHUN EM, SUH SW, MODI HN, et al. The change in ratio of convexand concave lung volume in adolescent idiopathic scoliosis: a 3D CTscan based cross sectional study of effect of severity of curve onconvex and concave lung volumes in 99 cases. Eur Spine J. 2008;17:224-229.
[27] 郝冉.脊柱侧凸患者的肺功能[D].北京:北京协和医学院,2011.
[28] 郝冉.影响脊柱侧凸患者肺功能的脊柱胸廓畸形指标[J].中国医学科学院学报,2011,33(2):194-199.
[29] BAGO J, SANCHEZ- RAYA J, SANCHEZ PEREZ-GRUESO F, et al. The trunkappearance perception scale (TAPS): a new tool to evaluate subjectiveimpression of trunk deformity in patients with idiopathic scoliosis. Scoliosis. 2010;31(1 suppl): 61-68.
[30] 黄忍.青少年特发性脊柱侧弯的诊治进展[J].中国临床解剖学杂志, 2016,34(4):472-475.