[1]李嘉,孙嘉堃,刘向阳,等.人体形态自动化测量软件在人体形态检查中的应用价值研究[J].中医正骨,2023,35(07):6-10.
 LI Jia,SUN JiaKun,LIU Xiangyang,et al.Applied values of automated human body shape measurement software in clinical examination of human body shape[J].The Journal of Traditional Chinese Orthopedics and Traumatology,2023,35(07):6-10.
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人体形态自动化测量软件在人体形态检查中的应用价值研究()
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《中医正骨》[ISSN:1001-6015/CN:41-1162/R]

卷:
第35卷
期数:
2023年07期
页码:
6-10
栏目:
临床研究
出版日期:
2023-07-20

文章信息/Info

Title:
Applied values of automated human body shape measurement software in clinical examination of human body shape
作者:
李嘉1孙嘉堃2刘向阳1谢功能3覃国忠4冯敏山5朱立国5闵存云1蔺福辉4陈超6
(1.广东省人民医院,广东 广州 510080; 2.广东中卡云计算有限公司,广东 广州 510040; 3.郴州市第一人民医院,湖南 郴州 423001; 4.深圳平乐骨伤科医院/深圳市坪山区中医院,广东 深圳 518010; 5.中国中医科学院望京医院,北京 100102; 6.南方医科大学南方医院,广东 广州 510515)
Author(s):
LI Jia1SUN JiaKun2LIU Xiangyang1XIE Gongneng3QIN Guozhong4FENG Minshan5ZHU Liguo5 MIN Cun-yun1LIN Fuhui4CHEN Chao6
1.Guangdong Provincial People's Hospital,Guangzhou 510080,Guangdong,China2.Guangdong Zhongka Cloud Computing Co.,LTD,Guangzhou 510040,Guangdong,China3.The First People's Hospital of Chenzhou,Chenzhou 423001,Hunan,China4.Shenzhen Pingle Orthopedic Hospital(Shenzhen Pingshan District Hospital of Traditional Chinese medicine),Shen-zhen 518010,Guangdong,China5.Wangjing Hospital of CACMS,Beijing 100102,China6.Nanfang Hospital,Southern Medical University,Guangzhou 510515,Guangdong,China
关键词:
身体形态 测量 软件 自动化 算法
Keywords:
body shape measure software automation algorithms
摘要:
目的:探讨人体形态自动化测量软件在人体形态检查中的应用价值。方法:以2021年6月至2022年6月在南方医科大学南方医院儿科就诊的患者为研究对象。采用人体形态自动化测量软件测量受试者的肩平衡角、髋平衡角、脊柱侧弯角、左膝关节内外翻角、右膝关节内外翻角、躯干前后倾角及右膝过伸角等7个人体形态指标,并与2名骨科医生通过体格检查人工测量的结果进行比较,分析软件测量结果与人工测量结果的一致性。结果:①一般情况。共纳入160例受试者,男79例、女81例; 年龄 7~15岁,中位数11岁; 身高90~178 cm,中位数119 cm; 体质量10~78 kg,中位数34 kg。②软件测量结果与人工测量结果的一致性分析结果。Bland-Altman一致性分析结果显示,肩平衡角[软件测量:(2.060°,2.120°); 人工测量:(2.200°,2.100°)]、髋平衡角[软件测量:(1.870°,2.162°); 人工测量:(1.850°,2.125°)]、脊柱侧弯角[软件测量:(0.570°,1.140°); 人工测量:(0.750°,1.300°)]、左膝关节内外翻角[软件测量:(-2.665°,5.855°); 人工测量:(-2.750°,5.475°)]、右膝关节内外翻角[软件测量:(-2.555°,3.917°); 人工测量:(-2.350°,4.500°)]、躯干前后倾角[软件测量:(2.730°,2.548°); 人工测量:(3.100°,3.300°)]及右膝过伸角[软件测量:(20.300°,31.090°); 人工测量:(21.350°,30.250°)]7个人体形态指标的软件测量结果与人工测量结果差值的均数均位于0附近,变异系数均小于5%。Spearman相关分析显示,7个人体形态指标的软件测量结果与人工测量结果均呈正相关(肩平衡角:rs=0.920,P=0.001; 髋平衡角:rs=0.955,P=0.001; 脊柱侧弯角:rs=0.889,P=0.001; 左膝关节内外翻角:rs=0.979,P=0.001; 右膝关节内外翻角:rs=0.982,P=0.001; 躯干前后倾角:rs=0.823,P=0.001; 右膝过伸角:rs=0.970,P=0.001)。结论:人体形态自动化测量软件可准确测量多个人体形态评估指标,可用于人体形态检查。
Abstract:
Objective:To explore the applied values of automated human body shape(HBS)measurement software in clinical HBS examination.Methods:The children who were treated in the pediatric department of Nanfang Hospital of Southern Medical University from June 2021 to June 2022 were selected out as the subjects.The body shape indicators,including shoulder balance angle,hip balance angle,scoliosis angle,left knee varus-valgus angles,right knee varus-valgus angles,trunk forward-backward tilt angles and right knee hyperextension angle,were measured by using the automated HBS measurement software,and the results were compared with those measured manually by two orthopedic surgeons through medical examination of the same children.The consistency of the measuring results was analyzed between the 2 measuring methods.Results:①One hundred and sixty children were included in the study,and they consisted of 79 boys and 81 girls and ranged in age from 7 to 15 years(Median=11 yrs),body height from 90 to 178 cm(Median=119 cm)and body mass from 10 to 78 kg(Median=34 kg).②The results of Bland-Altman consistency analysis showed that the mean value of the differences between the two kinds of measuring results of body shape indicators,including shoulder balance angle(software measurement:(2.060°,2.120°); manual measurement:(2.200°,2.100°)),hip balance angle(software measurement:(1.870°,2.162°); manual measurement:(1.850°,2.125°)),scoliosis angle(software measurement:(0.570°,1.140°); manual measurement:(0.750°,1.300°)),left knee varus-valgus angles(software measurement:(-2.665°,5.855°); manual measurement:(-2.750°,5.475°)),right knee varus-valgus angles(software measurement:(-2.555°,3.917°); manual measurement:(-2.350°,4.500°)),trunk forward-backward tilt angles(software measurement:(2.730°,2.548°); manual measurement:(3.100°,3.300°))and right knee hyperextension angle(software measurement:(20.300°,31.090°); manual measurement:(21.350°,30.250°)),hoverd around zero,and the variation coefficients were all less than 5%.The results of Spearman correlation analysis showed that the 7 body shape indicators measured by software were positively correlated with those measured by manual means(shoulder balance angle:rs=0.920,P=0.001; hip balance angle:rs=0.955,P=0.001; scoliosis angle:rs=0.889,P=0.001; left knee varus-valgus angles:rs=0.979,P=0.001; right knee varus-valgus angles:rs=0.982,P=0.001; trunk forward-backward tilt angles:rs=0.823,P=0.001; right knee hyperextension angle:rs=0.970,P=0.001).Conclusion:The automated HBS measurement software can accurately measure multiple body shape assessment indicators,so it can be used in clinical HBS examination.

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备注/Memo

备注/Memo:
基金项目:广州市科技计划项目(201604020095) 通讯作者:陈超 E-mail:chenchao_smu@163.com
更新日期/Last Update: 1900-01-01