一种新的人体成分分析分段模型——检测系统设计及初步实验
A new trunk subdivision BIA model system design and preliminary experiment
摘要目的 针对全身阻抗测量方法和传统分段阻抗测量法存在的问题,优化生物电阻抗人体成分分析(BIA)的分段模型,研制基于新模型的测量系统,进行初步实验.方法 分析人体胸部和腹部对脂肪测量的不同影响,提出新的躯干细分模型;对新模型进行理论分析,构建基于躯干细分模型BIA系统,进行多层螺旋CT(MSCT)法与新方法的人体成分测量对照实验.结果 以人体躯干部分为检测重点,基于躯干细分模型的BIA法能有效区分躯干上段和下段的阻抗值,从而得到人体的胸部和腹部脂肪含量.2种方法的对照试验结果显示出良好的相关性.结论 基于躯干细分模型的新方法,弥补了全身和传统5段分段法的缺陷,是对传统人体成分分析方法的有效改进,更符合临床上人体成分测量的要求和目标,更具生理学意义.
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abstractsObjective Taking account of the deficiency in whole body impedance measurement and in the traditional segment measurement, an optimization towards bioelectrical impedance segmental model is developod, then a system based on the new model is designed and preliminary experiment is carried out. Methods A trunk subdivision model was proposed to avoid the undesirable effect from thorax and abdominal cavity on fat measurement. The new model-basod measuring system was established. In addition, the result of the experiment based on trunk subdivision Bio-Impedance Analysis (BIA) method was compared to the result obtained via Multislice Spiral Computer Tomography(MSCT). Results Focusing on trunk detection, the trunk subdivision BIA is able to distinguish the impedance of upper segment (thorax) and the impedance of lower segment (abdominal cavity). With the utilization of the impedance, the fat content of thorax and abdominal cavity can be calculated. Furthermore, the comparison results of the two methods above show excellent correlation. Conclusion The novel method is a good remedy to whole body model method and the traditional segment BIA (SBIA) method. It is an effective improvement in body composition analysis, well meets the requirements and purpose of body composition measurement and more physiologically meaningful.
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