Liu Y, Allen R
Signal Processing & Control Group, Institute of Sound & Vibration Research, University of Southampton, UK.
Med Biol Eng Comput. 2002 Sep;40(5):600-5. doi: 10.1007/BF02345461.
The study aimed to model the cerebrovascular system, using a linear ARX model based on data simulated by a comprehensive physiological model, and to assess the range of applicability of linear parametric models. Arterial blood pressure (ABP) and middle cerebral arterial blood flow velocity (MCAV) were measured from 11 subjects non-invasively, following step changes in ABP, using the thigh cuff technique. By optimising parameters associated with autoregulation, using a non-linear optimisation technique, the physiological model showed a good performance (r=0.83+/-0.14) in fitting MCAV. An additional five sets of measured ABP of length 236+/-154 s were acquired from a subject at rest. These were normalised and rescaled to coefficients of variation (CV=SD/mean) of 2% and 10% for model comparisons. Randomly generated Gaussian noise with standard deviation (SD) from 1% to 5% was added to both ABP and physiologically simulated MCAV (SMCAV), with 'normal' and 'impaired' cerebral autoregulation, to simulate the real measurement conditions. ABP and SMCAV were fitted by ARX modelling, and cerebral autoregulation was quantified by a 5 s recovery percentage R5% of the step responses of the ARX models. The study suggests that cerebral autoregulation can be assessed by computing the R5% of the step response of an ARX model of appropriate order, even when measurement noise is considerable.
该研究旨在使用基于综合生理模型模拟数据的线性自回归外生(ARX)模型对脑血管系统进行建模,并评估线性参数模型的适用范围。采用大腿袖带技术,在11名受试者的动脉血压(ABP)发生阶跃变化后,无创测量其大脑中动脉血流速度(MCAV)。通过使用非线性优化技术优化与自动调节相关的参数,生理模型在拟合MCAV方面表现良好(r=0.83±0.14)。从一名静息受试者身上额外获取了五组长度为236±154秒且经过测量的ABP。为了进行模型比较,将这些数据进行归一化处理并重新缩放到变异系数(CV=标准差/均值)为2%和10%。向ABP和生理模拟的MCAV(SMCAV)添加标准差(SD)从1%到5%的随机生成高斯噪声,分别模拟“正常”和“受损”的脑自动调节情况,以模拟实际测量条件。通过ARX建模对ABP和SMCAV进行拟合,并通过ARX模型阶跃响应的5秒恢复百分比R5%对脑自动调节进行量化。该研究表明,即使测量噪声相当大,也可以通过计算适当阶数的ARX模型阶跃响应的R5%来评估脑自动调节。