Impact on Overall Metabolism from Measured Versus Predicted Body Weight, FPG, PPG over 8.5 years: Analysis using GH-Method's Math-Physical Medicine Model (No. 1000, VMT #398, 12/16-17/2023)
Abstract
Gerald C. Hsu
After 18 years of studying at seven universities and pursuing various careers in professional engineering, founding seven start-ups, and managing high-tech businesses, the 63-year-old author faced severe, lifethreatening health issues in 2010. This experience prompted him to undertake a self-study of internal medicine and food nutrition in order to save his own life. Individuals with chronic diseases often face challenges in managing their body weight and glucose levels, which fluctuate constantly and over extended periods. Drawing on his 30 years of industrial experience in engineering design and the electronics semiconductor business, the author recognized the significance of "prediction" in averting failures in machines, structures, and business operations. He applied predictive analysis techniques from engineering and enterprise systems to enhance damage prevention and reduce the likelihood of breakdowns or failures. The author initially directed his medical research towards developing predictive equations for three key biomarkers: body weight, fasting morning glucose, and post-meal glucose. His prediction formulas for these three biomarkers demonstrated exceptionally high accuracy and very high waveform similarities, both exceeding 99%, In this study, the space-domain viscoplastic medicine energy theory (SD-VMT) was utilized to analyze the dynamic relationships between metabolism index (MI) and three key biomarkers: body weight (BW), fasting plasma glucose (FPG), and postprandial plasma glucose (PPG). His MI values are calculated using inputs from 10 categories and 500 elements.