Using the First-Order Perturbation Theory from Quantum Mechanics to Predict a Single Day of Postprandial Plasma Glucose Data and Waveform Using A Synthesized Glucose Data and Waveform from 181-Days Intermittent Fasting Period Based on GH-Method: Math-Physical Medicine (No. 471)

Abstract

Gerald C Hsu

The author has applied the first-order interpolation perturbation equation from quantum mechanics in his medical research work, which he has written numerous articles on this topic. This equation is the simplest application using one selected “perturbation factor” to generate perturbed results with high prediction accuracy. He investigates this type of problem using a chosen perturbation factor such as carbs/sugar for postprandial plasma glucose (PPG), body weight for fasting plasma glucose (FPG), or metabolism index (MI) in predicting a stroke or heart attack along with achieving longevity in the geriatric research area. In this particular article, he uses one perturbation factor of an extremely low carbs/sugar amount (0.018 grams) which is extremely close to a total fasting situation.

PDF