Viscoelastic and Viscoplastic Glucose Theory (VGT 20): Applying Theories of Viscoelasticity and Viscoplasticity from Engineering and Energy Theory from Physics for Two eAG Cases to Compare the Energy Loss in the LoadingUnloading Process Through Two Hysteresis Loop Areas Along with Comparing Two eAG Associated Energies from Time-Domain and Frequency-Domain Based on the GH-Method: Math-Physical Medicine (No. 599)
Abstract
Gerald C Hsu
Recently, the author applied theories of elasticity, plasticity, viscoelasticity, and viscoplasticity from engineering along with the theories of wave and energy from physics to conduct his research on output biomarkers (symptoms or behaviors) resulting from a suspected or identified input biomarkers (causes or stressors). As a result, he has written a series of 19 different articles. In this research, he studies two related topics of glucose energy utilizing a continuous glucose monitoring (CGM) sensor device that collected the estimated daily glucose (eAG) from 1,374 days for a period of 5/5/2018 to 2/7/2022. The first one is the energy loss of hysteresis loops via VGT analysis. The second one is the eAG associated relative energy level in time-domain (TD) and frequency-domain(FD) through wave theory and energy theory of physics. He then compares his two respective energies corresponding to 2 eAG cases which are divided by 2 different PPG ranges: PPG < 150 mg/dL, and PPG >150 mg/dL.