Estimation of Organ Impact by Relative Energy Associated with Higher-Frequency Glucose Components using GH-Method: Math-Physical Medicine (No. 290)

Abstract

This paper describes the author’s estimation of the relative energy associated with higher-frequency glucose components. During this research, he attempted to develop a simplified yet practical “equation” for calculating his estimated relative energy. His ultimate goal is to identify the degree of impact or damage to the human internal organs due to excessive energy caused by hyperglycemia in diabetes patients. He has applied his developed GH-Method: math-physical medicine (MPM) approach to conduct this medical research. By using his own ~33,000 glucose data for the past 129 days; he has identified ~20% of relative glucose energy associated with higher-frequency glucose components, which is 67% of the total frequency numbers. The comparison ratios between low frequency with high amplitude glucoses versus high frequency with low amplitude glucoses are summarized as follows: Energy (E) Ratio: 4 to 1 Frequency Numbers (n) Ratio: 1 to 2 Frequency Amplitude Square (a*a) Ratio: 8 to 1 This research project requires using Bluetooth technology to collect bigger sets of glucose data (3x more data) which allows him to identify ~20% of possible impact or damage to the internal organs resulting from the relative energy associated with high-frequency glucose components. This finding can serve as a starting point for his future research on various diabetic complications.