Articles

Viscoelastic or Viscoplastic Glucose Theory (VGT #49): Investigating the Contribution Margin of Carbs/Sugar Intake Amount and Post-Meal Walking K-Steps on PPG Formation Using 4 Validations: VGT (Viscoelasticity/Plasticity Theory), LEGT (Linear Elastic Glucose Theory), EFT (Energy Theory via Fourier Transform), Along with 8 Sub-Cellular Pathology Pathways with Sensor PPG, Carbs, and K-Steps Data from an ~4-Year Period from 5/8/18 to 3/25/2022 Based on the GH-Method: Math-Physical Medicine (No. 634)

Download

Viscoelastic or Viscoplastic Glucose Theory (VGT #48): Investigating the Role of Strain, Strain Rate, and the Viscosity Factor in Biomedical VGT Applications Using Sensor FPG versus Body Weight Over 18 Months from 10/1/2020 to 3/23/2022, Along with Finger FPG versus Body Weight Over 11 Years from 1/1/2012 to 3/23/2022, with Biomedical Illustrations of the Physics and Engineering Analysis Results Based on the GH-Method: Math-Physical Medicine (No. 633)

Download

Viscoelastic or Viscoplastic Glucose Theory (VGT #47): Using Viscoelasticity/Viscoplasticity to Explore the Inter-Relationships on Cancer Risk % versus Sensor Measured Fasting Plasma Glucose and Body Weight Based on Eleven Collected Annual Data Over a 10+ Year Period from 1/1/2012 to 3/20/2022 Using the GH-Method: Math-Physical Medicine (No. 632)

Download

Viscoelastic or Viscoplastic Glucose Theory (VGT #46): Using Viscoelasticity/Viscoplasticity to Explore the Inter-Relationships on CVD Risk % versus Sensor Measured Fasting Plasma Glucose and Body Weight Based on Eight Collected Semi-Annual Data Over an ~4-Year Period from 5/8/2018 to 3/20/2022 Using the GH-Method: Math-Physical Medicine (No. 631)

Download

Viscoelastic and Viscoplastic Glucose Theory Applications (VGT #45): Applying the Physics Concepts of Viscoelasticity and Viscoplasticity to Estimate the “Difference of Relative Energy Level” Measured by the Hysteresis Loop Area, a Biophysical and Engineering Phenomenon, Along with the Carbs/Sugar Intake Grams, a Biomedical-Related Key Lifestyle Detail, from Inputs of Three Distinctive PPG Ranges to Provide a Guesstimated Damage Level of Internal Organs Resulted from Hyperglycemia Based on the GH-Method: Math-Physical Medicine (No. 630)

Download

Viscoelastic or Viscoplastic Glucose Theory (VGT #44): Applying VGT to Study the Relationship of CGM Sensor Fasting Plasma Glucose (FPG) versus Body Temperature in Early Morning, While Using a Viscoelastic Perturbation Model to Predict FPG Values Over a 18-Month Period from 10/1/2020 to 3/7/2022 Based on the GH-Method: Math-Physical Medicine (No. 625)

Download

Viscoelastic or Viscoplastic Glucose Theory (VGT #43): A Research of Statistics Methods Influences on Math-Physical Medicine Subjects by Using Statistical Correlations as Initial Examination Tool to Explore the Inter-Relationships of Three Selected Biomarkers, CVD Risk %, Averaged Daily Glucose (eAG), and HbA1C % (A1C), Within Three Different Selected Time-Windows, 15-Months, 46-Months, and 8.2 Years (98-Months), Also Applying VGT and Viscoelastic Perturbation Model to Predict Three Sets of Predicted CVD Risk % Based on the GH-Method: Math-Physical Medicine (No. 624)

Download

Viscoelastic or Viscoplastic Glucose Theory (VGT #42): Using Statistical Correlation as an Initial Examination Tool Before Applying VGT to Study the Inter-Relationships of the CVD Risk Probability % versus Sensor Daily Average Glucose (eAG) & HbA1C, Before Applying the Viscoelastic Perturbation Model to Predict Two CVD Risk Probability % Over a 46-Month Period from May of Y2018 to February of Y2022 Based on the GH-Method: Math-Physical Medicine (No. 623)

Download

Viscoelastic or Viscoplastic Glucose Theory (VGT #41): Applying VGT to Study the Relationship of CVD Risk Probability % versus Sensor Daily Average Glucose (eAG) and its Calculated HbA1C, While Using the Viscoelastic Perturbation Model to Predict Two CVD Risk % Values Over a 15-Month Period from October of Y2020 to February of Y2022 Based on the GH-Method: Math-Physical Medicine (No. 622)

Download

Viscoelastic or Viscoplastic Glucose Theory (VGT #40): Applying VGT to Study the Relationship for Two Input Biomarkers, Finger-Piercing Glucose (m2) vs. a Combination of Blood Pressure and Heart Rate (m3), Using Viscoelastic Perturbation Model to Predict the Finger-Piercing Glucose Over an 8+ Year Period from Y2014 to Y2022 Based on the GH-Method: Math-Physical Medicine (No. 621)

Download