Articles

Viscoelastic and Viscoplastic Glucose Theory (VGT #29): Applying Viscoelastic Glucose Theory with CGM Sensor Measured Fasting Plasma Glucose (FPG) Values as the Strain Along with the FPG Change Rate Multiplied by a Viscosity Factor as the Stress, and Finally Utilizing the Viscoelastic Perturbation Model to Calculate the Predicted FPG Values to Compare Against the Measured FPG Values Based on GH-Method: Math-Physical Medicine (No. 610)

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Viscoelastic Glucose Theory (VGT #28) & Nonlinear Plastic Glucose Theory (NPGT #7): Nonlinear Dynamic Plastic and Viscoplastic Glucose Behaviors versus Linear Elastic Glucose Behavior of Postprandial Plasma Glucose (PPG) Waveforms Over a 3.8-Year Period from 5/8/2018 to 2/18/2022 Along with the Plastic PPG Waveforms Impact on the Cardiovascular Disease Risk Probability Based on the GH-Method: Math-Physical Medicine (No. 609)

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Viscoelastic Glucose Theory (VGT #27): Applying the Concept of Viscoelasticity Theory and Using the Estimated Daily Glucose (eAG) Over a 3.8-Year Period from 5/8/2018 to 2/17/2022 as the Strain to Study the Role and Influences of the Corresponding Stress as well as Their Impact on the Predicted eAG Results Based on the GH-Method: Math-Physical Medicine (No. 608)

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Viscoelastic and Viscoplastic Glucose Theory (VGT #26): Investigation of the Relationships Between an Overall Metabolism Index and Type 2 Diabetes Utilizing HbA1C, Diabetic Nephropathy via Urinary Albumin-to-Creatinine Ratio, Along with Diabetic Retinopathy with Hypothyroidism Through Thyroid Stimulating Hormone Using Statistical Correlation Coefficient and VGT of GH-Method: Math-Physical Medicine (No. 607)

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Viscoelastic and Viscoplastic Glucose Theory (VGT #25): Applying the Concepts of Viscoelasticity, Viscoplasticity and Perturbation Theories to Predict PPG Dataset and Waveforms for the Pre-Virus and Virus Periods Using the Total PPG Values as a Baseline Along with the Estimated PPG Relative Energy Levels in Both Time-Domain and Frequency-Domain Based on the GH-Method: Math-Physical Medicine (No. 605)

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Viscoelastic or Viscoplastic Glucose Theory (VGT #24): Applying Perturbation Theory and the Theories of Viscoelasticity and Viscoplasticity to Predict the Cardiovascular Disease (CVD) Risk Probability Percentages Using Collected Data from the Estimated Daily Glucose Values and Overall Metabolism Index Values Over a 10+ Year Period from Y2012 to Y2022 Based on the GH-Method: Math-Physical Medicine (No. 604)

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Viscoelastic and Viscoplastic Glucose Theory (VGT #23): Applying the Concepts of Viscoelasticity, Viscoplasticity and Perturbation Theories to Investigate the Role and Impact of Oximetry Biomarker Value (Finger O2%) on Other Collected Biomarker Values Using Collected O2% Data Over a Relative Shorter Period of 6 Months Only from 8/8/2021 to 2/10/2022 Based on the GH-Method: Math-Physical Medicine (No. 602)

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Viscoelastic and Viscoplastic Glucose Theory (VGT #22): Applying the Concepts of Viscoelasticity, Viscoplasticity and Perturbation Theories to Predict Cancer Risk Percentages Using the Overall Lifestyle Scores and Calculated Cancer Risk Change Rates with Corresponding Lifestyle Scores as the Respective Viscosity Factors Along with Studying the Relationship Between Cancer Risks and Diabetic Glucoses Based on the GH-Method: Math-Physical Medicine (No. 601)

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Viscoelastic and Viscoplastic Glucose Theory (VGT #21): Applying the Concepts of Viscoelasticity, Viscoplasticity and Perturbation Theories to Predict Lower eAG and Higher eAG Values by Using the Overall eAG Values and their Change Rates with Corresponding Carbs/Sugar Intake Amounts as the Respective Viscosity Factors Along with Estimating Relative Energies in Time-Domain and Frequency-Domain Based on the GH-Method: Math-Physical Medicine (No. 600)

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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 Loading-Unloading 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)

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