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Advances in Bioengineering and Biomedical Science Research(ABBSR)

ISSN: 2640-4133

Impact Factor: 1.029

Researchers and authors can directly submit their manuscript online through this link Online Manuscript Submission.

Volume 5, Issue 2

Short Article
Special Issue: Viscoelstic and Viscoplastic Glucose Theory application in medicine
Author(s): Gerald C Hsu
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Research Article
Viscoelastic Glucose Theory (VGT #1): Applying the Concept of Viscoelasticity Theory to Conduct a “Glucose Analogy” Study and Illustrate Certain Viscoelastic Characteristics of Time-Dependent Glucose Using Continuous Glucose Monitoring (CGM) Sensor Device Collected Postprandial Plasma Glucose (PPG) Data of 4,056 Elastic Glucoses (<180 mg/dL) within 3.7 Years from 5/8/2018 to 1/10/2022 Based on GH-Method: Math-Physical Medicine (No. 578)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic and Viscoplastic Glucose Theory (VGT #2): Applying the Concept of Viscoelasticity and Viscoplasticity to Conduct a “Time-Dependent Glucose Analogy” Study of An Elastic Glucose Case Covering 4,056 meals <180 mg/dL Versus Plastic Glucose Case of 23 Meals >180 mg/dL Using Collected Postprandial Plasma Glucose Data from 4,079 Meals over 3.7-Year Period from 5/8/2018 to 1/10/2022 Based on GH-Method: Math-Physical Medicine (No. 579)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic Glucose Theory (VGT #3): Similarity and Difference of Two Stress-Strain Diagrams for Viscoelastic Glucose Behaviors from Continuous Glucose Monitor Sensor Measured and Perturbation Theory Produced Postprandial Plasma Glucoses with “Time-Dependent” Characteristics of a Synthesized Postprandial Plasma Glucose Waveform Generated from 4,115 Meals over a 3.7-Year Period from 5/8/2018 to 1/18/2022 based on GH-Method: Math-Physical Medicine (No. 580)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic and viscoplastic glucose theory (VGT #4): Three developed postprandial plasma glucose stress-strain diagrams for normal, pre-iabetes, and severe diabetes levels to illustrate the correlation between biomedical conditions of the disease and biophysics behaviors of glucose based on linear elasticity theory (time-independent), plasticity theory (time-independent), and viscoplasticity theory (time-dependent) utilizing GH-Method: math-physical medicine (No. 581)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic and viscoplastic glucose theory (VGT #5): Three developed postprandial plasma glucose (PPG) stress-strain diagrams for the PPG levels of <140 mg/dL, 140-170 mg/dL, and >170 mg/dL, to illustrate the correlation between biomedical diabetes conditions and biophysical illustrations of glucose behaviors using linear elasticity theory (time-independent), plasticity theory (time-independent), and viscoplasticity theory (time-dependent) based on GH-Method: math-physical medicine (No. 582)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic Glucose Theory (VGT #6): Applying Viscoelastic Glucose Theory with Fasting Plasma Glucose (FPG) as the Strain Along with the FPG Change Rate Multiplied by Body Temperature in the Early Morning as the Stress, to Illustrate the Viscoelastic Stress-Strain Diagram and Calculate the Predicted FPG Values Using the Perturbation Theory Model and Amplified Body Temperature Ratio as the “Perturbation Factor”, then Comparing Against the Predicted FPG Values Using Statistical Linear Regression Model Based on GH-Method: Math-Physical Medicine (No. 583)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic and Viscoplastic Glucose Theory (VGT #7): Applying Elasticity, Plasticity, Viscoelasticity, and Energy Theories for the Residual Effect on Postprandial Plasma Glucose by Comparing Two Different Time Periods Resulting from Single Hyperglycemic Lunch Based on GH-Method: Math- Physical Medicine (No. 586)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic Glucose Theory (VGT #8): Applying Viscoelastic Glucose Theory with Finger-Piercing Measured Fasting Plasma Glucose (FPG) as the Strain Along with the FPG Change Rate Multiplied by Body Weight in the Early Morning as the Stress, to Calculate the Predicted FPG Values and then Comparing Against Another Predicted FPG Values Using Statistical Linear Regression Model Based on GH-Method: Math-Physical Medicine (No. 587)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic Glucose Theory (VGT #9): Applying Viscoelastic Glucose Theory with Sensor Measured Fasting Plasma Glucose (FPG) as the Strain Along with the FPG Change Rate Multiplied by Averaged Value of Body Weight and Body Temperature in the Morning as the Stress, to Calculate the Predicted FPG Values and then Comparing Against Another Predicted FPG Values Using Two- Variables Regression Model Based on GH-Method: Math-Physical Medicine (No. 588)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic Glucose Theory (VGT #10): Applying Elasticity Theory, Viscoelasticity Theory, and Energy Theory to Conduct a Comparison Study Between the Author’s Collected 101,595 Postprandial Plasma Glucose (PPG) Data and Synthesized Waveform During the Past 6.5 Years and Two Hypothetical Cases of PPG Data and Waveforms to Illustrate Viscoelastic PPG Behavior and Associated Relative Energy of PPG Based on GH-Method: Math-Physical Medicine (No. 589)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic and Viscoplastic Glucose Theory (VGT #11): From Time-domain Through Space-Domain to Frequency-Domain to Analyze and Study Glucose Characters and Behaviors of Two Collected Postprandial Plasma Glucose (PPG) Datasets for the PPG Level <120 mg/dL Versus >150 mg/dL Using Elasticity & Plasticity Theory (Time-Independent), and Viscoelasticity & Viscoplasticity Theory (Time-Dependent) Based on GH-Method: Math-Physical Medicine (No. 590)
Author(s): Gerald C Hsu
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Research Article
An Abnormal Psychology Study Using Stressors and Symptoms for a Hypothetical Individual with Borderline Personality Disorder and a Comparison with the Physio-Pathology Study Using Lifestyle Details and Glucoses from an Individual with Type 2 Diabetes by Applying the Concepts from Viscoelastic and Viscoplastic Glucose Theory (VGT #12) Based on GH-Method: Math-Physical Medicine (No.591)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic or Viscoplastic Glucose Theory (VGT #13): Applying the Theories of Elasticity, Plasticity, Viscoelasticity, and Viscoplasticity to Study the Metabolism Index (MI) and Cardiovascular Disease Risk Probability Percentage Over a 10+ Year Period from Y2012 to Y2022 Based on the GH-Method: Math-Physical Medicine (No. 592)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic or Viscoplastic Glucose Theory (VGT #14): Applying the Theories of Elasticity, Plasticity, Viscoelasticity, and Viscoplasticity to Study the Estimated Daily Glucose (eAG) and Cardiovascular Disease Risk Probability Percentage Over a 10+ Year Period from Y2012 to Y2022 Based on the GH-Method: Math-Physical Medicine (No. 593)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic or Viscoplastic Glucose Theory (VGT #15): Applying the Theories of Elasticity, Plasticity, Viscoelasticity, and Viscoplasticity to Study the Estimated Daily Glucose (eAG) and Estimated Health Age Over a 10+ Year Period from Y2012 to Y2022 Based on the GH-Method: Math-Physical Medicine (No. 594)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic or Viscoplastic Glucose Theory (VGT #16): Applying the Theories of Elasticity, Plasticity, Viscoelasticity, and Viscoplasticity to Study the Body Weight and Estimated Daily Glucose (eAG) Over a 13+ Year Period from Y2010 to Y2022 Based on the GH-Method: Math-Physical Medicine (No. 595)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic and Viscoplastic Glucose Theory (VGT #17): Selecting 12 Cases and Applying Theories of Viscoelasticity and Viscoplasticity from Engineering and Perturbation Theory from Quantum Mechanics to Predict the Behavior of an Output Biomarker as the Strain (ε or Behavior, Symptom) by Using the Strain Rate (dε/dt) Multiplying with a Correlated Input Biomarker of Stress Value (σ or Stressor, Cause) as the Viscosity Factor (η), Based on the GH-Method: Math-Physical Medicine (No. 596)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic and Viscoplastic Glucose Theory (VGT #18): Applying Theories of Viscoelasticity and Viscoplasticity from Engineering and Perturbation Theory from Quantum Mechanics from 9 Cases to Predict the Behavior or Symptom of an Output Biomarker as the Strain (ε), by Selecting a Highly Correlated Input Biomarker as the Stress (σ), and using the Stress Rate (dσ/dt) Multiplied with the Stress (σ) Value and an Amplification Factor Based on the GH-Method: Math-Physical Medicine (No. 597)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic and Viscoplastic Glucose Theory (VGT #19): Applying Theories of Viscoelasticity and Viscoplasticity from Engineering and Energy Theory from Physics for Three PPG Cases to Compare the Energy Loss in Loading-Unloading Process via Three Hysteresis Loop Areas Along with Comparing Three PPG Associated Energies via Time-Domain and Frequency-Domain Based on the GH-Method: Math-Physical Medicine (No. 598)
Author(s): Gerald C Hsu
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Research Article
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)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic or Viscoplastic Glucose Theory (VGT #86): An Investigation on the Influences of Postprandial Plasma Glucose from Fasting Plasma Glucose, Carbohydrates/Sugar Intake Amount, and Post-Meal Walking K-Steps from a Type 2 Diabetes Patient During 9 Years from Y2014 to Y2022 Based on GH-Method: Math-Physical Medicine, Especially the VGT Tool (No. 676)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic or Viscoplastic Glucose Theory (VGT #87): An Investigation on the Influences of Cardiovascular Disease Risk % from the Estimated Daily Average Glucose, Body Weight, and Food Quantity % of the Normal Portion from a Type 2 Diabetes Patient over 11 Years from Y2012 to Y2022 Based on GH-Method: Math-Physical Medicine, Especially the VGT Tool (No. 677)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic or Viscoplastic Glucose Theory (VGT #88): An Investigation on the Influences of Body Weight on 3 Diseases, Cardiovascular Disease, Chronic Kidney Disease, and Type 2 Diabetes Using Data Collected from Y2012 to Y2022 from a Type 2 Diabetes Patient Based on GH-Method: Math-Physical Medicine, Especially the VGT Tool (No. 678)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic or Viscoplastic Glucose Theory (VGT #90): An Investigation on longevity via Estimated Health Age Minus Real Biological Age from 3 Medical Conditions of Cardiovascular Disease, Chronic Kidney Disease, and Type 2 Diabetes using Data Collected from Y2012 to Y2022 Based on GH-Method: Math-Physical Medicine, Especially the VGT Tool (No. 680)
Author(s): Gerald C Hsu
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Volume 5, Issue 1

Vuscoelasticity and Viscoplasticity in Medicine Volume II

Research Article
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)
Author(s): Gerald C Hsu
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Research Article
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)
Author(s): Gerald C Hsu
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Research Article
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)
Author(s): Gerald C Hsu
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Research Article
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)
Author(s): Gerald C Hsu
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Research Article
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)
Author(s): Gerald C Hsu
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Research Article
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)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic and Viscoplastic Glucose Theory (VGT #30): Applying VGT with two Different CGM Sensor Measured 3-Hour Postprandial Plasma Glucose (PPG) Values from 240 Liquid Egg Meals and 191 Solid Egg Meals as the Strain, Along with the PPG Change Rate Multiplied by a Viscosity Factor of Average Carbs/Sugar Amounts for Each Egg Meal Type as the Stress, and then Applying the Viscoelastic Perturbation Model to Calculate Two Predicted PPG Values to Compare Against Two Measured PPG Values Based on GH-Method: Math-Physical Medicine (No. 611)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic and Viscoplastic Glucose Theory (VGT #31): Applying VGT with Two Different CGM Sensor Measured 2-Hour Postprandial Plasma Glucose (PPG) Values from 240 Liquid Egg Meals and 191 Solid Egg Meals as the Strain, Along with the PPG Change Rate Multiplied by a Viscosity Factor of Average Carbs/Sugar Amounts for Each Egg Meal Type as the Stress, and then Applying the Viscoelastic Perturbation Model to Calculate Two Predicted PPG Values to Compare Against Two Measured PPG Values Based on GH-Method: Math-Physical Medicine (No. 612)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic and Viscoplastic Glucose Theory (VGT #32): A Step-By-Step Illustration of How to Apply VGT and Viscoelasticity Perturbation Model with the Average Value of Normalized Body Weight and Body Temperature in Early Morning as the Viscosity Factor to Predict Average Fasting Plasma Glucose Values over 7-Hours of Sleep Time Based on GH-Method: Math- Physical Medicine (No. 613)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic and Viscoplastic Glucose Theory (VGT #33): Applying VGT and Viscoelastic Perturbation Model and using the Combined Values from Carbs/Sugar Intake Amount with GH.p-Modulus and Post-Meal Walking k-Steps with GH.w-Modulus as the Constant Viscosity Factor to Predict the K-Line PPG Values from 8/8/2018 to 2/25/2022 Based on GH-Method: Math-Physical Medicine (No. 614)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic and Viscoplastic Glucose Theory (VGT #34): Applying VEGT and Viscoelastic Perturbation Model and using Carbs/Sugar Intake Amount Along with Post-Meal Walking k-Steps as Two Constant Viscosity Factors to Predict Two LEGT PPG Values from 8/8/2018 to 2/26/2022 Based on GH-Method: Math-Physical Medicine (No. 615)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic or Viscoplastic Glucose Theory (VGT #35): Applying the VEGT or VPGT to Study the Cardiovascular Disease Risk Probability Percentage Versus Medical Conditions and Lifestyle Details over a 10+ Year Period from Y2012 to Y2022 Based on the GH-Method: Math-Physical Medicine (No. 616)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic or Viscoplastic Glucose Theory (VGT #36): Applying the VEGT or VPGT to Study the Cancer Risk Probability Percentage Versus Medical Conditions and Lifestyle Details over a 10+ Year Period from Y2012 to Y2022 Based on the GH-Method: Math-Physical Medicine (No. 617)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic or Viscoplastic Glucose Theory (VGT #37): Applying the VEGT or VPGT to Study Body Weight Versus Sleep Score and Food Quantity to Predict Body Weight using Viscoelastic Perturbation Model over 13 Semi-Annual Periods from Y15H2 to Y21H2 based on the GH-Method: Math-Physical Medicine (No. 618)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic or Viscoplastic Glucose Theory (VGT #38): Applying VEGT or VPGT to Study Fasting Plasma Glucose (FPG) Versus Sleep, Weight, and HbA1C to Predict FPG using Viscoelastic Perturbation Model over 13 SemiAnnual Periods from Y15H2 to Y21H2 Based on the GH-Method: Math-Physical Medicine (No. 619)
Author(s): Gerald C Hsu
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Research Article
Viscoelastic or Viscoplastic Glucose Theory (VGT #39): Applying the VEGT or VPGT to Study the Effect of Role Switching for Cause and Symptom, CVD Risk Versus Cancer Risk and Cancer Risk Versus CVD Risk, and using Viscoelastic Perturbation Model to Predict the Risks of having CVD or Cancer using Calculated Risk Data of a 12+ Years Period from Y2012 to Y2022 based on the GH-Method: Math-Physical Medicine (No. 620)
Author(s): Gerald C Hsu
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Research Article
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)
Author(s): Gerald C Hsu
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Research Article
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: MathPhysical Medicine (No. 622)
Author(s): Gerald C Hsu
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Research Article
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)
Author(s): Gerald C Hsu
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Research Article
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)
Author(s): Gerald C Hsu
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Research Article
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)
Author(s): Gerald C Hsu
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Research Article
Preface An Introduction of the Author’s Medical Research History and Methodologies from 2010 to 2021
Author(s): Gerald C Hsu
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Volume 4, Issue 4

Research Article
A Comparison of the Combined HbA1C values from Two Predicted HbA1C Results Against 13 Lab-Tested HbA1C Results Within a 41-Month Period Based on GH-Method: Math-Physical Medicine (No. 522)
Author(s): Gerald C Hsu
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Research Article
Continuous Glucose Monitoring sensor glucose data analysis of Time in Range, Time Above Range, and Time Below Range for 4 annual mean values based on GH-Method: math-physical medicine (No. 507)
Author(s): Gerald C Hsu
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Research Article
Assessment of “T2D Remission” Status of a Long-Term Type 2 Diabetes Patient Using the 2021 Consensus Report Sponsored by American Diabetes Association Based on GH-Method: Math-Physical Medicine (No. 505)
Author(s): Gerald C Hsu
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Research Article
Applying Lifestyle Pattern Analysis and Glucose/Exercise Segmentation Analysis to Study the Impacts of Hot Summer Weather on Exercise and Busy Traveling Lifestyle on Postprandial Plasma Glucose During a 3.4-Year Period from 5/8/2018 to 8/29/2021 Based on GH-Method: Math-Physical Medicine (No. 504)
Author(s): Gerald C Hsu
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Research Article
Comparison of Postprandial Plasma Glucoses and HbA1C Values Collected via Finger-Piercing and Continuous Glucose Monitoring Sensor Collection Methods over a 3+ Year Period Based on GH-Method: Math-Physical Medicine (No. 493)
Author(s): Gerald C Hsu
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Volume 4, Issue 3

A variety of biomedical research using GH-Method: math-physical medicine

Research Article
Using Topology Concept of Mathematics and Finite Element Method of Engineering to Develop a Mathematical Model of Metabolism in medicine in order to Control Various Chronic Diseases and their Complications via Overall Health Conditions Improvement Based on GH-Method: Math-Physical Medicine (No. 453)
Author(s): Gerald C Hsu
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Research Article
Comparison of Waves and Energies between the 3-Hours Versus 24-Hours of Glucose Fluctuation using 3+ Years of Continuous Glucose Monitoring Sensor Device Collected Data Based on GH-Method: Math-Physical Medicine (No. 457)
Author(s): Gerald C Hsu
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Research Article
Comparison of High Range and Low Range of Sensor eAG and 24-Hour Daily GF Using 3+ years of Continuous Glucose Monitoring Sensor Device Collected Data Based on GH-Method: Math-Physical Medicine (No. 458)
Author(s): Gerald C Hsu
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Research Article
A Three-Way Correlation Study for Body Temperature, Glucose and Blood Pressure Using the Collected Biomarker Data of 245 Days Based on GH-Method: Math-Physical Medicine (No. 461)
Author(s): Gerald C Hsu
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Research Article
Three Predicted HbA1C Equations and Results in Comparison with Lab-Tested A1C from 12 Discrete Lab-Tested Dates over a 3-Year Period Based on GH- Method: Math-Physical Medicine (No. 467)
Author(s): Gerald C Hsu
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Research Article
Accuracy of Three HbA1C Equations and their Predicted Results in Comparison with the Lab-Tested A1C on 7/22/2021 Based on GH-Method: Math-Physical Medicine (No. 485)
Author(s): Gerald C Hsu
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Research Article
A Comparison of CVD/Stroke Risk Using Metabolism Index and Continuous Glucose Monitor Sensor Collected Glucose Fluctuations over Six and Twelve Periods Based on GH-Method: Math-Physical Medicine (No. 446)
Author(s): Gerald C Hsu
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Research Article
A Clinical Case Study for Weight, Glucose, and Glucose Fluctuations Using 138 Days of Sixteen-Hour Intermittent Fasting Data Based on GH-Method: Math-Physical Medicine (No. 452)
Author(s): Gerald C Hsu
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Research Article
Quantification of the CVD/Stroke Risk Probability Due to the Extra Input of an Adjustment Factor of Glycemic Variability or Glucose Fluctuation Using Three Years of the Continuous Glucose Monitoring Sensor Device Collected Data Based on GH-Method: Math-Physical Medicine (No. 456)
Author(s): Gerald C Hsu
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Research Article
Approximated Risk Probability of having Atherosclerosis, Cardiovascular Disease, and Stroke during the COVID-19 Period Using the Pre-COVID Period’S Dataset as Baseline of Calculations and Higher-Order Perturbation Equations from Quantum Mechanics Based on GH-Method: Math-Physical Medicine (No. 465)
Author(s): Gerald C Hsu
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Research Article
Approximated Health Age Calculation Using Higher-Order Perturbation Equations from Quantum Mechanics and the 90-Days Moving Average Metabolism Index as its Primary Perturbation Factor Based on GH-Method: Math-Physical Medicine (No. 466)
Author(s): Gerald C Hsu
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Research Article
Risk Probability of Having Cardiovascular Disease Resulted from the Combination of Metabolism Index and Glucose Fluctuation using a Continuous Glucose Monitoring Sensor Collected Daily Glucose Data over 1,170 Days Based on GH-Method: Math-Physical Medicine (No. 483)
Author(s): Gerald C Hsu
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Research Article
A Study of the Postprandial Plasma Glucose Waves and Fluctuations of 63 Fasting and 43 Non-Fasting Meals at Breakfast Using Time and Frequency Domains Plus Wave Along with Energy Theories of GH-Method: Math-Physical Medicine (No. 405)
Author(s): Gerald C Hsu
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Research Article
A Comparison Study on the Postprandial Plasma Glucose Waves and Fluctuations for 65 Fasting Days Versus 65 Non-Fasting Days Applying Time Domain and Frequency Domain Analyses Along with wave Theory and Energy Theory of GH-Method: Math-Physical Medicine (No. 408)
Author(s): Gerald C Hsu
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Research Article
An Investigation and Comparison of Weight and Glucose Changes, Including Glucose Fluctuations, Among Two Non-Fasting Periods with 115 Breakfasts each and 115 Breakfasts with tea only with 16-Hours Intermittent Fasting Using GH-Method: Math-Physical Medicine (No. 438)
Author(s): Gerald C Hsu
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Research Article
A Study of Postprandial Plasma Glucose Changes, Including Glucose Fluctuations, among three Time Periods Using GH-Method: Math-Physical Medicine (No. 439)
Author(s): Gerald C Hsu
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Research Article
Various Conversion Factors of Estimated Average Glucose or eAG and HbA1C Based on GH-Method: Math-Physical Medicine (No. 486)
Author(s): Gerald C Hsu
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Research Article
Continuous Glucose Monitoring Sensor Glucose Data Analysis of Time in Range, Time Above Range, Time Below Range and Waveform Comparison Study of Time in Range Curve Against both Average Daily Glucose Curve and Glucose Fluctuation Curve for a 3.3 Year Period based on GH-Method: Math Physical Medicine (No. 500)
Author(s): Gerald C Hsu
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Volume 4, Issue 2

COVID-19

DOI: doi.org/10.33140/ABBSR.04.001
Review Article
Plausible Transition of Covid-19 from Pandemic to an Endemic State: Impact of Variant UK Strain, b 7.1.1, on the Spread of Covid-19 in the Population
Author(s): Prabir Chakravarty
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DOI: doi.org/10.33140/ABBSR.04.002
Editorial
Post-Acute-COVID-19-Illness Pulmonary Sequelae
Author(s): Attapon Cheepsattayakorn, Ruangrong Cheepsattayakorn and Porntep Siriwanarangsun
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