GH-METHODS

Math-Physical Medicine

GH-Method MPM

NO. 054

GH-Method: Methodology of math-physical medicine

NO. 054B

Controlling Type II Diabetes using GH-Method: math-physical medicine and artificial intelligence (A case study documenting the elimination of cardiovascular events with this program)

NO. 105

Application of software robots on effective diabetes control (GH-Method: math-physical medicine)

NO. 106

Accuracy of Predicted PPG by using AI Glucometer and GH-Method: math-physical medicine

NO. 125

Controlling type 2 diabetes via artificial intelligence technology (GH-Method: math-physical medicine) 

NO. 152

Applying first-order perturbation theory of quantum mechanics to predict and build a postprandial plasma glucose waveform  (GH-Method: math-physical medicine)

NO. 154

Applying the first-order interpolation perturbation method to establish predicted PPG waveforms based on carbs/sugar intake amounts (GH-Method: math-physical medicine)

NO. 267

Investigation on the impact of different glucose ranges and the damage on human internal organs using frequency domain analyses (GH-Method: math-physical medicine)

NO. 268

The impact on human organs via energy associated with glucose during COVID-19 quarantine period (GH-Method: math-physical medicine)

NO. 269

A comparison of impact on internal organs by different associated energy levels of glucoses from liquid meals and solid meals

NO. 269A

A comparison of impact on internal organs by different associated energy levels of glucoses from liquid meals and solid meals

NO. 270

Relative energy generated by glucoses during COVID-19 quarantine period  (GH-Method: math-physical medicine)

NO. 271

Estimated relative energy level of eight different meal groups using wave theory and frequency domain analysis  (GH-Method: math-physical medicine)

NO. 271A

Estimated relative energy level of eight different meal groups using wave theory and frequency domain analysis  (GH-Method: math-physical medicine)

NO. 272

Estimated relative energy level of four different Finger PPG ranges using wave theory and frequency domain analysis  (GH-Method: math-physical medicine)

NO. 272A

Estimated relative energy level of four different Finger PPG ranges using wave theory and frequency domain analysis  (GH-Method: math-physical medicine)

NO. 286

Equation of relative energy associated with higher-frequency glucose components using GH-Method: math-physical medicine

NO. 290

Estimation of relative energy associated with higher-frequency glucose components using GH-Method: math-physical medicine

NO. 310

Biomedical research methodology based on GH-Method: math-physical medicine

NO. 346

Linear relationship between carbohydrates & sugar intake amount and incremental PPG amount via engineering strength of materials using GH-Method: math-physical medicine, Part 1

NO. 349

Investigation on GH modulus of linear elastic glucose behavior with two diabetes patients data using GH-Method: math-physical medicine, Part 2

NO. 350

Investigation of GH modulus on the linear elastic glucose behavior based on three diabetes patients’ data using the GH-Method: math-physical medicine, Part 3

NO. 351A

Investigation of linear elastic glucose behavior with GH modulus linking carbohydrates/sugar intake amount and incremental PPG amount via analogy of Young’s modulus from engineering strength of materials using GH-Method: math-physical medicine, Parts 1, 2, 3 

NO. 351B

Investigation of linear elastic glucose behavior with GH modulus linking carbohydrates/sugar intake amount and incremental PPG amount via analogy of Young’s modulus from engineering strength of materials using GH-Method: math-physical medicine, Parts 1, 2, 3 

NO. 352

Investigation of linear elastic glucose behavior with GH-modulus linking carbohydrates/sugar intake and incremental PPG via an analogy of Young’s modulus from theory of elasticity and engineering strength of materials using GH-Method: math-physical medicine, Parts 1, 2, and 3

NO. 356

Coefficient of GH.f-modulus in the linear elastic fasting plasma glucose behavior study based on health data of three diabetes patients using the GH-Method: math-physical medicine, Part 4

NO. 357

High accuracy of predicted postprandial plasma glucose using two coefficients of GH.f-modulus and GH.p-modulus from linear elastic glucose behavior theory based on GH-Method: math-physical medicine, Part 5

NO. 358

Improvement on the prediction accuracy of postprandial plasma glucose using two biomedical coefficients of GH-modulus from linear elastic glucose theory based on GH-Method: math-physical medicine, Part 6

NO. 359

High glucose predication accuracy of postprandial plasma glucose and fasting plasma glucose during the COVID-19 period using two glucose coefficients of GH-modulus from linear elastic glucose theory based on GH-Method: math-physical medicine, Part 7

NO. 360

Investigation of two glucose coefficients of GH.f-modulus and GH.p-modulus based on the data of three clinical cases during the COVID-19 period using linear elastic glucose theory of GH-Method: math-physical medicine, Part 8

NO. 361

Postprandial plasma glucose lower and upper boundary study using two glucose coefficients of GH-modulus from linear elastic glucose theory based on GH-Method: math-physical medicine, Part 9

NO. 362

Six international clinical cases demonstrating prediction accuracies of postprandial plasma glucoses and suggested methods for improvements using linear elastic glucose theory of GH-Method: math-physical medicine, Part 10

NO. 363

A special Neuro-communication influences on GH.p-modulus of linear elastic glucose theory based on data from 159 liquid egg and 126 solid egg meals using GH-Method: math-physical medicine, Part 11

NO. 364

GH.p-modulus study of linear elastic glucose theory based on data from 159 liquid egg meals, 126 solid egg meals, and 2,843 total meals using GH-Method: math-physical medicine, Part 12

NO. 365

Detailed GH.p-modulus values at 15-minute time intervals for a synthesized sensor PPG waveform of 159 liquid egg meals, and 126 solid egg meals using linear elastic glucose theory of GH-Method: math-physical medicine, Part 13

NO. 367

A lifestyle medicine model for family medical practices based on 9-years of clinical data including food, weight, glucose, carbs/sugar, and walking using linear elastic glucose theory (Part 14) and GH-Method: math-physical medicine

NO. 369

GH.p-modulus study during 3 periods using finger-piercing glucoses and linear elastic glucose theory (Part 15) of GH-Method: math-physical medicine

NO. 370

GH.p-modulus study using both finger and sensor glucoses and linear elastic glucose theory of GH-Method: math-physical medicine, Part 16

NO. 371

A summarized investigation report of GH.p-modulus values using linear elastic glucose theory of GH-Method: math-physical medicine, Part 17

NO. 386

Biomedical research using GH-Method: math-physical medicine, version 3

NO. 387

From biochemical medicine to math-physical medicine in controlling type 2 diabetes and its complications

NO. 396

An experimental study on self-repair and recovery of pancreatic beta cells via carbs/sugar intake increase and associated postprandial plasma glucose variation using linear elastic glucose theory (part 18) and GH-Method: math-physical medicine

NO. 397

Methodology of medical research: Using big data analytics, optical physics, artificial intelligence, signal processing, wave theory, energy theory and transforming certain key biomarkers from time domain to frequency domain with spatial analysis to investigate organ impact by relative energy associated with various medical conditions

NO. 401

Analyzing roles and contributions of fasting plasma glucose, carbs/sugar intake amount, and post-meal walking steps on the formation of postprandial plasma glucose using Linear Elastic Glucose Theory of GH-Method: math-physical medicine, LEGT Part 19

NO. 402

Analyzing relations among weight, FPG, and PPG using statistical correlation analysis and Linear Elastic Glucose Theory of GH-Method: math-physical medicine, LEGT Part 20

NO. 403

Estimating cardiovascular disease risk and insulin resistance via transforming glucose wave fluctuations from time domain into associated energy in frequency domain and applying the linear elastic glucose theory of GH-Method: math-physical medicine