GH-METHODS

Math-Physical Medicine

Pancreas

NO. 103

Using GH-Method: math-physical medicine methodology and four clinical cases to study type 2 diabetes patients’ liver and pancreas baseline conditions

NO. 104

Summary of glucose behavior study using GH-Method: math-physical medicine methodology

NO. 112

Changes in relative health state of pancreas beta cells over eleven years using GH-Method: math-physical medicine

NO. 120

The study on the damage to internal organs and the pancreatic beta cells health state due to excessive energy associated with high PPG components and distinctive waveforms using GH-Method: math-physical medicine

NO. 133

Probable partial recovery of pancreatic beta cells insulin regeneration using annualized fasting plasma glucose  (GH-Method: math-physical medicine) 

NO. 138

Probable partial self-recovery of pancreatic beta cells using calculations of annualized fasting plasma glucose  (GH-Method: math-physical medicine)

NO. 139

Guesstimate probable partial self-recovery of pancreatic beta cells using calculations of annualized glucose data using GH-Method: math-physical medicine

NO. 140

Guesstimate probable partial self-recovery of pancreatic beta cells using calculations of annualized glucose data using GH-Method: math-physical medicine

NO. 241

Using signal processing techniques to decompose PPG waveform and investigate the regeneration of pancreatic beta cells insulin production (GH-Method: math-physical medicine)

NO. 242

Probable self-recovery of pancreatic beta cells insulin regeneration using annualized PPG, postprandial plasma glucose  (GH-Method: math-physical medicine) 

NO. 243

Probable partial self-recovery of pancreatic beta cells using various glucose data (GH-Method: math-physical medicine) 

NO. 244

Using GH-Method: math-physical medicine approach and various glucose data to investigate the health state of a type 2 diabetes patient’s pancreatic β- cells

NO. 252

A summary report on partial regeneration of the pancreatic beta cells insulin regression using both FPG, PPG, and HbA1C data (GH-Method: math-physical medicine)

NO. 259

Relationship between metabolism and risk of cardiovascular disease and stroke, risk of chronic kidney disease, and probability of pancreatic beta cells self-recovery using GH-Method: Math-Physical Medicine

NO. 291

Verification on the partial self-recovery of pancreatic beta cells based on data from rice and toast meals using GH-Method: math-physical medicine

NO. 294

A biophysical study of relationships among nutrition, glucose, and neuroscience via PPG waveform differences between liquid egg meals and solid egg meals using GH-Method: Math-physical medicine

NO. 297

Self-recovery of pancreatic beta cell’s insulin secretion based on annualized fasting plasma glucose, baseline postprandial plasma glucose, and baseline daily glucose data using GH-Method: math-physical medicine

NO. 339

Self-recovery of pancreatic beta cell’s insulin secretion based on 10+ years annualized data of food, exercise, weight, and glucose using GH-Method: math-physical medicine

NO. 388

Investigating data of high-carbohydrate meals to study self-recovery of pancreatic beta cells using GH-Method: math-physical medicine

NO. 389

Applying the concept of glycemic variability and primary characters of glucose wave theory to study the pancreatic beta cells’ self-recovery using GH-Method: math-physical medicine

NO. 390

Applying the concept of glycemic variability (glucose fluctuation) for an extended study on the self-recovery of pancreatic beta cells and risk probability of having a cardiovascular disease or stroke using GH-Method: math-physical medicine