J Wang 1 , F Wang 2 , Y Liu 3 , J Xu 4 , H Lin 3 , B Jia 5 , W Zuo 6 , Y Jiang 6 , L Hu 7 , F Lin 8 Show Affiliations »
Abstract
Show RCT »
Hide RCT «
BACKGROUND: Overweight individuals are at higher risk for developing type II diabetes than the general population. We conducted this study to analyze the correlation between blood glucose and biochemical parameters, and developed a blood glucose prediction model tailored to overweight patients . METHODS: A total of 346 overweight Chinese people patients ages 18-81 years were involved in this study. Their levels of fasting glucose (fs-GLU), blood lipids, and hepatic and renal functions were measured and analyzed by multiple linear regression (MLR). Based the MLR results, we developed a back propagation artificial neural network (BP-ANN) model by selecting tansig as the transfer function of the hidden layers nodes, and purelin for the output layer nodes, with training goal of 0.5×10(-5). RESULTS: There was significant correlation between fs-GLU with age, BMI, and blood biochemical indexes (P<0.05). The results of MLR analysis indicated that age, fasting alanine transaminase (fs-ALT), blood urea nitrogen (fs-BUN), total protein (fs-TP), uric acid (fs-BUN), and BMI are 6 independent variables related to fs-GLU. Based on these parameters, the BP-ANN model was performed well and reached high prediction accuracy when training 1 000 epoch (R=0.9987). CONCLUSIONS: The level of fs-GLU was predictable using the proposed BP-ANN model based on 6 related parameters (age, fs-ALT, fs-BUN, fs-TP, fs-UA and BMI) in overweight patients . © Georg Thieme Verlag KG Stuttgart · New York.
RCT Entities: Population
Interventions
Outcomes
BACKGROUND: Overweight individuals are at higher risk for developing type II diabetes than the general population. We conducted this study to analyze the correlation between blood glucose and biochemical parameters, and developed a blood glucose prediction model tailored to overweight patients . METHODS: A total of 346 overweight Chinese people patients ages 18-81 years were involved in this study. Their levels of fasting glucose (fs -GLU ), blood lipids , and hepatic and renal functions were measured and analyzed by multiple linear regression (MLR). Based the MLR results, we developed a back propagation artificial neural network (BP-ANN) model by selecting tansig as the transfer function of the hidden layers nodes, and purelin for the output layer nodes, with training goal of 0.5×10(-5). RESULTS: There was significant correlation between fs -GLU with age, BMI, and blood biochemical indexes (P<0.05). The results of MLR analysis indicated that age, fasting alanine transaminase (fs -ALT), blood urea nitrogen (fs -BUN), total protein (fs -TP ), uric acid (fs -BUN), and BMI are 6 independent variables related to fs -GLU . Based on these parameters, the BP-ANN model was performed well and reached high prediction accuracy when training 1 000 epoch (R=0.9987). CONCLUSIONS: The level of fs -GLU was predictable using the proposed BP-ANN model based on 6 related parameters (age, fs -ALT, fs -BUN, fs -TP , fs -UA and BMI) in overweight patients . © Georg Thieme Verlag KG Stuttgart · New York.
Entities: Chemical
Disease
Species
Mesh: See more »
Substances: See more »
Year: 2016
PMID: 26797861 DOI: 10.1055/s-0035-1565175
Source DB: PubMed Journal: Exp Clin Endocrinol Diabetes ISSN: 0947-7349 Impact factor: 2.949