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Wang Wei
Mayo Clinic College of Medicine
University of Science and Technology of China
Anhui
Language: Chinese, English
Endocrine
Metabolic
Diseases
Central
Mechanisms
Intervention
Diabetic
Neuropathy
Artificial
Intelligence
Areas of Focus
- Central mechanisms of pathogenesis and intervention in endocrine metabolic diseases
- Basic and clinical research on diabetic neuropathy
- Application of artificial intelligence in endocrine metabolic diseases and bone metabolic diseases
Academic Background & Achievements
- PhD: Not mentioned
- Achievement: Youth Committee Member of the Chinese Medical Association Osteoporosis and Bone Mineral Salt Disease Branch
Publications
- Up-regulation of microglial chemokine CXCL12 in anterior cingulate cortex mediates neuropathic pain in diabetic mice., Song ZH, Song XJ, Yang CL, Cao P, Mao Y, Jin Y, Xu MY, Wang HT, Zhu X, Wang W*, Zhang Z*, Tao WJ*., 2023
- Machine learning algorithms for predicting the risk of fracture in patients with diabetes in China., Chu S, Jiang A, Chen L, Zhang X, Shen X, Zhou W, Ye S, Chen C, Zhang S, Zhang L, Chen Y, Miao Y, Wang W*., 2023
- Acid-sensing ion channel 1a in the central nucleus of the amygdala regulates anxiety-like behaviors in a mouse model of acute pain., Shi P, Zhang MJ, Liu A, Yang CL, Yue JY, Hu R, Mao Y, Zhang Z, Wang W*, Jin Y*, Liang LS*., 2023
- Knockdown of Acid-sensing Ion Channel 1a in the PVN Promotes Metabolic Disturbances in Male Mice., Wang W*, Xu M, Yue J, Zhang Q, Nie X, Jin Y*, Zhang Z., 2022
- The association of elevated serum lipocalin 2 levels with diabetic peripheral neuropathy in type 2 diabetes., Zhang X, Shen X, Zhou W, Xu M, Xing Y, Weng J, Ye S, Xu S, Zhang Z, Wang W*., 2021
- Elevated retinol binding protein 4 levels are associated with atherosclerosis in diabetic rats via JAK2/STAT3 signaling pathway., Zhou W, Ye SD, Wang W*., 2021
- Prior-knowledge-driven local causal structure learning and its application on causal discovery between type 2 diabetes and bone mineral density., Wang W*, Hu G, Yuan B, Ye S, Chen C, Cui Y, Zhang X, Qian L*., 2020
- Inhibition of acid-sensing ion channels reduces the hypothalamus-pituitary-adrenal axis activity and ameliorates depression-like behavior in rats., Zhou W, Ye S, Luo R, Wu LM, Wang W*., 2019
