The electrophysiological remodeling of atrial myocytes of type 1 diabetic mice and effects of AGE
- Author:
Dan-Lin ZHENG
1
;
Li ZHANG
1
;
Meng-Yuan ZHOU
1
;
Sui-Min LI
1
;
Xiao-Yue QIN
1
;
Hai-Dan LIANG
1
;
Chun-Yu DENG
1
;
Dan-Lin ZHENG
2
;
Pei-Ming LIU
2
;
Li ZHANG
2
;
Meng-Yuan ZHOU
2
;
Peng ZENG
2
;
Sui-Min LI
2
;
Xiao-Yue QIN
2
;
Hai-Dan LIANG
2
;
Su-Juan KUANG
2
;
Hui YANG
2
;
Fang RAO
2
;
Chun-Yu DENG
2
;
Dan-Lin ZHENG
3
;
Pei-Ming LIU
3
;
Li ZHANG
3
;
Meng-Yuan ZHOU
3
;
Peng ZENG
3
;
Sui-Min LI
3
;
Xiao-Yue QIN
3
;
Hai-Dan LIANG
3
;
Su-Juan KUANG
3
;
Hui YANG
3
;
Fang RAO
3
;
Chun-Yu DENG
3
;
Pei-Ming LIU
4
;
Peng ZENG
4
;
Chun-Yu DENG
4
;
Pei-Ming LIU
5
;
Peng ZENG
5
;
Su-Juan KUANG
5
;
Hui YANG
5
;
Fang RAO
5
;
Chun-Yu DENG
5
Author Information
- Publication Type:Journal Article
- Keywords: AGE; atrial myocytes; electrical remodeling; ion channels; STZ; type 1 diabetes
- From: Chinese Pharmacological Bulletin 2021;37(1):90-98
- CountryChina
- Language:Chinese
- Abstract: Aim To explore type 1 diabetes mice and the advance glycation end products (AGE) involved in electrical remodeling of atrial myocytes. Methods The diabetic mouse model was induced by intraperitoneal injection of STZ; action potential duration, and the current density of I
