YEN-HUNG LINHUI-CHUN HUANGChang, Yi-ChungYi-ChungChangLin, ChenChenLinLo, Men-TzungMen-TzungLoLiu, Li-Yu DaisyLi-Yu DaisyLiuTsai, Pi-RuPi-RuTsaiYIH-SHARNG CHENYI-LWUN HOHo, Yi-LwunYi-LwunHoMING-FONG CHENPeng, Chung-KangChung-KangPengLI-YU LIU2022-02-272022-02-272014-10-241364-8535https://scholars.lib.ntu.edu.tw/handle/123456789/595807Extracorporeal life support (ECLS) can temporarily support cardiopulmonary function, and is occasionally used in resuscitation. Multi-scale entropy (MSE) derived from heart rate variability (HRV) is a powerful tool in outcome prediction of patients with cardiovascular diseases. Multi-scale symbolic entropy analysis (MSsE), a new method derived from MSE, mitigates the effect of arrhythmia on analysis. The objective is to evaluate the prognostic value of MSsE in patients receiving ECLS. The primary outcome is death or urgent transplantation during the index admission.enHEART-RATE-VARIABILITY; MEMBRANE-OXYGENATION; ORGAN DYSFUNCTION; TIME-DOMAIN; SHORT-TERM; COMPLEXITY; DYNAMICS; MORTALITY; PHYSIOLOGY; DISEASE[SDGs]SDG3journal article10.1186/s13054-014-0548-3253413812-s2.0-84964697684WOS:000351850600064