Objective: The present study aimed to explore the predictive value and prognosis of SYNTAX score, nerve growth factor (NGF), trimethylamino oxide (TMAO), silent information regulator 1 (SIRT1), and apolipoprotein A1 (apoA1) for ischemic heart failure (IHF) patients.
Methods: From January 2020 to January 2021, 87 patients diagnosed with IHF in the Sixth Hospital of Wuhan, Affiliated Hospital of Jianghan University, and 42 healthy people were included and analyzed retrospectively. The 87 patients were divided into 3 subgroups according to New York Heart Association (NYHA) heart function classification, as group 1 (n=9, classes I-II heart function), group 2 (n = 7, class III heart function), and group 3 (n = 31, class IV heart function). The levels of left ventricular ejection fraction (LVEF), left ventricular end-diastolic diameter (LVEDD), left atrium diameter (LAD), NGF, TMAO, SIRT1, SYNTAX score, and apoA1 were compared among these groups.
Results: The SIRT1 and apoA1 of patients with classes I-II, III, and IV heart function were significantly lower than that of healthy people in the control group, while TMAO and NGF were significantly higher than those of healthy people (all P < .05). The SYNTAX score of grade I-II, grade III, and grade IV groups was significantly lower than that of the healthy group (P < .05). The two groups had no significant difference in the number of coronary artery lesions (P > .05). The SIRT1 and apoA1 of patients with classes III and IV heart function were significantly lower than that of patients with classes I -II heart function, while TMAO and NGF were significantly higher than those of class I-II people (all P < .05). The SIRT1 and apoA1 of patients with class IV heart function were significantly lower than those of patients with class III heart function, while TMAO and NGF were significantly higher than those of patients with class III heart function (all P < .05). After 1 year follow-up of these IHF patients, 22 patients were readmission because of cardiac events, and 6 patients died in hospital or during follow-up. These 28 patients were allocated to the event group, while the rest 59 patients were allocated to the events-free group. The SIRT1 and apoA1 level in event group was significantly lower than those of event-free group, while the TMAO, SYNTAX score, and NGF level were significantly higher than those of the event-free group (all P < .001). Baseline characters and heart function with significant differences (LVEF, LAD and LVEDD) among these groups, and NGF, TMAO, SIRT1, SYNTAX score and apoA1 were enrolled into Logistic regression. SYNTAX score, NGF, TMAO, SIRT1 and apoA1 were independent risk factors for the prognosis of IHF patients (all P < .05).
Conclusion: SIRT1, apoA1, TMAO and NGF serum levels in patients with IHF are abnormally expressed and closely related to cardiac function. The levels of SYNTAX score, NGF, TMAO, SIRT1, and apoA can effectively predict adverse events in patients with IHF.