The prognostic value of the triglyceride-glucose index in acute coronary syndrome: a meta-analysis_Chinese Journal of Evidence-Based Medicine

Authors：

YANG Man ¹ , LI Lingya ² , ZHANG Jing ^2,3 , LIU Xinyu ² , LIANG Shichu ² , WANG Cui ¹ , CHEN Zhonglan ^2,3 , HE Yong ² ,  YU Xijie ¹

1. Laboratory of Endocrinology and Metabolism/Department of Endocrinology and Metabolism, West China Hospital, Sichuan University, Chengdu 610041, P. R. China;
2. Department of Cardiology, West China Hospital, Sichuan University, Chengdu 610041, P. R. China;
3. School of Nursing, Sichuan University, Chengdu 610041, P. R. China;

Corresponding author：

YU Xijie, Email: xijieyu@scu.edu.cn

Keywords：

Acute coronary syndrome; Myocardial infarction; Triglyceride-glucose index; Prognosis; Meta-analysis

DOI：

10.7507/1672-2531.202503110

Video：

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Objective To systematically evaluate the prognostic value of the triglyceride-glucose (TyG) index in predicting cardiovascular outcomes in patients with acute coronary syndrome (ACS). Methods The PubMed, Embase, Cochrane Library, Web of Knowledge, CBM, WanFang Data and CNKI databases were electronically searched to collect cohort studies investigating the association between the TyG index and ACS prognosis from inception to January 25, 2025. Two reviewers independently screened literature, extracted data and assessed the risk of bias of the included studies. Meta-analysis was then performed by using RevMan 5.4 and Stata 18.0 software. Results A total of 18 studies involving 30 769 patients were included. The meta-analysis revealed that the TyG index was associated with ACS prognosis. When the TyG index was treated as a categorical variable, higher TyG index was significantly associated with an increased risk of MACE compared to lower TyG index (HR=1.94, 95%CI 1.62 to 2.31, P<0.001). Subgroup analysis indicated that the association between the TyG index and MACE remained independent of gender, age, participant characteristics, hypertension, and diabetes. In patients with ACS but without chronic kidney disease, the TyG index demonstrated a strong correlation with MACE (P=0.006). However, in ACS patients with concurrent chronic kidney disease, the TyG index did not appear to be a suitable predictor of MACE (P=0.22). Conclusion The TyG index demonstrates a strong correlation with MACE in ACS patients, where a higher TyG index is associated with an increased incidence of MACE, indicating poorer prognosis. The TyG index may serve as a simple surrogate marker for prognostic prediction in ACS patients, independent of sex, age, participant characteristics, hypertension, and diabetes. However, its application is currently limited in ACS patients with comorbid CKD.

1.	Byrne RA, Rossello X, Coughlan JJ, et al. 2023 ESC Guidelines for the management of acute coronary syndromes. Eur Heart J, 2023, 44(38): 3720-3826.
2.	Kochar A, Chen AY, Sharma PP, et al. Long-term mortality of older patients with acute myocardial infarction treated in US clinical practice. J Am Heart Assoc, 2018, 7(13): e007230.
3.	James DE, Stöckli J, Birnbaum MJ. The aetiology and molecular landscape of insulin resistance. Nat Rev Mol Cell Biol, 2021, 22(11): 751-771.
4.	Di Pino A, DeFronzo RA. Insulin resistance and atherosclerosis: implications for insulin-sensitizing agents. Endocr Rev, 2019, 40(6): 1447-1467.
5.	Guerrero-Romero F, Simental-Mendía LE, González-Ortiz M, et al. The product of triglycerides and glucose, a simple measure of insulin sensitivity. Comparison with the euglycemic-hyperinsulinemic clamp. J Clin Endocrinol Metab, 2010, 95(7): 3347-3351.
6.	Wang Y, Yang W, Jiang X. Association between triglyceride-glucose index and hypertension: a meta-analysis. Front Cardiovasc Med, 2021, 8: 644035.
7.	Liang S, Wang C, Zhang J, et al. Triglyceride-glucose index and coronary artery disease: a systematic review and meta-analysis of risk, severity, and prognosis. Cardiovasc Diabetol, 2023, 22(1): 170.
8.	Pranata R, Huang I, Irvan None, et al. The association between triglyceride-glucose index and the incidence of type 2 diabetes mellitus-a systematic review and dose-response meta-analysis of cohort studies. Endocrine, 2021, 74(2): 254-262.
9.	Liu X, Tan Z, Huang Y, et al. Relationship between the triglyceride-glucose index and risk of cardiovascular diseases and mortality in the general population: a systematic review and meta-analysis. Cardiovasc Diabetol, 2022, 21(1): 124.
10.	Akbar MR, Pranata R, Wibowo A, et al. The association between triglyceride-glucose index and major adverse cardiovascular events in patients with acute coronary syndrome - dose-response meta-analysis. Nutr Metab Cardiovasc Dis, 2021, 31(11): 3024-3030.
11.	Hutton B, Salanti G, Caldwell DM, et al. The PRISMA extension statement for reporting of systematic reviews incorporating network meta-analyses of health care interventions: checklist and explanations. Ann Intern Med, 2015, 162(11): 777-784.
12.	Stang A. Critical evaluation of the Newcastle-Ottawa scale for the assessment of the quality of nonrandomized studies in meta-analyses. Eur J Epidemiol, 2010, 25(9): 603-605.
13.	张勇, 蔡翔, 钟钟, 等. 甘油三酯葡萄糖乘积指数对行急诊经皮冠状动脉介入术急性冠脉综合征患者远期预后的预测价值. 中国动脉硬化杂志, 2023: 1-15.
14.	贾宁, 王明生, 赵霞. 甘油三酯-葡萄糖指数对急性心肌梗死患者经皮冠状动脉介入治疗后长期预后的影响. 重庆医科大学学报, 2023, 48(4): 417-422.
15.	曾康, 杨滨, 曹慧丽, 等. 甘油三酯葡萄糖指数对心肌梗死后心力衰竭患者的预后价值. 中国心血管病研究, 2023, 21(4): 363-368.
16.	Zhang Y, Ding X, Hua B, et al. High triglyceride-glucose index is associated with poor cardiovascular outcomes in nondiabetic patients with ACS with LDL-C below 1. 8 mmol/L. J Atheroscler Thromb, 2022, 29(2): 268-281.
17.	Qin Z, Xu S, Yuan R, et al. Combination of TyG index and GRACE risk score as long-term prognostic marker in patients with ACS complicated with T2DM undergoing PCI. Diabetes Metab Syndr Obes, 2022, 15: 3015-3025.
18.	Pang S, Miao G, Zhou Y, et al. Addition of TyG index to the GRACE score improves prediction of adverse cardiovascular outcomes in patients with non-ST-segment elevation acute coronary syndrome undergoing percutaneous coronary intervention: a retrospective study. Front Cardiovasc Med, 2022, 9: 957626.
19.	Karadeniz FÖ, Sancaktepe EA, Karadeniz Y. High triglyceride-glucose index is associated with poor prognosis in patients with acute coronary syndrome in long-term follow-up. Angiology, 2023, 74(2): 139-148.
20.	Jiao Y, Su Y, Shen J, et al. Evaluation of the long-term prognostic ability of triglyceride-glucose index for elderly acute coronary syndrome patients: a cohort study. Cardiovasc Diabetol, 2022, 21(1): 3.
21.	Guo Q, Feng X, Zhang B, et al. Influence of the triglyceride-glucose index on adverse cardiovascular and cerebrovascular events in prediabetic patients with acute coronary syndrome. Front Endocrinol (Lausanne), 2022, 13: 843072.
22.	Zhao Q, Zhang TY, Cheng YJ, et al. Triglyceride-glucose index as a surrogate marker of insulin resistance for predicting cardiovascular outcomes in nondiabetic patients with non-st-segment elevation acute coronary syndrome undergoing percutaneous coronary intervention. J Atheroscler Thromb, 2021, 28(11): 1175-1194.
23.	张梦玮, 王宇, 段洋, 等. TyG指数及TyG指数联合Grace评分对急性心肌梗死患者预后的预测价值. 临床心血管病杂志, 2021, 37(2): 113-117.
24.	Zhao Q, Zhang TY, Cheng YJ, et al. Impacts of triglyceride-glucose index on prognosis of patients with type 2 diabetes mellitus and non-ST-segment elevation acute coronary syndrome: results from an observational cohort study in China. Cardiovasc Diabetol, 2020, 19(1): 108.
25.	Zhang Y, Ding X, Hua B, et al. High triglyceride-glucose index is associated with adverse cardiovascular outcomes in patients with acute myocardial infarction. Nutr Metab Cardiovasc Dis, 2020, 30(12): 2351-2362.
26.	Wang L, Cong HL, Zhang JX, et al. Triglyceride-glucose index predicts adverse cardiovascular events in patients with diabetes and acute coronary syndrome. Cardiovasc Diabetol, 2020, 19(1): 80.
27.	Ma X, Dong L, Shao Q, et al. Triglyceride glucose index for predicting cardiovascular outcomes after percutaneous coronary intervention in patients with type 2 diabetes mellitus and acute coronary syndrome. Cardiovasc Diabetol, 2020, 19(1): 31.
28.	Hu C, Zhang J, Liu J, et al. Discordance between the triglyceride glucose index and fasting plasma glucose or HbA1C in patients with acute coronary syndrome undergoing percutaneous coronary intervention predicts cardiovascular events: a cohort study from China. Cardiovasc Diabetol, 2020, 19(1): 116.
29.	刘小永, 张戈, 林志, 等. TyG、Fib与急性ST段抬高型心肌梗死患者预后的相关性. 现代医学, 2020, 48(8): 960-965.
30.	Mao Q, Zhou D, Li Y, et al. The triglyceride-glucose index predicts coronary artery disease severity and cardiovascular outcomes in patients with non-st-segment elevation acute coronary syndrome. Dis Markers, 2019, 2019: 6891537.
31.	Jia G, DeMarco VG, Sowers JR. Insulin resistance and hyperinsulinaemia in diabetic cardiomyopathy. Nat Rev Endocrinol, 2016, 12(3): 144-153.
32.	Paolillo S, Rengo G, Pellegrino T, et al. Insulin resistance is associated with impaired cardiac sympathetic innervation in patients with heart failure. Eur Heart J Cardiovasc Imaging, 2015, 16(10): 1148-1153.
33.	Scherrer U, Sartori C. Insulin as a vascular and sympathoexcitatory hormone: implications for blood pressure regulation, insulin sensitivity, and cardiovascular morbidity. Circulation, 1997, 96(11): 4104-4113.
34.	Underwood PC, Adler GK. The renin angiotensin aldosterone system and insulin resistance in humans. Curr Hypertens Rep, 2013, 15(1): 59-70.
35.	Cooper SA, Whaley-Connell A, Habibi J, et al. Renin-angiotensin-aldosterone system and oxidative stress in cardiovascular insulin resistance. Am J Physiol Heart Circ Physiol, 2007, 293(4): 2009-2023.
36.	Paneni F, Beckman JA, Creager MA, et al. Diabetes and vascular disease: pathophysiology, clinical consequences, and medical therapy: part I. Eur Heart J, 2013, 34(31): 2436-2443.
37.	Tao LC, Xu JN, Wang TT, et al. Triglyceride-glucose index as a marker in cardiovascular diseases: landscape and limitations. Cardiovasc Diabetol, 2022, 21(1): 68.
38.	白彦琳, 梁士楚, 王翠, 等. 甘油三酯葡萄糖指数和动脉硬化相关性的Meta分析. 中国循证医学杂志, 2024, 24(7): 797-805.
39.	Zheng R, Mao Y. Triglyceride and glucose (TyG) index as a predictor of incident hypertension: a 9-year longitudinal population-based study. Lipids Health Dis, 2017, 16(1): 175.
40.	Navarro-González D, Sánchez-Íñigo L, Pastrana-Delgado J, et al. Triglyceride-glucose index (TyG index) in comparison with fasting plasma glucose improved diabetes prediction in patients with normal fasting glucose: the vascular-metabolic CUN cohort. Prev Med, 2016, 86: 99-105.
41.	Wu Z, Liu L, Wang W, et al. Triglyceride-glucose index in the prediction of adverse cardiovascular events in patients with premature coronary artery disease: a retrospective cohort study. Cardiovasc Diabetol, 2022, 21(1): 142.
42.	Wang J, Huang X, Fu C, et al. Association between triglyceride glucose index, coronary artery calcification and multivessel coronary disease in Chinese patients with acute coronary syndrome. Cardiovasc Diabetol, 2022, 21(1): 187.
43.	Liang S, Wang C, Zhang J, et al. Triglyceride-glucose index and coronary artery disease: a systematic review and meta-analysis of risk, severity, and prognosis. Cardiovasc Diabetol, 2023, 22(1): 170.
44.	Luo E, Wang D, Yan G, et al. High triglyceride-glucose index is associated with poor prognosis in patients with acute ST-elevation myocardial infarction after percutaneous coronary intervention. Cardiovasc Diabetol, 2019, 18(1): 150.
45.	Luo JW, Duan WH, Yu YQ, et al. Prognostic significance of triglyceride-glucose index for adverse cardiovascular events in patients with coronary artery disease: a systematic review and meta-analysis. Front Cardiovasc Med, 2021, 8: 774781.
46.	Yang J, Tang YD, Zheng Y, et al. The impact of the triglyceride-glucose index on poor prognosis in nondiabetic patients undergoing percutaneous coronary intervention. Front Endocrinol (Lausanne), 2021, 12: 710240.
47.	Wang HF, Mao YC, Qi SF, et al. Benefits and risks of antihyperlipidemic medication in adults with different low-density lipoprotein cholesterol based on the number needed to treat. Am J Cardiovasc Drugs, 2024, 24(4): 557-568.
48.	Hoogeveen RC, Ballantyne CM. Residual cardiovascular risk at low LDL: remnants, lipoprotein(a), and inflammation. Clin Chem, 2021, 67(1): 143-153.
49.	Markus MRP, Rospleszcz S, Ittermann T, et al. Glucose and insulin levels are associated with arterial stiffness and concentric remodeling of the heart. Cardiovasc Diabetol, 2019, 18(1): 145.
50.	Jin JL, Sun D, Cao YX, et al. Triglyceride glucose and haemoglobin glycation index for predicting outcomes in diabetes patients with new-onset, stable coronary artery disease: a nested case-control study. Ann Med, 2018, 50(7): 576-586.
51.	Alavi Tabatabaei G, Mohammadifard N, Rafiee H, et al. Association of the triglyceride glucose index with all-cause and cardiovascular mortality in a general population of Iranian adults. Cardiovasc Diabetol, 2024, 23(1): 66.
52.	Zhang Y, Ding X, Hua B, et al. Predictive effect of triglyceride-glucose index on clinical events in patients with type 2 diabetes mellitus and acute myocardial infarction: results from an observational cohort study in China. Cardiovasc Diabetol, 2021, 20(1): 43.
53.	Edelson GW, Sowers JR. Insulin resistance in hypertension: a focused review. Am J Med Sci, 1993, 306(5): 345-347.
54.	Huang Z, Ding X, Yue Q, et al. Triglyceride-glucose index trajectory and stroke incidence in patients with hypertension: a prospective cohort study. Cardiovasc Diabetol, 2022, 21(1): 141.
55.	Qiu W, Cai A, Li L, et al. Systolic blood pressure status modifies the associations between the triglyceride-glucose index and incident cardiovascular disease: a national cohort study in China. Cardiovasc Diabetol, 2024, 23(1): 135.
56.	Ren X, Jiang M, Han L, et al. Association between triglyceride-glucose index and chronic kidney disease: a cohort study and meta-analysis. Nutr Metab Cardiovasc Dis, 2023, 33(6): 1121-1128.
57.	Dave N, Wu J, Thomas S. Chronic kidney disease-induced insulin resistance: current state of the field. Curr Diab Rep, 2018, 18(7): 44.
58.	Cui C, Liu L, Zhang T, et al. Triglyceride-glucose index, renal function and cardiovascular disease: a national cohort study. Cardiovasc Diabetol, 2023, 22(1): 325.
59.	Shi W, Liu S, Jing L, et al. Estimate of reduced glomerular filtration rate by triglyceride-glucose index: insights from a general Chinese population. Postgrad Med, 2019, 131(4): 287-294.
60.	Chen T, Liu Y, Wu S, et al. Comparison of TyG and newly TyG related indicators for chronic kidney diseases estimation in a Chinese population. Diabetes Metab Syndr Obes, 2024, 17: 3063-3075.

1. Byrne RA, Rossello X, Coughlan JJ, et al. 2023 ESC Guidelines for the management of acute coronary syndromes. Eur Heart J, 2023, 44(38): 3720-3826.
2. Kochar A, Chen AY, Sharma PP, et al. Long-term mortality of older patients with acute myocardial infarction treated in US clinical practice. J Am Heart Assoc, 2018, 7(13): e007230.
3. James DE, Stöckli J, Birnbaum MJ. The aetiology and molecular landscape of insulin resistance. Nat Rev Mol Cell Biol, 2021, 22(11): 751-771.
4. Di Pino A, DeFronzo RA. Insulin resistance and atherosclerosis: implications for insulin-sensitizing agents. Endocr Rev, 2019, 40(6): 1447-1467.
5. Guerrero-Romero F, Simental-Mendía LE, González-Ortiz M, et al. The product of triglycerides and glucose, a simple measure of insulin sensitivity. Comparison with the euglycemic-hyperinsulinemic clamp. J Clin Endocrinol Metab, 2010, 95(7): 3347-3351.
6. Wang Y, Yang W, Jiang X. Association between triglyceride-glucose index and hypertension: a meta-analysis. Front Cardiovasc Med, 2021, 8: 644035.
7. Liang S, Wang C, Zhang J, et al. Triglyceride-glucose index and coronary artery disease: a systematic review and meta-analysis of risk, severity, and prognosis. Cardiovasc Diabetol, 2023, 22(1): 170.
8. Pranata R, Huang I, Irvan None, et al. The association between triglyceride-glucose index and the incidence of type 2 diabetes mellitus-a systematic review and dose-response meta-analysis of cohort studies. Endocrine, 2021, 74(2): 254-262.
9. Liu X, Tan Z, Huang Y, et al. Relationship between the triglyceride-glucose index and risk of cardiovascular diseases and mortality in the general population: a systematic review and meta-analysis. Cardiovasc Diabetol, 2022, 21(1): 124.
10. Akbar MR, Pranata R, Wibowo A, et al. The association between triglyceride-glucose index and major adverse cardiovascular events in patients with acute coronary syndrome - dose-response meta-analysis. Nutr Metab Cardiovasc Dis, 2021, 31(11): 3024-3030.
11. Hutton B, Salanti G, Caldwell DM, et al. The PRISMA extension statement for reporting of systematic reviews incorporating network meta-analyses of health care interventions: checklist and explanations. Ann Intern Med, 2015, 162(11): 777-784.
12. Stang A. Critical evaluation of the Newcastle-Ottawa scale for the assessment of the quality of nonrandomized studies in meta-analyses. Eur J Epidemiol, 2010, 25(9): 603-605.
13. 张勇, 蔡翔, 钟钟, 等. 甘油三酯葡萄糖乘积指数对行急诊经皮冠状动脉介入术急性冠脉综合征患者远期预后的预测价值. 中国动脉硬化杂志, 2023: 1-15.
14. 贾宁, 王明生, 赵霞. 甘油三酯-葡萄糖指数对急性心肌梗死患者经皮冠状动脉介入治疗后长期预后的影响. 重庆医科大学学报, 2023, 48(4): 417-422.
15. 曾康, 杨滨, 曹慧丽, 等. 甘油三酯葡萄糖指数对心肌梗死后心力衰竭患者的预后价值. 中国心血管病研究, 2023, 21(4): 363-368.
16. Zhang Y, Ding X, Hua B, et al. High triglyceride-glucose index is associated with poor cardiovascular outcomes in nondiabetic patients with ACS with LDL-C below 1. 8 mmol/L. J Atheroscler Thromb, 2022, 29(2): 268-281.
17. Qin Z, Xu S, Yuan R, et al. Combination of TyG index and GRACE risk score as long-term prognostic marker in patients with ACS complicated with T2DM undergoing PCI. Diabetes Metab Syndr Obes, 2022, 15: 3015-3025.
18. Pang S, Miao G, Zhou Y, et al. Addition of TyG index to the GRACE score improves prediction of adverse cardiovascular outcomes in patients with non-ST-segment elevation acute coronary syndrome undergoing percutaneous coronary intervention: a retrospective study. Front Cardiovasc Med, 2022, 9: 957626.
19. Karadeniz FÖ, Sancaktepe EA, Karadeniz Y. High triglyceride-glucose index is associated with poor prognosis in patients with acute coronary syndrome in long-term follow-up. Angiology, 2023, 74(2): 139-148.
20. Jiao Y, Su Y, Shen J, et al. Evaluation of the long-term prognostic ability of triglyceride-glucose index for elderly acute coronary syndrome patients: a cohort study. Cardiovasc Diabetol, 2022, 21(1): 3.
21. Guo Q, Feng X, Zhang B, et al. Influence of the triglyceride-glucose index on adverse cardiovascular and cerebrovascular events in prediabetic patients with acute coronary syndrome. Front Endocrinol (Lausanne), 2022, 13: 843072.
22. Zhao Q, Zhang TY, Cheng YJ, et al. Triglyceride-glucose index as a surrogate marker of insulin resistance for predicting cardiovascular outcomes in nondiabetic patients with non-st-segment elevation acute coronary syndrome undergoing percutaneous coronary intervention. J Atheroscler Thromb, 2021, 28(11): 1175-1194.
23. 张梦玮, 王宇, 段洋, 等. TyG指数及TyG指数联合Grace评分对急性心肌梗死患者预后的预测价值. 临床心血管病杂志, 2021, 37(2): 113-117.
24. Zhao Q, Zhang TY, Cheng YJ, et al. Impacts of triglyceride-glucose index on prognosis of patients with type 2 diabetes mellitus and non-ST-segment elevation acute coronary syndrome: results from an observational cohort study in China. Cardiovasc Diabetol, 2020, 19(1): 108.
25. Zhang Y, Ding X, Hua B, et al. High triglyceride-glucose index is associated with adverse cardiovascular outcomes in patients with acute myocardial infarction. Nutr Metab Cardiovasc Dis, 2020, 30(12): 2351-2362.
26. Wang L, Cong HL, Zhang JX, et al. Triglyceride-glucose index predicts adverse cardiovascular events in patients with diabetes and acute coronary syndrome. Cardiovasc Diabetol, 2020, 19(1): 80.
27. Ma X, Dong L, Shao Q, et al. Triglyceride glucose index for predicting cardiovascular outcomes after percutaneous coronary intervention in patients with type 2 diabetes mellitus and acute coronary syndrome. Cardiovasc Diabetol, 2020, 19(1): 31.
28. Hu C, Zhang J, Liu J, et al. Discordance between the triglyceride glucose index and fasting plasma glucose or HbA1C in patients with acute coronary syndrome undergoing percutaneous coronary intervention predicts cardiovascular events: a cohort study from China. Cardiovasc Diabetol, 2020, 19(1): 116.
29. 刘小永, 张戈, 林志, 等. TyG、Fib与急性ST段抬高型心肌梗死患者预后的相关性. 现代医学, 2020, 48(8): 960-965.
30. Mao Q, Zhou D, Li Y, et al. The triglyceride-glucose index predicts coronary artery disease severity and cardiovascular outcomes in patients with non-st-segment elevation acute coronary syndrome. Dis Markers, 2019, 2019: 6891537.
31. Jia G, DeMarco VG, Sowers JR. Insulin resistance and hyperinsulinaemia in diabetic cardiomyopathy. Nat Rev Endocrinol, 2016, 12(3): 144-153.
32. Paolillo S, Rengo G, Pellegrino T, et al. Insulin resistance is associated with impaired cardiac sympathetic innervation in patients with heart failure. Eur Heart J Cardiovasc Imaging, 2015, 16(10): 1148-1153.
33. Scherrer U, Sartori C. Insulin as a vascular and sympathoexcitatory hormone: implications for blood pressure regulation, insulin sensitivity, and cardiovascular morbidity. Circulation, 1997, 96(11): 4104-4113.
34. Underwood PC, Adler GK. The renin angiotensin aldosterone system and insulin resistance in humans. Curr Hypertens Rep, 2013, 15(1): 59-70.
35. Cooper SA, Whaley-Connell A, Habibi J, et al. Renin-angiotensin-aldosterone system and oxidative stress in cardiovascular insulin resistance. Am J Physiol Heart Circ Physiol, 2007, 293(4): 2009-2023.
36. Paneni F, Beckman JA, Creager MA, et al. Diabetes and vascular disease: pathophysiology, clinical consequences, and medical therapy: part I. Eur Heart J, 2013, 34(31): 2436-2443.
37. Tao LC, Xu JN, Wang TT, et al. Triglyceride-glucose index as a marker in cardiovascular diseases: landscape and limitations. Cardiovasc Diabetol, 2022, 21(1): 68.
38. 白彦琳, 梁士楚, 王翠, 等. 甘油三酯葡萄糖指数和动脉硬化相关性的Meta分析. 中国循证医学杂志, 2024, 24(7): 797-805.
39. Zheng R, Mao Y. Triglyceride and glucose (TyG) index as a predictor of incident hypertension: a 9-year longitudinal population-based study. Lipids Health Dis, 2017, 16(1): 175.
40. Navarro-González D, Sánchez-Íñigo L, Pastrana-Delgado J, et al. Triglyceride-glucose index (TyG index) in comparison with fasting plasma glucose improved diabetes prediction in patients with normal fasting glucose: the vascular-metabolic CUN cohort. Prev Med, 2016, 86: 99-105.
41. Wu Z, Liu L, Wang W, et al. Triglyceride-glucose index in the prediction of adverse cardiovascular events in patients with premature coronary artery disease: a retrospective cohort study. Cardiovasc Diabetol, 2022, 21(1): 142.
42. Wang J, Huang X, Fu C, et al. Association between triglyceride glucose index, coronary artery calcification and multivessel coronary disease in Chinese patients with acute coronary syndrome. Cardiovasc Diabetol, 2022, 21(1): 187.
43. Liang S, Wang C, Zhang J, et al. Triglyceride-glucose index and coronary artery disease: a systematic review and meta-analysis of risk, severity, and prognosis. Cardiovasc Diabetol, 2023, 22(1): 170.
44. Luo E, Wang D, Yan G, et al. High triglyceride-glucose index is associated with poor prognosis in patients with acute ST-elevation myocardial infarction after percutaneous coronary intervention. Cardiovasc Diabetol, 2019, 18(1): 150.
45. Luo JW, Duan WH, Yu YQ, et al. Prognostic significance of triglyceride-glucose index for adverse cardiovascular events in patients with coronary artery disease: a systematic review and meta-analysis. Front Cardiovasc Med, 2021, 8: 774781.
46. Yang J, Tang YD, Zheng Y, et al. The impact of the triglyceride-glucose index on poor prognosis in nondiabetic patients undergoing percutaneous coronary intervention. Front Endocrinol (Lausanne), 2021, 12: 710240.
47. Wang HF, Mao YC, Qi SF, et al. Benefits and risks of antihyperlipidemic medication in adults with different low-density lipoprotein cholesterol based on the number needed to treat. Am J Cardiovasc Drugs, 2024, 24(4): 557-568.
48. Hoogeveen RC, Ballantyne CM. Residual cardiovascular risk at low LDL: remnants, lipoprotein(a), and inflammation. Clin Chem, 2021, 67(1): 143-153.
49. Markus MRP, Rospleszcz S, Ittermann T, et al. Glucose and insulin levels are associated with arterial stiffness and concentric remodeling of the heart. Cardiovasc Diabetol, 2019, 18(1): 145.
50. Jin JL, Sun D, Cao YX, et al. Triglyceride glucose and haemoglobin glycation index for predicting outcomes in diabetes patients with new-onset, stable coronary artery disease: a nested case-control study. Ann Med, 2018, 50(7): 576-586.
51. Alavi Tabatabaei G, Mohammadifard N, Rafiee H, et al. Association of the triglyceride glucose index with all-cause and cardiovascular mortality in a general population of Iranian adults. Cardiovasc Diabetol, 2024, 23(1): 66.
52. Zhang Y, Ding X, Hua B, et al. Predictive effect of triglyceride-glucose index on clinical events in patients with type 2 diabetes mellitus and acute myocardial infarction: results from an observational cohort study in China. Cardiovasc Diabetol, 2021, 20(1): 43.
53. Edelson GW, Sowers JR. Insulin resistance in hypertension: a focused review. Am J Med Sci, 1993, 306(5): 345-347.
54. Huang Z, Ding X, Yue Q, et al. Triglyceride-glucose index trajectory and stroke incidence in patients with hypertension: a prospective cohort study. Cardiovasc Diabetol, 2022, 21(1): 141.
55. Qiu W, Cai A, Li L, et al. Systolic blood pressure status modifies the associations between the triglyceride-glucose index and incident cardiovascular disease: a national cohort study in China. Cardiovasc Diabetol, 2024, 23(1): 135.
56. Ren X, Jiang M, Han L, et al. Association between triglyceride-glucose index and chronic kidney disease: a cohort study and meta-analysis. Nutr Metab Cardiovasc Dis, 2023, 33(6): 1121-1128.
57. Dave N, Wu J, Thomas S. Chronic kidney disease-induced insulin resistance: current state of the field. Curr Diab Rep, 2018, 18(7): 44.
58. Cui C, Liu L, Zhang T, et al. Triglyceride-glucose index, renal function and cardiovascular disease: a national cohort study. Cardiovasc Diabetol, 2023, 22(1): 325.
59. Shi W, Liu S, Jing L, et al. Estimate of reduced glomerular filtration rate by triglyceride-glucose index: insights from a general Chinese population. Postgrad Med, 2019, 131(4): 287-294.
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