Cardiovascular Disease (CVD) has resulted in the deaths of 17.9 million individuals in 2016, representing 31% of the global death. Coronary Artery Disease is a spectrum of CVD with a clinical manifestation called Chronic Coronary Syndrome (CCS). Stable angina is the main symptom of CCS that threatens patient safety. This paper aims to convey the in-depth benefits of Trimetazidine as an effective and safe pharmacological option for CCS patients with stable angina. This paper is a narrative review type literature study using the literature review method regarding the benefits of Trimetazidine (TMZ) for CCS patients with stable angina. As many as 16 references from research journal articles, case reports, and international guidelines are used. The analysis showed that administration of TMZ caused a significant frequency reduction of weekly angina attacks from 4.7 ± 3.5 to 2.2 ± 2.4 in the first month (p <0.001) and to 0.9 ± 1.3 in the third month (p <0.001). The decrease in weekly nitroglycerin consumption was -3.23, 95% CI: -4.23 to -2.24 (p <0.0001). The CCS classification of patients increased from 83% of patients classified in CCS class II or III to 32% after being given TMZ. There were no significant differences between the three doses of TMZ (3 × 20 mg, 2 × 35 mg, and 1 × 80 mg). TMZ has been reported to cause few mild side effects in patients. In general, the use of TMZ as monotherapy or in combination can improve the condition of CCS patients with stable angina.

Gabaldon PA, Marcos GV, Gavara J, Rios NC, Miñana G, et al, 2021. Coronary Revascularization and Long-Term Survivorship in Chronic Coronary Syndrome. Journal of Clinical Medicinez. 10(4): 610.

Glezer M, 2020. Trimetazidine and Bisoprolol to Treat Angina in Symptomatic Patients: Post Hoc Analysis From the CHOICE-2 Study. Cardiology and Therapy.

Glezer MG & Vygodin VA, 2019. Effectiveness of Long-acting Trimetazidine in Different Clinical Situations in Patients with Stable Angina Pectoris: Findings from ODA Trial. Cardiology and Therapy. 8(1): 69–78.

Glezer MG, Vygodin VA, Nekrasova EL, Khlopina IA, Nubret, KS, et al, 2018. Anti-Anginal Effectiveness and Tolerability of Trimetazidine Modified Release 80 Mg Once Daily in Stable Angina Patients in Real-World Practice. Advances in Therapy. 35(9): 1368–1377.

González JR, Almendro DM, Cosín SJ, Bellmunt MS, Gómez DJ, et al, 2020. Residual risk reduction opportunities in patients with chronic coronary syndrome. Role of dual pathway inhibition. Expert Review of Clinical Pharmacology. 13(7): 695–706.

Lin CJ, Chang YC, Cheng TY, Lo K, Liu SJ, et al, 2020. The association between metabolically healthy obesity and risk of cancer: A systematic review and meta-analysis of prospective cohort studies. Obesity Reviews. 21(10): 1–11.

Lopatin Y & Petrova P, 2021. Effectiveness and Tolerability of Trimetazidine 80 Mg Once Daily in Patients with Stable Angina Uncontrolled with Bisoprolol-Based Therapy: The Modus Vivendi Observational Study. Cardiology and Therapy.

Montalescot G, Sechtem U, Achenbach S, Andreotti F, Arden C, et al, 2013. ESC guidelines on the management of stable coronary artery disease: the Task Force on the management of stable coronary artery disease of the European Society of Cardiology. European Heart Journal. 34(38): 2949–3003.

Nagy VL & Herold Z, (2020). Clinical effect of various trimetazidine formulations in chronic coronary syndrome. Orvosi Hetilap. 161(16): 611—622.

Neumann FJ, Sechtem U, Banning AP, Bonaros N, Bueno H, et al, 2020. 2019 ESC Guidelines for the diagnosis and management of chronic coronary syndromes. European Heart Journal. 41(3): 407–477.

Peng S, Zhao M, Wan J, Fang Q, Fang D, et al, 2014. The efficacy of trimetazidine on stable angina pectoris: A meta-analysis of randomized clinical trials. International Journal of Cardiology. 177(3): 780–785.

Qintar M, Spertus JA, Gosch KL, Beltrame J, Kureshi F, et al, 2016. Effect of angina under-recognition on treatment in outpatients with stable ischaemic heart disease. European Heart Journal - Quality of Care and Clinical Outcomes. 2(3): 208–214.

Ramezani AF, Badavi M, Dianat M, Mard SA, Ahangarpour A, 2020. Trimetazidine increases plasma microRNA-24 and microRNA-126 levels and improves dyslipidemia, inflammation and hypotension in diabetic rats. Iranian Journal of Pharmaceutical Research. 19(3): 248–257.

Shafiq A, Arnold, SV, Gosch K, Kureshi F, Breeding T, et al, 2016. Patient and physician discordance in reporting symptoms of angina among stable coronary artery disease patients: Insights from the Angina Prevalence and Provider Evaluation of Angina Relief (APPEAR) study. American Heart Journal. 175: 94–100.

Steg PG, Ferrari R, Ford I, Greenlaw N, Tardif JC, et al, 2012. Heart rate and use of beta-blockers in stable outpatients with coronary artery disease. PLOS ONE. 7(5).

Sorbets E, Fox KM, Elbez Y, Danchin N, Dorian P, et al, 2020. Long-term outcomes of chronic coronary syndrome worldwide: Insights from the international CLARIFY registry. European Heart Journal. 41(3): 347–355.

Sowjanya K, Sarumathy S, Thulasi RM, Najm RN, Vijayakumar TM, et al, 2020. Clinical efficacy and safety of trimetazidine as an add-on with standard therapy in patients with coronary artery disease of South India. Current Medicine Research and Practice. 10(1): 3–7.