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J Cardiovasc Thorac Res. 2018;10(4): 209-213. doi: 10.15171/jcvtr.2018.36
PMID: 30680079        PMCID: PMC6335987

Original Article

The significant coronary tortuosity and atherosclerotic coronary artery disease; What is the relation?

Mohsen Khosravani-Rudpishi 1 ORCID, Adel Joharimoghadam 1 * , Elham Rayzan 2

Cited by CrossRef: 8

1- Yin L, Zhao X, Gao S, Yuan W, Wu K, Qian W, Li Q. Analysis of the correlations between the extracranial internal carotid artery and extracranial vertebral artery and mild cognitive impairment. THC. 2024;32(1):467 [Crossref]
2- Eltahlawi M. Tortuosidade Coronariana como um Novo Fenótipo para Isquemia sem Doença Arterial Coronariana. 2022;119(6):891 [Crossref]
3- Song J, Kouidri S, Bakir F. Numerical study on flow topology and hemodynamics in tortuous coronary artery with symmetrical and asymmetrical stenosis. Biocybernetics and Biomedical Engineering. 2021;41(1):142 [Crossref]
4- 吴 钦. Clinical Features of Coronary Tortuous and the Correlation Analysis between Coronary Tortuous and Coronary Atherosclerosis. ACM. 2023;13(04):5694 [Crossref]
5- Kumar P, Sharma S, Das P, Roy S. Effects of increased heart rates on the hemodynamic features and arterial stress in a realistic left anterior descending coronary artery model of a young human with different degrees of stenosis. Eur Phys J Spec Top. 2025; [Crossref]
6- Zebic Mihic P, Arambasic J, Mlinarevic D, Saric S, Labor M, Bosnjak I, Mihaljevic I, Bilic Curcic I, Juric I. Coronary Tortuosity Index vs. Angle Measurement Method for the Quantification of the Tortuosity of Coronary Arteries in Non-Obstructive Coronary Disease. Diagnostics. 2023;14(1):35 [Crossref]
7- Kashyap V, Gharleghi R, Li D, McGrath-Cadell L, Graham R, Ellis C, Webster M, Beier S. Accuracy of vascular tortuosity measures using computational modelling. Sci Rep. 2022;12(1) [Crossref]
8- Kim J, Kim D, Kim K, Oh D, Yoon J. Non-electrocardiography- and electrocardiography-gated computed tomography angiography for the evaluation of feline coronary arteries. Front Vet Sci. 2022;9 [Crossref]
9- Borysyuk A. Approximate Method to Find Dynamic Blood Flow Characteristics in Pathologically Tortuous Larger Coronary Artery. Int Appl Mech. 2025;61(3):290 [Crossref]
10- Lezhnina E, Korobkeyev A, Lezhnina O, Mingalieva O. Anatomical Characteristics of the Main Branches of the Right Coronary Artery in Elderly People with Different Somatotypes. Volgograd Journal of Medical Research. 2024;21(4):84 [Crossref]
11- Algowhary M, Mahmoud M, Abdelnazeer A, Demitry S, Abdelsabour M. Clinical and angiographic outcomes of ultrathin biomime versus thicker ultimaster stents during primary percutaneous coronary interventions. 2025; [Crossref]
12- Küçük U, Kırılmaz B. Relationship Between CHA2DS2-VASc Score, Coronary Tortuosity and Atrial Fibrillation in Patients with Coronary Artery Disease. ejcm. 2022;10(4):167 [Crossref]
13- Zebic Mihic P, Saric S, Bilic Curcic I, Mihaljevic I, Juric I. The Association of Severe Coronary Tortuosity and Non-Obstructive Coronary Artery Disease. Medicina. 2023;59(9):1619 [Crossref]
14- Li M, Wang Z, Fang L, Cheng S, Wang X, Liu N. Correlation analysis of coronary artery tortuosity and calcification score. BMC Surg. 2022;22(1) [Crossref]
15- Szőnyi Á, Balázs G, Nyárády B, Philippovich M, Horváth T, Dósa E. Effect of Sex, Age, and Cardiovascular Risk Factors on Aortoiliac Segment Geometry. JCM. 2024;13(6):1705 [Crossref]
16- Chalkias A, Papagiannakis N, Katsifa K, Destounis A, Gravos A, Kanakaki S, Karapiperis G, Koufaki F, Prekates A, Tselioti P. Characterization of Sublingual Microvascular Tortuosity in Steady-State Physiology and Septic Shock. Biomedicines. 2025;13(3):691 [Crossref]
17- Borysyuk A. An approximate method to find a hemodynamic significance of a severe larger coronary artery pathologic tortuosity. Gidrodin akust. 2024;3(93)(2):115 [Crossref]