+44 1300 500008Clinical & Experimental Cardiology : Citations & Metrics Report
Articles published in Clinical & Experimental Cardiology have been cited by esteemed scholars and scientists all around the world. Clinical & Experimental Cardiology has got h-index 14, which means every article in Clinical & Experimental Cardiology has got 14 average citations.
Following are the list of articles that have cited the articles published in Clinical & Experimental Cardiology.
| 2022 | 2021 | 2020 | 2019 | 2018 | |
|---|---|---|---|---|---|
Year wise published articles |
60 | 58 | 72 | 27 | 53 |
Year wise citations received |
54 | 63 | 88 | 70 | 62 |
| Journal total citations count | 710 |
| Journal impact factor | 1.05 |
| Journal 5 years impact factor | 1.27 |
| Journal cite score | 1.34 |
| Journal h-index | 14 |
| Journal h-index since 2018 | 9 |
Important citations (1711)
Watson mc, cherry-kemmerling em, black ld. cell-matrix interactions in cardiac development and disease. inmulti-scale extracellular matrix mechanics and mechanobiology 2020 (pp. 311-342). springer, cham. |
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Hennigan rf, fletcher js, guard s, ratner n. proximity biotinylation identifies a set of conformation-specific interactions between merlin and cell junction proteins. science signaling. 2019 apr 23;12(578). |
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Lee jy, chung j, kim kh, an sh, yi je, kwon ka, kwon k. extracorporeal shock waves protect cardiomyocytes from doxorubicin-induced cardiomyopathy by upregulating survivin via the integrin-ilk-akt-sp1/p53 axis. scientific reports. 2019 aug 21;9(1):1-5. |
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Guilbeau-frugier c, cauquil m, karsenty c, lairez o, dambrin c, payré b, cassard h, josse c, seguelas mh, allart s, branchereau m. structural evidence for a new elaborate 3d-organization of the cardiomyocyte lateral membrane in adult mammalian cardiac tissues. cardiovascular research. 2019 may 1;115(6):1078-91. |
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Okada m, imoto k, sugiyama a, yasuda j, yamawaki h. new insights into the role of basement membrane-derived matricryptins in the heart. biological and pharmaceutical bulletin. 2017 dec 1;40(12):2050-60. |
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Dowrick jm, tran k, loiselle ds, nielsen pm, taberner aj, han jc, ward ml. the slow force response to stretch: controversy and contradictions. acta physiologica. 2019 may;226(1):e13250. |
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Kristen m, ainsworth mj, chirico n, van der ven cf, doevendans pa, sluijter jp, malda j, van mil a, castilho m. fiber scaffold patterning for mending hearts: 3d organization bringing the next step. advanced healthcare materials. 2020 jan;9(1):1900775. |
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Zeile c, rauwolf t, schmeisser a, mizerski jk, braun-dullaeus rc, sager s. an intra-cycle optimal control framework for ventricular assist devices based on atrioventricular plane displacement modeling. annals of biomedical engineering. 2021 sep 21:1-6. |
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Kelly ns, mccree d, fresiello l, brynedal ignell n, cookson an, najar a, perkins il, fraser kh. video?based valve motion combined with computational fluid dynamics gives stable and accurate simulations of blood flow in the realheart total artificial heart. artificial organs. 2021 sep 20. |
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Zankov dp, shimizu a, tanaka-okamoto m, miyoshi j, ogita h. protective effects of intercalated disk protein afadin on chronic pressure overload-induced myocardial damage. scientific reports. 2017 jan 3;7(1):1-5. |
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Zeile cu. combinatorial integral decompositions for mixed-integer optimal control. |
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Zeile c, rauwolf t, schmeisser a, mizerski jk, braun-dullaeus rc, sager s. a personalized switched systems approach for the optimal control of ventricular assist devices based on atrioventricular plane displacement. biorxiv. 2020 jan 1. |
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Sonntag sj, meyns b, ahn hc, pahlm f, hellers g, najar a, pieper il. virtual implantations to transition from porcine to bovine animal models for a total artificial heart. artificial organs. 2020 apr;44(4):384-93. |
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Pieper il, sonntag sj, meyns b, hadi h, najar a. evaluation of the novel total artificial heart realheart in a pilot human fitting study. artificial organs. 2020 feb;44(2):174-7. |
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Bartoli cr, dowling rd. the next wave of mechanical circulatory support devices. cardiac interventions today. 2019;13(1):53-9. |
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Wong ty, juang wc, tsai ct, tseng cj, lee wh, chang sn, cheng pw. mechanical stretching simulates cardiac physiology and pathology through mechanosensor piezo1. journal of clinical medicine. 2018 nov;7(11):410. |
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Haque zk, wang dz. how cardiomyocytes sense pathophysiological stresses for cardiac remodeling. cellular and molecular life sciences. 2017 mar;74(6):983-1000. |
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Sang hq, jiang zm, zhao qp, xin f. microrna-133a improves the cardiac function and fibrosis through inhibiting akt in heart failure rats. biomedicine & pharmacotherapy. 2015 apr 1;71:185-9. |
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Frisk m, ruud m, espe ek, aronsen jm, røe Åt, zhang l, norseng pa, sejersted om, christensen ga, sjaastad i, louch we. elevated ventricular wall stress disrupts cardiomyocyte t-tubule structure and calcium homeostasis. cardiovascular research. 2016 oct 1;112(1):443-51. |
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Wang j, gareri c, rockman ha. g-protein–coupled receptors in heart disease. circulation research. 2018 aug 31;123(6):716-35. |
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