Journal of Clinical and Cellular Immunology : Citations & Metrics Report
Articles published in Journal of Clinical and Cellular Immunology have been cited by esteemed scholars and scientists all around the world. Journal of Clinical and Cellular Immunology has got h-index 42, which means every article in Journal of Clinical and Cellular Immunology has got 42 average citations.
Following are the list of articles that have cited the articles published in Journal of Clinical and Cellular Immunology.
| 2024 | 2023 | 2022 | 2021 | 2020 | 2019 | 2018 | 2017 | 2016 | 2015 | 2014 | 2013 | 2012 | 2011 | 2010 | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Total published articles |
30 | 31 | 30 | 59 | 28 | 11 | 35 | 56 | 95 | 105 | 101 | 105 | 64 | 15 | 3 |
Research, Review articles and Editorials |
2 | 13 | 8 | 23 | 18 | 8 | 25 | 35 | 54 | 86 | 79 | 35 | 23 | 14 | 3 |
Research communications, Review communications, Editorial communications, Case reports and Commentary |
20 | 18 | 22 | 22 | 10 | 3 | 10 | 21 | 39 | 6 | 9 | 7 | 1 | 1 | 0 |
Conference proceedings |
0 | 16 | 15 | 6 | 0 | 98 | 178 | 206 | 171 | 160 | 195 | 156 | 74 | 0 | 0 |
Citations received as per Google Scholar, other indexing platforms and portals |
653 | 826 | 931 | 1079 | 1018 | 971 | 871 | 851 | 753 | 550 | 276 | 145 | 43 | 40 | 0 |
| Journal total citations count | 8361 |
| Journal impact factor | 24.12 |
| Journal 5 years impact factor | 31.14 |
| Journal cite score | 30.45 |
| Journal h-index | 42 |
| Journal h-index since 2019 | 32 |
Important citations (1511)
dardik r, livnat t, halpert g, jawad s, nisgav y, et al. (2016) the small tellurium-based compound sas suppresses inflammation in human retinal pigment epithelium. molecular vision 22: 548. |
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Goudarzvand m, afraei s, yaslianifard s, ghiasy s, sadri g, et al. (2016) hydroxycitric acid ameliorates inflammation and oxidative stress in mouse models of multiple sclerosis. neural regeneration research. 11:1610. |
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Chakravarthy h. the role of altered sphingolipid metabolism in the development of diabetic retinopathy (doctoral dissertation, michigan state university). |
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Vieira-potter vj, karamichos d, lee dj (2016) ocular complications of diabetes and therapeutic approaches. biomed research international 2016. |
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Guzyk mm, tykhomyrov aa, nedzvetsky vs, prischepa iv, grinenko tv, et al. (2016) poly (adp-ribose) polymerase-1 (parp-1) inhibitors reduce reactive gliosis and improve angiostatin levels in retina of diabetic rats. neurochemical research 41: 2526-2537. |
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Qiu aw, bian z, mao pa, liu qh. il-17a exacerbates diabetic retinopathy by impairing müller cell function via act1 signaling. experimental & molecular medicine. 2016 dec 1;48(12):e280. |
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Chen xl, bai yj, hu qr, huang lz, li xx (2016) advanced glycation end products induced the epithelial-mesenchymal transition in retinal pigment epithelial cells via erk activation. international journal of clinical and experimental pathology 9: 4891-4900. |
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Ortiz gg, flores-alvarado lj, pacheco-moisés fp, mireles-ramÃrez ma, gonzález-renovato ed, et al. cross-talk between glial cells and neurons: relationship in multiple sclerosis. |
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pahan k (2013). multiple sclerosis and experimental allergic encephalomyelitis. journal of clinical & cellular immunology 23: 4. |
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Murugeswari p, shukla d, kim r, namperumalsamy p, stitt aw. angiogenic potential of vitreous from proliferative diabetic retinopathy and. |
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PriÅ¡Äáková p, minárik g, repiská v (2016) candidate gene studies of diabetic retinopathy in human. molecular biology reports 1-9. |
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Daruich-matet a, matet a, behar-cohen f (2017) mechanisms of macular edema. incystoid macular edema 7-25. |
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Bretz ca. the role of nfat family transcription factors in diabetic retinopathy (doctoral dissertation, vanderbilt university). |
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Cohort pn (2015) hhs public access. mol psychiatry 20: 454-8. |
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Csősz É, deák e, kalló g, csutak a, tőzsér j (2017) diabetic retinopathy: proteomic approaches to help the differential diagnosis and to understand the underlying molecular mechanisms. journal of proteomics 150: 351-358. |
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Gao x, ma k, lu n, xu y, hong t, et al. (2015) elevated lrp6 levels correlate with vascular endothelial growth factor in the vitreous of proliferative diabetic retinopathy. molecular vision 21: 665. |
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jana m, dasgupta s, ghorpade a, pahan k (2008) astrocytes, oligodendrocytes, and schwann cells. inneuroimmune pharmacology springer us 69-88. |
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Chiefari e, ventura v, capula c, randazzo g, scorcia v, et al. (2016) a polymorphism of hmga1 protects against proliferative diabetic retinopathy by impairing hmga1-induced vegfa expression. scientific reports 6. |
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Sorrentino fs, allkabes m, salsini g, bonifazzi c, perri p (2016) the importance of glial cells in the homeostasis of the retinal microenvironment and their pivotal role in the course of diabetic retinopathy. life sciences 162: 54-59. |
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Gupta sr, hamam r, lanzetta p (2016) j chhablani1, p bansal2, d veritti3, s sambhana1, v sarao3, f pichi4, p carrai4, d massaro4, a lembo4, am mansour5, 6, 7, a banker8. eye 30: 426-430. |
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