Impact Evaluations of Articles in Current Drug Delivery based on Web of
Science

Deng-Guang      Yu; Lin      Xu

doi:10.2174/1567201820666230508115356

Abstract

A total of 1534 and 308 articles were published in the journal Current Drug Delivery (CDD), from 2004 and 2019 to 2021, respectively. In this commentary, their impacts were analyzed based on search data about citation times in the Web of Science. These publications were categorized from different standpoints and evaluated in terms of their citations, particularly in the year 2021. The thematic, contemporary, and local features of these articles, as well as the article types and publication formats, were interpreted. Results demonstrated that CDD should be loyal to the contents about drug delivery, particularly nano-drug delivery systems and nano-pharmaceutical technologies. Publications from the developing and developed countries and regions showed no remarkable differences; therefore, submissions are similarly welcomed. Research articles and review articles are the main stream of CDD. The ratio of review papers is about 30%, which is reasonable but should not be further extended. Moreover, open publications with an article processing charge always have a high impact than those with subscription.

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Graphical Abstract

[1]
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Ge, R.; Ji, Y.; Ding, Y.; Huang, C.; He, H.; Yu, D.G. Electrospun self-emulsifying core-shell nanofibers for effective delivery of paclitaxel. Front. Bioeng. Biotechnol.,  2023, 11, 1112338.
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Brimo, N. Serdaroğlu, D.Ç.; Uyar, T.; Uysal, B.; Çakıcı E.B.; Dikmen, M.; Canturk, Z. Novel electrospun polymeric nanofibers loaded different medicaments as drug delivery systems for regenerative endodontics. Curr. Drug Deliv.,  2022, 19
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Yu, D.G.; Zhao, P. The key elements for biomolecules to biomaterials and to bioapplications. Biomolecules,  2022, 12(9), 1234.
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[15]
Chen, W.; Zhao, P.; Yang, Y.; Yu, D.G. Electrospun beads-on-the-string nanoproducts: Preparation and drug delivery application. Curr. Drug Deliv.,  2022, 19.
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Al-hashimi, N.; Babenko, M.; Saaed, M.; Kargar, N.; ElShaer, A. The impact of natural and synthetic polymers in formulating micro and nanoparticles for anti-diabetic drugs. Curr. Drug Deliv.,  2021, 18(3), 271-288.
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[17]
Huang, X.; Jiang, W.; Zhou, J.; Yu, D.G.; Liu, H. The applications of ferulic-acid-loaded fibrous films for fruit preservation. Polymers,  2022, 14(22), 4947.
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[18]
Wang, Y.; Yu, D.G.; Liu, Y.; Liu, Y.N. Progress of electrospun nanofibrous carriers for modifications to drug release profiles. J. Funct. Biomater.,  2022, 13(4), 289.
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[19]
Zhou, Y.; Wang, M.; Yan, C.; Liu, H.; Yu, D.G. Advances in the application of electrospun drug-loaded nanofibers in the treatment of oral ulcers. Biomolecules,  2022, 12(9), 1254.
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[20]
Torres-Martinez, E.J.; Cornejo Bravo, J.M.; Serrano Medina, A.; Pérez González, G.L.; Villarreal Gómez, L.J. A Summary of electrospun nanofibers as drug delivery system: Drugs loaded and biopolymers used as matrices. Curr. Drug Deliv.,  2018, 15(10), 1360-1374.
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[21]
Modgill, V.; Garg, T.; Goyal, A.; Rath, G. Transmucosal delivery of linagliptin for the treatment of type- 2 diabetes mellitus by ultra-thin nanofibers. Curr. Drug Deliv.,  2015, 12(3), 323-332.
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[22]
Doshi, J.; Reneker, D.H. Electrospinning process and applications of electrospun fibers. J. Electrost.,  1995, 35(2-3), 151-160.
 [http://dx.doi.org/10.1016/0304-3886(95)00041-8]

[23]
Kenawy, E.R.; Bowlin, G.L.; Mansfield, K.; Layman, J.; Simpson, D.G.; Sanders, E.H.; Wnek, G.E. Release of tetracycline hydrochloride from electrospun poly(ethylene-co-vinylacetate), poly(lactic acid), and a blend. J. Control. Release,  2002, 81(1-2), 57-64.
 [http://dx.doi.org/10.1016/S0168-3659(02)00041-X] [PMID:  11992678]

[24]
Aidana, Y.; Wang, Y.; Li, J.; Chang, S.; Wang, K.; Yu, D-G. Fast dissolution electrospun medicated nanofibers for effective delivery of poorly water-soluble drug. Curr. Drug Deliv.,  2022, 19(4), 422-435.
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[25]
Brimo, N. Serdaroğlu, D.Ç.; Uysal, B. Comparing antibiotic pastes with electrospun nanofibers as modern drug delivery systems for regenerative endodontics. Curr. Drug Deliv.,  2021, 18(7), 7.
 [PMID:  34915834]

[26]
Jiang, W.; Zhang, X.; Liu, P.; Zhang, Y.; Song, W.; Yu, D.G.; Lu, X. Electrospun healthcare nanofibers from medicinal liquor of Phellinus igniarius. Adv. Compos. Hybrid Mater.,  2022, 5(4), 3045-3056.
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[27]
Wang, M.; Hou, J.; Yu, D.G.; Li, S.; Zhu, J.; Chen, Z. Electrospun tri-layer nanodepots for sustained release of acyclovir. J. Alloys Compd.,  2020, 846, 156471.
 [http://dx.doi.org/10.1016/j.jallcom.2020.156471]

[28]
Bai, Y.; Liu, Y.; Lv, H.; Shi, H.; Zhou, W.; Liu, Y.; Yu, D.G. Processes of electrospun polyvinylidene fluoride-based nanofibers, their piezoelectric properties, and several fantastic applications. Polymers,  2022, 14(20), 4311.
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[29]
Xu, X.; Lv, H.; Zhang, M.; Wang, M.; Zhou, Y.; Liu, Y.; Yu, D-G. Recent progress in electrospun nanofibers and their applications in heavy metal wastewater treatment. Front. Chem. Sci. Eng.,  2023, 17, 249-275.
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[30]
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DOI https://dx.doi.org/10.2174/1567201820666230508115356	Print ISSN 1567-2018
Publisher Name Bentham Science Publisher	Online ISSN 1875-5704

Current Drug Delivery

Impact Evaluations of Articles in Current Drug Delivery based on Web of Science

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