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Authors
Elendu, ChukwukaAmaechi, Dependable C.
Elendu, Tochi C.
Amaechi, Emmanuel C.
Elendu, Ijeoma D.
Omeludike, Janet C.
Omeludike, Eunice K.
Onubogu, Nwamaka C.
Ogelle, Emmanuel C.
Meduoye, Oluwatobi O. M.
Oloyede, Praise O.
Ezeh, Chiamaka P.
Esangbedo, Ikpembhosa J.
Adigwe, Augustina C.
Akuma, Nnachi M.
Okafor, Silas U.
Affiliation
Federal University Teaching Hospital, Nigeria; Igbinedion University; Imo State University; Madonna University; University of Chester; University of Portharcourt; Abia State University; Blessed Specialist Hospital, Nigeria; Glasgow Caledonian University; St. Nicholas Hospital, Nigeria; University College hospital, Nigeria; Zaporizhzhia State Medical UniversityPublication Date
2024-12-19
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Cardiology, as a medical specialty, addresses cardiovascular diseases (CVDs), a leading cause of global mortality. Nanomaterials offer transformative potential across key areas such as drug delivery, stem cell therapy, imaging, and gene delivery. Nanomaterials improve solubility, bioavailability, and targeted delivery in drug delivery, reducing systemic side effects. Examples include gas microbubbles, liposomal preparations, and paramagnetic nanoparticles, which show promise in treating atherosclerosis. Stem cell therapy benefits from nanotechnology through enhanced cell culture conditions and three-dimensional scaffolds that support cardiomyocyte growth and survival. Gold nanoparticles and PLGA-derived microparticles further improve stem cell viability. In imaging, nanomaterials enable advanced visualization techniques such as magnetic resonance imaging (MRI) with direct labeling and optical tracking via dye-conjugated nanoparticles. In gene delivery, polymeric nanocarriers like polyethyleneimine, dendrimers, and graphene-based materials offer efficient, non-viral alternatives, with magnetic nanoparticles showing promise in targeted applications. Ongoing research highlights the potential of nanomaterials to revolutionize CVD management by improving therapeutic outcomes and enabling precision medicine. These advancements position nanotechnology as a cornerstone of modern cardiology.Citation
Elendu, C., Amaechi, D. C., Elendu, T. C., Amaechi, E. C., Elendu, I. D., Omeludike, J. C., Omeludike, E. K., Onubogu, N. C., Ogelle, E. C., Meduoye, O. O.M., Oloyede, P. O., Ezeh, C. P., Esangbedo, I. J., Adigwe, A. C., Akuma, N. M., & Okafor, S. U. (2025). Essential information about nanotechnology in cardiology. Annals of Medicine & Surgery, vol(issue), pages. https://doi.org/10.1097/MS9.0000000000002867Publisher
Wolters Kluwer HealthJournal
Annals of Medicine & SurgeryAdditional Links
https://journals.lww.com/annals-of-medicine-and-surgery/abstract/9900/essential_information_about_nanotechnology_in.2439.aspxType
ArticleDescription
Copyright © 2024 The Author(s). Published by Wolters Kluwer Health, Inc.ISSN
2049-0801Sponsors
Unfundedae974a485f413a2113503eed53cd6c53
10.1097/MS9.0000000000002867
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Except where otherwise noted, this item's license is described as https://creativecommons.org/licenses/by-nc-nd/4.0/