Please use this identifier to cite or link to this item: http://archive.cmb.ac.lk:8080/xmlui/handle/70130/6060
Title: Cellulose Supported Magnetic Nanohybrids: Synthesis, Physicomagnetic Properties and Biomedical Applications-A Review
Authors: Mohamed Abdul Cader Mohamed Haniffa
Khadija Munawar
Ching Yern Chee
Sumit Pramanik
Ahmed Halilu
Hazlee Azil Illias
Muhammad Rizwan
Senthilnithy, Rajendram
Mahanama, K.R.R
Tripathy, Ashis
Mohd Fahmi Azman
Keywords: Cancer therapy
Drug delivery
Enzyme immobilization
Folate-conjugate
MRI
Magneto-responsive cellulose
Issue Date: 2021
Publisher: Elsevier
Citation: Mohamed Abdul Cader Mohamed Haniffa, Khadija Munawar, Ching Yern Chee, Sumit Pramanik, Ahmed Halilu, Hazlee Azil Illias, Muhammad Rizwan, Rajendram Senthilnithy, Kariyawasam Ranaweerage Ranjith Mahanama, Ashis Tripathy, Mohd Fahmi Azman, Cellulose supported magnetic nanohybrids: Synthesis, physicomagnetic properties and biomedical applications-A review, Carbohydrate Polymers, Volume 267, 2021, 118136, ISSN 0144-8617, https://doi.org/10.1016/j.carbpol.2021.118136. (https://www.sciencedirect.com/science/article/pii/S0144861721005233) Abstract: Cellulose and its forms are widely used in biomedical applications due to their biocompatibility, biodegradability and lack of cytotoxicity. It provides ample opportunities for the functionalization of supported magnetic nanohybrids (CSMNs). Because of the abundance of surface hydroxyl groups, they are surface tunable in either homogeneous or heterogeneous solvents and thus act as a substrate or template for the CSMNs' development. The present review emphasizes on the synthesis of various CSMNs, their physicomagnetic properties, and potential applications such as stimuli-responsive drug delivery systems, MRI, enzyme encapsulation, nucleic acid extraction, wound healing and tissue engineering. The impact of CSMNs on cytotoxicity, magnetic hyperthermia, and folate-conjugates is highlighted in particular, based on their structures, cell viability, and stability. Finally, the review also discussed the challenges and prospects of CSMNs' development. This review is expected to provide CSMNs' development roadmap in the context of 21st-century demands for biomedical therapeutics. Keywords: Magneto-responsive cellulose; Cancer therapy; Drug delivery; MRI; Enzyme immobilization; Folate-conjugate
Abstract: Cellulose and its forms are widely used in biomedical applications due to their biocompatibility, biodegradability and lack of cytotoxicity. It provides ample opportunities for the functionalization of supported magnetic nanohybrids (CSMNs). Because of the abundance of surface hydroxyl groups, they are surface tunable in either homogeneous or heterogeneous solvents and thus act as a substrate or template for the CSMNs' development. The present review emphasizes on the synthesis of various CSMNs, their physicomagnetic properties, and potential applications such as stimuli-responsive drug delivery systems, MRI, enzyme encapsulation, nucleic acid extraction, wound healing and tissue engineering. The impact of CSMNs on cytotoxicity, magnetic hyperthermia, and folate-conjugates is highlighted in particular, based on their structures, cell viability, and stability. Finally, the review also discussed the challenges and prospects of CSMNs' development. This review is expected to provide CSMNs' development roadmap in the context of 21st-century demands for biomedical therapeutics.
URI: https://pubmed.ncbi.nlm.nih.gov/34119125/
http://archive.cmb.ac.lk:8080/xmlui/handle/70130/6060
Appears in Collections:Department of Chemistry



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