Browsing by Author "Peer Mohamed Abdul"
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Publication Nanocellulose-based Biomaterial Ink Hydrogel For Uptake/release Of Bovine Serum Albumin(MDPI, 2023) ;Wan Nazihah Liyana Wan Jusoh ;Denesh Mohan ;Mohd Shaiful Sajab ;Peer Mohamed Abdul ;Hatika Kaco ;Gongtao DinRubiyah BainiThis study explores the potential of using nanocellulose extracted from oil palm empty fruit bunch (OPEFB) as a biomaterial ink for 3D printing. The research focuses on using nanocellulose hydrogels for the controlled uptake and release of proteins, with the specific protein solution being Bovine Serum Albumin (BSA). To provide a suitable material for the bioprinting process, the study examines the characteristics and properties of the printed hydrogels through various analyses, such as morphology, functional group, crystallinity, and compression test. Several parameters, such as initial concentration, temperature, and the presence of calcium chloride as an additional crosslinker, affect the protein uptake and release capabilities of the hydrogel. The study is important for biomedicine as it explores the behavior of protein uptake and release using nanocellulose and 3D printing and can serve as a preliminary study for using hydrogels in biological materials or living cells. - Some of the metrics are blocked by yourconsent settings
Publication Recent Advances In 3d Bioprinting: A Review Of \r\nCellulose-based Biomaterials Ink(MDPI, 2022) ;Wan Nazihah Liyana Wan Jusoh ;Mohd Shaiful Sajab ;Peer Mohamed AbdulHatika KacoCellulose-based biodegradable hydrogel proves to be excellently suitable for the medical and water treatment industry based on the expressed properties such as its flexible structure and broad compatibility. Moreover, their potential to provide excellent waste management from the unutilized plant has triggered further study on the advanced biomaterial applications. To extend the use of cellulose-based hydrogel, additive manufacturing is a suitable technique for hydrogel fabrication in complex designs. Cellulose-based biomaterial ink used in 3D bioprinting can be further used for tissue engineering, drug delivery, protein study, microalgae, bacteria, and cell immobilization. This review includes a discussion on the techniques available for additive manufacturing, bio-based material, and the formation of a cellulose-based hydrogel.