Shalini Muthusamy
Overview
Explore the profile of Shalini Muthusamy including associated specialties, affiliations and a list of published articles.
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Articles
9
Citations
88
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0
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Recent Articles
1.
Akilandeswari G, Varshashankari V, Muthusamy S, Aarthy M, Thamizhvani K, Mercyjayapriya J, et al.
J Biomed Mater Res A
. 2024 Mar;
112(10):1632-1645.
PMID: 38553971
Bacterial collagen, produced via recombinant DNA methods, offers advantages including consistent purity, customizable properties, and reduced allergy potential compared to animal-derived collagen. Its controlled production environment enables tailored features, making...
2.
Elangovan S, Muthu Kumar S, Sindhu V, Mahendiran B, Muthusamy S, Krishnakumar G
Int J Biol Macromol
. 2023 Aug;
251:126397.
PMID: 37597640
The study deals with the isolation, purification and characterization of galactomannan from the endosperm of Borassus labellifer (Linn.) to be used for biomaterial fabrication in tissue engineering (TE) applications. The...
3.
Mahendiran B, Muthusamy S, Sampath S, Jaisankar S, Selvakumar R, Krishnakumar G
Int J Biol Macromol
. 2022 Jul;
217:522-535.
PMID: 35841966
This study describes the fabrication of cellulose scaffold (CS) and cellulose-chitosan (CS/CHI) scaffolds from the immature endosperm of Borassus flabellifer (Linn.) (BF) loaded with platelet rich plasma (PRP). Thus, developed...
4.
Mahendiran B, Muthusamy S, Janani G, Mandal B, Rajendran S, Krishnakumar G
ACS Biomater Sci Eng
. 2022 Apr;
8(5):2000-2015.
PMID: 35452211
The utility of plant tissues as scaffolding materials has been gaining significant interest in recent years owing to their unique material characteristics that are ideal for tissue regeneration. In this...
5.
P B S, S G, J P, Muthusamy S, R N, Krishnakumar G, et al.
Int J Biol Macromol
. 2021 Dec;
195:179-189.
PMID: 34863969
The development of technologies that could ease the production of customizable patient-specific tissue engineering constructs having required biomechanical properties and restoring function in damaged tissue is the need of the...
6.
Mahendiran B, Muthusamy S, Selvakumar R, Rajeswaran N, Sampath S, Jaisankar S, et al.
Carbohydr Polym
. 2021 Aug;
272:118494.
PMID: 34420749
In this study, Borassus flabellifer (Linn.) (BF) immature endosperm was decellularized to produce three dimensional (3D) cellulose scaffolds that can support mammalian 3D cell culture. To this regard, we first...
7.
Muthusamy S, Mahendiran B, Sampath S, Jaisankar S, Anandasadagopan S, Krishnakumar G
Mater Sci Eng C Mater Biol Appl
. 2021 Jun;
126:112149.
PMID: 34082960
Hydroxyapatite (HAP) nanopowders with different manganese (Mn) and selenium (Se) contents with Mn/Ca and Se/P molar ratio of 1 mol%, 2.5 mol% and 5 mol% were synthesized by wet-co-chemical precipitation...
8.
Mahendiran B, Muthusamy S, Sampath S, Jaisankar S, Popat K, Selvakumar R, et al.
Int J Biol Macromol
. 2021 May;
183:564-588.
PMID: 33933542
Biofabrication by three-dimensional (3D) printing has been an attractive technology in harnessing the possibility to print anatomical shaped native tissues with controlled architecture and resolution. 3D printing offers the possibility...
9.
Krishnakumar G, Sampath S, Muthusamy S, John M
Mater Sci Eng C Mater Biol Appl
. 2019 Jan;
96:941-954.
PMID: 30606606
Biomaterials are of significant importance in biomedical applications as these biological macromolecules have moderately replaced classical tissue grafting techniques owing to its beneficial properties. Despite of its favourable advantages, poor...