Christophe Egles
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Explore the profile of Christophe Egles including associated specialties, affiliations and a list of published articles.
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48
Citations
637
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Recent Articles
1.
de Lartigue C, Belda Marin C, Fitzpatrick V, Esposito A, Casale S, Landoulsi J, et al.
Int J Mol Sci
. 2024 Nov;
25(22).
PMID: 39596442
Tissue regeneration can be achieved by providing endogenous cells with a biomaterial scaffold that supports their adhesion and proliferation, as well as the synthesis and deposition of an extracellular matrix...
2.
Foley B, Nadaud F, Selmane M, Valentin L, Mezzetti A, Egles C, et al.
Small
. 2024 Sep;
20(47):e2402128.
PMID: 39246187
Biomimetic hydroxyapatites are widely explored for their potential applications in the repair of mineralized tissues, particularly dental enamel, which is acellular and, thus, not naturally reformed after damage. Enamel is...
3.
Stricher M, Vigneron P, Delbecq F, Sarde C, Egles C
Mater Today Bio
. 2024 Mar;
25:101013.
PMID: 38464496
Background: constitutes, in its most simplified form, a cellularized spheroid built around and stabilised by a form of primitive extracellular matrix (ECM). Methods: We developed a modular approach to soft...
4.
Ji S, Stricher M, Nadaud F, Guenin E, Egles C, Delbecq F
Polymers (Basel)
. 2022 Sep;
14(18).
PMID: 36145974
Faced with growing global demand for new potent, bio-based, biocompatible elastomers, the present study reports the solvent-free production of 13 pure and derived poly(glycerol-co-diacid) composite sheets exclusively using itaconic acid,...
5.
Quantin P, Stricher M, Catoire S, Ficheux H, Egles C
Curr Drug Metab
. 2022 May;
23(5):340-354.
PMID: 35585827
Numerous dermal contact products, such as drugs or cosmetics, are applied on the skin, the first protective barrier to their entrance into the organism. These products contain various xenobiotic molecules...
6.
Stricher M, Sarde C, Guenin E, Egles C, Delbecq F
Polymers (Basel)
. 2021 Oct;
13(20).
PMID: 34685357
The biomedical field still requires composite materials for medical devices and tissue engineering model design. As part of the pursuit of non-animal and non-proteic scaffolds, we propose here a cellulose-based...
7.
Belda Marin C, Egles C, Humblot V, Lalatonne Y, Motte L, Landoulsi J, et al.
ACS Biomater Sci Eng
. 2021 May;
7(6):2358-2371.
PMID: 34043329
Silk fibroin (SF) is a versatile material with biodegradable and biocompatible properties, which make it fit for broad biomedical applications. In this context, the incorporation of nanosized objects into SF...
8.
Garcia Garcia A, Hebraud A, Duval J, Wittmer C, Gaut L, Duprez D, et al.
ACS Biomater Sci Eng
. 2021 Jan;
4(9):3317-3326.
PMID: 33435068
The elaboration of biomimetic materials inspired from the specific structure of native bone is one the main goal of tissue engineering approaches. To offer the most appropriate environment for bone...
9.
Belda Marin C, Fitzpatrick V, Kaplan D, Landoulsi J, Guenin E, Egles C
Front Chem
. 2020 Dec;
8:604398.
PMID: 33335889
Silk fibroin (SF) is a natural protein largely used in the textile industry but also in biomedicine, catalysis, and other materials applications. SF is biocompatible, biodegradable, and possesses high tensile...
10.
Gsib O, Eggermont L, Egles C, Bencherif S
Biomater Sci
. 2020 Oct;
8(24):7106-7116.
PMID: 33089849
The success of skin tissue engineering for deep wound healing relies predominantly on the design of innovative and effective biomaterials. This study reports the synthesis and characterization of a new...