Marie Lecoeur scite author profile

tothermally triggered on-demand insulin release from reduced graphene oxide modified hydrogels. Journal of Controlled Release, Elsevier, 2017Elsevier, , 246, pp.164-173. 10.1016Elsevier, /j.jconrel.2016 Abstract.On-demand delivery of therapeutics plays an essential role in simplifying and improving patient care. The high loading capacity of reduced graphene oxide (rGO) for drugs has made this matrix of particular interest for its hybridization with therapeutics. In this work, we describe the formulation of rGO impregnated poly(ethylene glycol) dimethacrylate based hydrogels (PEGDMA-rGO) and their efficient loading with insulin. Near-infrared (NIR) light induced heating of the PEGDMA-rGO hydrogels allows for highly efficient insulin release. Most importantly, we validate that the NIR irradiation of the hydrogel has no effect on the biological and metabolic activities of the released insulin. The ease of insulin loading/reloading makes this photothermally triggered release strategy of interest for diabetic patients. Additionally, the rGO-based protein releasing platform fabricated here can be expanded towards 'on demand' release of various other therapeutically relevant biomolecules. The table of contents entry: Poly(ethylene glycol) based hydrogels impregnated with rGO allow efficient loading and 'on demand' photothermal release of insulin while preserving its biological and metabolic activity.

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Transdermal skin patch based on reduced graphene oxide: A new approach for photothermal triggered permeation of ondansetron across porcine skin

Teodorescu

Quéniat

Foulon

et al. 2017

Journal of Controlled Release

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The development of a skin-mounted patch capable of controlled transcutaneous delivery of therapeutics through thermal activation provides a unique solution for the controlled release of active principles over long-term periods. Here, we report on a flexible transdermal patch for photothermal triggered release of ondansetron (ODS), a commonly used drug for the treatment of chemotherapy-induced nausea and vomiting and used as model compound here. To achieve this, a dispersion of ODS-loaded reduced graphene oxide (rGO-ODS) nanosheets were deposited onto Kapton to produce a flexible polyimide-based patch. It is demonstrated that ODS loaded Kapton/rGO patches have a high drug delivery performance upon irradiation with a continuous laser beam at 980nm for 10min due to an induced photothermal heating effect. The ability of ODS impregnated Kapton/rGO patches as transdermal delivery scaffolds for ODS across the skin is in addition investigated using porcine ear skin as a model. We show that the cumulative quantity and flux of ODS passing the skin are highly depending on the laser power density used. At 5Wcm irradiation, the ODS flux across pig skin was determined to be 1.6μgcmh comparable to other approaches. The use of tween 20 as skin enhancer could significantly increase the ODS flux to 13.2μgcmh. While the skin penetration enhancement is comparable to that obtained using other well-known permeation enhancers, the actual superiority and interest of the proposed approach is that the Kapton/rGO photoactivatable skin patch can be loaded with any drugs and therapeutics of interest, making the approach extremely versatile. The on demand delivery of drugs upon local laser irradiation and the possibility to reload the interface with the drug makes this new drug administration route very appealing.

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Separation and quantitation of milk whey proteins of close isoelectric points by on-line capillary isoelectric focusing—Electrospray ionization mass spectrometry in glycerol–water media

Lecoeur

Gareil

Varenne

2010

Journal of Chromatography A

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Marie Lecoeur

Analytical methods for the determination of DEHP plasticizer alternatives present in medical devices: A review

Photothermally triggered on-demand insulin release from reduced graphene oxide modified hydrogels

Transdermal skin patch based on reduced graphene oxide: A new approach for photothermal triggered permeation of ondansetron across porcine skin

Separation and quantitation of milk whey proteins of close isoelectric points by on-line capillary isoelectric focusing—Electrospray ionization mass spectrometry in glycerol–water media

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