Anastasia Ripolin scite author profile

Lignin is the second most abundant biopolymer on the planet. It is a biocompatible, cheap, environmentally friendly and readily accessible material. It has been reported that these biomacromolecules have antimicrobial activities. Consequently, lignin (LIG) has the potential to be used for biomedical applications. In the present work, a simple method to prepare lignin-based hydrogels is described. The hydrogels were prepared by combining LIG with poly(ethylene glycol) and poly(methyl vinyl ether-co-maleic acid) through an esterification reaction. The synthesis took place in the solid state and can be accelerated significantly (24 vs 1 h) by the use of microwave (MW) radiation. The prepared hydrogels were characterized by evaluation of their swelling capacities and with the use of infrared spectroscopy/solid-state nuclear magnetic resonance. The prepared hydrogels showed LIG contents ranging between 40% and 24% and water uptake capabilities up to 500%. Furthermore, the hydrophobic nature of LIG facilitated loading of a model hydrophobic drug (curcumin). The hydrogels were capable of sustaining the delivery of this compound for up to 4 days. Finally, the materials demonstrated logarithmic reductions in adherence of Staphylococcus aureus and Proteus mirabilis of up to 5.0 relative to the commonly employed medical material poly(vinyl chloride) (PVC).

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Directly Compressed Tablets: A Novel Drug‐Containing Reservoir Combined with Hydrogel‐Forming Microneedle Arrays for Transdermal Drug Delivery

McAlister¹,

Dutton²,

Vora³

et al. 2020

Adv Healthcare Materials

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Microneedle (MN) patches consist of a hydrogel-forming MN array and a drug-containing reservoir. Drug-containing reservoirs documented in the literature include polymeric films and lyophilized wafers. While effective, both reservoir formulations are aqueous based, and so degradation can occur during formulation and drying for drugs inherently unstable in aqueous media. The preparation and characterization of novel, nonaqueous-based, directly compressed tablets (DCTs) for use in combination with hydrogel-forming MN arrays are described for the first time. In this work, a range of drug molecules are investigated. Precipitation of amoxicillin (AMX) and primaquine (PQ) in conventional hydrogel-forming MN arrays leads to use of poly(vinyl alcohol)-based MN arrays. Following in vitro permeation studies, in vivo pharmacokinetic studies are conducted in rats with MN patches containing AMX, levodopa/carbidopa (LD/CD), and levofloxacin (LVX). Therapeutically relevant concentrations of AMX (≥2 µg mL −1), LD (≥0.5 µg mL −1), and LVX (≥0.2 µg mL −1) are successfully achieved at 1, 2, and 1 h, respectively. Thus, the use of DCTs offers promise to expand the range of drug molecules that can be delivered transdermally using MN patches.

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Development and characterization of a dry reservoir-hydrogel-forming microneedles composite for minimally invasive delivery of cefazolin

Sabri

Anjani

Utomo

et al. 2022

International Journal of Pharmaceutics

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Microneedle Arrays: Directly Compressed Tablets: A Novel Drug‐Containing Reservoir Combined with Hydrogel‐Forming Microneedle Arrays for Transdermal Drug Delivery (Adv. Healthcare Mater. 3/2021)

McAlister¹,

Dutton²,

Vora³

et al. 2021

Adv Healthcare Materials

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A microneedle (MN) patch consists of a hydrogel‐forming MN array and a drug‐containing reservoir. Upon insertion into the skin, these MN patches rapidly imbibe skin interstitial fluid and swell. In article number 2001256 by Ryan F. Donnelly and co‐workers, continuous, unblockable, hydrogel conduits are formed through which drugs can reach the dermal microcirculation. This cover design represents the work conducted with these novel MN patches.

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