Polymer‐ and Lipid‐Based Nanostructures Serving Wound Healing Applications: A Review DOI
Fatma Nalan Cetin, Arn Mignon, Sandra Van Vlierberghe

et al.

Advanced Healthcare Materials, Journal Year: 2024, Volume and Issue: unknown

Published: Nov. 14, 2024

Abstract Management of hard‐to‐heal wounds often requires specialized care that surpasses the capabilities conventional treatments. Even most advanced commercial products lack functionality to meet needs wounds, especially those complicated by active infection, extreme bleeding, and chronic inflammation. The review explores how supramolecular nanovesicles nanoparticles—such as dendrimers, micelles, polymersomes, lipid‐based nanocarriers—can be key introducing wound healing monitoring properties address complex wounds. Their potential enable functions essential for next‐generation products—such hemostatic functions, transdermal penetration, macrophage polarization, targeted delivery, controlled release pharmaceutical ingredients (antibiotics, gaseous products, anti‐inflammatory drugs, growth factors)—is discussed via an extensive overview recent reports. These studies highlight integration systems in is crucial advancing toward a new generation addressing significant gaps current management practices. Current strategies improvements regarding personalized therapies, promising critically evaluated but underexplored polymer‐based nanovesicles, including polymersomes proteinosomes, healing.

Language: Английский

Polymer‐ and Lipid‐Based Nanostructures Serving Wound Healing Applications: A Review DOI
Fatma Nalan Cetin, Arn Mignon, Sandra Van Vlierberghe

et al.

Advanced Healthcare Materials, Journal Year: 2024, Volume and Issue: unknown

Published: Nov. 14, 2024

Abstract Management of hard‐to‐heal wounds often requires specialized care that surpasses the capabilities conventional treatments. Even most advanced commercial products lack functionality to meet needs wounds, especially those complicated by active infection, extreme bleeding, and chronic inflammation. The review explores how supramolecular nanovesicles nanoparticles—such as dendrimers, micelles, polymersomes, lipid‐based nanocarriers—can be key introducing wound healing monitoring properties address complex wounds. Their potential enable functions essential for next‐generation products—such hemostatic functions, transdermal penetration, macrophage polarization, targeted delivery, controlled release pharmaceutical ingredients (antibiotics, gaseous products, anti‐inflammatory drugs, growth factors)—is discussed via an extensive overview recent reports. These studies highlight integration systems in is crucial advancing toward a new generation addressing significant gaps current management practices. Current strategies improvements regarding personalized therapies, promising critically evaluated but underexplored polymer‐based nanovesicles, including polymersomes proteinosomes, healing.

Language: Английский

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