Advanced Hydrogel Systems for Local Anesthetic Delivery: Toward Prolonged and Targeted Pain Relief DOI Creative Commons

Jin-Oh Jeong,

Min-Joo Kim,

Seonwook Kim

et al.

Gels, Journal Year: 2025, Volume and Issue: 11(2), P. 131 - 131

Published: Feb. 12, 2025

Local anesthetics (LAs) have been indispensable in clinical pain management, yet their limitations, such as short duration of action and systemic toxicity, necessitate improved delivery strategies. Hydrogels, with biocompatibility, tunable properties, ability to modulate drug release, extensively explored platforms for enhancing LA efficacy safety. This narrative review explores the historical development LAs, physicochemical applications, providing a foundation understanding integration hydrogels anesthetic delivery. Advances thermoresponsive, stimuli-responsive, multifunctional demonstrated significant potential prolonging analgesia reducing exposure preclinical studies, while early findings highlight feasibility thermoresponsive hydrogel formulations. Despite these advancements, challenges burst mechanical instability, regulatory considerations remain critical barriers translation. Emerging innovations, including nanocomposite hydrogels, biofunctionalized matrices, smart materials, offer solutions limitations. Future research should focus on optimizing formulations, expanding validation, integrating advanced fabrication technologies 3D printing artificial intelligence-driven design enhance personalized management. By bridging materials science pharmacology, this provides comprehensive perspective current trends future directions hydrogel-based systems.

Language: Английский

Advanced Hydrogel Systems for Local Anesthetic Delivery: Toward Prolonged and Targeted Pain Relief DOI Creative Commons

Jin-Oh Jeong,

Min-Joo Kim,

Seonwook Kim

et al.

Gels, Journal Year: 2025, Volume and Issue: 11(2), P. 131 - 131

Published: Feb. 12, 2025

Local anesthetics (LAs) have been indispensable in clinical pain management, yet their limitations, such as short duration of action and systemic toxicity, necessitate improved delivery strategies. Hydrogels, with biocompatibility, tunable properties, ability to modulate drug release, extensively explored platforms for enhancing LA efficacy safety. This narrative review explores the historical development LAs, physicochemical applications, providing a foundation understanding integration hydrogels anesthetic delivery. Advances thermoresponsive, stimuli-responsive, multifunctional demonstrated significant potential prolonging analgesia reducing exposure preclinical studies, while early findings highlight feasibility thermoresponsive hydrogel formulations. Despite these advancements, challenges burst mechanical instability, regulatory considerations remain critical barriers translation. Emerging innovations, including nanocomposite hydrogels, biofunctionalized matrices, smart materials, offer solutions limitations. Future research should focus on optimizing formulations, expanding validation, integrating advanced fabrication technologies 3D printing artificial intelligence-driven design enhance personalized management. By bridging materials science pharmacology, this provides comprehensive perspective current trends future directions hydrogel-based systems.

Language: Английский

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