罗哌卡因
自愈水凝胶
体内
泊洛沙姆
泊洛沙姆407
生物相容性
麻醉
化学
局部麻醉
医学
药理学
共聚物
生物
生物技术
有机化学
聚合物
作者
Hanmei Li,Qi Tang,Yao Wang,Li Mao,Yannan Wang,Hong Zhu,Fang Geng,Di Wu,Lianxin Peng,Gang Zhao,Liang Zou,Sanjun Shi
标识
DOI:10.1016/j.ijpharm.2021.121291
摘要
Reducing post-surgical pain can promote recovery of mobility, improve patient satisfaction, and reduce the risk of chronic pain syndrome. When managing post-surgical pain, single-injection local anesthesia is more convenient and involves lower risk to the patient than multi-injection regimes, but the effects are not long-lasting. Here we developed a system that can prolong local anesthesia after a single injection. In this system, ropivacaine (Ro) is encapsulated into liposomes, which are then loaded into Poloxamer 407-based thermosensitive hydrogels. The Ro-loaded liposome-in-gel system (Ro-Lip-Gel) is in a sol state before injection, and immediately after subcutaneous injection, it forms a gel in situ. We show through in vitro release and in vivo pharmacokinetics studies that this gel acts as a drug release depot. In rats, the initial burst release of Ro was smaller from Ro-Lip-Gel than from Ro solution or Ro-Gel, and Ro-Lip-Gel caused nerve blockade lasting four times longer than Ro solution. Ro-Lip-Gel degraded in vivo and showed good biocompatibility. Our results suggest that a liposome-in-gel system can show small initial burst release, long-term nerve blockade and good biocompatibility in vitro and in vivo. Therefore, such a system may be useful for sustained local anesthesia without systemic toxicity.
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