Development of a Local Anesthetic Lidocaine-loaded Redox-active Injectable Gel for Postoperative Pain Management

Publication date: Available online 27 April 2017
Source:Acta Biomaterialia
Author(s): Yukio Nagasaki, Yutaro Mizukoshi, Zhenyu Gao, Chitho P. Feliciano, Kyungho Chang, Hiroshi Sekiyama, Hiroyuki Kimura
Although local anesthesia is commonly applied for pain relief, there are several issues such as its short duration of action and low effectiveness at the areas of inflammation due to the acidic pH. The presence of excessive amount of reactive oxygen species (ROS) is known to induce inflammation and aggravate pain. To resolve these issues, we developed a redox-active injectable gel (RIG) with ROS-scavenging activity. RIG was prepared by mixing polyamine-b-poly(ethylene glycol)-b-polyamine with nitroxide radical moieties as side chains on the polyamine segments (PMNT-b-PEG-b-PMNT) with a polyanion, which formed a flower-type micelle via electrostatic complexation. Lidocaine could be stably incorporated in its core. When the temperature of the solution was increased to 37 °C, the PIC-type flower micelle transformed to gel. The continuous release of lidocaine from the gel was observed for more than three days, without remarkable initial burst, which is probably owing to the stable entrapment of lidocaine in the PIC core of the gel. We evaluated the analgesic effect of RIG in carrageenan-induced arthritis mouse model. Results showed that lidocaine-loaded RIG has stronger and longer analgesic effect when administered in inflamed areas. In contrast, while the use of non-complexed lidocaine did not show analgesic effect one day after its administration. Note that no effect was observed when PIC-type flower micelle without ROS-scavenging ability was used. These findings suggest that local anesthetic-loaded RIG can effectively reduce the number of injection times and limit the side effects associated with the use of anti-inflammatory drugs for postoperative pain management.Statement of SignificanceWe have been working on nanomaterials, which effectively eliminate ROS, avoiding dysfunction of mitochondria in healthy cells. We designed redox injectable gel using polyion complexed flower type micelle, which can eliminates ROS locally. We could prepare local anesthesia-loaded trdox injectable gel (lido@RIG). Drug release could be extended by local administration of lido@RIG. Deprotonation of lidocaine improved anesthetic effect because ROS were eliminated locally by RIG. Local inflammation could be also suppressed by lido@RIG.

Graphical abstract

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