- Integration of CiNii Books functions for fiscal year 2025 has completed
- Trial version of CiNii Research Knowledge Graph Search feature is available on CiNii Labs
- 【Updated on November 26, 2025】Regarding the recording of “Research Data” and “Evidence Data”
- Start the collection of all publicly IRDB content
- Incorporate Research Data from KAKEN
Low-Extrusion-Force Injectable Chitosan Gel Microparticles for Effective Wound Dressing in Endoscopic Sinus Surgery
-
- Nagase, Yuji
- Kagoshima University
-
- Yamashita, Yusuke
- University of Miyazaki
-
- Yoshinaga, Takuma
- iCUREX Inc.
-
- Ohzuno, Yoshihiro
- Kagoshima University
-
- Yoshida, Masahiro
- Kagoshima University
-
- Hosoya, Kei
- Nose and Smell Clinic Ikebukuro
-
- Kawabata, Masaki
- Kagoshima University Graduate School of Medical and Dental Sciences
-
- Yamashita, Masaru
- Kagoshima University Graduate School of Medical and Dental Sciences
-
- Matsune, Shoji
- Omori Red Cross Hospital
-
- Takei, Takayuki
- Kagoshima University Graduate School of Medical and Dental Sciences
Bibliographic Information
- Published
- 2026-01-20
- Resource Type
- journal article
- Rights Information
-
- © 2026 by the authors.
- Publisher
- MDPI AG
Description
Chitosan hydrogels are effective wound dressings that promote healing through the synergy of chitosan’s inherent biological properties and the moist environment they maintain. We previously developed hydrogel microparticles using a highly biocompatible chitosan derivative with superior therapeutic effects. This study aimed to enhance their clinical translation for Endoscopic Sinus Surgery (ESS) by optimizing preparation conditions to achieve an extrusion force of <20 N, facilitating ergonomic, single-handed administration by surgeons. While reducing the particle size alone was insufficient to lower the extrusion force significantly, the introduction of a mechanical “kneading” process to de-agglomerate microparticle aggregates resulted in a substantial reduction in the required force from 213 ± 80 N to approximately 47 N. By further optimizing the polymer concentration to 5.0% (w/v), we successfully reduced the maximum extrusion force to below 20 N (17 ± 1 N). These results demonstrate that the optimized injectable chitosan gel microparticles achieve the practical usability required for precise surgical maneuvers during ESS.
Journal
-
- Eng
-
Eng 7 (1), 53-, 2026-01-20
MDPI AG
- Tweet
Keywords
Details 詳細情報について
-
- CRID
- 1050870473746954752
-
- ISSN
- 26734117
-
- HANDLE
- 10458/0002002394
-
- Text Lang
- en
-
- Article Type
- journal article
-
- Data Source
-
- IRDB
