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Thermal control of photothermal implants inspired by polar bear skin for the treatment of infected bone defects

Mingyue Han, Xinglong Li, Shijie Shi, Ailin Hou, Han Yin, Lizhong Sun, Jianshu Li, Jianshu Li, Jun Luo, Jiyao Li, Jiyao Li, Jiaojiao Yang

2024Materials Horizons11 citationsDOI

Abstract

Photothermal therapy (PTT) encounters challenges in addressing deep tissue infections, characterized by limited penetration or potential hyperthermal damage to surrounding tissues, initiating undesirable inflammatory cascades. Inspired by polar bear thermal regulation, we present a "bio-based endogenic thermal-adaptive booster" implant coating. This coating integrates a photothermal poly(tannic acid) (pTA) layer, mimicking the "polar bear dark skin", securely linked with anti-inflammatory dexamethasone (Dex), resembling the "secretion", and a red blood cell membrane (RBCM) layer, forming the insulating "transparent fur". The RBCM "fur" demonstrates unexpectedly superior local heat storage, amplifying the photothermal effect of the pTA "skin" by 1.30 times and boosting localized photothermal antibacterial efficiency by 1.30-fold (approximately 99%) compared to those without RBCM. Furthermore, RBCM sustains Dex release and offers additional protection against thermal inflammation, releasing Dex 1.90 times more under NIR irradiation than under non-photothermal conditions. In a rat infectious bone model, the photothermal-boosting implant coating provides a favorable biological interface and achieves a 99.97% photothermal antibacterial ratio, enhancing osseointegration without evident tissue harm, evidenced by a 2.47-fold increase in bone volume fraction and a 2.24-fold reduction in pro-inflammatory cytokines compared to those lacking a RBCM. Insights derived from cell membrane-based thermal-adaptive coatings herald a paradigm shift in efficient and safe PTT.

Topics & Concepts

Photothermal therapyMaterials sciencePolarBiomedical engineeringThermalNanotechnologyMedicineGeographyPhysicsAstronomyMeteorologyNanoplatforms for cancer theranosticsSilk-based biomaterials and applicationsPhotoacoustic and Ultrasonic Imaging
Thermal control of photothermal implants inspired by polar bear skin for the treatment of infected bone defects | Litcius