A Biodegradable, Flexible Photonic Patch for in Vivo Phototherapy

Overview

Journal Nat Commun

Specialty Biology

Date 2023 May 27

PMID 37244895

Authors

Kaicheng Deng

Yao Tang

Yan Xiao

Danni Zhong

Hua Zhang

Wen Fang

Liyin Shen

Zhaochuang Wang

Jiazhen Pan

Yuwen Lu

Changming Chen

Yun Gao

Qiao Jin

Lenan Zhuang

Hao Wan

Liujing Zhuang

Ping Wang

Junfeng Zhai

Tanchen Ren

Qiaoling Hu

Meidong Lang

Yue Zhang

Huanan Wang

Min Zhou

Changyou Gao

Lei Zhang

Yang Zhu

Affiliations

Soon will be listed here.

Abstract

Diagnostic and therapeutic illumination on internal organs and tissues with high controllability and adaptability in terms of spectrum, area, depth, and intensity remains a major challenge. Here, we present a flexible, biodegradable photonic device called iCarP with a micrometer scale air gap between a refractive polyester patch and the embedded removable tapered optical fiber. ICarP combines the advantages of light diffraction by the tapered optical fiber, dual refractions in the air gap, and reflection inside the patch to obtain a bulb-like illumination, guiding light towards target tissue. We show that iCarP achieves large area, high intensity, wide spectrum, continuous or pulsatile, deeply penetrating illumination without puncturing the target tissues and demonstrate that it supports phototherapies with different photosensitizers. We find that the photonic device is compatible with thoracoscopy-based minimally invasive implantation onto beating hearts. These initial results show that iCarP could be a safe, precise and widely applicable device suitable for internal organs and tissue illumination and associated diagnosis and therapy.

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