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Edible Matrix Code with Photogenic Silk Proteins

Jung Woo Leem, Hee‐Jae Jeon, Yuhyun Ji, Sang Mok Park, Yunsang Kwak, Jongwoo Park, Kee‐Young Kim, Seongwan Kim, Young L. Kim

2022ACS Central Science45 citationsDOIOpen Access PDF

Abstract

Counterfeit medicines are a healthcare security problem, posing not only a direct threat to patient safety and public health but also causing heavy economic losses. Current anticounterfeiting methods are limited due to the toxicity of the constituent materials and the focus of secondary packaging level protections. We introduce an edible, imperceptible, and scalable matrix code of information representation and data storage for pharmaceutical products. This matrix code is digestible as it is composed of silk fibroin genetically encoded with fluorescent proteins produced by ecofriendly, sustainable silkworm farming. Three distinct fluorescence emission colors are incorporated into a multidimensional parameter space with a variable encoding capacity in a format of matrix arrays. This code is smartphone-readable to extract a digitized security key augmented by a deep neural network for overcoming fabrication imperfections and a cryptographic hash function for enhanced security. The biocompatibility, photostability, thermal stability, long-term reliability, and low bit error ratio of the code support the immediate feasibility for dosage-level anticounterfeit measures and authentication features. The edible code affixed to each medicine can serve as serialization, track and trace, and authentication at the dosage level, empowering every patient to play a role in combating illicit pharmaceuticals.

Topics & Concepts

Computer scienceComputer securityCryptographyAuthentication (law)Code (set theory)Encoding (memory)Artificial intelligenceSet (abstract data type)Programming languageSilk-based biomaterials and applicationsBiochemical and Structural CharacterizationAntimicrobial Peptides and Activities
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