Stain-free LED scanning lifetime imaging system for diabetes modified tissue matrices
Autor: | Luwei Zou, Joe F. Lo, Suhaib Hashem, Rui Liu |
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Rok vydání: | 2019 |
Předmět: |
0301 basic medicine
Time Factors biology Optical Imaging medicine.disease Stain Fluorescence Diabetic Foot Extracellular matrix 03 medical and health sciences chemistry.chemical_compound Autofluorescence 030104 developmental biology Diabetic foot ulcer chemistry Semiconductors Diabetes mellitus biology.protein medicine Collagen Pentosidine Instrumentation Elastin Biomedical engineering |
Zdroj: | The Review of scientific instruments. 89(12) |
ISSN: | 1089-7623 |
Popis: | In contrast to labor intensive and destructive histological techniques, intrinsic autofluorescence lifetimes of extra cellular matrix proteins can provide label-free imaging of tissue modifications in diseases, including the diabetic ulcers. However, decoupling the complex mixture of tissue fluorophores requires costly and complicated fluorescent lifetime instrumentation. Furthermore, a list of autofluorescent and fluorogenic proteins must be characterized to profile their changes during disease progression. Towards these goals, an imaging system based on frequency domain light-emitting diode (LED) modulation was designed and demonstrated, using off-the-shelf components in a low complexity design. The system was operated by coupling and imaging fluorescence intensities using a pair of objectives. The system's scanning and signal acquisition performances were optimized with respect to etendues. To study fluorescent proteins in diabetic ulcers, lifetimes from purified and pentosidine modified collagen I, collagen III, and elastin were measured. Pentosidine measurements showed a decrease in autofluorescent lifetimes while elevated collagen III in diabetic ulcers showed increased lifetimes. These lifetimes, plus future protein measurements enabled by our system, can serve as standards for developing a biophotonic model of diabetic ulcers. As a proof-of-concept, a 3 cm × 3 cm diabetic foot ulcer was imaged using the developed system. Phasor analysis was applied to aid the interpretation of lifetime images. As a result, a compact biophotonic imaging system targeting diabetic tissue was achieved, towards making the technique accessible for clinical histology. |
Databáze: | OpenAIRE |
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