Detecting Bacteria on Wounds with Hyperspectral Imaging in Fluorescence Mode

Hornberger Christoph.; Herrmann Bert. H.; Daeschlein Georg; Podewils Sebastian von; Sicher Claudia; Kuhn Jana; Masur Kai; Meister Mareike; Wahl Philip

doi:10.1515/cdbme-2020-3067

Current Directions in Biomedical Engineering (Sep 2020)

Detecting Bacteria on Wounds with Hyperspectral Imaging in Fluorescence Mode

Hornberger Christoph.,
Herrmann Bert. H.,
Daeschlein Georg,
Podewils Sebastian von,
Sicher Claudia,
Kuhn Jana,
Masur Kai,
Meister Mareike,
Wahl Philip

Affiliations

Hornberger Christoph.: Hochschule Wismar, University of Applied Sciences, Technology, Business and Design, Faculty of Engineering, Philipp-Müller-Str. 14, 23966Wismar, Germany
Herrmann Bert. H.: Hochschule Wismar, University of Applied Sciences, Technology, Business and Design, Faculty of Engineering,Wismar, Germany
Daeschlein Georg: Department of Dermatology of the University Medicine Greifswald,Greifswald, Germany
Podewils Sebastian von: Department of Dermatology of the University Medicine Greifswald,Greifswald, Germany
Sicher Claudia: Department of Dermatology of the University Medicine Greifswald,Greifswald, Germany
Kuhn Jana: Clinic for Diabetes and Metabolic Diseases, Karlsburg Hospital Dr. Guth GmbH & Co KG, Karlsburg, Germany Leibniz Institute for Plasma Science and Technology,Greifswald, Germany
Masur Kai: Leibniz Institute for Plasma Science and Technology,Greifswald, Germany
Meister Mareike: Leibniz Institute for Plasma Science and Technology,Greifswald, Germany
Wahl Philip: Diaspective Vision GmbH,Pepelow, Germany

DOI: https://doi.org/10.1515/cdbme-2020-3067
Journal volume & issue: Vol. 6, no. 3
pp. 264 – 267

Abstract

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Chronic non-healing wounds represent an increasing problem. In order to enable physicians and nurses to make evidence based decisions on wound treatment, the professional societies call for supporting tools to be offered to physicians. Oxygen supply, bacteria colonization and other parameters influence the healing process. So far, these parameters cannot be monitored in an objective and routinely manner. Existing methods like the microbiological analysis of wound swabs, mean a great deal of effort and partly a long delay. In this paper 42 fluorescence images from 42 patients with diabetic foot ulcer, recorded with a hyperspectral imaging system (TIVITA®), converted for fluorescence imaging, were analysed. Beside the fluorescence images, information about the bacterial colonization is available from microbiological analysis of wound swabs. After preprocessing, principal component analysis, PCA, is used for data analysis with a 405 nm excitation wavelength, the emission wavelength range 510 - 745 nm is used for analysis. After dividing the data into a training and a test dataset it could be shown, that bacteria are detectable in the wound area. A quantification in bacterial colonization counts (BCC) was not in the focus of the research in this study stage.

Published in Current Directions in Biomedical Engineering

ISSN: 2364-5504 (Online)
Publisher: De Gruyter
Country of publisher: Germany
LCC subjects: Medicine
Website: https://www.degruyter.com/view/j/cdbme

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