Mueller matrix polarimetry for dermatoscopic application

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Original languageEnglish
Number of pages2
JournalDGaO Proceedings
Volume2019
Publication statusPublished - 20 Sept 2019
Event120. Jahrestagung der DGaO - , Germany
Duration: 12 Jun 201915 Jun 2019
Conference number: 120

Abstract

An epiluminescence microscope, the so called dermatoscope, is the standard device for non-invasive skin examination. It is used to generate images for an optical evaluation of skin diseases. The dermatoscope is known for its use in early diagnosis of skin cancer, but it is also employed to obtain a magnified view of skin areas in case of inflammatory skin diseases. To extend the 2D image information which is generated by the camera of a dermatoscope we present experimental skin polarimetry by applying the Mueller matrix (MM) formalism. In order to investigate the diagnostic power of the experimental setup, different skin phantoms were studied to correlate MM information with skin properties such as morphology.

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Mueller matrix polarimetry for dermatoscopic application. / Fricke, Dierk; Jütte, Lennart; Wollweber, Merve et al.
In: DGaO Proceedings, Vol. 2019, 20.09.2019.

Research output: Contribution to journalConference articleResearch

Fricke D, Jütte L, Wollweber M, Roth BW. Mueller matrix polarimetry for dermatoscopic application. DGaO Proceedings. 2019 Sept 20;2019.
Fricke, Dierk ; Jütte, Lennart ; Wollweber, Merve et al. / Mueller matrix polarimetry for dermatoscopic application. In: DGaO Proceedings. 2019 ; Vol. 2019.
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title = "Mueller matrix polarimetry for dermatoscopic application",
abstract = "An epiluminescence microscope, the so called dermatoscope, is the standard device for non-invasive skin examination. It is used to generate images for an optical evaluation of skin diseases. The dermatoscope is known for its use in early diagnosis of skin cancer, but it is also employed to obtain a magnified view of skin areas in case of inflammatory skin diseases. To extend the 2D image information which is generated by the camera of a dermatoscope we present experimental skin polarimetry by applying the Mueller matrix (MM) formalism. In order to investigate the diagnostic power of the experimental setup, different skin phantoms were studied to correlate MM information with skin properties such as morphology.",
author = "Dierk Fricke and Lennart J{\"u}tte and Merve Wollweber and Roth, {Bernhard Wilhelm}",
note = "Funding information: Funded by the Lower Saxony Ministry for Culture and Science (MWK) as part of the program Tailored Light.; 120. Jahrestagung der DGaO ; Conference date: 12-06-2019 Through 15-06-2019",
year = "2019",
month = sep,
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language = "English",
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TY - JOUR

T1 - Mueller matrix polarimetry for dermatoscopic application

AU - Fricke, Dierk

AU - Jütte, Lennart

AU - Wollweber, Merve

AU - Roth, Bernhard Wilhelm

N1 - Conference code: 120

PY - 2019/9/20

Y1 - 2019/9/20

N2 - An epiluminescence microscope, the so called dermatoscope, is the standard device for non-invasive skin examination. It is used to generate images for an optical evaluation of skin diseases. The dermatoscope is known for its use in early diagnosis of skin cancer, but it is also employed to obtain a magnified view of skin areas in case of inflammatory skin diseases. To extend the 2D image information which is generated by the camera of a dermatoscope we present experimental skin polarimetry by applying the Mueller matrix (MM) formalism. In order to investigate the diagnostic power of the experimental setup, different skin phantoms were studied to correlate MM information with skin properties such as morphology.

AB - An epiluminescence microscope, the so called dermatoscope, is the standard device for non-invasive skin examination. It is used to generate images for an optical evaluation of skin diseases. The dermatoscope is known for its use in early diagnosis of skin cancer, but it is also employed to obtain a magnified view of skin areas in case of inflammatory skin diseases. To extend the 2D image information which is generated by the camera of a dermatoscope we present experimental skin polarimetry by applying the Mueller matrix (MM) formalism. In order to investigate the diagnostic power of the experimental setup, different skin phantoms were studied to correlate MM information with skin properties such as morphology.

M3 - Conference article

VL - 2019

JO - DGaO Proceedings

JF - DGaO Proceedings

SN - 1614-8436

T2 - 120. Jahrestagung der DGaO

Y2 - 12 June 2019 through 15 June 2019

ER -

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