Characterization of port wine stain skin erythema and melanin content using cross‐polarized diffuse reflectance imaging

Jung, Byungjo; Choi, Bernard; Durkin, Anthony J.; Kelly, Kristen M.; Nelson, J. Stuart

doi:10.1002/lsm.10242

Cited by 62 publications

(79 citation statements)

References 23 publications

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“…26 Also, in aesthetic evaluations in dermatology and cosmetology, evaluations of each body part (especially the face) as a whole are important. 27 The robustness of this method against fluctuations in the intensity of the light source provide a practical advantage.…”

Section: Discussionmentioning

confidence: 99%

Reduction of shading-derived artifacts in skin chromophore imaging without measurements or assumptions about the shape of the subject

et al. 2014

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Abstract. To quantitatively evaluate skin chromophores over a wide region of curved skin surface, we propose an approach that suppresses the effect of the shading-derived error in the reflectance on the estimation of chromophore concentrations, without sacrificing the accuracy of that estimation. In our method, we use multiple regression analysis, assuming the absorbance spectrum as the response variable and the extinction coefficients of melanin, oxygenated hemoglobin, and deoxygenated hemoglobin as the predictor variables. The concentrations of melanin and total hemoglobin are determined from the multiple regression coefficients using compensation formulae (CF) based on the diffuse reflectance spectra derived from a Monte Carlo simulation. To suppress the shading-derived error, we investigated three different combinations of multiple regression coefficients for the CF. In vivo measurements with the forearm skin demonstrated that the proposed approach can reduce the estimation errors that are due to shading-derived errors in the reflectance. With the best combination of multiple regression coefficients, we estimated that the ratio of the error to the chromophore concentrations is about 10%. The proposed method does not require any measurements or assumptions about the shape of the subjects; this is an advantage over other studies related to the reduction of shading-derived errors. © The Authors.Published by SPIE under a Creative Commons Attribution 3.0 Unported License. Distribution or reproduction of this work in whole or in part requires full attribution of the original publication, including its DOI.

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Section: Discussionmentioning

confidence: 99%

Reduction of shading-derived artifacts in skin chromophore imaging without measurements or assumptions about the shape of the subject

et al. 2014

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“…A digital color camera (DiMAGE7; Minolta Co, Osaka, Japan) was used to acquire images. 23 A macro ring flash (model 1200; Minolta Co) controlled by a flash controller provided shadowless, uniform illumination. Glare was reduced from the skin surface by using a linear polarizer (model A45-669; Edmund Industrial Optics, Barrington, NJ) placed in front of the macro ring flash; a second cross-polarizer was placed in front of the camera lens.…”

Section: Evaluation Of Current Pdl Treatmentmentioning

confidence: 99%

“…Additional optical instruments under development for PWS skin diagnostics and therapy evaluation include videomicroscopy, 37 modulated imaging, 38 cross-polarized diffuse reflectance imaging, 23 and laser speckle imaging. 39 Laser speckle imaging is of particular interest because it can serve as a relatively low-cost, wide-field, vascular imaging instrument to evaluate skin perfusion dynamics intraoperatively.…”

Section: Limitations Of Pws Treatment and Topics For Researchmentioning

confidence: 99%

Description and Analysis of Treatments for Port-wine Stain Birthmarks

Kelly

Choi

McFarlane

et al. 2005

Archives of Facial Plastic Surgery

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“…Non-invasive imaging systems of the skin are used in a wide range of clinical applications in the last decades, in particular in order to get information on pigmentation disorders: melanin index, port wine vein, vitiligo, erythema [4][5]… Since pigmentation determines the spectral reflectance of the skin, the best way to observe it is to make images in different spectral bands, either in three wide spectral bands as in classical RGB imaging [6][7], or in more than 10 short spectral bands as in multispectral imaging [8][9]. There already exist several multispectral imaging instruments for skin observation on the marketplace (e.g.…”

Section: Introductionmentioning

confidence: 99%