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Journal of Imaging Informatics in Medicine
Published in: Journal of Digital Imaging 1/2015

Open Access 01-02-2015

Consistency and Standardization of Color in Medical Imaging: a Consensus Report

Authors: Aldo Badano, Craig Revie, Andrew Casertano, Wei-Chung Cheng, Phil Green, Tom Kimpe, Elizabeth Krupinski, Christye Sisson, Stein Skrøvseth, Darren Treanor, Paul Boynton, David Clunie, Michael J. Flynn, Tatsuo Heki, Stephen Hewitt, Hiroyuki Homma, Andy Masia, Takashi Matsui, Balázs Nagy, Masahiro Nishibori, John Penczek, Thomas Schopf, Yukako Yagi, Hideto Yokoi

Published in: Journal of Imaging Informatics in Medicine | Issue 1/2015

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Abstract

This article summarizes the consensus reached at the Summit on Color in Medical Imaging held at the Food and Drug Administration (FDA) on May 8–9, 2013, co-sponsored by the FDA and ICC (International Color Consortium). The purpose of the meeting was to gather information on how color is currently handled by medical imaging systems to identify areas where there is a need for improvement, to define objective requirements, and to facilitate consensus development of best practices. Participants were asked to identify areas of concern and unmet needs. This summary documents the topics that were discussed at the meeting and recommendations that were made by the participants. Key areas identified where improvements in color would provide immediate tangible benefits were those of digital microscopy, telemedicine, medical photography (particularly ophthalmic and dental photography), and display calibration. Work in these and other related areas has been started within several professional groups, including the creation of the ICC Medical Imaging Working Group.
Literature
1.
Yagi Y: Color standardization and optimization in whole slide imaging. Diagn Pathol, 6(Suppl 1):S15, 2011.
2.
Hu E, Nosato H, Sakanashi H, Murakawa M: A modified anomaly detection method for capsule endoscopy images using non-linear color conversion and higher-order local auto-correlation (HLAC). Conf Proc IEEE Eng Med Biol Soc 2013:5477–5480, 2013PubMed
3.
Glatz J, Varga J, Beatriz Garcia-Allende P, Koch M, Greten FR, Ntziachristos V: Concurrent video-rate color and near-infrared fluorescence laparoscopy. J Biomed Opt 18(10):101302, 2013PubMedCrossRef
4.
Narasimha-Iyer H, Can A, Roysam B, Stewart CV, Tanenbaum HL, Majerovics A, Singh H: Robust detection and classification of longitudinal changes in color retinal fundus images for monitoring diabetic retinopathy. IEEE Trans Biomed Eng 53(6):1084–1098, 2006PubMedCrossRef
5.
6.
Michalec GS: The accuracy of digital retinal imaging (DRI) to screen for diabetic retinopathy: An analysis of two digital retinal imaging systems using standard stereoscopic seven-field photography and dilated clinical examination as reference standards. Journal of Ophthalmic Photography 28(2):93, 2006
7.
Curtin RE: Consistent color calibration for digital ophthalmic photography capture systems: principle and application. Journal of Ophthalmic Photography 29(2):143, 2007
8.
Hubbard LD, Neider M, Thayer D, Wabers H, Vargo P, Lambert E: Optimization and standardization of digital color fundus photographs and fluorescein angiograms: observations from a central reading center. Journal of Ophthalmic Photography 29(2):145, 2007
9.
Madjarov B, Alexander J, Elsner K, Whitock R: Design and implementation of standardized system for management of digital fundus images. Journal of Ophthalmic Photography 29(1):31, 2002
10.
Nishibori M, Tsumura N, Miyake Y: Why multispectral imaging in medicine? Journal of Imaging Science and Technology 48(2):125–129, 2004
11.
Korotkov K, Garcia R: Computerized analysis of pigmented skin lesions: a review. Artif Intell Med 56(2):69–90, 2012PubMedCrossRef
12.
Penczek J, Boynton PA, Splett JD: Color error in the digital camera image capture process. J of Digit Imag 27(2):182–191, 2014CrossRef
13.
14.
Bengel WM: Digital photography and the assessment of therapeutic results after bleaching procedures. J Esthet Restor Dent, 15 Suppl 1:S21–32; discussion S32, 2003
15.
Bentley C, Leonard RH, Nelson CF, Bentley SA: Quantitation of vital bleaching by computer analysis of photographic images. J Am Dent Assoc 130(6):809–816, 1999PubMedCrossRef
16.
Lasserre JF, Pop-Ciutrila IS, Colosi.HA: A comparison between a new visual method of colour matching by intraoral camera and conventional visual and spectrometric methods. J Dent, 39 Suppl 3:e29–e36, Dec 2011
17.
McLaren EA, Schoenbaum T: Combine conventional and digital methods to maximize shade matching. Compend Contin Educ Dent, 32 Spec No 4:30, 32–30, 33, 2011
18.
Moncada G, Silva F, Angel P, Oliveira Jr, O, Fresno M, Cisternas P, Fernandez E, Estay J, Martin J: Evaluation of dental restorations: a comparative study between clinical and digital photographic assessments. Oper Dent, Aug, 2013
19.
Sluzker A, Knösel M, Athanasiou AE: Sensitivity of digital dental photo CIE L*a*b* analysis compared to spectrophotometer clinical assessments over 6 months. Am J Dent 24(5):300–304, 2011PubMed
20.
Torlakovic L, Olsen I, Petzold C, Tiainen H, Ogaard B: Clinical color intensity of white spot lesions might be a better predictor of enamel demineralization depth than traditional clinical grading. Am J Orthod Dentofacial Orthop 142(2):191–198, 2012PubMedCrossRef
21.
Cheng WC, Keay T, O’Flaherty N, WangJ, Ivansky A, Gavrielides MA, Gallas BD, Badano A: Assessing color reproducibility of whole-slide imaging scanners. In SPIE Medical Imaging, pages 86760O–86760O. International Society for Optics and Photonics, 2013.
22.
Samei E, Badano A, Chakraborty D, Compton K, Cornelius C, Corrigan K, Flynn MJ, Hemminger B, Hangiandreou N, Johnson J, et al: Assessment of display performance for medical imaging systems: executive summary of AAPM TG18 report. Medical physics 32:1205, 2005PubMedCrossRef
23.
Morovic J, Ronnier Luo M: The fundamentals of gamut mapping: a survey. Journal of Imaging Science and Technology 45(3):283–290, 2001
24.
ISO 15076–1. Image technology colour management—Architecture, profile format and data structure, 2010
25.
Bergmo TS, Wangberg SC, Schopf TR, Solvoll T: Web-based consultations for parents of children with atopic dermatitis: results of a randomized controlled trial. Acta Paediatr 98(2):316–320, 2009PubMedCrossRef
26.
Yamaguchi M, Kishimoto J, Komiya Y, Kanno Y, Murakami Y, Hashizume H, Yamada R, Miyajima K, Haneishi H: Video-based telemedicine with reliable color: Field experiments of natural vision technology. In Proceedings of the 3rd International Universal Communication Symposium, pages 150–153. ACM, 2009
27.
Yamaguchi M, Murakami Y, Komiya Y, Kanno Y, Kishimoto J, Iwama R, Hashizume H, Aihara M, Furukawa M: Video-telemedicine with reliable color based on multispectral technology. Advances in Telemedicine, Technologies, Enabling Factors and Scenarios, 2011
28.
Krupinski EA, Silverstein LD, Hashmi SF, Graham AR, Weinstein RS, Roehrig H: Observer performance using virtual pathology slides: impact of LCD color reproduction accuracy. Journal of Digital Imaging 25(6):738–743, 2012PubMedCentralPubMedCrossRef
29.
ACR/NEMA. Digital Imaging and Communications in Medicine (DICOM), Part 3.14, Grayscale Standard Display Function, 2011. Technical report, January 2011
Metadata
Title
Consistency and Standardization of Color in Medical Imaging: a Consensus Report
Authors
Aldo Badano
Craig Revie
Andrew Casertano
Wei-Chung Cheng
Phil Green
Tom Kimpe
Elizabeth Krupinski
Christye Sisson
Stein Skrøvseth
Darren Treanor
Paul Boynton
David Clunie
Michael J. Flynn
Tatsuo Heki
Stephen Hewitt
Hiroyuki Homma
Andy Masia
Takashi Matsui
Balázs Nagy
Masahiro Nishibori
John Penczek
Thomas Schopf
Yukako Yagi
Hideto Yokoi
Publication date
01-02-2015
Publisher
Springer US
Published in
Journal of Imaging Informatics in Medicine / Issue 1/2015
Print ISSN: 2948-2925
Electronic ISSN: 2948-2933
DOI
https://doi.org/10.1007/s10278-014-9721-0

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