19 December 2012 Errata: In vivo assessment of human burn scars through automated quantification of vascularity using optical coherence tomography
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J. of Biomedical Optics, 18(6), 069801 (2012). doi:10.1117/1.JBO.18.6.069801
Abstract
This article [J. Biomed. Opt.. 18, , 061213 (2013)] was originally published online on 22 November 2012 with an error in the caption of Fig. 7. In the first line, the word “hypertrophic” should be “normotrophic.” The corrected caption reads as follows: Case Study 4. (a) Photograph of a 12-month-old normotrophic scar due to a flame burn on the left lateral forearm. The extent of the scar is outlined in dotted green. The photograph of the contralateral normal skin is not shown. (b) and (c) are the en face MIPs of the vasculature in scar tissue and contralateral normal skin, respectively. The vasculature in (b) and (c) is color-coded by physical depth (μm) in (d) and (e), respectively. Histograms of blood vessel diameter measurements and other quantification results are shown in (f). Scale bar indicates a distance of 0.5 mm.
Liew, McLaughlin, Gong, Wood, and Sampson: Errata: In vivo assessment of human burn scars through automated quantification of vascularity using optical coherence tomography

This article [J. Biomed. Opt. 18, 061213 (2013)] was originally published online on 22 November 2012 with an error in the caption of Fig. 7. In the first line, the word “hypertrophic” should be “normotrophic.” The corrected caption reads as follows:

Fig. 7

Case Study 4. (a) Photograph of a 12-month-old normotrophic scar due to a flame burn on the left lateral forearm. The extent of the scar is outlined in dotted green. The photograph of the contralateral normal skin is not shown. (b) and (c) are the en face MIPs of the vasculature in scar tissue and contralateral normal skin, respectively. The vasculature in (b) and (c) is color-coded by physical depth (μm) in (d) and (e), respectively. Histograms of blood vessel diameter measurements and other quantification results are shown in (f). Scale bar indicates a distance of 0.5 mm.

JBO_18_6_069801_f001.png

This article was corrected online on 29 November 2012.

Yih Miin Liew, Robert A. McLaughlin, Peijun Gong, Fiona M. Wood, David D. Sampson, "Errata: In vivo assessment of human burn scars through automated quantification of vascularity using optical coherence tomography," Journal of Biomedical Optics 18(6), 069801 (19 December 2012). http://dx.doi.org/10.1117/1.JBO.18.6.069801
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KEYWORDS
Optical coherence tomography

In vivo imaging

Skin

Photography

Blood vessels

Tissue optics

Biomedical optics

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