In vivo differentiation of common basal cell carcinoma subtypes by microvascular and structural imaging using dynamic optical coherence tomography

Lotte Themstrup; Nathalie De Carvalho; Sabrina M. Nielsen; Jonas Olsen; Silvana Ciardo; Sandra Schuh; Birgit M.-h. Nørnberg; Julia Welzel; Martina Ulrich; Giovanni Pellacani; Gregor B.E. Jemec

doi:10.1111/exd.2018.27.issue-2

In vivo differentiation of common basal cell carcinoma subtypes by microvascular and structural imaging using dynamic optical coherence tomography

Lotte Themstrup, Nathalie De Carvalho, Sabrina M. Nielsen, Jonas Olsen, Silvana Ciardo, Sandra Schuh, Birgit M.-h. Nørnberg, Julia Welzel, Martina Ulrich, Giovanni Pellacani, Gregor B.E. Jemec

Institut for Klinisk Medicin

18 Citationer (Scopus)

Abstract

The subtype of basal cell carcinoma (BCC) influences the choice of treatment. Optical coherence tomography (OCT) is a non-invasive imaging tool, and a recent development of an angiographic version of OCT has extended the application of OCT to image the cutaneous microvasculature (so-called dynamic OCT, D-OCT). This study explores D-OCT's ability to differentiate the common BCC subtypes by microvascular and structural imaging. Eighty-one patients with 98 BCC lesions, consisting of three subtypes: 27 superficial BCC (sBCC), 55 nodular BCC (nBCC) and 16 infiltrative BCC (iBCC) were D-OCT scanned at three European dermatology centres. Blinded evaluations of microvascular and structural features were performed, followed by extensive statistical analysis of risk ratio (RR) and multiple correspondence analysis. nBCC lesions displayed most characteristic structural and vascular features. Serpiginous vessels, branching vessels, vessels creating a circumscribed figure and sharply demarcated hyporeflective ovoid structures in the dermis were all associated with a higher risk of the subtype being nBCC. The presence of highly present lines and dark peripheral borders at the margin of ovoid structures was negatively associated with iBCC. Lastly, the finding of hyporeflective ovoid structures protruding from epidermis correlated with sBCC. We identified various microvascular and structural D-OCT features that may aid non-invasive identification of BCC subtypes. This would allow clinicians to individualize and optimize BCC treatment as well as aid follow-up of non-surgical treatment.

Originalsprog	Engelsk
Tidsskrift	Experimental Dermatology
Vol/bind	27
Udgave nummer	2
Sider (fra-til)	156-165
ISSN	0906-6705
DOI	https://doi.org/10.1111/exd.2018.27.issue-2
Status	Udgivet - 1 feb. 2018

Adgang til dokumentet

10.1111/exd.2018.27.issue-2

Citationsformater

Themstrup, L., De Carvalho, N., Nielsen, S. M., Olsen, J., Ciardo, S., Schuh, S., Nørnberg, B. M., Welzel, J., Ulrich, M., Pellacani, G., & Jemec, G. B. E. (2018). In vivo differentiation of common basal cell carcinoma subtypes by microvascular and structural imaging using dynamic optical coherence tomography. Experimental Dermatology, 27(2), 156-165. https://doi.org/10.1111/exd.2018.27.issue-2

In vivo differentiation of common basal cell carcinoma subtypes by microvascular and structural imaging using dynamic optical coherence tomography. / Themstrup, Lotte; De Carvalho, Nathalie; Nielsen, Sabrina M. et al.

I: Experimental Dermatology, Bind 27, Nr. 2, 01.02.2018, s. 156-165.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

Themstrup, L, De Carvalho, N, Nielsen, SM, Olsen, J, Ciardo, S, Schuh, S, Nørnberg, BM, Welzel, J, Ulrich, M, Pellacani, G & Jemec, GBE 2018, 'In vivo differentiation of common basal cell carcinoma subtypes by microvascular and structural imaging using dynamic optical coherence tomography', Experimental Dermatology, bind 27, nr. 2, s. 156-165. https://doi.org/10.1111/exd.2018.27.issue-2

@article{87055179c31048ad91fd20e6faf1dee5,

title = "In vivo differentiation of common basal cell carcinoma subtypes by microvascular and structural imaging using dynamic optical coherence tomography",

abstract = "The subtype of basal cell carcinoma (BCC) influences the choice of treatment. Optical coherence tomography (OCT) is a non-invasive imaging tool, and a recent development of an angiographic version of OCT has extended the application of OCT to image the cutaneous microvasculature (so-called dynamic OCT, D-OCT). This study explores D-OCT's ability to differentiate the common BCC subtypes by microvascular and structural imaging. Eighty-one patients with 98 BCC lesions, consisting of three subtypes: 27 superficial BCC (sBCC), 55 nodular BCC (nBCC) and 16 infiltrative BCC (iBCC) were D-OCT scanned at three European dermatology centres. Blinded evaluations of microvascular and structural features were performed, followed by extensive statistical analysis of risk ratio (RR) and multiple correspondence analysis. nBCC lesions displayed most characteristic structural and vascular features. Serpiginous vessels, branching vessels, vessels creating a circumscribed figure and sharply demarcated hyporeflective ovoid structures in the dermis were all associated with a higher risk of the subtype being nBCC. The presence of highly present lines and dark peripheral borders at the margin of ovoid structures was negatively associated with iBCC. Lastly, the finding of hyporeflective ovoid structures protruding from epidermis correlated with sBCC. We identified various microvascular and structural D-OCT features that may aid non-invasive identification of BCC subtypes. This would allow clinicians to individualize and optimize BCC treatment as well as aid follow-up of non-surgical treatment.",

author = "Lotte Themstrup and {De Carvalho}, Nathalie and Nielsen, {Sabrina M.} and Jonas Olsen and Silvana Ciardo and Sandra Schuh and N{\o}rnberg, {Birgit M.-h.} and Julia Welzel and Martina Ulrich and Giovanni Pellacani and Jemec, {Gregor B.E.}",

year = "2018",

month = feb,

day = "1",

doi = "10.1111/exd.2018.27.issue-2",

language = "English",

volume = "27",

pages = "156--165",

journal = "Experimental Dermatology",

issn = "0906-6705",

publisher = "Wiley-Blackwell",

number = "2",

}

TY - JOUR

T1 - In vivo differentiation of common basal cell carcinoma subtypes by microvascular and structural imaging using dynamic optical coherence tomography

AU - Themstrup, Lotte

AU - De Carvalho, Nathalie

AU - Nielsen, Sabrina M.

AU - Olsen, Jonas

AU - Ciardo, Silvana

AU - Schuh, Sandra

AU - Nørnberg, Birgit M.-h.

AU - Welzel, Julia

AU - Ulrich, Martina

AU - Pellacani, Giovanni

AU - Jemec, Gregor B.E.

PY - 2018/2/1

Y1 - 2018/2/1

N2 - The subtype of basal cell carcinoma (BCC) influences the choice of treatment. Optical coherence tomography (OCT) is a non-invasive imaging tool, and a recent development of an angiographic version of OCT has extended the application of OCT to image the cutaneous microvasculature (so-called dynamic OCT, D-OCT). This study explores D-OCT's ability to differentiate the common BCC subtypes by microvascular and structural imaging. Eighty-one patients with 98 BCC lesions, consisting of three subtypes: 27 superficial BCC (sBCC), 55 nodular BCC (nBCC) and 16 infiltrative BCC (iBCC) were D-OCT scanned at three European dermatology centres. Blinded evaluations of microvascular and structural features were performed, followed by extensive statistical analysis of risk ratio (RR) and multiple correspondence analysis. nBCC lesions displayed most characteristic structural and vascular features. Serpiginous vessels, branching vessels, vessels creating a circumscribed figure and sharply demarcated hyporeflective ovoid structures in the dermis were all associated with a higher risk of the subtype being nBCC. The presence of highly present lines and dark peripheral borders at the margin of ovoid structures was negatively associated with iBCC. Lastly, the finding of hyporeflective ovoid structures protruding from epidermis correlated with sBCC. We identified various microvascular and structural D-OCT features that may aid non-invasive identification of BCC subtypes. This would allow clinicians to individualize and optimize BCC treatment as well as aid follow-up of non-surgical treatment.

AB - The subtype of basal cell carcinoma (BCC) influences the choice of treatment. Optical coherence tomography (OCT) is a non-invasive imaging tool, and a recent development of an angiographic version of OCT has extended the application of OCT to image the cutaneous microvasculature (so-called dynamic OCT, D-OCT). This study explores D-OCT's ability to differentiate the common BCC subtypes by microvascular and structural imaging. Eighty-one patients with 98 BCC lesions, consisting of three subtypes: 27 superficial BCC (sBCC), 55 nodular BCC (nBCC) and 16 infiltrative BCC (iBCC) were D-OCT scanned at three European dermatology centres. Blinded evaluations of microvascular and structural features were performed, followed by extensive statistical analysis of risk ratio (RR) and multiple correspondence analysis. nBCC lesions displayed most characteristic structural and vascular features. Serpiginous vessels, branching vessels, vessels creating a circumscribed figure and sharply demarcated hyporeflective ovoid structures in the dermis were all associated with a higher risk of the subtype being nBCC. The presence of highly present lines and dark peripheral borders at the margin of ovoid structures was negatively associated with iBCC. Lastly, the finding of hyporeflective ovoid structures protruding from epidermis correlated with sBCC. We identified various microvascular and structural D-OCT features that may aid non-invasive identification of BCC subtypes. This would allow clinicians to individualize and optimize BCC treatment as well as aid follow-up of non-surgical treatment.

U2 - 10.1111/exd.2018.27.issue-2

DO - 10.1111/exd.2018.27.issue-2

M3 - Journal article

SN - 0906-6705

VL - 27

SP - 156

EP - 165

JO - Experimental Dermatology

JF - Experimental Dermatology

IS - 2

ER -

In vivo differentiation of common basal cell carcinoma subtypes by microvascular and structural imaging using dynamic optical coherence tomography

Abstract

Adgang til dokumentet

Fingeraftryk

Citationsformater