High-frequency ultrasound associated with dermoscopy in
               pre-operative evaluation of basal cell carcinoma

Barcaui, Elisa de Oliveira; Carvalho, Antonio Carlos Pires; Valiante, Paulo Marcos N.; Barcaui, Carlos Baptista

doi:10.1590/abd1806-4841.20143176

Abstract

The recent development of high-frequency ultrasound, associated with the improved sensitivity in color Doppler, enabled the identification of various skin structures and layers. In basal cell carcinoma, the 22 MHz frequency ultrasound permits the delimitation of tumor margins, while color Doppler, determines its vascularization. We present two cases in which the association of both exams allowed an in vivo analysis of the tumor's morphology, size, thickness and vascularization, thus contributing to a better pre-operative evaluation.

Carcinoma, basal cell; Dermoscopy; Ultrasound

BACKGROUND

Used since the 70s in dermatology, ultrasonography is based on the reflection of sound waves throughout the tissues.¹1 Wortsman X, Wortsman J. Clinical usefulness of variable-frequency ultrasound in localized lesions of the skin. J Am Acad Dermatol. 2010;62:247-56.^,²2 Kleinerman R, Whang TB, Bard RL, Marmur ES. Ultrasound in dermatology: principles and applications. J Am Acad Dermatol. 2012;67:478-87. According to the anatomical structure, its vascularization and density, the ultrasound waves are reflected back to the transducer that converts them into a gray scale, observed on the monitor.³3 Wortsman X. Common Applications of Dermatologic Sonography. J Ultrasound Med. 2012;31:97-111. The higher the frequency of the waves emitted by the transducer, the better the spatial resolution and subsequent visualization of structures near it. The introduction of transducers with frequency higher than 15 MHz produced the high-frequency ultrasound (HFUS). The shortest wavelength obtained by this frequency allowed a better assessment of superficial structures, significantly expanding its use in cutaneous diseases.⁴4 Crisan M, Crisan D, Sannino G, Lupsor M, Badea R, Amzica F. Ultrasonographic staging of cutaneous malignant tumors: an ultrasonographic depth index. Arch Dermatol Res. 2013;305:305-13.

In normal skin, the echogenicity of each layer depends on its main component, which in the epidermis is represented by keratin, in the dermis by collagen and in the subcutaneous tissue by fat lobules. In the ultrasound image, the epidermis appears as a hyperechoic line, the dermis as a hyperechoic band less bright than the epidermis and the subcutaneous tissue as a hypoechoic layer with hyperechoic fibrous septa in between.³3 Wortsman X. Common Applications of Dermatologic Sonography. J Ultrasound Med. 2012;31:97-111.

Dermoscopy is a complementary exam of great impact in dermatological practice that permits an early differentiation between malignant and benign cutaneous lesions. A study by Altamura et al, aimed at determining the accuracy of this method in the diagnosis of basal cell carcinoma, demonstrated a high sensitivity rate (87%).⁵5 Altamura D, Menzies SW, Argenziano G, Zalaudek I, Soyer HP, Sera F, et al. Dermatoscopy of basal cell carcinoma: Morphologic variability of global and local features and accuracy of diagnosis. J Am Acad Dermatol. 2010;62:67-75.

Basal Cell Carcinoma (BCC) is an epithelial neoplasm, which corresponds to approximately 7580% of cutaneous tumors in middle-aged individuals with fair skin. It usually affects areas exposed to solar radiation, with the highest incidence rate in the face.⁶6 Andrade P, Brites MM, Vieira R, Mariano A, Reis JP, Tellechea O, et al. Epidemiology of basal cell carcinoma and squamous cell carcinoma in a department of dermatology: a 5 year review. An Bras Dermatol. 2012;87:212-9. Overestimation of the tumor area can lead to unnecessary aesthetic problems. On the other hand, incomplete excisions are charged with changing the tumor structure, thus generating a more aggressive behavior.⁷7 Wortsman X. Sonography of Facial Cutaneous Basal Cell Carcinoma. A First Line Imaging Technique. J Ultrasound Med. 2013;32:567-72.^,⁸8 Ocanha JP, Dias JT, Miot HA, Stolf HO, Marques ME, Abbade LP. Relapses and recurrences of basal cell face carcinomas. An Bras Dermatol. 2011;86:386-8. Sartore et al reports that 5 to 50% of BCC are incompletely excised.⁷7 Wortsman X. Sonography of Facial Cutaneous Basal Cell Carcinoma. A First Line Imaging Technique. J Ultrasound Med. 2013;32:567-72.^,⁹9 Nassiri-Kashani M, Sadr B, Fanian F, Kamyab K, Noormohammadpour P, Shahshahani MM, et al. Pre-operative assessment of basal cell carcinoma dimensions using high frequency ultrasonography and its correlation with histopathology. Skin Res Technol. 2013;19:e132-8.

The determination of the tumor extent and the adequate safety margins are of paramount importance for surgical intervention.⁹9 Nassiri-Kashani M, Sadr B, Fanian F, Kamyab K, Noormohammadpour P, Shahshahani MM, et al. Pre-operative assessment of basal cell carcinoma dimensions using high frequency ultrasonography and its correlation with histopathology. Skin Res Technol. 2013;19:e132-8. With dermoscopy, it is possible to assess the extension of the lesion in the longitudinal and horizontal axes. However, it is not feasible to determine its depth and the potential invasion of adjacent structures, such as cartilage and muscle, based only on clinical and dermoscopic evaluation. With HFUS, it is possible to delimit the tumoral margin based on the difference in refraction between the hypoechoic tumor area and the hyperechoic perilesional region. In parallel, it is possible to assess tumor vascularization, its nature and distribution with color Doppler exams.⁷7 Wortsman X. Sonography of Facial Cutaneous Basal Cell Carcinoma. A First Line Imaging Technique. J Ultrasound Med. 2013;32:567-72.

CASES REPORT

Two patients, one male and one female, aged 67 and 73 years presented lesions on the nose and right flank, respectively (Figures 1 and 2). Dermoscopy (DermLite DL3, 3rd Gen, USA) and 22MHz HFUS (Esaote, My Lab Touch, Italy) were performed in both patients. The male patient reported a past medical history of having one lesion removed in the same location, three years ago. Dermoscopic examination showed, in both cases, the presence of arborizing telangiectasias and ovoid nests (Figures 3 and 4). HFUS (22 MHz) demonstrated a hypoechoic lesion in the dermis of the first patient, measuring 1mm deep by 1.9 mm in its largest diameter, surrounded by a slightly less echogenic area consistent with fibrosis (Figure 5A). Color Doppler exam showed the presence of blood vessels permeating the tumor (Figure 5B). Hypoechoic lesions measuring 1 x 3.5 mm, delimitated by the hyperechoic surrounding dermis were observed on the second patient; color Doppler aspects were similar to those of the previous exam (Figure 6A and 6B). Patients underwent excision of the lesions after adequate delineation of tumoral margins, guided by dermoscopy and HFUS. Histopathological examination revealed, in the first case, nests of basaloid cells amidst old scarring, reaching 1 mm deep and 1.8 mm laterally (Figure 7). The second patient had a similar histopathological result, with the lesion measuring 1 mm deep and 3.5 mm laterally (Figure 8).

FIGURE 1
Normochrom ic papular lesion, on the nose, over prior surgical scar

FIGURE 2
Erythematou s papule on the right flank

FIGURE 3
Dermoscopy showing classic arborizing telangiectasias and slightly pigmented amorphous area

FIGURE 4
Dermoscopy presenting white - reddish glossy areas and fine telangiectasias. Discrete ovoid nests

FIGURE 5
A. Gray scale in the ultrasound shows well delimited, hypoechoic oval lesion, involving the dermis. B. Color Doppler shows increased vascularity on the tumor

FIGURE 6
A. 22 MHz HFUS showing hypoechoic tumoral lesion. B. Color Doppler shows blood vessels positioned in the inferior portion of the lesion

FIGURE 7
Histopathological exam shows a basaloid epithelial tumor. H&E 10X

FIGURE 8
Histopathological exam: basaloid lesion infiltrating the dermis. H&E, 40X

DISCUSSION

Currently, histopathological examination is the gold standard for diagnosis and morphological and structural assessment of BCC. However, new techniques for in vivo investigation have been used to expedite diagnosis and optimize pre-operative evaluation.

Studies indicate that HFUS represents an innovative method for exploring cutaneous tumors, including BCC. Unfit to assess tumor cellularity, this exam cannot be used to confirm diagnosis, but it enables a detailed preoperative study: by assessing the different skin layers and their respective thicknesses, the tumor size and involvement of deep planes. Color Doppler exam can estimate the blood flow on the lesion and its surroundings.

Histopathological analysis confirmed the assessment of pre-operative tests.

In summary, we report two cases that exemplify how the association of HFUS with dermoscopy adds substantial value to the analysis of tumoral dimensions, which also permits the safe determination of their margins and vascularization patterns prior to tumor excision.

Financial funding: None
How to cite this article: Barcaui EO, Carvalho ACP, Valiante PMN, Barcaui CB. High-frequency ultrasound associated with dermoscopy in pre-operative evaluation of basal cell carcinoma. An Bras Dermatol. 2014;89(5):828-31.
*
Work performed at the Radiology and Pathology Department at Faculdade de Medicina da Universidade Federal do Rio de Janeiro (FM-UFRJ) - Rio de Janeiro (RJ), Brazil.

REFERENCES

¹
Wortsman X, Wortsman J. Clinical usefulness of variable-frequency ultrasound in localized lesions of the skin. J Am Acad Dermatol. 2010;62:247-56.
²
Kleinerman R, Whang TB, Bard RL, Marmur ES. Ultrasound in dermatology: principles and applications. J Am Acad Dermatol. 2012;67:478-87.
³
Wortsman X. Common Applications of Dermatologic Sonography. J Ultrasound Med. 2012;31:97-111.
⁴
Crisan M, Crisan D, Sannino G, Lupsor M, Badea R, Amzica F. Ultrasonographic staging of cutaneous malignant tumors: an ultrasonographic depth index. Arch Dermatol Res. 2013;305:305-13.
⁵
Altamura D, Menzies SW, Argenziano G, Zalaudek I, Soyer HP, Sera F, et al. Dermatoscopy of basal cell carcinoma: Morphologic variability of global and local features and accuracy of diagnosis. J Am Acad Dermatol. 2010;62:67-75.
⁶
Andrade P, Brites MM, Vieira R, Mariano A, Reis JP, Tellechea O, et al. Epidemiology of basal cell carcinoma and squamous cell carcinoma in a department of dermatology: a 5 year review. An Bras Dermatol. 2012;87:212-9.
⁷
Wortsman X. Sonography of Facial Cutaneous Basal Cell Carcinoma. A First Line Imaging Technique. J Ultrasound Med. 2013;32:567-72.
⁸
Ocanha JP, Dias JT, Miot HA, Stolf HO, Marques ME, Abbade LP. Relapses and recurrences of basal cell face carcinomas. An Bras Dermatol. 2011;86:386-8.
⁹
Nassiri-Kashani M, Sadr B, Fanian F, Kamyab K, Noormohammadpour P, Shahshahani MM, et al. Pre-operative assessment of basal cell carcinoma dimensions using high frequency ultrasonography and its correlation with histopathology. Skin Res Technol. 2013;19:e132-8.

Publication Dates

Publication in this collection
Sep-Oct 2014

History

Received
28 Sept 2013
Accepted
04 Nov 2013

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] Financial funding: None

[2] How to cite this article: Barcaui EO, Carvalho ACP, Valiante PMN, Barcaui CB. High-frequency ultrasound associated with dermoscopy in pre-operative evaluation of basal cell carcinoma. An Bras Dermatol. 2014;89(5):828-31.

[3] *
Work performed at the Radiology and Pathology Department at Faculdade de Medicina da Universidade Federal do Rio de Janeiro (FM-UFRJ) - Rio de Janeiro (RJ), Brazil.

Brazil