Dermatology: Practical and Conceptual


Review  |  Dermatol Pract Concept 2014;4(3):2 11

DERMATOLOGY PRACTICAL & CONCEPTUAL
www.derm101.com

Following the first descriptions of the dermatoscopic pattern of basal cell carcinoma (BCC) that go 
back to the very early years of dermatoscopy, the list of dermatoscopic criteria associated with BCC 
has been several times updated and renewed. Up to date, dermatoscopy has been shown to enhance 
BCC detection, by facilitating its discrimination from other skin tumors and inflammatory skin dis-
eases. Furthermore, upcoming evidence suggests that the method is also useful for the management of 
the tumor, since it provides valuable information about the histopathologic subtype, the presence of 
clinically undetectable pigmentation, the expansion of the tumor beyond clinically visible margins and 
the response to non-ablative treatments. In the current article, we provide a summary of the traditional 
and latest knowledge on the value of dermatoscopy for the diagnosis and management of BCC.

ABSTRACT

Introduction
Following the first descriptions of the dermatoscopic pattern 

of BCC that go back to the very early years of dermatoscopy, 

gradually gathering evidence significantly enriched our knowl-

edge on the topic [1-12]. Up to date, the value of dermatoscopy 

in improving the diagnosis of BCC has been extensively dem-

onstrated, while the method continuously gains appreciation 

as a useful tool in the management of the tumor [1,9,13-17].

Dermatoscopy for diagnosis of BCC
The list of dermatoscopic criteria associated with BCC has 

been several times updated and renewed. An analytic descrip-

tion of the BCC-related dermatoscopic criteria and their 

histopathologic correlation is quoted in Table 1, while a 

characteristic example of each one of them is presented in 

Figures 1 and 2 [1,9,12,18,19]. Figure 3 illustrates representa-

tive examples of histopathologic alterations corresponding to 

BCC-related dermatoscopic criteria.

The dermatoscopic variability of BCC is a result of dif-

ferent combinations of these criteria, depending on several 

factors. Apart from the histopathologic subtype, which 

represents the most important determinant of the dermato-

scopic pattern of BCC, there is upcoming evidence that the 

dermatoscopic aspect of the tumor is influenced also by fac-

tors related to the patient, such as gender, age and pigmentary 

The dermatoscopic universe of basal cell carcinoma
Aimilios Lallas1, Zoe Apalla2, Giuseppe Argenziano2, Caterina Longo1, Elvira Moscarella1, 

Francesca Specchio1, Margaritha Raucci1, Iris Zalaudek3

1  Skin Cancer Unit, Arcispedale Santa Maria Nuova, IRCCS, Reggio Emilia, Italy

2  Dermatology Unit, Medical Department, Arcispedale Santa Maria Nuova, Reggio Emilia, Italy

3  Department of Dermatology, Medical University of Graz, Austria

Keywords: basal cell carcinoma, diagnosis, dermoscopy, dermatoscopy, non-melanoma skin cancer, management

Citation: Lallas A, Apalla Z, Argenziano G, Longo C, Moscarella E, Specchio F, Raucci M, Zalaudek I. The dermatoscopic universe of basal 
cell carcinoma. Dermatol Pract Concept. 2014;4(3):2. http://dx.doi.org/10.5826/dpc.0403a02.

Received: January 7, 2014; Accepted: March 8, 2014; Published: July 31, 2014

Copyright: ©2014 Lallas et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, 
which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Funding: Study supported in part by the Italian Ministry of Health (RF-2010-2316524).

Competing interests: The authors have no conflicts of interest to disclose.

All authors have contributed significantly to this publication.

Corresponding author: Aimilios Lallas, M.D., Skin Cancer Unit, Arcispedale Santa Maria Nuova IRCCS, Viale Risorgimento 80—42100 
Reggio Emilia, Italy. Email: emlallas@gmail.com



12 Review  |  Dermatol Pract Concept 2014;4(3):2

TABLE 1. Definition and histopathologic correlation of the dermatoscopic 
criteria of basal cell carcinoma. [Copyright: ©2014 Lallas et al.]

Dermatoscopic criteria Definition Histopathologic correlation

Arborizing vessels Stem vessels of large diameter, 
branching irregularly into finest 
terminal capillaries. Their color 
is bright red, being perfectly in 
focus due to their location on 
the surface of the tumor

Dilated vessels in the dermis, 
representing the supportive neo-
vasculature of the tumor cells

Superficial fine telangiectasia Short, fine, focused linear 
vessels with very few branches

Telangiectatic vessels located in 
the papillary dermis

Blue-gray ovoid nests Well circumscribed, confluent or 
near confluent pigmented ovoid 
or elongated configurations, 
larger than globules and 
not intimately connected to 
pigmented tumor body

Large well-defined tumor 
nests with pigment aggregates, 
invading the dermis

Multiple blue-gray globules Numerous, loosely arranged 
round to oval well-
circumscribed structures, which 
are smaller than the nests

Small, roundish tumor nests 
with central pigmentation, 
localized to the papillary dermis 
and/or reticular dermis

In-focus dots Loosely arranged well-defined 
small gray dots, which appear 
sharply in focus

Free pigment deposition along 
the dermo-epidermal junction, 
and/or melanophages and/or 
small aggregates of pigmented 
neoplastic cells in the papillary 
and reticular dermis

Maple leaf-like areas Translucent brown to gray/blue 
peripheral bulbous extensions 
that never arise from pigmented 
network or from adjacent 
confluent pigmented areas

Multifocal tumor nests 
containing pigment aggregates, 
connected to each other by 
lobular extensions. They 
are mainly localized in the 
epidermis and less frequently in 
the papillary dermis

Spoke wheel areas Well-circumscribed radial 
projections, usually tan but 
sometimes blue or gray, meeting 
at an often darker (dark brown, 
black, or blue) central axis

Tumor nests arising and 
connected to the epidermis, 
characterized by finger-like 
projections and centrally 
located pigmentation

Concentric structures Irregularly shaped globular-like 
structures with different colors 
(blue, gray, brown, black) and 
a darker central area. They 
possibly represent variations or 
“precursors” of the spoke wheel 
areas

Small tumor nests arising and 
connected to the epidermis with 
centrally located pigmentation

Ulceration One or more large structureless 
areas of red to black-red color

Loss of the epidermis, usually 
covered by hematogenous crusts

Multiple small erosions Small brown-red to brown-
yellow crusts

Thin crusts overlying superficial 
loss of the epidermis

Shiny white-red structureless areas Translucent to opaque white to 
red areas

Diffuse dermal fibrosis or 
fibrotic tumoral stroma

Short white streaks (chrysalis) Orthogonal short and thick 
crossing lines seen only with 
polarized dermoscopy

Presence of collagenous stroma 
and fibrosis in the dermis



Review  |  Dermatol Pract Concept 2014;4(3):2 13

trait. Studies report on a higher frequency of superficial BCC 

(sBCC) on the trunk and lower legs of women, whereas the 

majority of nodular BCC occur on the head and neck of 

men [20,21]. Pigmentation is present in more than 50% of 

the tumors in skin of color, whereas less than 10% of BCCs 

in fair skinned individuals are pigmented (Figure 4) [22-26]. 

Furthermore, the concept of the signature pattern of BCC has 

been recently introduced, referring to the observation that 

multiple BCCs in an individual usually display a repetitive 

dermatoscopic pattern [27].

Dermatoscopy improves the clinical diagnosis of BCC, 

enabling its detection even at an early stage, when the tumor 

is still clinically inconspicuous (Figure 5). Dermatoscopy 

has also been assessed as a valuable method to differentiate 

BCC from other skin tumors and inflammatory skin diseases 

[1,9,13]. The reported diagnostic accuracy of dermatoscopy 

for BCC diagnosis has been reported to range from 95% 

to 99%, depending on BCC subtype and the set of diseases 

included in the control group [1,9,12,13]. Indeed, various 

entities constitute the differential diagnosis of different BCC 

sub-types. For example, the classical nodular non-pigmented 

BCC has to be discriminated from squamous cell carcinoma 

(SCC), amelanotic melanoma and other non-pigmented 

tumors, while heavily pigmented variants have to be dif-

ferentiated mainly from melanoma and nevi. Instead, the 

differential diagnosis of superficial BCC includes both skin 

Figure 1. The dermatoscopic criteria of non-pigmented BCC: (a) arborizing vessels, (b) superficial fine 

telangiectasia, (c) ulceration, (d) multiple small erosions, (e) shiny white-red structureless areas and (f) 

short white streaks. [Copyright: ©2014 Lallas et al.]

Figure 2. Pigmented BCC may display, in addition to the criteria shown in Figure 1, one or more of the 

following features: (a) blue-gray ovoid nests, (b) multiple blue-gray dots/globules, (c) in-focus dots, (d) 

maple leaf-like areas, (e) spoke wheel areas (arrow) and (f) concentric structures (arrows). [Copyright: 

©2014 Lallas et al.]



14 Review  |  Dermatol Pract Concept 2014;4(3):2

tumors, like actinic keratosis or Bowen’s disease (BD), and 

inflammatory skin diseases, such as psoriasis or dermatitis.

The diagnostic accuracy of dermatoscopy has been mainly 

tested in the field of pigmented BCC, with the well-known 

Menzies method achieving a sensitivity of 97% and a specific-

ity of 92% and 93% for differentiating pigmented BCC from 

melanoma and nevi, respectively (Figure 6) [1]. According to 

the latter model, the diagnosis of pigmented BCC is based 

on the dermatoscopic absence of pigment network and the 

Figure 3. (a) Large dilated vessels 

in the dermis, corresponding to the 

arborizing vessels seen in derma-

toscopy; (b) fine telangiectatic ves-

sels located in the papillary dermis 

in a sBCC, dermatoscopically seen 

as superficial fine telangiectasias; 

(c) thick hematogenous crust over-

lying ulceration, dermatoscopi-

cally seen as structureless area 

of black-red color; (d) strands of 

neoplastic cells in the background 

of a collagenous fibrotic stroma, 

corresponding to shiny whitish 

areas in dermatoscopy (e) large 

well-defined tumor nests with pig-

ment aggregates, invading the der-

mis, recognized as blue-gray ovoid 

nests in dermatoscopy; (f) multiple 

melanophages in the papillary and 

reticular dermis, dermatoscopical-

ly seen as blue-gray dots; (g) small, 

roundish tumor nests with central 

pigmentation localized in the dermis, dermatoscopically corresponding to multiple blue-gray globules; (h) tumor nests arising and connected 

to the epidermis, characterized by finger-like projections and centrally located pigmentation, that represent the histopathologic correlate of 

spoke-wheel areas; and (i) multifocal tumor nests containing pigment aggregates, connected to each other by lobular extensions, evoking the 

dermatoscopic criterion of maple leaf-like areas. [Copyright: ©2014 Lallas et al.]

Figure  4. The clinical and dermatoscopic aspect of BCC is influ-

enced by the pigmentary trait of the patient. Fair skin individuals 

usually develop non-pigmented tumors (a), while the frequency of 

pigmented variants is much higher in patients with darker skin (b). 

[Copyright: ©2014 Lallas et al.]

Figure  5. (a) A 2 mm clinically incospicuous papule can be easily 

interpreted as BCC with dermatoscopic examination. (b) dermatos-

copy of this shuttle hypopigmented macule on sun-damaged skin 

reveals short fine telangiectasia, blue-gray dots and peripheral maple 

leaf-like areas, allowing a straight-forward diagnosis of BCC. [Copy-

right: ©2014 Lallas et al.]

detection of one of six positive criteria: arborizing vessels, 

ulceration, large blue-gray ovoid nests, maple leaf-like areas, 

spoke wheel areas or multiple blue-grey dots/globules [1]. The 

substantial reproducibility of these criteria has been appro-

priately assessed, with arborizing vessels, maple leaf-like 

areas and large blue-gray ovoid nests representing the most 

robust and reliable BCC specific parameters [9]. Altamura et 

al. recently validated Menzies method in a study including 

more than 600 BCCs, 96.5% of which exhibited at least one 



Review  |  Dermatol Pract Concept 2014;4(3):2 15

of the six positive dermatoscopic criteria [9]. Of interest, 40% 

of the BCCs in the latter study displayed criteria suggestive 

of melanocytic lesions, including dots/globules, blue-whitish 

veil and vascular structures. The frequency of the latter cri-

teria linearly increased with pigmentation, highlighting the 

diagnostic challenge in differentiating heavily pigmented BCC 

from melanocytic tumors (Figure 7). However, even heavily 

pigmented BCCs were diagnosed with a high accuracy based 

on the aforementioned absence of pigment network and pres-

ence of at least one positive criterion [9].

Although the diagnostic accuracy of dermatoscopy for 

non-pigmented nodular BCC has not been assessed up to 

date, several lines of evidence suggest that the detection of 

arborizing vessels is highly predictive of the diagnosis of 

BCC, enabling its differentiation from SCC and other non-

pigmented skin tumors (Figure 8). In the study by Altamura 

Figure 6. Pigmented nodular BCC has to be discriminated from melanoma and nevi. The diagnosis of 

BCC (a) is based on the absence of pigment network and the presence of at least one of the BCC-related 

criteria (in this case arborizing vessels, blue-gray ovoid nests and multiple blue-gray dots). In contrast 

melanoma (b) and nevi (c), as a rule, exhibit an atypical or a typical pigment network, respectively. 

[Copyright: ©2014 Lallas et al.]

Figure  7. Two clinically similar pigmented nodular tumors. The 

BCC can be dermatoscopically recognized by the absence of pig-

ment network and the presence of arborizing vessels and blue-gray 

ovoid nests (a). Although nor the second nodule displays a pigment 

network, it exhibits dotted vessels and its pigmented structures are 

irregular brown/black globules and irregular peripheral streaks, in 

contrast to the well-circumscribed large blue-gray ovoid nests of the 

BCC. As strongly suggested by its dermatoscopic pattern, the second 

tumor is a nodular melanoma (b). [Copyright: ©2014 Lallas et al.]

Figure 8. The differential diagnosis of non-pigmented nodular tu-

mors includes BCC, SCC and other less frequent entities. Derma-

toscopically, the first nodule exhibits focused arborizing vessels, 

highly predictive of the diagnosis of BCC (a). Dermatoscopy of the 

second tumor reveals dotted and linear irregular vessels, keratin 

masses and perifollicular white circles, overall suggestive of the di-

agnosis of SCC (b). [Copyright: ©2014 Lallas et al.]



16 Review  |  Dermatol Pract Concept 2014;4(3):2

et al, the characteristic vascular pattern of BCC and the pres-

ence of ulceration or erosions were the most useful criteria 

for the diagnosis of non-pigmented BCC [9]. Rosendahl et al 

investigated the dermatoscopic pattern of SCC in a study that 

included a large set of non-pigmented skin tumors with 20 

different diagnoses. In addition to their primary findings, the 

authors found a strong association between the presence of 

arborizing vessels and the diagnosis of BCC [28].

Superficial BCC has to be differentiated from other skin 

tumors (mainly in-situ SCC) and inflammatory skin diseases 

(Figure 9). The clinical discrimination between sBCC and BD 

can be enhanced by dermatoscopy, which typically reveals 

shiny white/red structureless areas and superficial fine tel-

angiectasia in the former and glomerular vessels in the latter 

[13]. Recently, Pan et al assessed the diagnostic accuracy of 

dermatoscopy for differentiating among sBCC, BD and soli-

tary psoriatic plaques and found the following criteria to be 

associated with BCC: scattered vascular pattern, arborizing 

microvessels, telangiectatic or atypical vessels, milky-pink 

background and brown dots/globules. The authors reported 

a diagnostic probability of 99% if four of these six features 

were identified [13]. The dermatoscopic diagnosis of pig-

mented sBCC is usually straightforward even in small and 

clinically inconspicuous lesions (Figure 10). This is because 

pigmented sBCC displays dermatoscopic criteria correspond-

ing to dermo-epidermal melanin deposition (maple leaf-like 

areas, spoke wheel areas, concentric structures), which are 

highly specific for the diagnosis of BCC.

In contrast to its usefulness for discriminating BCC from 

keratinocyte skin cancer, dermatoscopy seems insufficient 

to differentiate between BCC and adnexal tumors [29]. The 

latter group comprises sebaceous, follicular, eccrine and 

apocrine neoplasms, several of which have been character-

ized as dermatoscopic “mimickers” of BCC [30]. Tricho-

blastoma, trichoepithelioma, pilomatrichoma, cylindroma 

and eccrine poroma are only some of the entities reported 

to dermatoscopically exhibit linear branching vessels and 

blue-gray globules, similar to those seen in BCC [29,31-35]. 

In this context, it has been suggested that the differential 

diagnosis might be facilitated by the observation that the 

vessels of adnexal tumors are usually less focused, or by the 

detection of whitish or yellowish structures that have been 

associated with follicular and sebaceous tumors, respectively 

[29]. However, the validity and usefulness of the latter der-

matoscopic clues and the possible value of dermatoscopy 

for differentiating between BCC and adnexal tumors require 

further elucidation.

Dermatoscopy for management 
of BCC
In addition to its well-documented value for the diagnosis 

of BCC, dermatoscopy continuously gains an essential role 

in the management of the tumor. In our era, the therapeutic 

armamentarium of clinicians for BCC includes several sur-

gical methods as well as non-surgical modalities [36]. The 

Figure 9. Three clinically similar erythematous and slightly scaly flat lesions. Dermatoscopy of the first 

case revals superficial fine telangiectasia and few blue-gray dots, suggestive of the diagnosis of super-

ficial BCC (a). The second lesion dermatoscopically displays dotted and glomerular vessels and yellow 

crusts, which indicate the diagnosis of Bowen’s disease (b). Dermatoscopy of the third plaque reveals 

the typical pattern of psoriasis, consisting of regularly distributed dotted vessels and white scales (c). 

[Copyright: ©2014 Lallas et al.]



Review  |  Dermatol Pract Concept 2014;4(3):2 17

choice of the appropriate treatment depends on several fac-

tors including the histopathologic subtype, the presence of 

pigmentation or ulceration, the tumor depth, the anatomical 

site and the presence of residual disease or recurrence [36,37]. 

Dermatoscopy has been shown to provide valuable informa-

tion for several of the aforementioned parameters.

Dermatoscopy for predicting the 
histopathologic subtype
The histopathologic subtype is the most crucial factor influ-

encing the treatment choice for BCC [36,38]. This is because 

the response rates of different tumor subtypes to a given treat-

ment modality vary significantly. Superficial BCC, despite 

of its overall indolent physical course, has been classified in 

the past among high-risk subtypes, on the basis of its high 

recurrence rates after surgery [38-40]. This can be explained 

by the natural tendency of the tumor to expand peripher-

ally beyond clinically visible margins, which often results in 

incomplete surgical excision and subsequent recurrence. In 

the recent years, sBCC has been shown to respond perfectly to 

non-ablative treatments such as imiquimod or photodynamic 

therapy, prompting experts to recommend the latter modali-

ties as first-line therapeutic options for this subtype [41-46]. 

In contrast, nodular BCC is associated with high response 

rates to surgery (up to 98%), while non-surgical treatments 

are much less effective [36,47-49]. Management of infiltrative 

and sclerodermiform BCC are more troublesome, since they 

are characterized by considerable recurrence rates following 

surgery (up to 40%) while they respond poorly to non-surgi-

cal modalities [36,45,47-49]. Mohs’ surgery is suggested as 

the treatment of choice for the latter subtypes [50,51].

Dermatoscopy has been shown to provide valuable infor-

mation for the pre-operative classification of BCC, since 

several lines of evidence suggest that different histopathologic 

subtypes exhibit different dermatoscopic patterns (Table 2, 

Figure 11) [1,4,7,9,11,12].

The latter observation is reasonable, since the dermato-

scopic criteria of BCC correspond to underlying histopatho-

logic alterations [18,19].

Dermatoscopy of non-pigmented nodular BCC, which is 

the commonest subtype, typically reveals a translucent pink-

ish tumor. Arborizing vessels represent the dermatoscopic 

hallmark of nodular BCC, while ulceration is also a common 

finding. Pigmented nodular BCC is dermatoscopically typified 

by blue-grey ovoid nests or multiple blue-gray dots/globules, 

usually associated with arborizing vessels. Structures corre-

sponding to dermo-epidermal pigmentation, including maple 

leaf-like areas, spoke wheel areas and concentric structures 

are less frequently observed in nodular tumors, being typi-

cally distributed at the peripheral, more superficial part of 

the lesion [1,9,11].

Infiltrative and sclerodermiform BCC also display branch-

ing vessels under dermatoscopy. However, they are usually 

finer, more scattered and show fewer branches compared to 

the classic vessels of nodular BCC. In addition, in contrast to 

the global translucent pinkish color of nodular BCC, infiltra-

tive BCC often exhibits white/red structureless areas, while 

the underlying fibrosis of sclerodermiform BCC results in a 

dermatoscopically whitish background [11,12].

In contrast, superficial BCC usually lacks the classic arbo-

rizing vessels, typically displaying superficial fine telangiecta-

sia with relatively few ramifications. Multiple small erosions 

Figure 10. Pigmented superficial BCC can be dermatoscopically recognized at an early stage, based on 

the characteristic morphology of the dermo-epidermal pigmented structures. (a) Although typical maple 

leaf-like areas have not been formed yet, the brown peripheral projections of this slightly pigmented sBCC 

can be easily recognized. (b) A pigmented sBCC arising within a solar lentigo, dermatoscopically typified 

by small blue-gray dots (black arrow). (c) Another collision of a solar lentigo and a small pigmented sBCC, 

the latter dermatoscopically exhibitng spoke wheel areas (white arrow). [Copyright: ©2014 Lallas et al.]



18 Review  |  Dermatol Pract Concept 2014;4(3):2

TABLE 2. Dermatoscopic criteria of basal cell carcinoma according to subtype. 
[Copyright: ©2014 Lallas et al.]

Dermoscopic criteria Definition

Superficial

  Pigmented

Superficial fine telangiectasia

Multiple small erosions
Shiny white-red structureless areas
Maple leaf-like areas
Spoke wheel areas
Concentric structures
Multiple blue-gray dots
In-focus dots
^ detection of blue-gray ovoid nests excludes the diagnosis of superficial BCC

Nodular

  Pigmented

Arborizing vessels

Ulceration
Short white streaks^^
Blue-gray ovoid nests
Multiple blue-gray dots
In-focus dots
Maple leaf-like areas*
Spoke wheel areas*
Concentric structures*
^^ seen only with polarized dermoscopy
* typically detected at the peripheral, superficial parts of the lesion

Morpheaform

  Pigmented

Arborizing vessels**

Ulceration
Whitish background
Blue-gray ovoid nests
Multiple blue-gray dots
In-focus dots
**usually finer, more scattered and with fewer branches
comparing to the vessels of nodular BCC

Infiltrative

  Pigmented

Arborizing vessels^^^
Ulceration
White-red structureless areas
Blue-gray ovoid nests
Multiple blue-gray dots
In-focus dots
^^^usually finer, more scattered and with fewer branches comparing to the vessels of nodular 
BCC

Fibroepithelioma of Pinkus White-pinkish background
Fine arborizing vessels in the center
Dotted vessels at the periphery

Basosquamous carcinoma

  Pigmented

Arborizing vessels
Keratin masses
White structureless areas
Superficial scale
Ulceration/blood crusts
Blood spots in keratin masses
Blue-gray ovoid nests
Multiple blue-gray dots



Review  |  Dermatol Pract Concept 2014;4(3):2 19

and shiny white/red structureless areas represent common 

additional dermatoscopic criteria of non-pigmented superfi-

cial BCC. When pigmentation is present in superficial tumors 

it is located at the level of dermo-epidermal junction, being 

dermatoscopically seen as translucent light brown to grayish 

concentric structures, spoke-wheel areas or maple leaf-like 

areas. Instead, detection of blue-gray ovoid nests signifies the 

presence of dermal pigmented basaloid nests, indicating that 

the tumor is not superficial [4,7,12].

Fibroepithelioma of Pinkus is an uncommon variant of 

BCC, dermatoscopically typified by a white-pinkish back-

ground color with fine arborizing vessels in the center and 

dotted vessels at the periphery [52,53].

Basosquamous carcinoma (BSC) was traditionally 

described as an uncommon aggressive variant of BCC. How-

ever, its biologic course and some clinical and epidemiologic 

data are rather similar to SCC. Heretofore, BSC is considered 

to represent a complex of tumors characterized by both basa-

loid and squamoid differentiation, in an apparent continuum 

between BCC and SCC [54-56]. The dermatoscopic charac-

teristics of BSC have been recently reported to mirror its pecu-

liar histopathology, since the tumor shares dermatoscopic cri-

teria of both BCC and SCC [57]. In detail, the most frequent 

dermatoscopic criteria of BSC are unfocused (peripheral) 

arborizing vessels, keratin masses, white structureless areas, 

superficial scale, ulceration or blood crusts, blue-grey blotches 

and blood spots in keratin masses. Notably, nearly all BSC 

were reported to exhibit at least one BCC-related plus one 

SCC-related dermatoscopic feature [57].

Figure  11. Representative examples of the dermatoscopic pattens of different BCC subtypes: (a) su-

perficial, exhibiting superficial fine telangiectasia, multiple small erosions and maple leaf-like areas; (b) 

nodular, displaying arborizing vessels, ulceration, blue-gray ovoid nests and multiple blue-gray dots; 

(c) infiltrative, showing a yellowish-red background and arborizing vessels with small calliber and few 

ramifications and; (d) morpheaform, exhibiting a whitish backround, few fine arborizing vessels and 

multiple brown dots. (e) Fibroepithelioma of Pinkus, typified by the combination of fine arborizing ves-

sels in the center and dotted vessels at the periphery; and (f) basosquamous carcinoma characterized by 

unfocused, peripheral arborizing vessels, a large whitish structureless area in the center and blue-gray 

ovoid nests at the lower part. [Copyright: ©2014 Lallas et al.]

Figure 12. Dermatoscopy of nevoid basal cell carcinomas (a-c) and 

palmar pits (d) in patient with Gorlin-Goltz syndrome. Although the 

brown pigmentation is similar to the one seen in nevi, the diagnosis 

of BCC can be based on the presence of blue-gray nests and arboriz-

ing vessels (a), multiple blue-gray globules (b), and multiple blue-

gray dots and superficial fine telangiectasia (c), respectively. Derma-

toscopy of the palmar pits reveals linearly arranged dotted vessels 

(d). [Copyright: ©2014 Lallas et al.]

Nevoid BCC is an uncommon variant of the tumor, typically 

associated with patients with Gorlin-Golz syndrome. Although 

dermatoscopy of nevoid BCC may show brown pigmentation 

similar to the one seen in nevi, it also typically reveals blue-

gray dots, globules or nests, often combined with arborizing 

vessels. In the context of Gorlin-Goltz syndrome, dermatos-

copy facilitates also the recognition of the characteristic palmar 

pits, by revealing lineary arranged dotted vessels (Figure 12).



20 Review  |  Dermatol Pract Concept 2014;4(3):2

A recent study investigated the accuracy of dermato-

scopic criteria for discriminating superficial from the other 

subtypes of BCC [58]. This is particularly relevant in clinical 

practice, since the possible misinterpretation of a nodular 

or infiltrate tumor as superficial BCC could lead the clini-

cian to the inappropriate choice of a non-surgical treatment 

modality. According to the results of the latter study, the 

presence of short fine telangiectasia, multiple small erosions 

and structures corresponding to dermo-epidermal pigmenta-

tion predict the superficial subtype. In contrast, detection of 

ovoid nests should lead clinicians to exclude the diagnosis of 

superficial BCC, while arborizing vessels and large ulcerations 

are also suggestive of nodular, sclerodermiform or infiltrative 

tumors. The sensitivity and specificity of this algorithm for 

the diagnosis of superficial BCC were 81.9% and 81.8%, 

respectively [58].

Dermatoscopy for assessing the presence 
of pigmentation
The frequency of pigmentation in BCC varies significantly 

among different races, since pigmented BCC accounts for 

less than 10% of BCCs in Caucasians, while the majority of 

BCCs in Hispanics and Asians and virtually all BCCs in black 

individuals are pigmented [22-26]. Notably, histopathologi-

cal studies found trace amounts of pigment in a considerable 

percentage of clinically non-pigmented BCCs [24]. This is 

explained by the fact that when only scarce foci of pigmenta-

tion are present, they might be insufficient to result in clini-

cally evident pigmentation.

The presence of pigmentation is not routinely reported in 

histopathologic reports, since in the past it was not considered 

to influence the management and prognosis of the tumor 

[38,39]. However, the induction of PDT in BCC treatment 

restored the importance of pigmentation, since its presence 

was shown to influence the tumor’s response. In detail, case 

series studies reported a poor response of pigmented BCC 

to PDT, compared to non-pigmented variants (14% versus 

62-100%) [43,59]. This was incorporated in recent guidelines 

on the use of PDT, suggesting that the method is generally not 

recommended for pigmented tumors [43,60]. The low efficacy 

of PDT in pigmented tumors has been attributed to melanin, 

which appears to act as a competitive light-absorbing pig-

ment, decreasing response rates.

Effectively, the presence of clinically undetectable pig-

mentation might represent a diagnostic pitfall for clinicians, 

forcing them to apply an ineffective treatment on a subset of 

BCCs. This problem seems to be, at least partially, solved by 

the application of dermatoscopy, which was recently shown to 

reveal clinically undetectable pigmentation in approximately 

30% of macroscopically non-pigmented BCCs, enhancing 

clinicians to better select tumors potentially sensitive to PDT 

and minimize treatment failures (Figure 13) [61].

Dermatoscopy for assessing excision margins
Positive surgical margins represent the most potent predic-

tor of BCC recurrence [62,63]. Incomplete surgical excision 

usually follows removal of tumors located on the face, while 

recurrence is also associated with BCC subtypes that are char-

acterized by a tendency to expand beyond clinically-visible 

margins [36,63]. The most reliable method to overcome the 

problem of positive surgical margins is Mohs’ surgery, which 

is suggested as the optimal treatment for aggressive tumor 

subtypes (e.g, morpheaform BCC) and for BCCs located 

on the face [50,51]. However, with the exception of highly 

Figure 13. (a) The presence of pigmentation in this BCC is both clinically and dermatoscopically evident. 

(b) Macroscopically, a few pigmented dots can be hardly seen in this BCC. Dermatoscopy reveals clear-cut 

pigmented structuress, namely blue-gray globules and nests. (c) On clinical grounds, this BCC is judged 

as non-pigmented. Dermatoscopy reveals clinically undetectable pigmentation (blue-gray dots/globules). 

[Copyright: ©2014 Lallas et al.]



Review  |  Dermatol Pract Concept 2014;4(3):2 21

specialized clinical settings, the traditional surgical excision 

remains the choice treatment in the majority of BCCs. Using 

the recommended lateral excision margins of 3mm, the con-

ventional surgery has been associated with recurrence rates 

up to 17% [48,49,62].

Dermatoscopy, by providing a more accurate assessment 

of the true extension of the tumor, allows a more precise esti-

mation of the required surgical margins, helping to minimize 

the recurrence rate. Specifically, Carducci et al. suggested that 

the margins of the perilesional healthy skin can be defined 

by the absence of the well-known dermatoscopic criteria of 

BCC [14]. The discrimination of BCC vessels from the der-

mal plexus vasculature of the surrounding healthy skin can 

be based on the blurred appearance and dark red-to-purple 

color of the surrounding sun-damaged skin, in contrast to 

the bright-red and focused vessels of the tumor (Figure 14) 

[12,14]. While the diagnostic significance of pigmented 

structures, such as blue-gray ovoid nests, blue-gray globules 

or maple leaf-like areas is unquestionable, the usefulness of 

vascular structures in defining the surgical margins is con-

troversial. Mun et al. suggested that arborizing vessels and 

superficial fine telangiectasia do not directly correspond to 

BCC cells, but represent feeding vessels of the tumor and 

may extend also to the perilesional skin [64]. Subsequently, 

if vessels are considered helpful in defining excision margins, 

there is the risk of unnecessarily removing healthy skin sur-

rounding the BCC [64]. Although Mun’s hypothesis seems 

reasonable, it was supported by only one published case and, 

accordingly, the question whether vascular structures should 

Figure  14. Defining the surgical margins of this BCC developing 

on telangiectatic, sun-damaged skin is troublesome. Dermatoscopy 

facilitates the determination of tumor margins, by enhancing the 

discrimination between tumoral vessels and telangiectasia of the 

healthy skin. Specifically, the BCC vessels are bright red, appear 

sharply in focus and exhibit evident ramifications to finer capillaries 

(black arrows). Instead, the telangiectatic vessels of the surrounging 

skin are more blurred, unfocused and show few, if any, branches 

(white arrows). [Copyright: ©2014 Lallas et al.]

be considered for defining surgical margins of BCC remains 

to be further elucidated.

Dermatoscopy for monitoring response 
to non-ablative treatments
As mentioned above, non-ablative modalities have become 

very popular among dermatologists for the treatment of 

superficial BCC, achieving high response rates [46,65]. A 

common problem associated with non-ablative modalities is 

the post-treatment evaluation, since at the end of a treatment 

cycle, the clinical morphology of the lesion often does not 

allow a reliable estimation of the possible presence of residual 

disease. In this context, clinicians have to choose among the 

more conservative “wait and see” strategy, the safe option of 

performing a new diagnostic biopsy or the more aggressive 

approach of proceeding to a second therapeutic course or to 

another treatment modality. These scenarios are associated 

with the risk of under-treating a persisting tumor, over-

treating a healed tumor and prolonging patient’s morbidity 

and economic costs, respectively.

Dermatoscopy was recently shown to improve the post-

treatment evaluation of BCC following non-ablative proce-

dures; dermatoscopy facilitates the accurate assessment for 

the presence or absence of residual disease and minimizes 

the aforementioned risks of under- or over-treatment of BCC 

[66]. Specifically, the disappearance of the dermatoscopic 

criteria of BCC after treatment was shown to accurately 

predict histopathologic clearance, while the persistence or 

new appearance of some BCC criteria correlates well with 

persistence and relapse, respectively. According to the results 

of a recent study, the presence of arborizing vessels, ulcer-

ation or pigmented structures (e.g., blue-gray ovoid nests 

and maple leaf-like areas) accurately predicts residual disease, 

and should prompt the clinician to continue the treatment. 

Instead, red/white structureless areas and/or superficial fine 

telangiectasia might represent equivocal features, since they 

do not always correspond to residual disease [66]. Effectively, 

detection of the latter criteria warrants close monitoring to 

recognize a possible recurrence of the BCC (Figure 15). Of 

note, in a series of BCCs treated with imiquimod, arborizing 

vessels, maple leaf-like areas and spoke-wheel areas were 

reported to decrease in size and number at an early stage after 

treatment initiation, while ovoid nests and multiple blue-gray 

globules persisted for a longer period of time [17]. Detection 

of blue-gray globules has also been reported to be valuable 

for early diagnosis of disease recurrence.

Conclusion

While in the past dermoscopy was considered a second-level 

tool for evaluation of clinically equivocal skin tumors, in our 

era it represents an irreplaceable part of clinical examination. 



22 Review  |  Dermatol Pract Concept 2014;4(3):2

For BCC, dermoscopy not only augments the clinical differen-

tial diagnosis, but also seems to provide additional significant 

information for guiding the management of the tumor.

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