Dermatology: Practical and Conceptual


Letter  |  Dermatol Pract Concept 2018;8(3):15 227

DERMATOLOGY PRACTICAL & CONCEPTUAL
www.derm101.com

Use of dermatoscopy in the detection of squamous 
cell carcinoma in a patient with recessive 

dystrophic epidermolysis bullosa
Ruzica Jurakic Toncic1, Mikela Petkovic2, Slobodna Murat Susic1,  

Romana Ceovic1, Giuseppe Argenziano3

1 Department of Dermatology and Venereology, University Hospital Centre Zagreb, University of Zagreb School of Medicine, Zagreb, Croatia

2 Polyclinic Nola, Zagreb, Croatia

3 Dermatology Unit, University of Campania, Naples, Italy

Key words: severe generalized recessive dystrophic bullous epidermolysis, squamous cell carcinoma, dermoscopy, nonmelanoma skin cancer

Citation: Jurakic Toncic R, Petkovic M, Murat Susic S, Ceovic R, Argenziano G. Use of dermoscopy in the detection of squamous cell 
carcinoma in a patient with recessive dystrophic epidermolysis bullosa. Dermatol Pract Concept. 2018;8(3):227-230. DOI: https://doi.
org/10.5826/dpc.0803a15

Received: December 5, 2017; Accepted: March 6, 2018; Published: July 31, 2018

Copyright: ©2018 Jurakic Toncic 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: None.

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

All authors have contributed significantly to this publication.

Corresponding author: Ruzica Jurakic Toncic, MD, Department of Dermatology and Venereology, University Hospital Centre Zagreb, 
University of Zagreb School of Medicine, Zagreb 10000, Croatia. Email: rjtoncic@gmail.com.

Case Presentation

Epidermolysis bullosa (EB) is a heterogeneous group of dis-

orders. Inherited EB is classified into EB simplex, junctional, 

and dystrophic [1]. We present a case of a 33-year-old female 

patient with severe generalized recessive dystrophic epider-

molysis bullosa (RDEB-SG) who, since birth, has received 

follow-up in our Department and Referral Centre of the 

Ministry of Health and Social Welfare of the Republic of 

Croatia for hereditary bullous epidermolysis.

She presented with 5 non-healing lesions on the scalp, 

which were clinically very suggestive of squamous cell car-

cinoma (SCC). A year ago, the patient underwent surgical 

removal of a well-differentiated SCC in the occipital region 

and moderately differentiated SCC in the left parietotem-

poral region.

Clinically, in the occipital region, next to the margin of 

cutaneous flap of previously excised SCC, exophytic lesions 

and ulcerations were found. In the left parietotemporal 

region, an erosion measuring 3 cm in diameter with an 

elevated margin was found (Figure 1). Dermoscopy was per-

formed on 5 regions that clinically presented as ulcerations 

and revealed a red background. Lesions presented with an 

amorphous whitish or pinkish background along with poly-

morphous atypical vessels (Figure 2). In some areas, erosions 

were clearly seen. Histopathology confirmed diagnosis of 

moderately differentiated SCC in all 5 lesions.

Discussion

Inherited EBs are rare disorders that, according to data pub-

lished in 2016, have an overall incidence and prevalence dur-

ing a 5-year period of 19.60 and 8.22 in 1 million live births, 

respectively [1-4]. Recessive dystrophic epidermolysis bullosa 

(RDEB) is a rare genodermatosis characterized by generalized 

severe blistering, atrophic scarring, milia formation, pseudo-

syndactyly, mutilation, and development of severe disability 

[2]. These patients have multiple comorbidities and their life 



228 Letter  |  Dermatol Pract Concept 2018;8(3):15

wounds or skin lesions, a biopsy guided by experienced der-

moscopist should be performed.

An advantage of dermoscopy is that it is a noninva-

sive diagnostic tool, and use of non-contact dermoscopy 

is absolutely preferred. This is important because RDEB 

patients often suffer from chronic pain. In order to obtain 

good visualization, persistent crusts should be removed [1]. 

Dermoscopic criteria for SCC are well established; therefore, 

dermoscopy and photo documentation should be routinely 

used in detection of SCC. Dermoscopic features of early and 

advanced SCC, as well as dermoscopic criteria of well vs 

poorly differentiated SCC, have been described [6,7]. The 

most common pattern seen in poorly differentiated SCC is 

a red predominant color and randomly distributed small 

vessels, which can be dotted or irregular. Dermatoscopy of 

invasive well-differentiated SCC shows a white color, pre-

sented as an amorphous area or white perifollicular circles, 

white perivascular halos, and a polymorphous vessel pattern 

[6-8]. In dermoscopy of undifferentiated SCC, only atypical 

vessels could be expected, which can help differentiate SCC 

from surrounding ulcerated skin that is found in patients 

with RDEB [6].

Conclusions

Due to the high risk of development of SCC in patients with 

RDEB, it is recommended to follow-up with these patients on 

a regular 6-month basis [1]. Although it is time-consuming 

and inconvenient for the patient (due to discomfort and pain), 

it is absolutely necessary to remove and reapply all the dress-

ings to complete a full body checkup [1]. Regional lymph 

node examination is recommended in all patients [1]. Devel-

opment of multiple primary tumors has been described in 

more than 60% of the patients with RDEB, therefore meticu-

lous lifelong surveillance for additional SCC is a requisite in 

expectancy is shortened, with mean age of death of 23.35, 

and median of 22.09 years [3,5].

Death can occur during infancy or early childhood due 

to sepsis, pneumonia, renal failure, occlusion of the upper 

airway, or failure to thrive, but the leading cause of death in 

adults is cutaneous SCC [3,5]. Cutaneous SCC most com-

monly occurs in RDEB and represents the leading cause of 

death of these patients [1,5]. These patients have a 51.68% 

cumulative risk of developing SCC by the age of 30, with 

cumulative risk of death at 42.26% by that age [3]. EB-asso-

ciated SCC is more aggressive, has high metastatic potential, 

and presents a significant cause of mortality and morbidity. 

These tumors arise in chronic non-healing skin wounds dur-

ing mid to late adolescence [5]. Death from distant metastases 

occurs in the majority of patients within 5 years of diagnosis 

of the primary tumor [3,5].

The pathogenesis of SCC in RDEB is still unknown. 

These tumors preferentially occur on limbs, especially on 

bony prominences where the blistering and scarring are the 

most pronounced [1,2]. There is no obvious relationship 

to sun exposure, and the most common sites are long-term 

non-healing wounds or scars [1,3]. Presence of the chronic 

scar tissue in EB patients cannot itself fully explain this phe-

nomenon because tumors in scars or radiodermatitis are not 

characterized with such an aggressive biological behavior [3]. 

To date, there is no convincing evidence that RDEB SCC is 

different from non-RDEB SCC, but it is speculated that RDEB 

SCC has a permissive tumor microenvironment [2]. In RDEB, 

early diagnosis of SCC can be difficult as it can present simi-

larly to typical chronic ulceration with scarring and crusting 

[1]. In these patients, SCCs, similarly to burn scar tumors, 

usually start as an ulcer margin, with the possibility that only 

one portion of the ulcer undergoes malignant transformation, 

while the rest remains as a non-healing inflamed area [1]. 

Knowing this, if a RDEB patient presents with non-healing 

A B

Figure 1. Clinical findings. (A) Alopecia of the scalp with exophytic lesions and ulcerations in the occipital region next to the margin of 

cutaneous flap. (B) Erosion measuring 3 cm in size with elevated margin in the left parietotemporal region. [Copyright: ©2018 Jurakic 

Toncic et al.]



Letter  |  Dermatol Pract Concept 2018;8(3):15 229

2. Kim M, Murrell DF. Update on the pathogenesis of squamous cell 

carcinoma development in recessive dystrophic epidermolysis bul-

losa. Eur J Dermatol. 2015;25(suppl 1):30-32.

3. Fine JD, Johnson LB, Weiner M, Li KP, Suchindran C. Epider-

molysis bullosa and the risk of life-threatening cancers: the Na-

tional EB Registry experience, 1986-2006. J Am Acad Dermatol. 

2009;60(2):203-211. doi: 10.1016/j.jaad.2008.09.035.

4. Fine JD. Epidemiology of inherited epidermolysis bullosa based on 

incidence and prevalence estimates from the National Epidermoly-

sis Bullosa Registry. JAMA Dermatol. 2016;152(11):1231-1238. 

doi: 10.1001/jamadermatol.2016.2473.

5. Fine JD, Johnson LB, Weiner M, Suchindran C. Cause-specific risks 

of childhood death in inherited epidermolysis bullosa. J Pediatr. 

2008;152(2):276-280. doi: 10.1016/j.jpeds.2007.06.039.

6. Lallas A, Pyne J, Kyrgidis A, et al. The clinical and dermoscopic 

features of invasive cutaneous squamous cell carcinoma depend 

all RDEB patients [1,3]. Most EB-associated SCCs are well 

differentiated; however, it is not possible to predict biological 

behavior of a tumor simply on the basis of histological grade 

[1,3]. Because SCCs in this group of patients present with a 

more aggressive biological behavior, early diagnosis of this 

type of tumor is mandatory and we strongly encourage the 

experts dealing with this special group of patients to acquire 

necessary dermoscopic skills for early recognition of these 

tumors [3,9].

References

1. Mallipeddi R. Epidermolysis bullosa and cancer. Clin Exp Derma-

tol. 2002;27(8):616-623. doi: 10.1046/j.1365-2230.2002.01130.x.

A B

DC

E

Figure  2. Dermatoscopic findings of RDEB-associated SCC. (A) 

White amorphous area with pinkish background, atypical vessels, 

and erosions. (B) Red background with polymorphic atypical ves-

sels. (C) Red, pink, and white background with polymorphic atypi-

cal and tortuous vessels. (D) White area on pinkish background. (E) 

Pinkish background with white areas and polymorphic atypical ves-

sels. [Copyright: ©2018 Jurakic Toncic et al.]



230 Letter  |  Dermatol Pract Concept 2018;8(3):15

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