Inherited epidermolysis bullosa (EB) comprises a highly heterogeneous group of rare diseases characterized by exacerbated skin and/or mucosal fragility and blister formation after minor mechanical trauma. Level of cleavage in the skin, clinical features with immunofluorescence antigen mapping and/or electron microscopy examination of a skin biopsy and/or gene involved, type(s) of mutation present and sometimes specific mutation(s), allow to define the EB type and subtype. This family of genodermatoses exposes patients to several complications, cutaneous squamous cell carcinoma (cSCC) being the most severe of them.
Objective
The aim of this systematic review was to document patients with EB who developed cSCC.
Methods
A systematic literature search was performed, from inception to March 2014, using Medline, Embase, Cochrane and ClinicalTrials.gov databases. Only articles published in English and French were selected. The diagnosis of EB had to be confirmed by EM and/or IFM and/or mutation analysis, while cSCC had to be confirmed by histological analysis.
Results
Of 167 references in the original search, 69 relevant articles were identified, representing 117 cases. cSCCs were identified in all types of EB, though predominantly in recessive dystrophic EB (RDEB) forms (81 cases (69.2 %)). The median age at diagnosis was 36 years old (interquartile range (IQR), 27-48 years and range, 6-71 years) for all forms. Of those with measurements in the literature (88 cases (75.2 %)), tumor size was greater than 2 centimeters in 52 cases (59.1 %). The histopathological characteristics were specified in 88 cases (75.2 %) and well-differentiated forms predominated (73.9 %). No conclusion could be drawn on the choice of surgical treatment or the management in advanced forms.
Limitations
This study was retrospective and statistical analysis was not included due to various biases. This study design did not allow to infer prevalence, nor EB subtype risk for cSCC occurrence.
Conclusions
Our study correlated with historical data shows that most of the cSCCs occurred in subjects with the RDEB subtype, however reports also show that cSCCs can present in any patients with EB. The first signs of cSCC developed at a younger age in EB patients than in non-EB patients. Interestingly, the cSCC duration, before its diagnosis, was shorter in individuals with RDEB than with junctional EB (JEB) and dominant dystrophic EB (DDEB).
This study further emphasizes the importance of regular monitoring of EB patients, particularly with the RDEB subtype as they developed cSCC at a younger age.
Background
Epidermolysis bullosa (EB) is an inherited skin disorder characterized by exacerbated skin and/or mucosal fragility and blister formation after minor mechanical trauma.
Depending on the level of cleavage in the skin, four major types of EB can be distinguished by immunofluorescence antigen mapping (IFM) and/or transmission electron microscopy (EM): EB simplex (EBS), junctional EB (JEB), dystrophic EB (DEB), and Kindler syndrome (KS). There is extensive phenotypic variability leading to more than 30 phenotypic subtypes. A new classification has recently been proposed by Fine et al. for EB patients [1]. These patients are exposed to many complications, including nutritional and infectious problems [2]. The most common evolution and cause of death in these patients is cutaneous squamous cell carcinoma (cSCC), especially for patients with recessive dystrophic EB (RDEB), where cSCC generally becomes very aggressive and thus yields a poor prognosis [3‐5]. Although the occurrence of cSCC in EB is well known, the risk depending on the type of EB, the prognosis, the clinical and histological features as well as the methods of its management are poorly documented. A review was published in 2002 [4], but methodology was not described and new cases and technologies have appeared since then. Very recently, clinical practice guidelines for the management of cSCC in patients with EB have been published [6]. These recommendations have been drawn up from a systematic review of the available literature which has not been reported in detail.
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The objective of our study was to review all cases of EB published in the literature to better characterize cSCC associated with EB.
Material and methods
We performed a systematic review of all studies reporting or investigating the association of EB with cSCC.
Medline, Embase, Cochrane Central Register and ClinicalTrials.gov databases were systematically searched. Data from registries were not collected. An expert in the field, and member of the French group “Association Recommandations en Dermatologie (aRED)”, oversaw our activities to ensure that no relevant studies were missed. We used a combination of Medical Subject Headings (MeSH) for our search. The search terms, listed in Table 1, were defined with a librarian member of the aRED group. We limited the literature search to articles in English or French. No restrictions concerning the age or sex of the patients or date of publication were imposed. Full copies of the relevant papers were obtained. The diagnosis of EB had to be confirmed by EM and/or IFM and/or mutation analysis. Because most cases were reported before the updated classification [1] we did not use the latest recommended terminology. The diagnosis of cSCC had to be confirmed by histological analysis.
Table 1
Search strategy used for Medline/Embase/Cochrane Library/ClinicalTrials.gov in our systematic review
“Carcinoma, Squamous Cell”[Mesh]
OR
“Bowen’s Disease”[Mesh]
OR
“Neoplasms, Squamous Cell”[Mesh:noexp]
OR
“Acanthoma”[Mesh]
OR
“Carcinoma, Papillary”[Mesh]
OR
“Carcinoma, Verrucous”[Mesh:noexp]
OR
“Carcinoma, Adenosquamous”[Mesh]
OR
“Carcinoma in Situ”[Mesh]
OR
“Cervical Intraepithelial Neoplasia”[Mesh]
OR
“Prostatic Intraepithelial Neoplasia”[Mesh]
OR
“Squamous Cell Carcinoma”[title/abstract]
AND
(“Epidermolysis Bullosa”[Mesh:noexp]
OR
“Epidermolysis Bullosa Dystrophica”[Mesh]
OR
“Epidermolysis Bullosa, Junctional”[Mesh]
OR
“Epidermolysis Bullosa Simplex”[Mesh]
OR
“Poikiloderma of Kindler”[Supplementary Concept]
OR
“Epidermolysis Bullosa”[title/abstract]
OR
“Kindler syndrome”[title/abstract])
AND (English[lang]
OR
French[lang])
The following data were collected from the articles: 1. sex; 2. race/ethnicity categorized into North African, Caucasian, Asian and Hispanic; 3. Fitzpatrick skin type; 4. inbreeding; 5. family history of cSCC; 6. age at diagnosis of cSCC; 7. type and subtype of EB based upon IF, EM and genetic sequencing data; 8. clinical features of cSCC: localization (upper limb, lower limb, trunk, back, buttocks, and mucosa); clinical presentation of the tumor(s) (erosive, ulcerated, crusted, exophyting, hyperkeratotic); size of tumor(s) (≤2 cm, > 2 cm, > 5 cm); type of EB lesion on which the cSCC occurred (chronic blistering, atrophic scarring or healthy skin); 9. histological features: degree of differentiation (well differentiated, moderately differentiated, poorly differentiated, not specified); depth (dermis, subcutaneous fat, fascia, muscle, cartilage, bone, other, unknown); perineural invasion, lymphatic vessel invasion; 10. stage and evolution of disease (localized, regional or metastatic disease; alive or demise due to cSCC); 11. use of SLNB; use of 18 Fluorodeoxyglucose Positron Emission Tomography/computed tomography (18-FDG PET/CT) and 12 treatments (surgery, radiotherapy, systemic therapy).
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Statistical analysis
No statistical analysis, or meta-analysis, could be done due to the heterogeneity of the studies. There were many missing data for each variable and the retrospective design implicated too many biases, particularly publication and reporting biases. For these reasons, we did not incorporate statistical analysis in the study.
Results
The results of the search strategy are shown in Fig. 1. Sixty-nine articles were finally selected, representing 117 cases of EB affected by at least one cSCC. Forty-five patients (38.5 %) had at least 2 cSCC; among them 36 (80.0 %) were DEB patients, 7 (15.6 %) were JEB patients, 2 (4.4 %) were KS patients, and there were no EBS patients. All forms of EB were represented; the articles concerned 45 RDEB, 4 DDEB (dominant dystrophic EB), 6 JEB, 3 EBS and 6 KS. For 5 articles, several forms of EB were included in the same article. The repartition of reported cases among different types and subtypes of EB is presented in Table 2.
Repartition of reported cases among different types and subtypes of EB
Number of cases
Per type
EBS
3
JEB
19
DEB
88
KS
7
Per subtype
EBS-DM
EBS-AR
NS
H-JEB
nH-JEB
NS
DDEB
RDEB
7
1
1
1
0
18
1
7
81
RDEB- HS
20
RDEB- nHS
6
RDEB-I
2
NS
53
AR autosomal recessive, DDEB dominant dystrophic epidermolysis bullosa, DEB dystrophic epidermolysis bullosa, DM Dowling-Meara, EBS EB simplex, JEB junctional epidermolysis bullosa, KS Kindler syndrome, H Herlitz, HS Hallopeau-Siemens, nH non-Herlitz, nHS non Hallopeau-Siemens, RDEB recessive dystrophic epidermolysis bullosa, RDEB-I recessive dystrophic epidermolysis bullosa-Inversa, NS not specified
×
Considering all forms of EB: 1. No sex difference was observed except for JEB with a sex ratio of 3.75:1 for men: women; 2. a higher incidence of cSCCs in Caucasians (50.4 %) was observed compared to that observed in Asians, Northern Africans and Hispanics; 3. the median age at diagnosis was 36 years old (interquartile range (IQR), 27-48 years and range, 6-71 years); 4. only 16.2 % of EB cases were confirmed by molecular analysis; 5. Fitzpatrick skin type and sun exposure were never specified; 6. Family history was specified in only 38 cases (32.5 %) and was present in 13 cases (34.2 %); 7. the majority of cSCCs occurred on lower (54.7 %) and upper extremities (30.8 %) and mucosal SCCs were described in ten cases (8.6 %); 8. clinical features were specified in 98 cases (83.8 %), the most frequent being ulcerations, in 44 cases (44.9); 9. of those reported in the literature with measurements (88 cases (75.2 %)), tumor size was greater than 2 centimeters in 52 cases (59.1 %); 10. the mean time between the occurrence of cSCC and the confirmed diagnosis from a biopsy was specified in 42 cases (35.9 %) and was 9.7 months; 11. the degree of differentiation was specified in 88 cases (75.2 %) and well-differentiated forms predominated (73.9 %); 12. metastases were specified in 88 cases (75.2 %), with 14 cases (15.9 %) and 20 cases (22.7 %) of loco-regional and visceral metastases, respectively; 13. death related to cSCC was specified in 78 cases (66.7 %) and was related to cSCC in 32 cases (41.0 %). Four patients were lost to follow-up; 14. a relapse of cSCC, was specified in 72 cases (61.5 %) and occurred in 26 cases (36.1 %); 15. time to recurrence was specified in 26 cases (22.2 %) and the mean time was 14.9 months. The detailed demographic, clinical and histopathological features of the patients are presented in Table 3.
Table 3
Detailed demographic, clinical and histopathological features of the patients
All n (%)
EBS
JEB
DEB
DDEB RDEB
KS
Sex
M n (%)
63 (53.8)
2
15
5
37
4
F n (%)
54 (46.2)
1
4
2
44
3
SRj (M/F)
1.17
2
3.75
2.5
0.84
1.33
Ethnicity
Caucasian
59 (50.4)
1
16
3
36
3
Asian
10 (8.5)
1
0
0
8
1
North African
5 (4.3)
0
0
0
5
0
Hispanic
1 (0.9)
0
0
0
0
1
NS
42 (35.9)
1
3
4
32
2
Median age at diagnosis years (range), specified in 117 cases (100 %) n = number of patient
36
(6-71)
117
41
(39-41)
3
49
(28-71)
19
45
(34-69)
7
32.5
(6-67)a
81
38.5
(16-65)
7
Genetic mutations confirmed diagnosisb
19 (16.2)
2
7
1
6
3
Fitzpatrick skin type and sun exposure
NS
NS
NS
NS
NS
NS
Family history of cSCCc
Present
13
1
4
3
4
1
Absent
25
2
1
2
19
1
NS
79
0
14
2
58
5
Locationd
Lower limb
64 (54.7)
2
13
6
41
2
Upper limb
36 (30.8)
0
4
1
28
3
Other
7 (5.9)
0
Sacrum: 1
0
Groin: 1
Neck: 1 Buttock: 1
Back: 1
Trunk: 1
Head: 1
0
Extra-cutaneous
10 (8.6)
Tongue: 1
Vulva: 1
Nasal cavity: 1
Anal: 1
0
Maxillary sinus: 2
Esophagus: 2k
Hard palate: 1
Epiglottis: 1
Clinical featurese
Ulcerated
44 (44.9)
2
5
6
28
3
Exophytic/
hyperkeratotic
36 (36.7)
0
3
1
30
2
Verrucous,
crusted
or erosive
18 (18.4)
1
4
0
13
0
NS
19
0
1
6
10
2
Sizef
specified in 88 cases
(75.2 %)
>2 cm <5 cm
19 (21.6)
0
1
1
15
2
≥5 cm
33 (37.5)
1
5
3
22
2
≤2 cm
36 (40.9)
0
0
0
34
2
NS
29
2
12
3
11
1
cSCC durationg, specified in 42 cases (35.9 %)
n = number of patient
mean (months, mo)
(median, range, mo)
42
9.7
(6, 1-36)
1 (4mo)
NA
NA
5
13.2
(7, 5-36)
4
14.8
(9, 5-36)
29
9.0
(6, 1-36)
3
5.3
(6, 2-6)
Histopathological
Characteristicsh
specified in 88 cases
(75.2 %)
Well differentiated
65 (73.9)
1
10
7
44
3
Moderately differentiated
16 (18.2)
1
2
0
11
2
Poorly differentiated
7 (7.9)
1
0
0
5
1
NS
29
0
7
0
21
1
Metastases, specified in 88 cases
(75.2 %)
Loco-regional
14 (15.9)
1
0
0
10
3
Visceral
20 (22.7)
0
2l
0
18
0
Death related to cSCCi, specified in 78 cases (66.7 %)
32 (41.0)
0
6
0
25
1
Relapse, specified in 72 cases (61.5 %)
Yes
No
26 (36.1)
46 (63.9)
1
1
1
14
0
2
22
27
2
2
Mean time to recurrence (months), specified in 26 cases (22.2 %)
14.9
NA
(1case)
NS
(2cases)
33
(6cases)
1
(1case)
9.5
(18cases)
1
(1case)
DDEB dominant dystrophic epidermolysis bullosa, DEB dominant epidermolysis bullosa, EBS EB simplex, F female, JEB junctional epidermolysis bullosa, KS Kindler syndrome, M male, RDEB recessive dystrophic epidermolysis bullosa, RDEB-I recessive dystrophic epidermolysis bullosa-Inversa, NS not specified, NA not applicable
aSix cases were reported in childhood or adolescence (range 6-17years), all of them affecting RDEB patients
bThe mutated genes depending on EB type and subtype are defined in Table 4
cFamily history was specified in only 38 cases (32.5 %)
dExcept for one patient with JEB, cSCCs occurred in areas of chronic blistering, non-healing erosions/ulcerations or atrophic scarring. When a patient had several cSCCs, the most relevant location was taken into account
eClinical features were specified in 98 cases (83.8 %)
fWhen for the same patient several cSCCs developed the one with the largest size was taken into account
gThe time between the occurrence of cSCC and the confirmed diagnosis from a biopsy
hUnusual histological findings: verrucous cSCC (7 cases) and 2 angiosarcoma-like cSCC (2 cases). Depth beyond dermis, depth beyond subcutaneous fat, perineural invasion and lymphovascular invasion, were very rarely reported: depth mentioned in only 12 cases (8 RDEB, 2 JEB, 1 KS and 1 EBS) and perineural invasion in only 1 case (KS)
iAmong these 78 cases, the death was related to SCC in 32 cases. The outcome of patients was not specified in 29.9 % (n = 35) of cases. Four patients were lost to follow-up
j Sex ratio; kOne of the 2 cases concerned RDEB-I j (for the second case of RDEB-I cSSC was on the lower limb); l Lung metastases for one, NS for the other
The data available from molecular genetics analysis [5, 7‐20] are presented both in Tables 3 and 4.
Table 4
Evolution of the disease in EB patients for whom diagnoses were confirmed by molecular analysis (n = 19)
EB type
EB subtype
Involved genes and mutations
Consequences
Age of cSCC diagnosis
Metastases
Death related to (c)SCC
Relapse
Time to recurrence (months)
Comments
EBS
EBS-DM
KRT5 (n = 1)
c.1431G > C 38
p.Glu477Asp 38
“mid-thirties"
no
NS
yes
“few months”
Verrucous leg carcinoma
EBS-AR
KRT14 (n = 1)
c.1174G > T 34
p.Glu392Xaa 34
41
no
NS
NS
NS
SCC of the tongue
JEB
NH-JEB
LAMB3b (n = 5)
c.628G > A + 1628G > A 5
c.29insC1628G > A 5
c.628G > A11903C > T 5
c.1903C > T + 1048A > C 27
c.29insC + 2500C > T 39
COL17A1c (n = 2)
c.3236delC + 3236delC 5
4003delTC 12a
p.Glu210Lys + Glu210Lys 5
p.Leu11ProfsX43 + Glu210Lys 5
p.Glu210Lys + Arg635Xaa 5
p.Arg635X + Thr350Pro 27
p.Leu11ProfsX43 + Gln834Xaa 39
p.Ser1079CysfsX26 + Ser1079CysfsX65
NS 12 a
48
61
28
70
32
42
58
no
no
yes
no
yes
yes
no
no
no
yes
no
yes
yes
no
no
yes
yes
NA
yes
yes
no
NA
144
216
no
84
21
no
Death with lung metastases5
Follow-up period not specified27
Death with lymph nodes and lung metastases39
Death with lymph nodes and skin metastases5
Follow-up period not specified12
DEB
DDEB
COL7A1
(n = 1) 40
p.Gly2079Arg 40
38
no
NA
NA
NA
Lost to
follow-up
RDEB
RDEB-HS
COL7A1 (n = 3)
c.5287C > G 9
c.6266_6269delCCCC 9
c.5797C > T 41
c. 5532 + 5G > A 42
p.Arg1753Xaa 9
Frameshift deletion resulting in a premature stop codon 9
p.Arg1933Xaa 41
Splice site mutation resulting in a 45-bp deletion 42
33
25
22
no
yes
NS
NS
no
NS
NS
NA
NS
NS
NA
NS
Lymph nodes metastases but death due to secondary amyloidosis 41
AR autosomal recessive, DDEB dominant dystrophic epidermolysis bullosa, DEB dystrophic epidermolysis bullosa, DM Dowling-Meara, DNA deoxyribonucleic acid, EBS, EB simplex, JEB junctional epidermolysis bullosa, KS Kindler syndrome, HS hallopeau-Siemens, NH non-Herlitz, n-HS non Hallopeau-Siemens, RDEB recessive dystrophic epidermolysis bullosa, NA not applicable, NS not specified, KRT keratin, LAMB3 laminin subunit beta 3, COL17A1 collagen type XVII alpha 1, COL7A1, collagen type VII alpha 1, FERMT1 Fermitin family member 1, KIND1 Kindlin-1. All of these genes are named according to the HUGO Gene Nomenclature Committee [47]
aWe have chosen to write the mutation as it has been mentioned in the article (12,44), in order to do not misinterpret the data
bAll of these patients had laminin-332 reduced in immunofluorescence, except for the patient from the Mohr et al. study [13] with laminin-332 negative
cThese 2 patients were COL17A negative in immunofluorescence
dIn the article of Arita et al. [20], the gene was named KIND1, but it is currently known as FERMT1 according to the HUGO Gene Nomenclature Committee [47]
18-FDG PET/CT imaging was used in 5 cases (4 RDEB and 1 KS) [21‐24]. An increase in FDG uptake was observed three times: twice, it was due to lymph node metastases (1 RDEB and 1 KS) confirmed by biopsy analysis, and once, to a non-specific inflammation. In two cases imaging was negative [7, 22].
Sentinel lymph node
Four articles referred to the sentinel lymph node biopsy (SLNB) technique; all of them concerned RDEB patients. The procedure led to negative results in all cases. The outcome of these patients was not specified except for one, who was still alive 12 months after the procedure [8, 9, 25, 26].
Therapy
Surgery
Most surgical approaches aimed at macroscopic clear margins, with subsequent histological confirmation. The size of the surgical margins was not mentioned in 96 cases. When they were specified (22 cases), they were between 1 and 3 cm.
In one case of hand cSCC in KS, radiotherapy was performed to shrink the tumor before local excision. It did not prevent local and regional recurrence and a forearm amputation with lymph node dissection had to be performed. Evolution of this patient was not specified, in particular it was not mentioned if death related to cSCC occurred.
Surgical amputation of at least a part of a limb was performed in 30 cases (23 RDEB, 2 DDEB, 2 JEB, 2 KS and 1 EBS). It concerned knee or below-knee amputation of the leg (n = 10), a toe (n = 1), a foot (n = 1), and above-knee amputation in other cases (n = 2). Hand, forearm and arm amputations were done in 9, 3 and 4 cases, respectively. Among these 30 amputees, 10 died due to metastatic disease progression. Except for one case of JEB-non Herlitz (JEB-nH), all were RDEB patients. Two were lost to follow-up, and 4 cases of RDEB were still alive (post-amputation monitoring from 24 months to 8 years). For the others cases (n = 14) the evolution was not specified. Concerning the JEB-nH patient, a skin biopsy from non-lesioned skin showed a plane of cleavage within the lamina lucida on transmission EM and reduced immunostaining with GB3 antibody, but mutational analysis was not performed [10].
Only 4 tumors were removed using microscopically controlled excision (Mohs technique). For the 2 RDEB-patients one had no relapse after 16 months of follow-up; while for the other patient the excision was incomplete and had to be followed by amputation. The two other cases concerned JEB patients. In the first case a relapse with distant metastasis was observed 1 year after surgery. The other patient had no new primary tumor or metastases after 31 months of follow-up.
Systemic treatment
Systemic treatment was reported in 4 articles, representing 6 patients. Conventional chemotherapy was used for all; 3 patients received additional treatment with cetuximab.
Table 5 summarizes cases of cSCC treated by systemic treatment [21, 27‐29].
Table 5
Systemic treatment of cSCC in EB patients
Reference (s)
Age (yr)/sex
EB subtype
Site of cSCC
Histological differentiation/size of tumor (cm)
Site(s) of metastases
Treatment
Outcome
Schwartz16
55 F
DDEB
Lower extremity (knee)
Well/>5
Not applicable
Intra arterial Doxorubicin + MTX
Surgical excision
Survival unknown
Lentz17
22 F
26 F
RDEB
Upper extremity (forearm)
Trunk
Well/unknown
Unknown/>2 < 5
Axillary lymph nodes, pulmonary nodules
Axillary lymph nodes
Cisplatin
5FU-cisplatin
PR
Death from cSCC
PR, surgical resection, alive at 12mo
Arnold7
24 F
RDEB
Upper (elbow) and lower (feet) extremities
Well/>5
Axillary lymph nodes
1.5FU-cisplatin
2. carboplatin-taxol
3. cetuximab
1. PR
2. PD
3. GR, alive at 3mo
Kim18
26 F
43 M
RDEB
Upper (hand) extremity
Unknown
Moderately/>5
Well/>5
Axillary lymph nodes, pulmonary nodules
Axillary lymph nodes, pulmonary nodules
1. cetuximab
2. cetuximab-gemcitabine
1. cetuximab
2. MTX orally
3. MTX IV
1. PD
2. Death from pneumonia
1. PD
2. Death from pneumonia
cSCC squamous cell carcinoma, cm centimeter, DDEB dominant dystrophic epidermolysis bullosa, F female, GR good response, EB inherited epidermolysis bullosa, IV intravenously, M male, mo month, MTX methotrexate, PD progressive disease, PR partial response, RDEB recessive dystrophic epidermolysis bullosa, Yr year, 5FU 5 fluorouracil
Radiotherapy and topical photodynamic therapy
Radiotherapy for cSCC was reported in 16 articles while topical photodynamic therapy was addressed in another, representing a total of 19 patients treated by these methods (Table 6). Specifically, twelve of these patients had RDEB. Half of the reported KS cases (n = 3) were treated with radiotherapy. Two cases were JEB. No case of cSCC occurred in EBS, and no case of DDEB was treated with radiotherapy. The total radiation doses ranged from 12 to 72 Gy (median 50.4 Gy). The total doses for tumor bed irradiation ranged from 45 Gy to 72 Gy (median 60.6 Gy). For nodal metastases total radiation doses ranged from 12 to 50.4 Gy (median 45 Gy). The tumor response did not appear grossly correlated with the total dosage. Tolerance of the treatment was not always reported. Five patients presented with grade 1 skin toxicity (3 RDEB, 1 KS and 1 JEB). Grade 2 cutaneous toxicity was observed in 1 RDEB patient and grade 3 in 2 RDEB patients [5, 8, 21, 29‐41].
Table 6
Reported cases of (c)SCC, in EB patients treated by radiotherapy and topical photodynamic therapy
Reference (s)
Age yr/sex
EB subtype
Histological subtype of cSCC
Histological differentiation
Site(s) treated
Radiation delivery
Response
Survival (time before death)
Note (s)
Didolkar19
33 F
RDEB
Adenoacanthoma
Unknown
Sacrum
Cumulated dose = 60Gy
GR
Death (?)
Death due to hypercalcemia (and unknown metastasis)
Reed20
32 M
RDEB
Unknown
Unknown
Back
Unknown
GR
Death (3 years)
Death due to other cSCC
Keeff21
35 F
RDEB
Common
Well
Hand
3Gyx10 = 30Gy
3Gyx11 = 33Gy
PR then NR
Death (?)
McGrath22
48 F
RDEB
Angiosarcomatoid
Unknown
Wrist
Axilla
5Gyx9 = 45Gy
4Gyx3 = 12Gy
NR
PR
Death (6months)
Schreiber23
33 M
RDEB
Unknown
Unknown
Cervical lymphadenopathy
Unknown
Unknown
Unknown
Bastin24
41 F
28 M
RDEB
Common
Unknown
Well
Unknown
Axilla
Axilla
1.8Gyx32 = 57.6Gy
1.5x25Gy = 37.5Gy
PR then NR
NR
Death (4months)
Death (1month)
Lotem25
34 F
KS
Common
Well
Hard palate
1.8x40Gy = 72Gy
CR
Alive at 2 years
Weber12
26 F
RDEB
Common
Moderately
Leg and groin
Cumulated dose = 60Gy
PR
Death (7months)
Mseddi26
18 F
RDEB
Common
Well
Groin
Cumulated dose = 45Gy
NR
Death (2months)
Mallipedi27
45 M
JEB
Unknown
Unknown
Bladder
Unknown
Unknown
Unknown
Lost to follow-up
Souza28
51 F
RDEB
Bowen disease
Not applicable
Hand
Not applicable
CR
Alive at 2 years
PDT+ 5ALA
Emmanuel29
57 F
KS
Unknown
Moderately-poorly
Hand
Unknown
NR
Unknown
Neoadjuvant RTH
Arnold7
24 F
RDEB
Unknown
Well
Arm
Axilla
Cumulated dose = 61.2 and 50Gy
PR
Alive at 3months
Remission probably due in part to systemic therapya
Mituzani30
43 M
KS
Common
Well
Knee and epiglottis
Unknown
CR
Alive at 2.5 years
Yuen5
55 M
JEB
Common
Unknown
Nasal cavity
Unknown
CR
Alive at 7months
Onsun31
45 F
RDEB-I
Unknown
Well
Oesophagus
Unknown
NR
Death (8months)
Kim18
26 F
43 M
RDEB
Common
Moderately
Well
Axilla
Axilla
Unknown
NR
Death (6months)
Death (2months)
Despite systemic treatmentb, c
CR complete response, cSCC squamous cell carcinoma, F female, GR good response, EB inherited epidermolysis bullosa, JEB junctional epidermolysis bullosa, KS Kindler syndrome, M male, mo month, NR non-response, PDT photodynamic therapy, PR partial response, RDEB recessive dystrophic epidermolysis bullosa, RTH radiotherapy, Yr year, 5ALA 5 aminolevulinic-acid
a5FU-cisplatin then carboplatin-taxol then cetuximab
bcetuximab then cetuximab-gemcitabine
ccetuximab then methotrexate orally then methotrexate intravenously
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Discussion
Our systematic review of cSCC in EB gathered 117 cases. The most frequently published cases of cSCC arise in RDEB patients (81), followed by JEB (19), DDEB (7), and KS (7). cSCC in EBS (n = 3) appears as a rare event, at least rarely reported in the literature.
These data are consistent with the results of the analysis of the US National EB Registry showing that at least one cSCC occurred in 2.6 % (73/2745) of the study population [3]. The highest occurrence was noted in RDEB and JEB, with a frequency of cSCC, within their study population, of 50 % and 4.5 %, respectively. The lowest occurrence was noted in EBS and DDEB. KS was not mentioned in their study [3]. As to the gender, no difference was observed in the US National EB Registry nor in our study except for JEB with a sex ratio of 3.75:1 for men: women, suggesting, due to the lack of statistical data, that JEB occurs more frequently in men. Regarding ethnicity our study results contrast with those of Fine et al., who found no difference. Our study showed a higher incidence of cSCCs in Caucasians (50.4 %) compared to that observed in Asians, Northern Africans and Hispanics [3]; however, 35.9 % of cases were not specified in our study and these differences could be due to reporting bias and should be interpreted objectively.
According to the literature cSCCs in EB patients occur at a much younger age (median age at diagnosis 36 years [IQR], 27-48 years and range, 6-71 years) than in non-EB patients (median age at diagnosis 80 years ([IQR], 73-86 years (range not available, [42]), and 71 years (range, 37-93 years (IQR not available, [43]). The youngest reported patient in our review was a 6-year-old girl with RDEB-nHS (non Hallopeau-Siemens). Fine et al. reported a cumulative risk in RDEB-HS (Hallopeau-Siemens) growing steeply from 7.5 % by age 20 to 67.8 %, 80.2 %, and 90.1 % by ages 35, 45, and 55, respectively. They described a cumulative risk of 0.8 % by age 14 for RDEB-nHS. In JEB-Herlitz (JEB-H), the risk was 18.2 % by age 25. The frequency of cSCC in their study cohort was surprisingly higher in JEB-H patients (4.4 %, i.e., 2 patients out of 45) than in JEB-nH patients (0.5 %) [3]. However, in another study [5], all cases of cSCCs occurred in JEB-nH, and the authors suggested that long term survival JEB-H patients might in fact be cases of JEB-nH. These results are in accordance with ours (Table 2).
The accurate appreciation of a difference in the risk of occurrence of cSCC between various types of EB should ideally be based on a molecular diagnosis of EB subtype in order to avoid misclassification. However, very few genetic data was available at the time of our EB and cSCC literature review: in summary, the diagnosis of EB was predominantly based on clinical features, IF and/or EM data, with less than 20 % of EB cases being confirmed by molecular analysis. Further, there was insufficient data for statistical analyses to attribute cSCC risk with each EB type with or without the molecular mutations, as was presented by Fine et al. [3]. In this article we provide some descriptive information about this topic, but once again it highlights the literature gaps and reiterates the need for more detailed studies and case reports/series.
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Concerning data presented in Table 4, from JEB patients, all of them had laminin-332 reduced or negative in IF. Nevertheless, the lack of an epitope recognized by a laminin-332 chain monoclonal antibody does not necessarily mean there is a total absence of laminin-332. One of the main reasons is that total absence of laminin-332 almost always is lethal during infancy. Indeed, most often absence of staining with a monoclonal antibody is due to partial defects of laminin-332 caused by missense or deletion mutations which disrupt the epitopes recognized by the particular laminin antibody used. In our presented cases, the authors always used the monoclonal antibody GB3 which recognizes a conformational epitope that becomes disrupted even with subtle changes to the laminin-332 molecule.
The majority of cSCCs occurred on upper and lower extremities, particularly over bony prominences, and typically (99 % frequency) in areas of chronic non-healing ulceration(s). Indeed, only for one JEB-nH patient, cSCCs arose on non-affected skin. In our review, the occurrence on a sun-exposed area appears unusual and concerns only one case (RDEB-HS patient). The US National EB Registry reported 10 % and 100 % of cSCCs arising in a sun-exposed area in RDEB-HS and EBS patients respectively [3].
Although rarely reported, mucosal SCCs are possible and patients with dysphagia and/or dysphonia should be carefully examined. Importantly, one of the two cases of mucosal SCC occurring in an EBS-patients concerned a novel homozygous keratin 14 mutation in an autosomal recessive form of EBS (EBS-AR) [11]. Moreover, except for one case of esophageal SCC occurring in a non-smoking RDEB-I patient, no data are available concerning other potential risk factors (such as tobacco) for these extra-cutaneous locations. One explanation for mucosal SCCs in EB, could be the frequent and repetitive trauma to the mouth and throat from normal usage, resulting in cellular damage and then, over time, undifferentiated cancerous proliferation.
Our systematic review shows that it is difficult to evaluate prognostic factors in EB patients because of the frequent lack of use of AJCC (American Joint Committee on Cancer) Tumour Staging for cSCC [42, 43]. Prognostic factors such as poor differentiation, tumor diameter >2 cm, perineural invasion and invasion beyond subcutaneous fat, are rarely reported, rendering the staging difficult. Perineural invasion and the level of invasion are almost never mentioned (only 13 cases).
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Our study did not allow exact assessment of the frequency of recurrence. Indeed, in several cases it was not clearly specified if the occurrence of local relapse or regional and/or distant metastases were synchronous with the diagnosis of cSCC.
Early detection of regional lymph node metastases can improve patient prognosis. Studies have demonstrated that SLNB can detect subclinical lymph node metastasis in patients with high-risk cSCC [44]. For EB patients such an invasive procedure may not always be performed due to their fragility. In addition, regional lymph nodes in these patients are frequently enlarged due to associated persistent inflammation or chronic infection. Thus, the risk of a false positive is considerable. The same analysis can be done with 18-FDG PET/CT. With only 4 and 5 articles on these topics, the specificity and sensitivity cannot be assessed. So, currently, data are too scarce to draw any conclusions about the interest of SLNB and 18-FDG PET/CT in the management of EB patients with cSCC. In clinical practice, their significance should be discussed case by case.
The treatment of choice is wide and deep surgical excision. Very recently Mellerio and coworkers recommended a 2 cm excision margin around the tumor, as assessed clinically. They specify that it is often difficult to define the tumor extent clinically and that the excision margin may be limited by anatomical considerations [6].
Clear excision margins do not always ensure a cure, and surgery is often an aggressive approach to treat large tumor in which wound healing is delayed. This is particularly true for RDEB due to the fragility of the surrounding skin. Amputation is often unavoidable: in our review, this was the case in a quarter of the EB patients with cSCC.
Neoadjuvant radiotherapy could be an option to decrease the tumor’s size and to minimize the surgery. Conversely, it is necessary to be very careful with this approach because of the potential toxicity to the surrounding skin. In our review, only one case (KS) had neoadjuvant radiotherapy but this did not prevent recurrence and disease progression.
In a few cases, Mohs micrographic surgery was performed. However, there is no evidence that this technique reduces morbidity and mortality as compared with conventional excision [3].
Radiotherapy for EB patients, in particular in generalized forms, can be complicated by poor wound healing and skin ulceration due to low skin tolerance to ionizing radiation. In our review, 7 of 20 (35 %) tumors displayed a measurable reduction of their size following radiation. For three patients a complete response was observed. These results show that radiotherapy may be beneficial in the palliation of EB patients with advanced disease. Another approach could be topical photodynamic therapy for Bowen’s disease as used by Souza et al. in RDEB [38]. Indeed, the prevention of invasive disease, which requires a potentially mutilating treatment, is very relevant. Nevertheless, this topic is controversial and many physicians would not encourage conservation treatment of Bowen's disease in RDEB.
Regarding systemic chemotherapy with cytotoxic agents in cSCCs, combinations of cisplatin with 5-fluorouracil (5-FU) or doxorubicin, have demonstrated some degree of efficacy [45]. Due to its toxicity, systemic chemotherapy is generally avoided for EB patients, and there are only four reports of its use in EB associated cSCC [21, 27‐29]. Lentz et al., showed good tolerance for two patients with RDEB; one of them was treated with cisplatin alone, the other one with a combination 5-FU-cisplatin, with no significant toxicity to the skin or oral mucosa. Both patients had partial clinical responses. For one of them with lung metastases, the evolution was marked by progressive metastatic disease and early death. For the other, with only lymph node metastases, a satellite lesion developed on the chest after the fourth course of chemotherapy requiring resection of the lesion and right axillary lymph node dissection. The patient was still alive 12 months after surgery [28]. In the study by Fine et al., chemotherapy was used in 5.7 % of all RDEB patients. None experienced clinical benefits in terms of recurrence (data not shown) [3]. However, to establish any conclusions more data is required; systemic chemotherapy regimens could be palliative in this setting and should be interpreted objectively.
Single case reports and case series using the EGFR inhibitor cetuximab to treat patients with advanced or metastatic cSCC have been published [46]. For EB patients, Kim et al. used cetuximab as an adjuvant agent to surgery and radiotherapy in 2 RDEB patients. However, it did not prevent progression, leading to death [29]. Arnold et al. also tried cetuximab for one RDEB patient, after 2 lines of chemotherapy, and therapy was still ongoing after 3 months. However, this patient had only lymph node metastases without distant metastases [21]. The efficacy of using cetuximab in the treatment of advanced cSCC in EB patients has yet to be clarified. Its use as a neoadjuvant agent to surgery could be studied.
Our study complements the recent data published by Mellerio et al. [6]. In this systematic review the authors focused on the management of cSCC in EB-patients, and they established ‘best clinical practice’ guidelines. Interestingly and consistent with our data, most of their recommendations on “surveillance and diagnosis, tumor evaluation and staging, surgical and non-surgical treatment, prostheses and end-of-life care” have low levels of evidence, with a grade of recommendation D (D = evidence level 3; non-analytic studies, eg. case reports, case series or 4; expert opinion). Nevertheless, some good practice points were granted for the following items: the need for a multidisciplinary approach; interest of a lymphadenectomy in case of metastatic lymph node confirmed histologically; in some cases, a surgically aggressive approach such as amputation may be preferred to reduce recurrence risk; radiotherapy can be delivered but with caution, and in smaller fractions to minimize toxicity to surrounding skin; systemic therapy, with conventional chemotherapy or with target therapy, can be used palliatively taking into account the potential side effects; the crucial role of psychological support, both for the patients with EB and their family.
The main goal of our study was to detail, as exhaustively as possible, the cases of EB-patients with cSCC reported in the literature, and try to correlate and characterize this association. These results, as well as the results of those before us, must be viewed objectively because of the limitations of the analytic process. By its design, which incorporates data exclusively from single case reports or case series, this study cannot infer prevalence, incidence or risk of cSCC in the EB population. As EB is a rare disease, randomized trials or studies with a large number of patients are missing. When designing this study we were hoping to identify predictive factors of regional or distant metastases and/or death. We tried to see if sex, EB type and cSCC characteristics (location, size, clinical presentation and histological characteristics) could be predictive of disease progression, death and occurrence of metastases. Except for relapse and death due to cSCC which appear significant in the RDEB patients, we decided after an expert opinion and consultation with the statisticians, that these results were not relevant, whether in a univariate or multivariate analysis. In fact there was many missing data for each variable and the retrospective design implicated too many publications and biased reporting. For these reasons we did not incorporate any statistical analysis in this study.
Conclusion
To conclude, our review confirmed that most of the cSCCs occurred in RDEB patients, but also emphasized that this common skin neoplasm has been reported in all EB types.
The first signs of cSCC develop at a younger age in EB patients than in non-EB patients. This study suggests and highlights the importance of regular monitoring of all patients, including those with EB. Furthermore, our work shows that when reporting cSCC cases in EB patients efforts should be made to: 1) better delineate the EB type to better understand risk; and 2) use AJCC Tumor Staging for cSCC to better define prognostic factors in these patients. As for other orphan diseases, randomized studies with a large number of subjects are difficult to perform. This highlights the important role of reference centres, to centralize all cases of EB and establish national registries to facilitate and promote clinical research in this area.
HM, JPL decided the topics to be developed and the methods to be employed. HM performed the literature review. JPL supervised the entire process of manuscript. HM and JPL conceived the study, and participated in its design. CC and ES participated in the design of the study and helped to draft the manuscript. AC gathered and checked the molecular genetics data and helped us for the English editing. All authors have seen and approved the final manuscript.
Competing interests
The authors declare that they have no competing interests.
Consent for publication
Written informed consent was obtained from the authors and co-authors of this manuscript for publication of this review.
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