INTRODUCTION
Non-melanoma skin carcinomas (NMSC) are responsible for 30% of malignant tumors registered
in Brazil1. Basal cell carcinoma (BCC) is the most common subtype, accounting for 70% to 80%
of cases. Squamous cell carcinoma (SCC) is the second most prevalent subtype and has
a more aggressive behavior when compared to BCC2, 3.
Lesions arise preferably in segments with greater exposure to solar radiation, such
as the head, neck, trunk and upper limbs. Phototype, family history, immunosuppression
and exposure to chemicals and radiotherapy are risk factors for the development of
these tumors, which demonstrates their multifactorial etiology resulting from genetic
alterations, environmental factors and lifestyle4.
The ideal treatment for NMSC consists of surgical excision with free margins. Cases
with compromised margins are associated with greater morbidity and may require additional
management, such as margin expansion or radiotherapy, depending on the characteristics
of the lesion and the individual5.
OBJECTIVE
This study aims to evaluate the management of the anatomopathological finding of compromised
margins, in addition to describing the epidemiological profile of patients undergoing
surgical excision of NMSC in the surgery service of Hospital Municipal São José de
Joinville - SC.
METHODS
Study design
This is an observational, retrospective cohort study of a descriptive nature about
the approaches adopted in the face of compromised margins in the anatomopathological
study of non-melanoma skin tumors at Hospital Municipal São José, Joinville-SC. The
present study was evaluated by the Research Ethics Committee (CEP) of Hospital Municipal
São José and approved under opinion 4,388,189, and carried out according to the guidelines
established in Resolution 466/2012 of the National Health Council.
Study population
All patients who underwent primary excision of non-melanoma skin neoplasms, aged over
18 years, from January 2015 to December 2019 were included. The study did not include
patients with incomplete medical records for the variables analyzed.
Variables analyzed
Data were collected through the electronic medical record, and the following information
was analyzed: epidemiological profile (sex, age and color), location of the lesion,
anatomopathological analysis (histological type and surgical margins) and additional
management after anatomopathological evaluation.
Statistical analysis
Categorical variables were reported through absolute, relative and percentage. Bivariate
analysis was performed using Pearson’s chi-square test to certify the association
between categorical variables. The significance level was set at 5% (p<0.05). Data analysis was performed using IBM SPSS statistics version 23. Such analyzes
are presented through tables and graphs.
RESULTS
We analyzed 2457 non-melanoma skin tumors submitted to surgical excision between January
2015 and December 2019, resulting in a sample of 1459 patients. Among the patients,
there was a slight predominance of males (52.4%) and a prevalence of white color/ethnicity
(99.5%). Regarding age, 70% were over 61, predominating the age group from 61 to 75
(41.1%) (Table 1).
Table 1 - Analysis of the epidemiological profile of patients.
| Patient profile analysis (n=1459) |
|
Sex
|
|
| Male |
52.4% (765) |
|
Color
|
|
| White |
99.5% (1452) |
| Brown |
0.5% (07) |
|
Age range (years)
|
|
| 18 to 30 |
0.5% (7) |
| 31 to 45 |
5.2% (76) |
| 46 to 60 |
24.3% (354) |
| 61 to 75 |
41.1% (600) |
| 76 to 90 |
26.8% (391) |
| 91 to 105 |
2.1% (31) |
Table 1 - Analysis of the epidemiological profile of patients.
Basal cell carcinoma was more prevalent, with 75.0% of cases (n=1845), followed by
squamous cell carcinoma, with 23.7% (n=582), and basal squamous carcinoma, with 1.2%
(n=582) (n=30).
The face was the most affected location (62%, n=1525), followed by the upper limbs
(13.3%, n=328), accounting for more than 75% of the lesions (Figure 1).
Figure 1 - Analysis of the location of non-melanoma skin neoplasms.
Figure 1 - Analysis of the location of non-melanoma skin neoplasms.
When analyzing the distribution of the histological type by age group, as shown in
Figure 2, it is possible to see that basal cell carcinoma was the most common subtype in all
age groups up to 90 years. Only between 91-105 years of age did squamous cell carcinoma
present a higher prevalence.
Figure 2 - Analysis of the prevalence of the histological type by age group.
Figure 2 - Analysis of the prevalence of the histological type by age group.
The anatomopathological study showed free surgical margins in 84.2% of the cases.
In the analysis of surgical margins by age group, it can be seen that there was a
higher percentage of free margins among individuals aged 18 to 30 years (90%) and
a lower proportion among those aged 91 to 105 years (75.8%) (Table 2).
Table 2 - Analysis of surgical margins by age group.
| Age group |
Free margins |
Compromised margins |
Total |
| 18 to 30 years |
9 (90%) |
1 (10%) |
10 |
| 31 to 45 years |
113 (86.9%) |
17 (13.1%) |
130 |
| 46 to 60 years |
509 (85%) |
90 (15%) |
599 |
| 61 to 75 years |
822 (84.5%) |
151 (15.5%) |
973 |
| 76 to 90 years |
568 (83.2%) |
115 (16.8%) |
683 |
| 91 to 105 years |
47 (75.8%) |
15 (24.2%) |
62 |
| Total |
2068 (84.2%) |
389 (15.8%) |
2457 (100%) |
Table 2 - Analysis of surgical margins by age group.
When analyzing the surgical margins between the two main histological types, a greater
number of free margins is identified in basal cell carcinoma (85.6%) compared to squamous
cell carcinoma (80%).
Relating compromised margins and the location of the lesion, we noticed that the site
with the highest incidence was the face (19.7%), followed by the lower limbs (13.6%),
with the chest being the site with the lowest incidence (5%). (Figure 3).
Figure 3 - Analysis of surgical margins by location.
Figure 3 - Analysis of surgical margins by location.
Regarding the conduct adopted after evidence of compromised margins, observation was
chosen in 21.8% of the cases, and in 74.6%, a new intervention was indicated. There
was a loss to follow-up in 3.5% of patients with compromised margins. When these patients
are not counted, we have a rate of 77.3% of intervention and 22.7% of observation.
Individuals with basal cell carcinoma were the ones who underwent intervention the
most (79.4%), followed by squamous cell carcinoma (65.5%) (Table 3).
Table 3 - Analysis of the procedures adopted in the margins compromised by histological type.
|
Carcinoma basal cell |
Histological type Carcinoma spinocellular |
Carcinoma Basosquamous |
Total |
| Observation |
49 (18.3%) |
34 (29.3%) |
2 (33.3%) |
85 (21.8%) |
| Intervention |
212 (79.4%) |
76 (65.5%) |
2 (33.3%) |
290 (74.6%) |
| Tracking loss |
6 (2.3%) |
6 (5.2%) |
2 (33.3%) |
14 (3.6%) |
| Total |
267 |
267 |
6 |
389 (100%) |
Table 3 - Analysis of the procedures adopted in the margins compromised by histological type.
Figure 4 analyzes only the observational versus interventional conduct at different ages.
From the age of 46, there is a decrease in intervention rates, with an increase in
observation rates, and among individuals aged 18 to 30 years, there is a 100% intervention
rate. The oldest, between 91 and 105 years, had the highest percentage of observation
among age groups (42.9%).
Figure 4 - Conduct analysis by age group.
Figure 4 - Conduct analysis by age group.
The main interventions performed were widening the margins (55.6%) and radiotherapy
(42.4%). Analyzing the interventions by age group, it appears that widening the margins
was the intervention of choice for most individuals in almost all age groups, except
between 76 and 90 years, in which radiotherapy was more prevalent (Table 4).
Table 4 - Analysis of interventions by age group.
|
Age group |
Total |
| 18 to 30 years |
31 to 45 years |
46 to 60 years |
61 to 75 years |
76 to 90 years |
91 to 105 years |
| Magnification |
1 (100%) |
7 (58.3%) |
45 (60.8%) |
69 (57%) |
34 (46%) |
5 (62.5%) |
161 (55.6%) |
| Radiotherapy |
0 |
5 (41.7%) |
26 (35.2%) |
51 (42.2%) |
38 (51.4%) |
3 (37.5%) |
123 (42.4%) |
| Magnification + radiotherapy |
0 |
0 |
1 (1.3%) |
1 (0.8%) |
1 (1.3%) |
0 |
3 (1%) |
| Cryotherapy |
0 |
0 |
2 (2.7%) |
0 |
1 (1.3%) |
0 |
3 (1%) |
| Total |
1 |
12 |
74 |
121 |
74 |
8 |
290 (100%) |
Table 4 - Analysis of interventions by age group.
When relating the conduct in the face of the finding of compromised margins according
to the location of the lesion, we observed that the option to intervene was always
more prevalent. In the case of abdominal injuries, this option occurred in 100% of
the cases (Figure 5).
Figure 5 - Conduct analysis by location.
Figure 5 - Conduct analysis by location.
The most prevalent type of intervention in the abdomen, back, neck and limbs was margin
enlargement, while the face and scalp showed similar rates between enlargement and
radiotherapy. The chest was the only topography where radiotherapy was the most frequent
intervention (Figure 6).
Figure 6 - Intervention analysis by location.
Figure 6 - Intervention analysis by location.
Of the 161 patients who underwent a new surgical approach to widen the margins, it
was possible to analyze the anatomopathological results of 157, with 49.7% of these
individuals having a tumor-free sample and 38.2% free margins and 12.1% with compromised
margins. Of the latter who maintained compromised margins, 47.4% were kept under observation,
36.8% were referred for radiotherapy, 10.5% were indicated for further enlargement,
and 5.3% were lost to follow-up.
Pearson’s chi-square test was performed to identify whether there was a statistically
relevant relationship between the variables of age, surgical margins, management and
the histological type of the neoplasm. It was found that age above 61 years is related
to the histological type of squamous cells (p<0.05), with a relative risk (RR) of 1.572 (95%CI: 1.316-1.878; p<0.0001), but not with the presence of compromised margins (p=0.4). Squamous cell carcinoma is more related to the presence of compromised margins
(p<0.05), with a relative risk of 1.382 (95%CI: 1.135-1.683; p=0.0013). The choice between intervention or observation was related to the histological
type (p<0.05), but it was not possible to affirm its relationship with the age group (p>0.05).
DISCUSSION
Non-melanoma skin carcinomas are considered a public health problem in Brazil due
to their high prevalence and incidence. The South region has the highest number of
cases due to the predominance of Fitzpatrick skin phototypes I, II and III, which
are more vulnerable to sun exposure6, 7. In the present study, this fact was confirmed due to the majority presence of these
phototypes, corresponding to 99.5% of the patients in the evaluated sample.
We observed a higher prevalence of BCC (75%) concerning SCC (23.7%), which agrees
with the literature2, 8. Unlike the distribution between sexes, in which most studies present it as more
prevalent in women, in our study, it was more prevalent in males (52.4%)3, 7, 9. We hypothesize that men in this region have greater exposure to UV rays, mainly
rural workers since this is the main risk factor for developing NMSC3, 4, 7, 9. This risk factor is also related to the lesions located mainly in photoexposed areas3, 7. This study proved that to be true, with more than 75% of injuries to the face (62.0%)
and upper limbs (13.3%).
Regarding the age group with the highest overall prevalence of CNPM, our study revealed
a predominance of the number of cases between the sixth and seventh decades of life8. In this group, there was also a higher incidence of SCC, and in the age group of
91-105 years, the incidence of SCC surpassed that of BCC. Overall, our study showed
that the population aged 61 years and over is 57.2% (RR=1.572 (95% CI: 1.316-1.878;
p<0.0001)) more likely to develop SCC than younger individuals. This can be explained
by the fact that the main risk factor for the development of SCC is cumulative sun
exposure, which is proportional to the age of the individual7.
When evaluating free and compromised margins after surgical excision of the lesions,
84.2% of the samples in our study resulted in free margins without the need for additional
management. In 15.8% of the cases, the margins were compromised. These results were
similar to those found in other studies3, 10, 11. The highest rate of compromised margins was in the age group from 91 to 105 years
old. We believe the higher incidence of SCC can explain this in this population. Studies
by Gutjahr et al.10 and Quintas & Coutinho11 point to greater invasiveness of the SCC when compared to the SCC as a factor that
leads to higher rates of compromised margins. This was also clear in our study, in
which the relative risk of SCC with compromised margins was RR=1.382 (95% CI: 1.135¬1.683;
p=0.0013), that is, 38.2% more than the probability that the CBC.
Regarding the conduct performed after evidence of compromised margins, 74.6% of the
studied sample had a new approach, among which the expansion of margins (55.6%) and
referral to radiotherapy (42.4%) were the main, which goes against the results of
the study by Fidelis et al.5, in which clinical follow-up was the therapy of choice
in 60.8% of the cases. Enlargement was the preferred approach for patients aged 18-30,
performed in 100% of those with compromised margins. This rate was lower in patients
aged 91-105 years, with only 62.5% of them undergoing enlargement. In those patients
aged 76-90 years, radiotherapy was the most indicated therapy, reaching 51.4% of the
population.
The observational approach was adopted in 21.8% of the sample, which was also seen
in other studies, such as those by Fidelis et al.5 and Ocanha et al.12. The expectant management adopted in our service could be explained by increasing
the age of the patients, as evidenced by Fidelis et al.5, in which elderly patients make clinical follow-up acceptable in cases of compromised
surgical margins. Despite this, our study showed that the choice of conduct in the
population evaluated was not related to age (p=1.177) or the histological type of tumor (p=0.285).
When evaluating the intervention chosen due to compromised margins according to the
location of the lesion, we observed that the face and scalp were the locations where
radiotherapy and surgical enlargement had similar rates (52.2% x 45.7% and 50% x 50%).
The chest was the only location where radiotherapy was more indicated (66.7%); in
the others, surgical excision was preferred (66.7% - 100%). In this study, it was
possible to assess that lesions on the face had a high intervention rate (77.1%),
which can be explained by the higher photoexposure and high risk of recurrence. Concern
about the possible growth of the lesion and greater difficulty for future resections
and reconstructions may explain the higher rates of intervention on the face3, 5, 7, 8, 12.
CONCLUSION
With the present study, data were found that allow a better understanding of the profile
of patients with NMSC, as well as the percentage of compromised margins after initial
surgical excision and the measures taken based on the histopathological result. The
location of the lesion and the histological type are relevant factors in defining
the subsequent treatment; however, more studies are needed to elucidate the risk factors
related to the presence of compromised margins.
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1. Hospital Municipal São José, Cirurgia Plástica, Joinville, SC, Brazil.
2. Hospital Municipal São José, Residência de Cirurgia Geral, Joinville, SC, Brazil.
3. Univille, Curso de Medicina, Joinville, SC, Brazil.
4. Dermatologia, Joinville, SC, Brazil.
Corresponding author: Guilherme Augusto Bachtold R. Vinte e Cinco de Julho, 43 - América, Joinville, SC, Brazil Zip Code: 89204-080
E-mail: guilhermebachtold@yahoo.com.br
Article received: August 09, 2021.
Article accepted: December 13, 2021.
Conflicts of interest: none.
Institution: Hospital Municipal São José, Joinville, SC, Brazil.
