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Melanoma risk factors in a Latin American population How to cite this article: Nova JA, Sánchez-Vanegas G, Gamboa M, Gil-Quiñones SR. Melanoma risk factors in a Latin American population. An Bras Dermatol. 2020;95:531-3. ,☆☆ ☆☆ Study conducted at the Centro Dermatológico Federico Lleras Acosta, Bogotá, Colombia.

Malignant melanoma (MM) is a skin tumor associated with a high mortality worldwide. The five-year survival rate is 95% if melanoma is detected early and only 5% for metastatic melanoma.11 Giblin AV, Thomas JM. Incidence, mortality and survival in cutaneous melanoma. J Plast Reconstr Aesthet Surg. 2007;60:32-40. In Colombia, the national registry reported an increased incidence of melanoma from four to six cases per 100,000 people in merely four years.22 Sánchez GNJ, de la Hoz F, Castañeda C. Incidencia de cáncer de piel en Colombia, años 2003-2007. Piel. 2011;26:7. This highlights the importance of identifying melanoma risk factors, especially in Latin-American countries were the distribution of histopathological subtypes of melanoma is divergent with the reports in other countries, where acral lentiginous melanoma (ALM) is the most frequent MM subtype.33 Brandão FV, Pereira AF, Gontijo B, Bittencourt FV. Epidemiological aspects of melanoma at a university hospital dermatology center over a period of 20 years. An Bras Dermatol. 2013;88:344-53. Although a possible association with trauma has been reported, this association has not been clearly demonstrated.44 Jung HJ, Kweon SS, Lee JB, Lee SC, Yun SJ. A clinicopathologic analysis of 177 acral melanomas in Koreans: relevance of spreading pattern and physical stress. JAMA Dermatol. 2013;149:1281-8.,55 Li Y, Chen H, Chen G, Liu J, Zhu H, Nugasur B, et al. Trauma could as a triggering factor for development of acral lentiginous melanoma: a clinicopathologic study of 56 cases. Int J Clin Exp Pathol. 2016;9:7800-6.

Considering the aforementioned, a case-control study was performed between 2010 and 2014 in the population seen at the Federico Lleras Acosta Dermatology Center, a dermatological referral hospital in Bogotá, Colombia. Data from patients histologically diagnosed with melanoma were collected. The controls were those patients admitted to the same hospital for non-melanoma dermatological disease or non-melanoma skin cancer. All controls underwent a questionnaire and physical examination verifying that they had neither melanoma nor lesions clinically suggestive of melanoma. The cases and controls were age-matched by approximately five years. Two controls were assigned to each case

Sociodemographic variables, history of working outdoors and outdoor sports participation throughout life, insecticide exposure, smoking, sunburn history, and a family history of skin cancer were studied. Individual phenotypic features including skin phototype, eye color, hair color, and signs of sun damage were also studied.

Associations through the chi-squared test, Student's t-test and Wilcoxon rank-sum were used for statistical analyses and a multivariate analysis using conditional logistic regression was performed, with statistically significant, clinically relevant, and potentially confounding variables included. Data were analyzed using the statistical software Stata.

This study included a total of 243 participants; 81 cases and 162 controls. The average subject age was 64 years. Analyzing the age by subtype, the patients with lentigo maligna averaged 67 years; the patients with acral lentiginous melanoma and nodular melanoma averaged 63 years; and those with superficial spreading melanoma averaged 58 years.

Of the total participants, 160 were women (66%) and 83 were men (34%). In the case group, the female percentage was 68% (55/81); in the control group, it was 65% (105/162). Table 1 shows the histologic classification of the tumors. The most common melanoma subtype was acral lentiginous melanoma (32%), followed by lentigo maligna (29%). The melanomas were located mostly on the cheeks 21/81 (26%), nails 14/81 (26%), nose 11/81 (13%), and the soles of the feet 9/81 (11%).

Table 1
Histologic melanoma subtypes in the studied cases.

Nearly 73% (59/81) of the cases had completed secondary school, compared with 71% (115/162) of the controls, which was not a significant difference (p = 0.7 by chi-squared test).

Table 2 shows the results of the bivariate analysis which reveals that having worked outdoors during early adult life (15-30 years old) increased the risk of developing melanoma by 1.9 times. The most frequent occupations among cases and controls in this period were farming activities (54% vs. 67%), construction (5% vs. 4%), and outdoor sales (11% vs. 14%). No significant differences were found between both groups.

Table 2
Differences between variables related to sun exposure and phenotypic features for patients with melanoma and for controls.

The signs of chronic sun damage increased the risk of developing melanoma (Table 2). Phototypes 1 and 2 were more frequent in the case group - 51% (41/81) than in the control group - 42% (68/162); however, this difference was not significant.

History of insecticide exposure increased the risk of developing melanoma fourfold (OR = 4.8, 95% CI 1.29-22.23). Acral lentiginous melanoma was exhibited in 36% (4/11) of patients who reported exposure to pesticides. No significant differences between cases and controls were found in the other studied variables, such as smoking (35/81 vs. 72/162), sunscreen use (3/80 vs. 8/162), or the use of tanning beds (0).

Table 3 shows the risk factors identified after multivariate analysis, which included having blue or green eyes, actinic conjunctivitis, numerous freckles, and a history of ten or more sunburns throughout life.

Table 3
Risk factors for developing melanoma according to multivariate analysis.

This study found that, although skin phototypes III and IV predominate in Colombia, phenotypic characteristics such as hair color, light eyes (green, hazel, or blue), as well as the number of freckles and the history of sunburn increase the risk of developing MM.

Consistent with previous studies, this population develops ALM as the predominant MM subtype. The association found between exposure to insecticides and risk of melanoma could strengthen the argument that this is one important element in the explanation of ALM pathophysiology.

  • Financial support
    This study was developed and funded entirely by the Federico Lleras Acosta Dermatology Center.
  • How to cite this article: Nova JA, Sánchez-Vanegas G, Gamboa M, Gil-Quiñones SR. Melanoma risk factors in a Latin American population. An Bras Dermatol. 2020;95:531-3.
  • ☆☆
    Study conducted at the Centro Dermatológico Federico Lleras Acosta, Bogotá, Colombia.

References

  • 1
    Giblin AV, Thomas JM. Incidence, mortality and survival in cutaneous melanoma. J Plast Reconstr Aesthet Surg. 2007;60:32-40.
  • 2
    Sánchez GNJ, de la Hoz F, Castañeda C. Incidencia de cáncer de piel en Colombia, años 2003-2007. Piel. 2011;26:7.
  • 3
    Brandão FV, Pereira AF, Gontijo B, Bittencourt FV. Epidemiological aspects of melanoma at a university hospital dermatology center over a period of 20 years. An Bras Dermatol. 2013;88:344-53.
  • 4
    Jung HJ, Kweon SS, Lee JB, Lee SC, Yun SJ. A clinicopathologic analysis of 177 acral melanomas in Koreans: relevance of spreading pattern and physical stress. JAMA Dermatol. 2013;149:1281-8.
  • 5
    Li Y, Chen H, Chen G, Liu J, Zhu H, Nugasur B, et al. Trauma could as a triggering factor for development of acral lentiginous melanoma: a clinicopathologic study of 56 cases. Int J Clin Exp Pathol. 2016;9:7800-6.

Publication Dates

  • Publication in this collection
    07 Aug 2020
  • Date of issue
    Jul-Aug 2020

History

  • Received
    22 May 2019
  • Accepted
    9 Nov 2019
  • Published
    11 May 2020
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