Great Ormond Street Hospital for Children Registry for Congenital Melanocytic Naevi: Prospective Study 1988-2007. Part 1-epidemiology, Phenotype and Outcomes

Overview

Journal Br J Dermatol

Publisher Oxford University Press

Specialty Dermatology

Date 2008 Sep 25

PMID 18811688

Citations 23

Authors

V A Kinsler

J Birley

D J Atherton

Affiliations

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Abstract

Background: The aetiology of congenital melanocytic naevi (CMNs) is unknown.

Objectives: To identify potential aetiological factors in families of children with CMNs, and to relate these to long-term outcome measures.

Methods: Three hundred and forty-nine CMN families completed questionnaires about pregnancy and parental factors, and yearly questionnaires on the health of their child and details of the CMN. Seventy-nine control families completed one set of questionnaires, excluding CMN details.

Results: The mean prospective follow-up of 301 CMN families was 9.2 years, median 8.9 years, total 2679 years. Forty per cent of patients had CMNs > 20 cm projected adult size (PAS) or multiple CMNs. Twenty per cent of patients had abnormal neurodevelopment and although this was positively associated with PAS it was seen across all size categories. The rate of malignant melanoma was 1.4%. This was strongly associated with PAS with all five cases in patients with CMNs > 60 cm PAS/multiple CMNs (rate in that group 14%). Twenty-five per cent of CMN patients had a positive family history of a CMN in a second-degree relative (FHCMN). This group had a significantly different gender ratio, suggesting a different underlying mutation. Maternal FHCMN was negatively associated with PAS and satellites at birth, and maternal freckling was negatively associated with PAS. Other factors found to be significantly increased in CMN families compared with controls were maternal smoking and ill health during pregnancy. Maternal smoking was positively associated with PAS.

Conclusions: This study relies on data from families after they have had a child with a CMN, and therefore may be subject to recall bias. Despite this, it contributes significantly to the knowledge of epidemiology of CMNs, and provides some important clues to the genetic basis of the condition.

Citing Articles

Clinical Features and Risks of Congenital Melanocytic Naevi: A Retrospective Analysis of Patients at the Queensland Children's Hospital.

Lobo Y, Zhuang J, Gribbin H, Perez W, Soyer H, Wheller L Australas J Dermatol. 2025; 66(2):61-68.

PMID: 39835398 PMC: 11898136. DOI: 10.1111/ajd.14418.

Thickness of melanocytes in giant congenital melanocytic nevus for complete surgical excision: clinicopathological evaluation of 117 lesions according to the area and size.

Kim J, Lee S, Kwak Y, Kim B BMC Surg. 2024; 24(1):90.

PMID: 38491443 PMC: 10941407. DOI: 10.1186/s12893-024-02362-x.

Updates in the Management of Congenital Melanocytic Nevi.

Mologousis M, Tsai S, Tissera K, Levin Y, Hawryluk E Children (Basel). 2024; 11(1).

PMID: 38255375 PMC: 10814732. DOI: 10.3390/children11010062.

Incidence of neurocutaneous melanosis in Japanese pediatric patients with congenital melanocytic nevi.

Takiya M, Fushimi Y, Sakamoto M, Yoshida T, Ueno K, Nakajima S Sci Rep. 2023; 13(1):16442.

PMID: 37777590 PMC: 10542349. DOI: 10.1038/s41598-023-43829-w.

Common Benign Melanocytic and Non-Melanocytic Skin Tumors among the Elderly: Results of the Graz Study on Health and Aging.

Gruber V, Hofmann-Wellenhof R, Wolf P, Hofmann-Wellenhof E, Schmidt H, Berghold A Dermatology. 2023; 239(3):379-386.

PMID: 36657431 PMC: 10273912. DOI: 10.1159/000529219.