Litcius/Paper detail

Early onset female pattern hair loss: A case–control study for analyzing clinical features and genetic variants

Jungyoon Ohn, Ho‐Young Son, Da‐Ae Yu, Min Su Kim, Sijin Kwon, Won-Seok Park, Jong‐Il Kim, Ohsang Kwon

2022Journal of Dermatological Science15 citationsDOIOpen Access PDF

Abstract

BackgroundFemale pattern hair loss (FPHL), the most common cause of alopecia in adult women, is classified into two subtypes: early onset and late onset (or postmenopausal). Little is known about the clinical features and genetic characteristics of early onset female pattern hair loss (eFPHL).ObjectivesTo investigate the clinical features and genetic characteristics of eFPHL.MethodsPatients with eFPHL and controls without eFPHL were prospectively recruited. The demographic and clinical features were collected. Single nucleotide polymorphisms (SNPs) located around the selected 30 candidate genes potentially associated with eFPHL were evaluated.ResultseFPHL patients (n = 63) manifested a decreased hair shaft density and cross-sectional area of the hair shaft compared to the control group (n = 341). eFPHL is associated with androgen-related features, including scalp greasiness, folliculitis, hirsutism, and polycystic ovary syndrome. Scalp pain and itching have been reported more frequently in patients with eFPHL. Forty-nine SNPs located around PPARGC1A, ABCC4, CYP11B2, FSHB, and CYP19A1 were found to be significant for eFPHL, including two PPARGC1A-associated SNPs: rs186530605 and rs192713767 (p = 3.94 × 10-11).ConclusionsThis study provided clinical features and genetic variants for eFPHL, which could provide insight into the underlying pathologic etiology. Considering the limited number of patients, a large-scale study is required in the future.

Topics & Concepts

Hair lossSingle-nucleotide polymorphismScalphirsutismPolycystic ovaryMale-pattern baldnessMedicineFolliculitisCase-control studyAge of onsetHair follicleInternal medicineBiologyDermatologyGeneticsGenotypeObesityGeneDiseaseInsulin resistanceHair Growth and DisordersSkin and Cellular Biology ResearchWnt/β-catenin signaling in development and cancer