ABSTRACT
OBJETIVO: Avaliar os métodos laboratoriais dos diferentes tipos de albinismo oculocutâneo (OCA 1 e OCA 2) de forma descritiva e analisar sua eficiência. MATERIAL E MÉTODO: O teste do bulbo capilar é um método químico usado para distinguir as duas formas, no entanto recentemente teve sua eficácia como teste padrão contestada. O avanço da biologia molecular permite a análise das mutações que causam o distúrbio e a sua localização gênica. CONCLUSÃO: O teste do bulbo é seguro apenas para o diagnóstico do OCA 1A, podendo ser usado como complemento de um método mais apurado. A análise molecular fornece um diagnóstico definitivo, permitindo distinguir OCA 1 de OCA 2, pois as mutações afetam genes em cromossomos diferentes.
OBJECTIVES: To evaluate the laboratories methods of the oculocutaneous albinism (OCA 1and OCA 2) of descriptive form and to analyze its results. METHODS: The hair bulb test is a chemical method used to distinguish the two forms, however, recently had its effectiveness as an standard test contested. The advance of molecular biology allows the analysis of the mutations that cause the disturb and its genic location. CONCLUSIONS: The bulb test is secure only for the diagnosis of OCA 1A, being able to be used as complement of a more refined method. The molecular analysis supplies a diagnostic definitive allowing to distinguish OCA 1 from OCA 2, because the mutations affect genes in different chromosomes.
Subject(s)
Humans , Albinism, Oculocutaneous/classification , Albinism, Oculocutaneous/diagnosis , Molecular Biology/methods , Clinical Laboratory TechniquesABSTRACT
PURPOSE: To study color vision in patients with oculocutaneous albinism (OCA) METHODS: We evaluated color vision in 42 patients with OCA using the HRR color plates. Sixty seven percent of the patients had the Hermansky-Pudlak syndrome (HPS), diagnosed genetically or clinically. The remaining patients had unknown mutations leading to OCA. RESULTS: 47.6 of patients of OCA of all types included had a color vision defect. Of these, 55 were female and 45 were male patients. 50 of patients with the HPS (all types) had a color vision deficit. 42.9 of patients with OCA of unknown type had color weakness. 57.1 had normal color vision. CONCLUSIONS: Results suggest that many patients with OCA and the HPS have a mild red-green color perception deficiency that is not a sex linked trait. The prevalence of color vision deficits in our study population increased with decreasing visual acuity