Age-related psychophysiological vulnerability to phenylalanine in phenylketonuria.

[phenylketonuria]

Phenylketonuria (PKU ) is caused by the inherited defect of the phenylalanine hydroxylase enzyme , which converts phenylalanine (Phe ) into tyrosine (Tyr ). Neonatal screening programs and early treatment have radically changed the natural history of PKU . Nevertheless , an increased risk of neurocognitive and psychiatric problems in adulthood remains a challenging aspect of the disease . In order to assess the vulnerability of complex skills to Phe , we explored : (a ) the effect of a rapid increase in blood Phe levels on event-related potentials (ERP ) in PKU subjects during their second decade of life ; (b ) the association (if existing ) between psychophysiological and neurocognitive features .Seventeen early -treated PKU subjects , aged 10 -20 , underwent ERP [mismatch negativity , auditory P 300 , contingent negative variation (CNV ), and Intensity Dependence of Auditory Evoked Potentials ] recording before and 2 h after an oral loading of Phe . Neurocognitive functioning , historical and concurrent biochemical values of blood Phe , Tyr , and Phe /Tyr ratio , were all included in the statistical analysis .Event-related potential components were normally detected in all the subjects . In subjects younger than 13 CNV amplitude , W 2 -CNV area , P 3 b latency , and reaction times in motor responses were negatively influenced by Phe-loading . Independently from the psychophysiological vulnerability , some neurocognitive skills were more impaired in younger patients . No correlation was found between biochemical alterations and neurocognitive and psychophysiological findings .The vulnerability of the emerging neurocognitive functions to Phe suggests a strict metabolic control in adolescents affected by PKU and a neurodevelopmental approach in the study of neurocognitive outcome in PKU .