Phenylalanine levels of 6-10 mg/dl may not be as benign as once thought.

Results of a longitudinal study of children treated early and continuously for phenylketonuria (PKU) indicated that those children whose plasma phenylalanine (Phe) levels were approximately 3-5 times normal (6-10 mg/dl; levels previously considered safe in the US) were impaired in cognitive functions dependent on prefrontal cortex. In particular, the children had difficulty when required to hold information in the mind and, at the same time, exercise inhibitory control to resist doing what might be their first inclination. The deficits were evident in relation to each of several comparison groups and at all three age ranges (infants, toddlers and young children). The deficits appeared to be selective in that the same children who were impaired on the prefrontal cortex tests performed normally on the control tests. Since most of the control tasks tap functions dependent on parietal cortex or the medial temporal lobe, these results suggest that those functions are spared. To investigate the biological mechanism causing these cognitive deficits, we created an animal model of early-treated PKU. The results indicated that rats whose plasma Phe levels were mildly, but chronically, elevated had cognitive deficits (impaired performance on a behavioral task dependent on frontal cortex (delayed alternation)) and neurochemical changes (most notably, reduced dopamine metabolism in frontal cortex).