Prevalence of sleep disorders in early-treated phenylketonuric children and adolescents. Correlation with dopamine and serotonin status.

Phenylketonuric (PKU) patients are a population at risk for sleep disorders due to deficits in neurotransmitter synthesis. We aimed to study the prevalence of sleep disorders in early-treated PKU children and adolescents and assessed correlations with dopamine and serotonin status. We compared 32 PKU patients (16 females, 16 males; mean age 12 years), with a healthy control group of 32 subjects (16 females, 16 males; mean age 11.9 years). 19 PKU patients were under dietary treatment and 13 on tetrahydrobiopterin therapy. Concurrent phenylalanine (Phe), index of dietary control and variability in Phe in the last year, tyrosine, tryptophan, prolactin, and ferritin in plasma, platelet serotonin concentration, and melatonin, homovanillic and 5-hydroxyindoleacetic acid excretion in urine were analyzed. Sleep was assessed using Bruni's Sleep Disturbance Scale for Children. Sleep disorders were similar in both groups, 15.6% in control group and 12.5% in PKU group. In PKU patients, no correlations were found with peripheral biomarkers of neurotransmitter synthesis nor different Phe parameters, 43.3% had low melatonin excretion and 43.8% low platelet serotonin concentrations. Despite melatonin and serotonin deficits in early-treated PKU patients, the prevalence of sleep disorders is similar to that of the general population.

White matter microstructural damage in early treated phenylketonuric patients.

BACKGROUND: Despite dietary intervention, individuals with early treated phenylketonuria (ETPKU) could present neurocognitive deficits and white matter (WM) abnormalities. The aim of the present study was to evaluate the microstructural integrity of WM pathways across the whole brain in a cohort of paediatric ETPKU patients compared with healthy controls (HCs), by collecting DTI-MRI (diffusion tensor magnetic resonance imaging) data and diffusion values (mean diffusivity (MD), radial diffusivity (RD) and fractional anisotropy (FA)). METHODS: DTI-MRI data and diffusion values (MD, RD, FA) from WM tracts across the whole brain were analized using Tract Based Spatial Statistics (TBSS), in 15 paediatrics TPKU patients (median age: 12 years) and compared with 11 HCs. Areas showing abnormal values in the patient group were correlated (Pearson) with age, lifetime Phe values, last year median and mean Phe, concurrent Phe values in plasma, urine neurotransmitters status biomarkers, and with a processing speed task. RESULTS: ETPKU showed bilaterally decreased MD values compared with HCs in the body and splenium of the corpus callosum, superior longitudinal fasciculus, corona radiata and in the posterior limb of the internal capsule. RD values followed a similar pattern, although decreased RD values in PKU patients were also found in the anterior limb of the internal capsule and in the cerebral peduncle. Decreased MD and RD values within the aforementioned regions had significant negative correlations with age, last year median and mean Phe and concurrent Phe values. No correlations were found with monoamines in urine or processing speed task. CONCLUSIONS: ETPKU patients showed MD and RD values significantly decreased across the whole brain when compared with HCs, and this damage was associated with high Phe values and the age of patients. Despite this microstructural damage, no affectation in processing speed was observed in patients with good metabolic control. DTI-MRI sequences could be used as a technique to quantify WM damage that is difficult to be detect in T1 or T2-weighted images, but also to quantify damage of WM through the follow up of patients with poor metabolic control in prospective studies.

Impaired Neurotransmission in Early-treated Phenylketonuria Patients.

Cerebral neurotransmitter (NT) deficiency has been suggested as a contributing factor in the pathophysiology of brain dysfunction in phenylketonuria (PKU), even in early-treated phenylketonuric patients. The study aimed to review dopamine and serotonin status in PKU, and the effect of the impaired neurotransmission. Several mechanisms are involved in the pathophysiology of PKU, primarily characterized by impaired dopamine and serotonin synthesis. These deficits are related to executive dysfunctions and social-emotional problems, respectively, in early treated patients. Blood phenylalanine is the main biomarker for treatment compliance follow-up, but further investigations and validation of peripheral biomarkers may be performed to monitor NT status. The development of new therapies is needed not only for decreasing blood and brain phenylalanine levels but also to improve NT syntheses.

Executive functioning in context: Relevance for treatment and monitoring of phenylketonuria.

This paper presents findings from studies of EF in individuals with early-treated PKU within the context of recent advances in neuropsychological theory and research. It focuses on means of assessment, contexts of assessment, and the best way to define and investigate EF. Several conclusions can be drawn based on the findings presented here. The first conclusion is that there is clear evidence for phenylalanine-related EF-deficits in early-treated PKU, particularly with respect to prepotent response inhibition and the manipulation or monitoring component of working memory. An important note, however, is that measurement of EF in PKU has become too fragmented, as different researchers and clinicians use different definitions of EF, and subsequently, different instruments to measure EF. This appears to be one of the most important causes of mixed results. A second conclusion is that there appears to be a need to incorporate at least one specific, relatively new taxonomy of EF in PKU-research, i.e. the taxonomy that distinguishes hot and cool EFs, where hot EF is associated with regulation of affect/emotions and motivation, or regulatory functions when the context contains such elements, while cool EF concerns decontextualized regulatory abilities. PKU in adults is increasingly associated with different mental health problems, despite supposedly good treatment standards and adherence throughout childhood and adolescence. Since hot EF is strongly associated with such mental health problems, it is recommended that the hot-cool taxonomy will feature more prominently in future PKU-studies.

Evolución neurológica, neuropsicológica y oftalmológica tras un año de suplementación con ácido docosahexaenoico en pacientes fenilcetonúricos / Neurological, neuropsychological, and ophtalmological evolution after one year of docosahexaenoic acid supplementation in phenylketonuric patients

Introducción. La fenilcetonuria (PKU) es una enfermedad metabólica autosómica recesiva causada por la deficiencia defenilalanina hidroxilasa. El tratamiento dietético de la PKU consiste en la restricción de alimentos ricos en proteínas, loque afecta la ingestión de lípidos de los pacientes y distorsiona la relación n-3:n-6 de ácidos grasos esenciales en la dieta. Esta deficiencia puede contribuir al deterioro neurológico y visual de los pacientes. Objetivo. Evaluar los cambios en las alteraciones de la sustancia blanca, potenciales evocados visuales (PEV) y rendimiento en funciones ejecutivas y motrices en pacientes con PKU tratados precozmente tras la suplementación con ácidodocosahexaenoico (DHA).Pacientes y métodos. Se seleccionaron 21 pacientes con PKU (edad: 9-25 años), con dieta restringida en fenilalanina. Loscriterios de inclusión fueron: valores bajos de DHA eritrocitaria, retraso de latencias de la onda P100 en PEV o presencia dehiperintensidad de sustancia blanca en la resonancia magnética (RM) cerebral, y cociente intelectual > 80. Los pacientes se suplementaron con DHA (10 mg/kg/día) durante 12 meses. La evaluación se realizó al inicio del estudio y a los 12 mesesde tratamiento, e incluyó parámetros bioquímicos, RM, PEV, evaluación oftalmológica y pruebas neuropsicológicas. Resultados y conclusión. Los pacientes normalizaron los niveles de DHA tras la suplementación. La mejora en las latencias de la onda P100 y la motricidad fina fue significativa. No se evidenciaron cambios en las otras exploraciones tras el tratamiento. Es necesario proseguir la investigación para establecer una relación causa-efecto entre el tratamiento con DHA y la mejoría observada en algunas funciones neurológicas (AU)

Introduction. Phenylketonuria (PKU) is an autosomal recessive metabolic disease caused by a deficiency of phenylalanine hydroxylase. The dietary therapy for the effective management of PKU, in particular the restriction of high-protein foodsof animal-origin, compromises patients’ intake of fat and distorts the n-3:n-6 ratio of essential fatty acids in the diet. This deficiency can contribute to neurological and visual impairment. Aim. To evaluate changes in white matter alterations, visual evoked potential (VEP) latences and performance in executive and motor functions in a group of early and continuously treated PKU patients after supplementation with docosahexaneoic acid (DHA).Patients and methods. We selected 21 PKU patients with early diagnosis (age range: 9-25 years), on a Phe-restricted diet and supplemented with PKU formula. Inclusion criteria were: low erythrocyte DHA values, prolonged P100 wave latencies in VEP and/or presence of white matter hyperintensities on brain magnetic resonance imaging (MRI), and intellectual quotient > 80. All patients were treated with DHA (10 mg/kg/day) for 12 months. Assessment was conducted at baseline and after 12 months of treatment, and included biochemical parameters, brain MRI, VEP, ophthalmologic evaluation andneuropsychological tests.Results and conclusion. All the patients normalized the DHA levels after supplementation. Improvement in the P100 wavelatencies, and fine motor skills was significant. No significant improvement in the other explorations was evident aftersupplementation. Further investigations seem advisable to establish a cause-effect relationship between DHA treatmentand the slight improvement observed in some neurological functions (AU)

[Neurological, neuropsychological, and ophthalmological evolution after one year of docosahexaenoic acid supplementation in phenylketonuric patients]. / Evolucion neurologica, neuropsicologica y oftalmologica tras un ano de suplementacion con acido docosahexaenoico en pacientes fenilcetonuricos.

INTRODUCTION. Phenylketonuria (PKU) is an autosomal recessive metabolic disease caused by a deficiency of phenylalanine hydroxylase. The dietary therapy for the effective management of PKU, in particular the restriction of high-protein foods of animal-origin, compromises patients' intake of fat and distorts the n-3:n-6 ratio of essential fatty acids in the diet. This deficiency can contribute to neurological and visual impairment. AIM. To evaluate changes in white matter alterations, visual evoked potential (VEP) latencies and performance in executive and motor functions in a group of early and continuously treated PKU patients after supplementation with docosahexaneoic acid (DHA). PATIENTS AND METHODS. We selected 21 PKU patients with early diagnosis (age range: 9-25 years), on a Phe-restricted diet and supplemented with PKU formula. Inclusion criteria were: low erythrocyte DHA values, prolonged P100 wave latencies in VEP and/or presence of white matter hyperintensities on brain magnetic resonance imaging (MRI), and intellectual quotient > 80. All patients were treated with DHA (10 mg/kg/day) for 12 months. Assessment was conducted at baseline and after 12 months of treatment, and included biochemical parameters, brain MRI, VEP, ophthalmologic evaluation and neuropsychological tests. RESULTS AND CONCLUSION. All the patients normalized the DHA levels after supplementation. Improvement in the P100 wave latencies, and fine motor skills was significant. No significant improvement in the other explorations was evident after supplementation. Further investigations seem advisable to establish a cause-effect relationship between DHA treatment and the slight improvement observed in some neurological functions.

Neurological complications and behavioral problems in patients with phenylketonuria in a follow-up unit.

OBJECTIVE: To investigate the relationship between neurological complications, neuroradiological findings, and behavioral problems, age at diagnosis and dietary control along the follow-up of the PKU patients in our metabolic unit. DESIGN: Retrospective study of the PKU patients diagnosed and controlled in our unit from 1985 to 2010. METHODS: Registry of patients in a database with 50 items filled in by review of the clinical histories. Statistical study of the data (SPSS, 19.0 version). RESULTS: 121 patients were included (median age: 16.0, range 1 month-46 years). 76% of them were diagnosed through neonatal screening. 12.4% had mild-PKU, 19% moderate-PKU and 68.6% classic-PKU. 88.4% of patients were treated with a protein-restricted diet, and 11.6% with BH4. 97.7% of the early diagnosed patients had normal IQ, while 46.3% of late diagnosed patients had mental retardation, 28.5% were borderline and 25% had normal IQ. In early diagnosed patients, there was a significantly negative correlation between IQ [mean (SD) 100 (11.1)] and the index of dietary control during the first six years of life [median (range) 310 (105-992)] and that of the immediately past year [348 (106-1127)] (p < 0.0001). The proportion of patients with late diagnosis and neurological and behavioral problems was significantly higher than that of the early diagnosed ones (p < 0.001). The proportion of early diagnosed patients with neurological and behavioral problems who had good, intermediate or poor dietary control during the first 6 years of life and the immediately past year was significantly different (p < 0.001). CONCLUSIONS: The results show the impact of early diagnosis and good dietary treatment on the IQ and on the percentage of neurological complications and behavioral problems in PKU patients.

Neurocognitive function in mild hyperphenylalaninemia.

AIM: The purpose of this review was to provide an update on cognitive function in individuals with mild hyperphenylalaninemia (mHPA), the most clinically and biochemically benign form of phenylketonuria. METHOD: A review was conducted of the existing literature on mHPA. Individuals with mHPA, whose plasma phenylalanine concentration had always remained lower than 360 µmol/L without dietary restriction, were considered. RESULTS: The review of the literature indicated that there is no consensus concerning the definition of mHPA. There are few studies regarding the cognitive functions of individuals with mHPA, results are contradictory, and samples are difficult to compare from one study to another. Most studies focus only on descriptions of IQ when assessing cognitive functions. The existing literature indicates that, in general, children with mHPA do not show significant cognitive impairments, but usually achieve scores between those of individuals with phenylketonuria and those of comparison groups with regard to the cognitive functions assessed. INTERPRETATION: When assessing cognitive functions in individuals with hyperphenylalaninemia, it is not enough to measure only IQ, as deficits in executive functions can be present even when an individual's IQ is within a normal range. Further studies are needed of individuals with mHPA, using consistent selection criteria, in order to make it possible to exclude the presence of cognitive impairment and to establish a consensus regarding the level of phenylalanine that necessitates dietary treatment.

Cognitive functions and the antioxidant system in phenylketonuric patients.

The authors studied the relationship between the antioxidant system and cognitive functions in a group of 36 early and continuously treated phenylketonuric (PKU) patients (mean age=9.7 years) and 29 controls. The authors measured antioxidant cofactors and free radical damage markers in plasma (selenium, retinol, tocopherol, coenzyme Q10, malondialdehide) and antioxidant enzymes in red blood cells (glutathione peroxidase, catalase, superoxide dismutase). The authors used neuropsychological tests to screen for several cognitive functions. PKU patients showed significantly lower values of selenium, coenzyme Q10, and catalase, and significantly higher levels of malondialdehide. PKU patients showed a significantly negative correlation between plasma selenium concentrations and several Conner's Continuous Performance Test measures (more omission errors, fluctuating attention and inconsistency of response times, and slowing reaction time as the test progressed). Selenium deficiency was thus associated with a worsened performance on the Conner's Continuous Performance Test among PKU patients. In conclusion, it is important not only to control blood Phe levels in PKU but also other nutritional components such as selenium. Selenium status seems to be associated with attention functions in these PKU patients.

School performance in early and continuously treated phenylketonuria.

This study investigated the relationship between school performance, cognitive functions, and dietary control in a group of 26 early and continuously treated phenylketonuric patients, in comparison with 21 sex- and age-matched control subjects. The cognitive functions study included intelligence measurement, visual and auditory memory and auditory verbal learning abilities, attention, visuospatial, fine motor, language, and executive functions. Participants were asked about school performance. The indexes of dietary control for the first 6 years of life and for the 6 months before the study were calculated. The intelligence score was significantly lower in phenylketonuric patients (P < 0.0001). The percentage of patients with attention problems (P = 0.02), fine motor (P = 0.001) and executive dysfunctions (P = 0.013) was significantly higher than that for control subjects. Patients had more school problems than controls (P = 0.028). Intelligence score was also significantly lower in these patients (P = 0.046). The index of dietary control for the last 6 months was significantly higher than the index for the first 6 years of life, but only in the patients with school problems (P = 0.033). In conclusion, phenylketonuric patients presented more school problems than control subjects, probably related to the disturbed cognitive functions observed. The index of dietary control for the last 6 months yielded a close relationship with school performance.

Clinical and nutritional evaluation of phenylketonuric patients on tetrahydrobiopterin monotherapy.

The clinical, nutritional, and neuropsychological data of 11 mild/moderate PKU patients after one year of treatment with BH4 are evaluated. BH4 monotherapy was introduced at 5 mg/kg/day in 14 PKU patients. In 11/14 patients, Phe tolerance increased significantly from 356+/-172 to 1546+/-192 mg/day (p=0.004), and special PKU formula was gradually reduced until complete removal. In them, mean plasma Phe concentrations remained below 360 micromol/L at 5 mg BH4/kg/day (7 mg/kg/day in one patient). BH4 therapy was stopped in three patients (V388M/P362T and R243Q/IVS10-11G>A genotypes) because it was not possible to improve Phe tolerance and to remove formula intake. Serum micronutrients were not significantly different at the start of treatment and at one year follow-up, except for selenium, which increased significantly after one year of therapy (p=0.017). Anthropometric, and nutritional measurements were within the age- and sex-specific percentiles for a healthy population after one year therapy. Neuropsychological follow-up indicated that intelligence scores persisted within normal limits. In terms of patients' genotype, we confirmed that the P275S mutation combined with R408W was associated with long-term BH4 responsiveness, while the combination of P362T/V388M, and R243Q/IVS10-11G>A resulted in poor metabolic control in long-term BH4 therapy. In summary, our data confirm that BH4 is a safe, and effective therapy in a selected group of mild, and moderate PKU patients who respond to the BH4 loading test. Low doses of BH4 in monotherapy permit withdrawal of the special formula and guarantee a good clinical and nutritional outcome with no adverse side effects in PKU patients.

Cognitive functions in classic phenylketonuria and mild hyperphenylalaninaemia: experience in a paediatric population.

A study of 37 individuals with phenylketonuria (PKU; 17 females and 20 males, mean age 9y 9mo (standard deviation [SD] 5y 3mo), range 2y 8mo to 19y 4mo; and 35 individuals with hyperphenylalaninaemia (HPA; 20 females, 15 males, mean age 7y 10mo [SD 3y 2mo], range 2y 8mo to 17y 3mo) compared with 29 healthy controls (14 females and 15 males, mean age 9y 8mo [SD 4y 9mo], range 2y 6mo to 18y 10mo) was performed. The aim was to assess cognitive function in persons with HPA and to investigate the relation between cognitive function in PKU and the metabolic control of patients. A wide variety of neuropsychological tests was employed. Those with PKU showed lower values in intelligence and in visuo-spatial, fine motor, executive, and attention functions when compared with a control population. Plasma phenylalanine values from the first 6 years of life were negatively associated with intelligence and other cognitive functions. Executive function scores were significantly lower when comparing HPA patients with the control group. It was concluded that individuals with PKU under dietary treatment may present slightly decreased cognitive function scores when compared with control individuals, while those with HPA have scores mostly similar to those of controls, except for executive function tests. Good metabolic control of PKU seems necessary to prevent cognitive function impairments, especially during the first 6 years of life.