Lethal neonatal deficiency of carnitine palmitoyltransferase II associated with dysgenesis of the brain and kidneys.

We describe neonatal onset of a lethal multiorgan deficiency of carnitine palmitoyltransferase II (CPT II) associated with dysmorphic features, cardiomyopathy, and cystic dysplasia of the brain and kidneys. Concentrations of long-chain acylcarnitines were evaluated in blood and multiple tissues, diffuse lipid accumulation was present at autopsy, and a profound deficiency of CPT II activity was evident in heart, liver, muscle, and kidney tissue. This disorder constitutes another recognizable malformation syndrome with a metabolic basis. Deficiency of CPT II should be included in the differential diagnosis of patients with cystic renal dysplasia, dysmorphism, central nervous system malformations, and early death, along with glutaric acidemia type II, Zellweger syndrome, and other disorders in which peroxisomal beta-oxidation is impaired. The clinicopathologic similarities among these disorders raise the possibility that a common biochemical mechanism, namely the disruption of beta-oxidation of fatty acids, is responsible for the abnormal organogenesis.

Neonatal-onset propionic acidemia: neurologic and developmental profiles, and implications for management.

OBJECTIVES: To document the clinical and neurodevelopmental profiles of a cohort of patients with neonatal-onset propionic acidemia and to determine the efficacy of current therapy with respect to outcome. METHOD: The clinical, neurologic, and developmental status of six patients was prospectively evaluated during a 15-month period. Previous clinical and biochemical data were ascertained from hospital records to determine longitudinal nutritional status, number of episodes of hyperammonemia with ketoacidosis, and developmental performance with respect to age. RESULTS: No deaths resulted from propionic acidemia since the identification of the oldest patient in the series in 1980. Therapeutic intervention (e.g., gastrostomy tube feeding) resulted in improved nutritional status and possibly contributed to improved survival. All children had hypotonia, resulting in a significant effect on motor development; however, focal neurologic deficits and evidence of movement or seizure disorder were absent. Mild cortical atrophy was evident on cranial magnetic resonance imaging in four patients. All children, including two patients with no significant episodes of hyperammonemia and normal growth since the neonatal period, had a mild to moderate degree of intellectual impairment. CONCLUSIONS: The results of our study suggest that current therapy for neonatal-onset propionic acidemia is associated with improved survival and nutritional status, and an absence of focal neurologic deficits. However, hypotonia and cognitive delay were still present, even in children with "optimal" metabolic control. Additional therapeutic advances are required to improve the developmental and cognitive outcome.