Glutaric aciduria type 1 as a cause of dystonic cerebral palsy

Discussion

Glutaric aciduria type 1 is a rare metabolic disorder caused by deficiency of the enzyme GCDH that is involved in the metabolism of lysine, hydroxylysine, and tryptophan.1 The prevalence of GA1 in the Kingdom of Saudi Arabia (KSA) is unknown; however, it is expected to be higher than the global figure due to the high incidence of consanguinity in this country.7 The recently introduced universal neonatal screening program in KSA included GA1.8 This program is expected to reveal the magnitude of this disease together with other inherited diseases included in the screening panel. Furthermore, newborn screening for GA1 identifies affected infants before the development of neurological signs, and thus, can prevent associated morbidity and mortality.3,4 Similarly, recent data1,3,4 from the expanded neonatal screening indicated that patients who were diagnosed by screening have better prognosis in comparison with those who were diagnosed clinically. Unfortunately, our patient was not detected on neonatal screening, as it was not available in the hospital where he was born. On the contrary, he presented with severe dystonia and encephalopathy picture following acute gastroenteritis. This agrees with the previous reports that recognized acute encephalopathic crisis in infancy is often precipitated by infection, vaccination, surgery, or trauma.1,3

Our patient was misdiagnosed initially as dystonic CP. In contrast to the progressive dystonia resulting from GA1, CP is a non-progressive motor disorder affecting the developing fetal or infant brain.9 The CP affects approximately 2-2.5 per 1000 live births.9 It is usually caused by hypoxic ischemic encephalopathy secondary to perinatal insults. Therefore, it presents in the first half of the first year with developmental delay and neurological signs. In contrast, GA1 usually presents in the second half of the first year of life with regression of milestones following an intercurrent infection. Thus, careful history taking and thorough clinical examination can differentiate between dystonia caused by GA1 and CP.9

Brain magnetic resonance imaging is an important diagnostic tool for GA1, and the findings may be highly suggestive of this diagnosis. The brain MRI findings of our patient revealed abnormal high signal intensity in the basal ganglia and widened Sylvia fissure that alerted us to the possibility of GA1. Similar MRI findings were reported in the literature in patients with GA1.10 The diagnosis of GA1 was confirmed in our patients based on the presence of elevated urinary 3-hydroxyglutaric acid, high serum glutarylcarnitine, and identification of the homozygous nonsense mutation (c.482G>A;p.R161Q) in GCDH gene. Different mutations, including the one identified in our patient had been reported previously in different ethnic groups.5,6 Aggressive treatment of the intercurrent infections of patients with GA1 is important in order to prevent complications. The goal is to prevent catabolism by providing high-energy intake with an extra 20% of caloric requirements through carbohydrates and lipids. Also, cessation or reduction of protein intake to 50% or less, depending on the severity of the illness, and doubling the dose of carnitine is recommended.

In conclusion, this case report alerts pediatricians to consider GA1 as an important differential diagnosis of dystonic CP. Early treatment of GA1 prevents long-term neurologic disabilities. We would like to emphasize the importance of the newborn screening to detect GA1 patients before symptoms occur. Also, all children with neurologic symptoms of unknown origin such as CP, should certainly undergo work-up for inborn errors of metabolism.