Hypoventilation and progressive encephalopathy in a neonate with MTHFR deficiency

Methylenetetrahydrofolate reductase (MTHFR) deficiency is a rare autosomal recessive inherited inborn error of metabolism, which presents with various severity depending on the level of residual enzyme activity. In neonates, it can present with recurrent hypoventilation episodes, persistent encephalopathy with or without microcephaly. MTHFR deficiency also results in hyperhomocysteinemia, homocystinuria and hypomethionemia. We report a male neonate with severe MTHFR deficiency presenting to us on third week of life with progressive encephalopathy, microcephaly, seizures, central hypoventilation. There was similar history in the previous sibling. The patient’s blood lactate, ammonia, tandem mass spectrometry for amino acids and acyl carnitine were normal. He remained encephalopathic with progressive increase in need of respiratory support in spite of supportive treatment and metabolic cocktail consisting of riboflavin, pyridoxine, coenzyme Q and carnitine. This neonate had novel homozygous mutation, which results in MTHFR deficiency. In newborn with hypoventilation or recurrent apnoea with encephalopathy and microcephaly, MTHFR deficiency should be considered as a differential diagnosis. Mutation study helps in confirming diagnosis; however, extended newborn metabolic screening with homocysteine level could help in early diagnosis of these cases.

Genetic and Metabolic Determinants of Atrial Fibrillation in a General Population Sample: The CHRIS Study

Atrial fibrillation (AF) is a supraventricular arrhythmia deriving from uncoordinated electrical activation with considerable associated morbidity and mortality. To expand the limited understanding of AF biological mechanisms, we performed two screenings, investigating the genetic and metabolic determinants of AF in the Cooperative Health Research in South Tyrol study. We found 110 AF cases out of 10,509 general population individuals. A genome-wide association scan (GWAS) identified two novel loci (p-value < 5 × 10−8) around SNPs rs745582874, next to gene PBX1, and rs768476991, within gene PCCA, with genotype calling confirmed by Sanger sequencing. Risk alleles at both SNPs were enriched in a family detected through familial aggregation analysis of the phenotype, and both rare alleles co-segregated with AF. The metabolic screening of 175 metabolites, in a subset of individuals, revealed a 41% lower concentration of lysophosphatidylcholine lysoPC a C20:3 in AF cases compared to controls (p-adj = 0.005). The genetic findings, combined with previous evidence, indicate that the two identified GWAS loci may be considered novel genetic rare determinants for AF. Considering additionally the association of lysoPC a C20:3 with AF by metabolic screening, our results demonstrate the valuable contribution of the combined genomic and metabolomic approach in studying AF in large-scale population studies.

Dandy-Walker malformation in methylmalonic acidemia: a rare case report

Background Methylmalonic acidemia is an organic acid metabolism disorder that usually has nonspecific clinical manifestations. Case presentation A 3-month-old female infant was admitted to the hospital for developmental retardation. Her prenatal and birth history was unremarkable. After admission, she developed dyspnea and severe anemia and was subsequently transferred to the intensive care unit. Magnetic resonance imaging of her brain showed a Dandy-Walker malformation, and metabolic screening indicated methylmalonic acidemia. Thus, she was diagnosed with methylmalonic acidemia and Dandy-Walker malformation. The patient underwent treatment including acidosis correction, blood transfusion, antibiotics, mechanical ventilation and heat preservation. Unfortunately, her condition progressively worsened and she died of metabolic crisis. Conclusions Dandy-Walker malformation may be a clinical manifestation of methylmalonic acidemia. Additionally, the co-existence of methylmalonic acidemia and Dandy-Walker malformation may be an uncharacterized syndrome which needs to be studied further.

Adult-onset hypoxaemia, diffuse lung lesions, and pulmonary hypertension in cobalamin C defect: a case report

Background Cobalamin C (cbl-C) defect is an inherited autosomal recessive disorder that commonly affects the central nervous system of infants. Severe pulmonary hypertension (PH) and diffuse lung lesions are unusual clinical manifestations, especially among adults. Case summary A 25-year-old man with hypoxaemia, diffuse lung lesions, and PH, suddenly developed nausea, vomiting, headache, and worsening of dyspnoea. Metabolic screening showed elevated serum levels of methylmalonic acid and homocysteine, and genetic testing revealed MMACHC gene mutations. He was eventually diagnosed with severe PH secondary to cbl-C defect and was successfully managed with vitamin B12, betaine, L-carnitine, folate, as well as ambrisentan and sildenafil. Discussion cbl-C is a rare cause of PH and can present with severe PH and diffuse lung lesions in adults. Given that the condition is treatable, a careful metabolic screening should be considered when a diagnosis of PH is made.