Influence of Sex on Urinary Organic Acids: A Cross-Sectional Study in Children.

The characterization of urinary metabolome, which provides a fingerprint for each individual, is an important step to reach personalized medicine. It is influenced by exogenous and endogenous factors; among them, we investigated sex influences on 72 organic acids measured through GC-MS analysis in the urine of 291 children (152 males; 139 females) aging 1-36 months and stratified in four groups of age. Among the 72 urinary metabolites, in all age groups, 4-hydroxy-butirate and homogentisate are found only in males, whereas 3-hydroxy-dodecanoate, methylcitrate, and phenylacetate are found only in females. Sex differences are still present after age stratification being more numerous during the first 6 months of life. The most relevant sex differences involve the mitochondria homeostasis. In females, citrate cycle, glyoxylate and dicarboxylate metabolism, alanine, aspartate, glutamate, and butanoate metabolism had the highest impact. In males, urinary organic acids were involved in phenylalanine metabolism, citrate cycle, alanine, aspartate and glutamate metabolism, butanoate metabolism, and glyoxylate and dicarboxylate metabolism. In addition, age specifically affected metabolic pathways, the phenylalanine metabolism pathway being affected by age only in males. Relevantly, the age-influenced ranking of metabolic pathways varied in the two sexes. In conclusion, sex deeply influences both quantitatively and qualitatively urinary organic acids levels, the effect of sex being age dependent. Importantly, the sex effects depend on the single organic acid; thus, in some cases the urinary organic acid reference values should be stratified according the sex and age.

Maternal vitamin B12 deficiency detected in expanded newborn screening.

OBJECTIVES: Besides the inherited form, vitamin B(12) deficiency may be due to diet restrictions or abnormal absorption. The spread of newborn screening programs worldwide has pointed out that non-inherited conditions are mainly secondary to a maternal deficiency. The aim of our work was to study seven cases of acquired vitamin B12 deficiency detected during our newborn screening project. Moreover, we aimed to evaluate vitamin B(12) and related biochemical parameters status on delivering female to verify the consequences on newborns of eventually altered parameters. DESIGN AND METHODS: 35,000 newborns were screened; those showing altered propionyl carnitine (C3) underwent second-tier test for methylmalonic acid (MMA) on dried blood spot (DBS). Subsequently, newborns positive to the presence of MMA on DBS and their respective mothers underwent further tests: serum vitamin B(12), holo-transcobalamin (Holo-TC), folate and homocysteine; newborns were also tested for urinary MMA content. A control study was conducted on 203 females that were tested for the same parameters when admitted to hospital for delivery. RESULTS: Approximately 10% of the examined newborns showed altered C3. Among these, seven cases of acquired vitamin B(12) deficiency were identified (70% of the MMA-positive cases). Moreover, our data show a high frequency of vitamin B(12) deficiency in delivering female (approximately 48% of examined pregnants). CONCLUSIONS: We suggest to monitor vitamin B(12) and Holo-TC until delivery and to reconsider the reference interval of vitamin B(12) for a better identification of cases at risk. Finally, newborns from mothers with low or borderline levels of vitamin B(12) should undergo second-tier test for MMA; in the presence of MMA they should be supplemented with vitamin B(12) to prevent adverse effects related to vitamin B(12) deficiency.