Pregnancy-related changes of carnitine and acylcarnitine concentrations of plasma and erythrocytes

Schoderbeck, M.; Auer, B; Legenstein, E; Genger, H; Sevelda, P.; Sälzer, H.; März, Richard; Lohninger, Alfred

doi:10.1515/jpme.1995.23.6.477

Cited by 55 publications

(46 citation statements)

References 32 publications

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“…No mother or neonate had clinical manifestations of carnitine insufficiency. in the present study, as in several previous reports [6][7][8], have been attributed to transplacental transfer of FC to the fetus, which is not capable of producing carnitine. This is attributed to low activity of the enzyme γ-butyrobetaine hydroxylase being about 12% of adult values at birth [15,16].…”

Section: Discussionsupporting

confidence: 89%

“…Impairment of the carnitine shuttle may adversely affect FA oxidation leading to serious complications, especially during metabolic derangements, including liver dysfunction, skeletal myopathy, cardiomyopathy, and hypoketotic hypoglycemia [5]. Several studies in normal pregnancies have documented low plasma free carnitine (FC) levels approaching those observed in organic acidurias which, however, were not associated with clinical manifestations of carnitine insufficiency [6][7][8].…”

Section: Introductionmentioning

confidence: 99%

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Effect of Gestational Diabetes on Circulating Levels of Maternal and Neonatal Carnitine

Agakidou¹,

Diamanti²,

Papoulidis³

et al. 2013

J Diabetes Metab

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Objectives: Free carnitine is reported to decrease in normal pregnancies whereas data on the effect of gestational diabetes mellitus (GDM) on maternal and offspring carnitine status are lacking. This study aimed to assess changes in carnitine status in mothers with GDM and the offspring. Subjects/methods:Prospective case-control study of 54 pairs of mothers -neonates (27 with GDM and 27 with normal pregnancies) and 26 non-pregnant controls. Serum glucose, lipids, and total fatty acids, blood β-hydroxybutyric acid, and whole blood carnitine were assessed in mothers before labor and neonates at birth. Carnitine was assessed in dried blood-spots on Guthrie paper using Tandem Mass Spectrometry.Results: Compared to the controls, both groups of mothers had lower free carnitine and acylcarnitine and higher triglyceride and fatty acid levels. Compared to their respective maternal group, both groups of neonates had significantly higher free carnitine and acylcarnitine and lower triglyceride and fatty acid levels. Free carnitine and acylcarnitine, were comparable between the two maternal groups, whereas they were significantly higher in neonates of GDM mothers versus healthy neonates. Conclusions:Well controlled GDM does not exacerbate changes in free carnitine, acylcarnitine, and fatty acid levels in pregnant women, albeit it is associated with increased carnitine in the newborn indicating enhanced fatty acid oxidation. The potential association of carnitine changes with macrosomia and long-term consequences in the offspring of GDM needs further investigation. increased in neonates born to mothers with uncomplicated pregnancies [6,11], whereas there are no published data on the effect of GDM on the neonatal carnitine levels. The primary aim of this study was to assess the effect of GDM on maternal and offspring's carnitine levels. In addition, we investigated the possible association between circulating carnitine levels and FA changes in the mothers and their neonates. Effect of Gestational Diabetes on Circulating Levels of Maternal and Subjects and MethodsThis is a prospective case-control study. Participants were recruited among pregnant women who attended the antenatal clinic of the 2 nd Department of Obstetrics and Gynecology of the Aristotle University of Thessaloniki, at the Hippokration General Hospital, during a twoyear period. Eligible for the study were all pregnant women with single pregnancies who had an abnormal glucose tolerance test at 26-28 weeks of gestation and no history of pre-gestational diabetes. An

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Section: Discussionsupporting

confidence: 89%

Section: Introductionmentioning

confidence: 99%

Effect of Gestational Diabetes on Circulating Levels of Maternal and Neonatal Carnitine

Agakidou¹,

Diamanti²,

Papoulidis³

et al. 2013

J Diabetes Metab

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“…It is well described that plasma carnitine decreases during pregnancy from the 12th week of gestation to term and may reach concentrations half the normal in healthy nonpregnant women. The decrease in total carnitine is mainly caused by a decrease in free carnitine (Schoderbeck et al 1995) and is thought to be the consequence of a reduced rate of carnitine biosynthesis, possibly because of an inadequate iron status (Keller et al 2009) or because of a low availability of precursors for carnitine (Ringseis et al 2010). Interestingly, one study reported a complete normalization of plasma carnitine one month after delivery (Marzo et al 1994), and our finding of low-normal free carnitine 16 days after delivery may reflect a partial normalization to concentrations often seen in patients with MCADD.…”

Section: Discussionmentioning

confidence: 99%

Abnormal Newborn Screening in a Healthy Infant of a Mother with Undiagnosed Medium-Chain Acyl-CoA Dehydrogenase Deficiency

et al. 2015

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A neonate with low blood free carnitine level on newborn tandem mass spectrometry screening was evaluated for possible carnitine transporter defect (CTD). The plasma concentration of free carnitine was marginally reduced, and the concentrations of acylcarnitines (including C6, C8, and C10:1) were normal on confirmatory tests. Organic acids in urine were normal. In addition, none of the frequent Faroese SLC22A5 mutations (p.N32S, c.825-52G>A) which are common in the Danish population were identified. Evaluation of the mother showed low-normal free carnitine, but highly elevated medium-chain acylcarnitines (C6, C8, and C10:1) consistent with medium-chain acyl-CoA dehydrogenase deficiency (MCADD). The diagnosis was confirmed by the finding of homozygous presence of the c.985A>G mutation in ACADM.

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“…It has been demonstrated that FC and AC values are significantly higher in whole blood than in plasma (7,15,22 ) because of the significantly higher concentrations of long-chain ACs in the erythrocyte membrane. Plasma AC concentrations would most likely show a pattern of variation similar to the one observed in whole blood samples.…”

Section: Discussionmentioning

confidence: 99%

Age-Related Variations in Acylcarnitine and Free Carnitine Concentrations Measured by Tandem Mass Spectrometry

Cavedon¹,

Bourdoux²,

Mertens

et al. 2005

Clinical Chemistry

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Background:The acylcarnitine profiles obtained from dried blood spots on "Guthrie cards" have been widely used for the diagnosis and follow-up of children suspected of carrying an inherited error of metabolism, but little attention has been paid to potential age-related variations in the reference values. In this study, we evaluated the variations in free carnitine and acylcarnitine concentrations with age, as measured by tandem mass spectrometry. Methods: Filter-paper blood spots were collected from 433 healthy individuals over a period of 17 months. Eight age groups were defined: cord blood, 3-6 days (control group), 15-55 days, 2-18 months, 19 -59 months, 5-10 years, 11-17 years, and 18 -54 years. Free carnitine and acylcarnitines were measured for each individual. Mean values were calculated for each age group and compared with those for the control group. Results: Free carnitine was significantly higher in older children than in newborns (P <0.05), but the concentrations of several acylcarnitines tended to be significantly lower in cord blood and in groups of older children than in the control group. Only minor sex-related differences were observed. Conclusion: Although the risk of underdiagnosis of fatty acid oxidation disorders with the use of newborn values as reference can be considered as small, in some circumstances the use of age-related reference values

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Pregnancy-related changes of carnitine and acylcarnitine concentrations of plasma and erythrocytes

Cited by 55 publications

References 32 publications

Effect of Gestational Diabetes on Circulating Levels of Maternal and Neonatal Carnitine

Effect of Gestational Diabetes on Circulating Levels of Maternal and Neonatal Carnitine

Abnormal Newborn Screening in a Healthy Infant of a Mother with Undiagnosed Medium-Chain Acyl-CoA Dehydrogenase Deficiency

Age-Related Variations in Acylcarnitine and Free Carnitine Concentrations Measured by Tandem Mass Spectrometry

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