- 1 Dept. of Clinical Biochemistry, Aarhus University Hospital, Aarhus Sygehus, Denmark;
- 2 Dept. of Clinical Biochemistry, Aarhus University Hospital, Skejby, Denmark;
- 3 Dept. of Obstetrics, Gentofte Hospital, University of Copenhagen, Denmark;
- 4 Dept. of Medicine B, Rigshospitalet, University of Copenhagen, Denmark
- Correspondence: Anne L. Mørkbak, Dept. of Clinical Biochemistry, Aarhus Sygehus, Nørrebrogade 44, K 8000 Aarhus, Denmark. Phone: international +45.89493065. Fax: international +45.89493060. E-mail:
We confirm a decrease in cobalamins during pregnancy, and report that the active part of cobalamins (holotranscobalamin, holoTC) remains unchanged. The decrease in cobalamins is explained by a decreased holohaptocorrin (holoHC), suggesting that holoTC rather than cobalamins should be used as a marker of vitamin B12 deficiency during pregnancy.
We studied the interrelations between cobalamins, TC and HC (holo and total) during pregnancy in a follow-up study of pregnant women previously described in detail.1 The participants were healthy pregnant Danish Caucasian women >18 years of age, who had blood samples collected for preparation of serum and plasma at 18th, 32nd, 39th gestation week and 8 weeks postpartum. Plasma cobalamins2 were measured on the Microparticle Enzyme Immunoassay technology (Abbott Diagnostics, IL, USA). ELISA assays were used to measure TC and HC (holo and total) in serum.3, 4 HoloTC and holoHC were quantified by measuring the amount of TC (HC) not removed after treatment with vitamin B12-covered beads.5 Total CV was <10% for all analytes measured. Total homocysteine (tHcy) and methylmalonic acid (MMA) have been previously published.1
Statistical analysis using repeated measure ANOVA was performed using Stata 9.2 (StataCorp LP, Texas, USA). The distribution of holoTC, MMA, tHcy, total HC and holoHC were log transformed to obtain normal distribution.
In agreement with previous studies,1, 6 we found an almost 50% decline in the concentration of cobalamins during late pregnancy (Table 1). A small increase in MMA was observed during pregnancy and post partum (Table 1) but we question whether this is caused by an increased metabolic rate during pregnancy and lactation rather than a sign of vitamin B12 deficiency. Only two women (holoTC: 33–43 pmol/L and 39–48 pmol/L) had a MMA above the upper limit of the reference intervals (>0.28 μmol/L) at all four time points during pregnancy and post partum. None of the women had a MMA >0.75 μmol/L, the diagnostic level for vitamin B12 deficiency,7 at any time during pregnancy and post partum. These results suggest that the vitamin B12 status during pregnancy remains unchanged and that a sufficient amount of cobalamin was available for transportation into the cells despite the decreased level of total plasma cobalamins.
Interestingly, the decline in cobalamins during pregnancy was not reflected in holoTC (Table 1). The concentration of holoTC observed during pregnancy was comparable to the concentrations seen for healthy non-pregnant women5 (Table 1), and none of the women had holoTC concentrations below the lower limit of the reference interval for non-pregnant women at any time point during pregnancy. These observations have two implications. Firstly, healthy pregnant Danish women do not seem to suffer from an inadequate supply of vitamin B12. Secondly, it suggests that holoTC, in contrast to cobalamins, can be used as a marker for vitamin B12 deficiency during pregnancy.
The decrease in cobalamins observed during pregnancy was explained by a decrease in HC saturated with true cobalamins (total plasma cobalamins minus holoTC, calculated holoHC) (Figure 1). The difference between the measured and the calculated concentration of holoHC increased during pregnancy and decreased post partum. Our results showed that measured holoHC was approximately twice as high as calculated holoHC. This supports the presence of analogues on HC8 and suggests that the amount of analogues bound to HC increased during pregnancy. At present, we have no explanation to offer for this observation.
The samples used in the present study were stored for more than 12 years prior to analysis. We do not believe that this influenced the results obtained since they were well in line with concentrations obtained at birth9 and 3 weeks post partum10 in samples analyzed a maximum of 2 years after collection.
In conclusion, we report that the decline in cobalamins during pregnancy is caused by alteration in cobalamins attached to HC rather than in alterations in holoTC. Our data suggests that, holoTC, rather than cobalamins can be used as a marker for vitamin B12 deficiency during pregnancy.
we would like to thank the women who participated in the study and Anna Lisa Christensen and Jette Fisker Petersen at the Department of Clinical Biochemistry, Aarhus University Hospital, Denmark, for their technical assistance
Funding: this work was supported by The Lundbeck Fund and the Danish Medical Research Council.
- Copyright© Ferrata Storti Foundation