Vitamin B-12 in Human Milk: A Systematic Review.

Despite the critical role of vitamin B-12 in infant development, existing recommendations for infant and maternal intake during lactation are based on milk vitamin B-12 concentrations analyzed with outdated methods in a sample of 9 Brazilian women. Accurate quantification of vitamin B-12 in the milk matrix requires effective hydrolysis of the vitamin from haptocorrin, its binding protein. The objective of the present systematic review is to consider and critique evidence of associations between milk vitamin B-12 concentration and time postpartum, maternal vitamin B-12 consumption, maternal vitamin B-12 status, and sample collection methodology. A systematic search of published literature was undertaken using the US National Library of Medicine's MEDLINE/PubMed bibliographic search engine. Observational and intervention studies were included if research was original and vitamin B-12 concentration in human milk was measured using an appropriate method during the first 12 mo of lactation. Eleven studies met inclusion criteria. Vitamin B-12 concentration was highest in colostrum and decreased in a poorly delineated trajectory over the first 3-4 mo of lactation. There was some evidence of a positive association between habitual maternal vitamin B-12 intake and milk vitamin B-12 concentration in marginally nourished women. Supplementation with 50-250 µg vitamin B-12/d during pregnancy and lactation raised human milk vitamin B-12 concentrations while intervention was ongoing, whereas supplementation with 2.6-8.6 µg/d was effective in a population with poor baseline vitamin B-12 status but not in other populations. Whether milk vitamin B-12 concentration varies with maternal circulating vitamin B-12 concentrations or sampling methodology requires further research as existing data are conflicting. Additional research is needed to bridge knowledge gaps in the understanding of human milk vitamin B-12 concentrations. Reference values for vitamin B-12 in human milk and recommended intakes during infancy and lactation should be reevaluated using modern methods of analysis.

[1]  L. Allen,et al.  Iron, Zinc, Folate, and Vitamin B-12 Status Increased among Women and Children in Yaoundé and Douala, Cameroon, 1 Year after Introducing Fortified Wheat Flour , 2017, The Journal of nutrition.

[2]  L. Allen,et al.  Correlations between Maternal, Breast Milk, and Infant Vitamin B12 Concentrations among Mother–Infant Dyads in Vancouver, Canada and Prey Veng, Cambodia: An Exploratory Analysis , 2017, Nutrients.

[3]  L. Allen,et al.  Vitamin Concentrations in Human Milk Vary with Time within Feed, Circadian Rhythm, and Single-Dose Supplementation1234 , 2017, The Journal of nutrition.

[4]  Holly N. Dentz,et al.  Vitamin B-12 Concentrations in Breast Milk Are Low and Are Not Associated with Reported Household Hunger, Recent Animal-Source Food, or Vitamin B-12 Intake in Women in Rural Kenya. , 2016, The Journal of nutrition.

[5]  Kristin Decker Dietary Reference Intakes For Thiamin Riboflavin Niacin Vitamin B6 Folate Vitamin B12 Pantothenic Acid Biotin And Choline , 2016 .

[6]  L. Allen,et al.  Vitamin B12 supplementation during pregnancy and postpartum improves B12 status of both mothers and infants but vaccine response in mothers only: a randomized clinical trial in Bangladesh , 2016, European Journal of Nutrition.

[7]  L. Allen,et al.  Antiretroviral therapy provided to HIV-infected Malawian women in a randomized trial diminishes the positive effects of lipid-based nutrient supplements on breast-milk B vitamins. , 2015, The American journal of clinical nutrition.

[8]  L. Allen,et al.  Regional, Socioeconomic, and Dietary Risk Factors for Vitamin B-12 Deficiency Differ from Those for Folate Deficiency in Cameroonian Women and Children. , 2015, The Journal of nutrition.

[9]  M. Caudill,et al.  Vitamin B-12 Status Differs among Pregnant, Lactating, and Control Women with Equivalent Nutrient Intakes. , 2015, The Journal of nutrition.

[10]  A. Schmid,et al.  Vitamin B12 in meat and dairy products. , 2015, Nutrition reviews.

[11]  P. Degnan,et al.  Vitamin B12 as a modulator of gut microbial ecology. , 2014, Cell metabolism.

[12]  L. Allen,et al.  Vitamin B12 Deficiency in Pregnancy and Lactation: Is there a Need for Pre and Post-natal Supplementation? , 2014 .

[13]  L. Allen,et al.  Competitive chemiluminescent enzyme immunoassay for vitamin B12 analysis in human milk. , 2014, Food chemistry.

[14]  W. Fawzi,et al.  Vitamin B-12 supplementation during pregnancy and early lactation increases maternal, breast milk, and infant measures of vitamin B-12 status. , 2014, The Journal of nutrition.

[15]  M. Guo Functional Foods: Principles and Technology , 2014 .

[16]  P. Vestergaard,et al.  Cobalamin and haptocorrin in human milk and cobalamin-related variables in mother and child: a 9-mo longitudinal study. , 2013, The American journal of clinical nutrition.

[17]  R. Dhonukshe-Rutten,et al.  Systematic Review on Daily Vitamin B12 Losses and Bioavailability for Deriving Recommendations on Vitamin B12 Intake with the Factorial Approach , 2013, Annals of Nutrition and Metabolism.

[18]  G. Reid,et al.  Breast, Milk and Microbes: A Complex Relationship that Does Not End with Lactation , 2012, Women's health.

[19]  S. Moestrup,et al.  Vitamin B12 transport from food to the body's cells—a sophisticated, multistep pathway , 2012, Nature Reviews Gastroenterology &Hepatology.

[20]  L. Allen,et al.  Breast milk vitamin B-12 concentrations in Guatemalan women are correlated with maternal but not infant vitamin B-12 status at 12 months postpartum. , 2012, The Journal of nutrition.

[21]  M. R. Pepper,et al.  B12 in fetal development. , 2011, Seminars in cell & developmental biology.

[22]  J. Zeman,et al.  Clinical presentation and metabolic consequences in 40 breastfed infants with nutritional vitamin B12 deficiency--what have we learned? , 2010, European journal of paediatric neurology : EJPN : official journal of the European Paediatric Neurology Society.

[23]  L. Allen,et al.  High concentrations of haptocorrin interfere with routine measurement of cobalamins in human serum and milk. A problem and its solution , 2009, Clinical chemistry and laboratory medicine.

[24]  L. Allen,et al.  Effect of vitamin B12 deficiency on neurodevelopment in infants: current knowledge and possible mechanisms. , 2008, Nutrition reviews.

[25]  J. Kent How breastfeeding works. , 2007, Journal of midwifery & women's health.

[26]  Fumio Watanabe,et al.  Vitamin B12 Sources and Bioavailability , 2007, Experimental biology and medicine.

[27]  D. Jahn,et al.  Microbial production of vitamin B12 , 2002, Applied Microbiology and Biotechnology.

[28]  Y. Adkins,et al.  Binding of transcobalamin II by human mammary epithelial cells. , 2001, Advances in experimental medicine and biology.

[29]  Nutrition Board,et al.  Dietary Reference Intakes for Thiamin, Riboflavin, Niacin, Vitamin B6, Folate, Vitamin B12, Pantothenic Acid, Biotin, and Choline , 2000 .

[30]  P. Hartmann,et al.  Breast Volume and Milk Production During Extended Lactation in Women , 1999, Experimental physiology.

[31]  F. Watanabe,et al.  Comparison of a Microbiological Assay and a Fully Automated Chemiluminescent System for the Determination of Vitamin B12 in Food , 1998 .

[32]  N. Trugo,et al.  Cobalamin and cobalamin-binding capacity in human milk , 1994 .

[33]  D. van Zoeren-Grobben,et al.  Human milk vitamin content after pasteurisation, storage, or tube feeding. , 1987, Archives of disease in childhood.

[34]  J. Begley,et al.  The content, binding, and forms of vitamin B12 in milk. , 1981, The American journal of clinical nutrition.

[35]  M. Gregory The Microbiological Assay of ‘Vitamin B12’ in the Milk of Different Animal Species , 1954, British Journal of Nutrition.