Preterm Infants on Early Solid Foods and Vitamin D Status in the First Year of Life—A Secondary Outcome Analysis of a Randomized Controlled Trial

Preterm birth places infants at high risk for mineral and micronutrient deficiencies important for bone health. The aim of this study was to examine whether two timepoints for the introduction of solid foods in preterm infants have an impact on vitamin D status in the first year of life. This is a secondary outcome analysis of a prospective, randomized trial on very low birth weight (VLBW) infants, randomized to an early (10–12th week corrected age) or a late (16–18th week corrected age) complementary-feeding group. Vitamin D status was assessed by blood samples taken at 6 weeks, 6, and 12 months corrected age. In total, 177 infants were randomized (early group: n = 89, late group: n = 88). There was a tendency toward lower levels of serum 25-OH-vitamin D in the early group throughout the first year of life (p = not significant (n.s.)); no differences were detected in the other parameters. At 6 months corrected age, infants of the early group had a significantly higher incidence of vitamin D deficiency. The timepoint of the introduction of solid foods had no impact on the serum 25-OH-vitamin D levels and other parameters important for bone health but showed a tendency toward lower levels in the early-feeding group.

[1]  R. Ristl,et al.  Randomized Controlled Trial of Two Timepoints for Introduction of Standardized Complementary Food in Preterm Infants , 2022, Nutrients.

[2]  S. Abrams Vitamin D and bone minerals in neonates. , 2021, Early human development.

[3]  R. Bokiniec,et al.  Monitored Supplementation of Vitamin D in Preterm Infants: A Randomized Controlled Trial , 2021, Nutrients.

[4]  T. Johnson,et al.  Evaluation of vitamin D protocol in the neonatal intensive care unit at Rush University Medical Center. , 2021, JPEN. Journal of parenteral and enteral nutrition.

[5]  S. Park,et al.  Vitamin D Status and Factors Associated with Vitamin D Deficiency during the First Year of Life in Preterm Infants , 2021, Nutrients.

[6]  S. Hintz,et al.  Neurodevelopmental and Growth Outcomes of Extremely Preterm Infants with Short Bowel Syndrome. , 2020, The Journal of pediatrics.

[7]  S. Abrams Vitamin D in Preterm and Full-Term Infants , 2020, Annals of Nutrition and Metabolism.

[8]  A. Zung,et al.  Reassessing vitamin D supplementation in preterm infants: a prospective study and review of the literature , 2020, Journal of pediatric endocrinology & metabolism : JPEM.

[9]  K. Calkins,et al.  Growth from Birth to 30 months for Infants Born with Congenital Gastrointestinal Anomalies and Disorders , 2020, American Journal of Perinatology.

[10]  Arpana Rayannavar,et al.  Screening for Metabolic Bone Disease of prematurity. , 2020, Seminars in fetal & neonatal medicine.

[11]  Czech-Kowalska Justyna Mineral and nutritional requirements of preterm infant. , 2019, Seminars in fetal & neonatal medicine.

[12]  H. Aly,et al.  Vitamin D supplementation and T Cell Regulation In Preterm Infants: A Randomized Controlled Trial. , 2019, Journal of pediatric gastroenterology and nutrition.

[13]  R. Padidela,et al.  Metabolic bone disease of prematurity: causes, recognition, prevention, treatment and long-term consequences , 2019, Archives of Disease in Childhood: Fetal and Neonatal Edition.

[14]  C. Wagner,et al.  Effect of Vitamin D Supplementation on Recurrent Wheezing in Black Infants Who Were Born Preterm: The D-Wheeze Randomized Clinical Trial , 2018, JAMA.

[15]  Sarah N. Taylor,et al.  Functional indicators of vitamin D adequacy for very low birth weight infants , 2018, Journal of Perinatology.

[16]  A. Antonakou Vitamin D supplementation for women during pregnancy. , 2017, Women and birth : journal of the Australian College of Midwives.

[17]  S. O’Donovan,et al.  Vitamin D metabolite concentrations in umbilical cord blood serum and associations with clinical characteristics in a large prospective mother-infant cohort in Ireland , 2017, The Journal of Steroid Biochemistry and Molecular Biology.

[18]  H. Tiemeier,et al.  Prevalence and predictors of vitamin D deficiency based on maternal mid-gestation and neonatal cord bloods: The Generation R Study , 2016, The Journal of Steroid Biochemistry and Molecular Biology.

[19]  E. Lyden,et al.  Vitamin D metabolism in the premature newborn: A randomized trial. , 2016, Clinical nutrition.

[20]  W. Carlo,et al.  A Comparison of 3 Vitamin D Dosing Regimens in Extremely Preterm Infants: A Randomized Controlled Trial. , 2016, The Journal of pediatrics.

[21]  H. Karpen Nutrition in the Cardiac Newborns: Evidence-based Nutrition Guidelines for Cardiac Newborns. , 2016, Clinics in perinatology.

[22]  O. Franco,et al.  Associations of breast-feeding patterns and introduction of solid foods with childhood bone mass: The Generation R Study , 2016, British Journal of Nutrition.

[23]  B. Poindexter,et al.  Impact of Nutrition on Bronchopulmonary Dysplasia. , 2015, Clinics in perinatology.

[24]  H. Christesen,et al.  The impact of vitamin D on fetal and neonatal lung maturation. A systematic review. , 2015, American journal of physiology. Lung cellular and molecular physiology.

[25]  M. Holick,et al.  Vitamin D for health: a global perspective. , 2013, Mayo Clinic proceedings.

[26]  F. Cadario,et al.  Vitamin D status in cord blood and newborns: ethnic differences , 2013, Italian Journal of Pediatrics.

[27]  S. Abrams Calcium and Vitamin D Requirements of Enterally Fed Preterm Infants , 2013, Pediatrics.

[28]  T. Fenton,et al.  A systematic review and meta-analysis to revise the Fenton growth chart for preterm infants , 2013, BMC Pediatrics.

[29]  J. Taminiau,et al.  Review article: the clinical importance of growth in children with inflammatory bowel disease: is it important to the gastroenterologist? , 2007, Alimentary pharmacology & therapeutics.

[30]  C. Wagner,et al.  Neonatal vitamin D status at birth at latitude 32°72′: evidence of deficiency , 2007, Journal of Perinatology.

[31]  Charles R. Scriver,et al.  Committee on Nutrition , 1956, Pediatric Clinical Practice Guidelines & Policies.

[32]  B. Poindexter,et al.  Scientific Basis and Practical Application of Nutritional Care for Preterm Infants. , 2021, World review of nutrition and dietetics.

[33]  R. Bouillon Extra-Skeletal Effects of Vitamin D. , 2018, Frontiers of hormone research.

[34]  A. Litonjua,et al.  Vitamin D status among preterm and full-term infants at birth , 2014, Pediatric Research.

[35]  K. Ellis,et al.  Body composition of the preterm infant. , 1994, Annals of human biology.