25-hydroxyvitamin D Status of Healthy, Low-income, Minority Children in Atlanta, Georgia

Overview

Journal Pediatrics

Specialty Pediatrics

Date 2010 Mar 31

PMID 20351012

Citations 31

Authors

Conrad R Cole

Frederick K Grant

Vin Tangpricha

E Dawn Swaby-Ellis

Joy L Smith

Anne Jacques

Huiping Chen

Rosemary L Schleicher

Thomas R Ziegler

Affiliations

Soon will be listed here.

Abstract

Objectives: The goals were to determine the prevalence of vitamin D deficiency among minority children in a southern US city, to examine differences in serum 25-hydroxyvitamin D levels between non-Hispanic black and Hispanic children, and to determine dietary sources of vitamin D.

Methods: Low-income, minority children (N = 290; mean age: 2.5 +/- 1.2 years) were recruited during well-child clinic visits. Serum 25-hydroxyvitamin D and calcium levels were measured and dietary information was assessed.

Results: The mean 25-hydroxyvitamin D(3) level was 26.2 +/- 7.6 ng/mL, whereas 25-hydroxyvitamin D(2) was not detected. Overall, 22.3% of children had deficient serum 25-hydroxyvitamin D(3) levels (< or =20 ng/mL), 73.6% had less-than-optimal serum 25-hydroxyvitamin D levels (< or =30 ng/mL), and 1.4% had low serum calcium levels (< or =9 mg/dL). A significantly larger proportion of non-Hispanic black children, compared with Hispanic children, had vitamin D deficiency (26% vs 18%; P < .05). Age and season of recruitment were significantly associated with vitamin D deficiency and low serum calcium levels. Older children (> or =3 years) were less likely to have vitamin D deficiency (odds ratio [OR]: 0.89 [95% confidence interval [CI]: 0.81-0.96]; P < .001). Study enrollment during spring and summer reduced the likelihood of vitamin D deficiency by approximately 20% (spring, OR: 0.85 [95% CI: 0.73-0.98]; P = .03; summer, OR: 0.82 [95% CI: 0.73-0.92]; P < .01). Fortified milk provided most dietary vitamin D (62%), with Hispanic children reporting greater intake.

Conclusions: Suboptimal vitamin D status was common among apparently healthy, low-income, minority children. Age and season were significant predictors of vitamin D deficiency.

Citing Articles

Perspective: School Meal Programs Require Higher Vitamin D Fortification Levels in Milk Products and Plant-Based Alternatives-Evidence from the National Health and Nutrition Examination Surveys (NHANES 2001-2018).

Calvo M, Whiting S Adv Nutr. 2022; 13(5):1440-1449.

PMID: 35671093 PMC: 9526833. DOI: 10.1093/advances/nmac068.

Retrospective study of patterns of vitamin D testing and status at a single institution paediatric orthopaedics and sports clinics.

Mahan S, Ackerman K, DiFazio R, Miller P, Feldman L, Sullivan N BMJ Open. 2021; 11(12):e047546.

PMID: 34887268 PMC: 8663109. DOI: 10.1136/bmjopen-2020-047546.

An Assessment of Risk Factors for Insufficient Levels of Vitamin D during Early Infancy.

Tung K, Wong R, Tsang H, Chan B, Wong S, So H Nutrients. 2021; 13(4).

PMID: 33806056 PMC: 8064479. DOI: 10.3390/nu13041068.

Vitamin D Fortification of Fluid Milk Products and Their Contribution to Vitamin D Intake and Vitamin D Status in Observational Studies-A Review.

Itkonen S, Erkkola M, Lamberg-Allardt C Nutrients. 2018; 10(8).

PMID: 30096919 PMC: 6116165. DOI: 10.3390/nu10081054.

Association of serum vitamin D concentrations with dietary patterns in children and adolescents.

Ganji V, Martineau B, Van Fleit W Nutr J. 2018; 17(1):58.

PMID: 29866150 PMC: 5987485. DOI: 10.1186/s12937-018-0365-7.

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