Logo

Garden City
Plainview
Listen to The Optimal Health Program on WOR radio (710 on the AM dial) on Saturday mornings from 7-8 AM and WABC Radio 770 A.M. Sunday evenings from 10-11PM
Click Here for Telemedicine Consultation & Appointment
Vitamin A deficiency and attributable mortality among under-5-year-olds.

Reported are estimates of the prevalence in developing countries of physiologically significant vitamin A deficiency and the number of attributable deaths. The WHO classification of countries by the severity and extent of xerophthalmia was used to categorize developing countries by likely risk of subclinical vitamin A deficiency. Using vital statistics compiled by UNICEF, we derived population figures and mortality rates for under-5-year-olds.

The findings of vitamin A supplementation trials were applied to populations at-risk of endemic vitamin A deficiency to estimate the potential impact of improved vitamin A nutriture in reducing mortality during preschool years. Worldwide, over 124 million children are estimated to be vitamin A deficient. Improved vitamin A nutriture would be expected to prevent approximately 1-2 million deaths annually among children aged 1-4 years. An additional 0.25-0.5 million deaths may be averted if improved vitamin A nutriture can be achieved during the latter half of infancy.

Improved vitamin A nutriture alone could prevent 1.3-2.5 million of the nearly 8 million late infancy and preschool-age child deaths that occur each year in the highest-risk developing countries.

PIP: Reported are estimates of the prevalence in developing countries of physiologically significant vitamin A deficiency and the number of attributable deaths. The WHO classification of countries by the severity and extent of xerophthalmia was used to categorize developing countries by likely risk of subclinical vitamin A deficiency. Using vital statistics compiled by UNICEF, the authors derived population figures and mortality rates for under-5 year olds.

The findings of vitamin A supplementation trials were applied to populations at risk of endemic vitamin A deficiency to estimate the potential impact of improved vitamin A nutriture in reducing mortality during the preschool years. Worldwide, over 125 million children are estimated to be vitamin A deficient.

Improved vitamin A nutriture would be expected to prevent approximately 1-2 million deaths annually among children ages 1-4. an additional 0.25-0.5 million deaths may be averted if improved vitamin A nutriture can be achieved during the latter 1/2 of infancy. Improved vitamin A nutriture alone could prevent 1.3-2.5 million of the nearly 8 million late infancy and preschool age child deaths that occur each year in the highest risk developing countries.