Article ID Journal Published Year Pages File Type
2779536 Bone 2012 7 Pages PDF
Abstract

Nutritional rickets in Nigerian children usually results from dietary calcium insufficiency. Typical dietary calcium intakes in African children are about 200 mg daily (approximately 20–28% of US RDAs for age). We sought to determine if rickets could be prevented with supplemental calcium or with an indigenous food rich in calcium. We enrolled Nigerian children aged 12 to 18 months from three urban communities. Two communities were assigned calcium, either as calcium carbonate (400 mg) or ground fish (529 ± 109 mg) daily, while children in all three communities received vitamin A (2500 IU) daily as placebo. Serum markers of mineral homeostasis and forearm bone density (pDEXA) were measured and radiographs were obtained at enrollment and after 18 months of supplementation. The overall prevalence of radiographic rickets at baseline was 1.2% and of vitamin D deficiency [serum 25(OH)D < 12 ng/ml] 5.4%. Of 647 children enrolled, 390 completed the 18-month follow-up. Rickets developed in 1, 1, and 2 children assigned to the calcium tablet, ground fish, and control groups, respectively (approximate incidence 6.4/1000 children/year between 1 and 3 years of age). Children who developed rickets in the calcium-supplemented groups had less than 50% adherence. Compared with the group that received no calcium supplementation, the groups that received calcium had a greater increase in areal bone density of the distal and proximal 1/3 radius and ulna over time (P < 0.04). We conclude that calcium supplementation increased areal bone density at the radius and ulna, but a larger sample size would be required to determine its effect on the incidence of rickets.

► Rickets in African children is often due to insufficient dietary calcium. ► Rickets might be prevented with increased dietary or supplemental calcium. ► Nigerian toddlers were given calcium tablets, ground fish, or placebo for 18 months. ► Calcium resulted in a greater increase in forearm bone density over time.

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