Vitamin D deficiency has been associated adversely with health outcomes. There is no dietary reference value for vitamin D for the age-group 4–64 years as it is considered that UVB exposure from sunlight provides sufficient quantities. There is now overwhelming evidence of widespread vitamin D insufficiency in the general population. The optimum levels of serum 25-hydroxyvitamin D (S-25(OH)D) for adult health are considered to be 75–80 nmol/l, but the levels required for children and adolescents to maintain optimal peak bone mass (PBM) are not clear⁽Reference Holick¹⁾.

The effects of nutrition and exercise on PBM development were investigated in young female gymnasts (G) and non-gymnasts (C)⁽Reference Nurmi-Lawton, Baxter-Jones and Mirwald²⁾. The initial baseline data for this 3-year longitudinal study are reported here. Dietary intake was assessed using estimated dietary records (7 d at baseline) and analysed using Diet 5 for Windows (version 2000; Robert Gordon University, Aberdeen, UK). Blood samples were collected during the month of October and S-25(OH)D, plasma parathyroid hormone (P-PTH), serum Ca (S-Ca) and serum albumin (S-alb) were determined at baseline. Data for anthropometric measurements, pubertal maturation, bone mass and bone metabolism markers were also collected and reported previously⁽Reference Holick¹⁾.

^a,bMeans within rows with unlike superscript letters were significantly different (t test, P<0.05).

Dietary intakes of vitamin D and Ca were similar for both groups. Group G had significantly lower S-25(OH)D and S-Ca (all P<0.01) than group C, but no difference was found for P-PTH. S-25(OH)D levels <40 nmol/l (indicative of suboptimal vitamin D status) was found in 34% of group G and 20% of group C. There was a weak but significant Pearson correlation between dietary intake of vitamin D and S-25(OH)D for all subjects (r 0.3, P<0.02) and for group G (r 0.5, P<0.01), but not for the group C. A negative correlation was found between S-25(OH)D and P-PTH (r −0.3, P<0.02).

These results indicate a prevalence of suboptimal vitamin D status in young British females. Group G have previously been reported to have greater bone mass than group C⁽Reference Holick¹⁾. The finding of lower S-25(OH)D for group G but similar P-PTH compared with group C suggests that high-impact training may have independent bone-building effects through force loading, which may override other negative effects such as low S-25(OH)D status, thus allowing for optimal PBM development.