Panacea Index Logo

Command Palette

Search for a command to run...

Calcium and vitamin D supplementation and bone health in Marine recruits: Effect of season.

Bone
June 1, 2019
Erin Gaffney-Stomberg et al. (9 authors)
Journal ArticleRandomized Controlled TrialResearch Support, U.S. Gov't, Non-P.H.S.Human StudyClinical
Study Details

Study Goal

The researchers aimed to evaluate whether calcium and vitamin D supplementation improved bone health in Marine recruits during initial military training and whether the effects varied by season.

Results Summary

Calcium and vitamin D supplementation reduced some markers of bone formation and resorption and prevented the decline in vitamin D status during summer training, but had little overall effect on bone tissue measures. Training itself improved bone strength indices regardless of supplementation.

Population

United States Marine Corps recruits (197 participants, 107 males and 90 females, mean age 18.9 years).

Effective Dosage

2000 mg calcium and 1000 IU vitamin D per day, divided into twice-daily doses via fortified snack bars.

Duration

12 weeks.

Interactions

None mentioned.

Extracted Claims (15)
InterventionDirectionEndpointPopulationDosageImpactClaim #
daily calcium and vitamin D (Ca + D)
increase
bone strength
Army and Navy recruits
-
demonstrated improved
#1
daily calcium and vitamin D (Ca + D)
decrease
stress fractures
Army and Navy recruits
-
demonstrated reduced
#2
Ca + D fortified snack bars (2000 mg Ca and 1000 IU vitamin D per day)
increase
25OHD
Marine recruits
-
increased
#3
Ca + D fortified snack bars (2000 mg Ca and 1000 IU vitamin D per day)
decrease
BAP
Marine recruits
-
decreased
#4
Ca + D fortified snack bars (2000 mg Ca and 1000 IU vitamin D per day)
decrease
TRAP
Marine recruits
-
decreased
#5
Ca + D fortified snack bars (2000 mg Ca and 1000 IU vitamin D per day)
decrease
OCN
Marine recruits
-
decreased
#6
Training
increase
distal tibia volumetric BMD
Marine recruits
+1.9 ± 2.8%
increased
#7
Training
increase
distal tibia BMC
Marine recruits
+2.0 ± 3.1%
increased
#8
Training
increase
distal tibia bone strength index (BSI)
Marine recruits
+4.0 ± 4.0%
increased
#9
Training
increase
diaphyseal BMC
Marine recruits
+1.0 ± 2.2%
increased
#10
Training
increase
diaphyseal polar stress strain index (SSIp)
Marine recruits
+0.7 ± 2.1%
increased
#11
Ca + D fortified snack bars
increase
BSI
Marine recruits in the summer iteration
-
change was greater
#12
Ca + D supplementation
decrease
some markers of bone formation and resorption
volunteers
-
reduced
#13
Ca + D supplementation
no change
the decline in 25OHD over training
volunteers that started training in the summer
-
prevented
#14
Ca + D supplementation
no change
bone tissue
Marine recruits
-
little effect
#15
Abstract

Stress fractures are common overuse injuries caused by repetitive bone loading. These fractures are of particular concern for military recruits and athletes resulting in attrition in up to 60% of recruits that sustain a fracture. Army and Navy recruits supplemented with daily calcium and vitamin D (Ca + D) demonstrated improved bone strength and reduced stress fractures. The aim of the current study was to evaluate whether Ca + D supplementation improves measures of bone health in recruits undergoing United States Marine Corps initial military training (IMT), and whether the effect of supplementation on indices of bone health varied by season. One-hundred ninety-seven Marine recruits (n = 107 males, n = 90 females, mean age = 18.9 ± 1.6 y) were randomized to receive either Ca + D fortified snack bars (2000 mg Ca and 1000 IU vitamin D per day) or placebo divided into twice daily doses during 12 weeks of IMT. Anthropometrics, fasted blood samples, and peripheral quantitative computed tomography (pQCT) scans of the tibial metaphysis and diaphysis were collected upon entrance to- and post-training (12 weeks later). Half of the volunteers entered training in July and the other half started in February. Time-by-group interactions were observed for vitamin D status (25OHD) and the bone turnover markers, BAP, TRAP and OCN. 25OHD increased and BAP, TRAP and OCN all decreased in the Ca + D group (p < .05). Training increased distal tibia volumetric BMD (+1.9 ± 2.8%), BMC (+2.0 ± 3.1%), and bone strength index (BSI; +4.0 ± 4.0%) and diaphyseal BMC (+1.0 ± 2.2%) and polar stress strain index (SSIp; +0.7 ± 2.1%) independent of Ca + D supplementation (p < .05 for all). When analyzed by season, change in BSI was greater in the Ca + D group as compared to placebo in the summer iteration only (T*G; p < .05). No other effects of supplementation on bone tissue were observed. When categorized by tertile of percent change in BSI, recruits demonstrating the greatest changes in BSI and 25OHD entered training with the lowest levels of 25OHD (p < .05). Over all, these results suggest that Ca + D supplementation reduced some markers of bone formation and resorption and the decline in 25OHD over training in volunteers that started training in the summer was prevented by supplementation. Baseline 25OHD and trajectory may impact bone responses to IMT, but little effect of Ca + D supplementation was observed at the investigated doses.

Medical Subject Headings (MeSH)
AdolescentAdultBiomarkersBone DensityCalciumCalcium, DietaryDietary SupplementsDouble-Blind MethodFemaleHumansMaleMilitary PersonnelPhysical Conditioning, HumanSeasonsVitamin DYoung Adult
Study Links
Quality Scores
Safety85
Efficacy65/10
Quality80/10
Citation Metrics
Total Citations32
Citations/Year5.3
Relative Citation Ratio2.80
NIH Percentile83.4%
Research Impact Scores
APT Score0.95
Weight Score2.35
Normalized Score0.76
Related Supplements
Calcium and vitamin D supplementation and bone health in Mar... | Panacea Index