Micronutrient Status During Military Training and Associations With Musculoskeletal Health, Injury, and Readiness Outcomes

Nicole M Sekel; Mita Lovalekar; Kristen J Koltun; Matthew B Bird; Jennifer N Forse; Brian J Martin; Bradley C Nindl

doi:10.1123/ijsnem.2024-0080

Micronutrient Status During Military Training and Associations With Musculoskeletal Health, Injury, and Readiness Outcomes

Int J Sport Nutr Exerc Metab. 2024 Aug 21;34(6):378-386. doi: 10.1123/ijsnem.2024-0080. Print 2024 Nov 1.

Authors

Nicole M Sekel¹, Mita Lovalekar¹, Kristen J Koltun¹, Matthew B Bird¹, Jennifer N Forse¹, Brian J Martin¹, Bradley C Nindl¹

Affiliation

¹ Neuromuscular Research Laboratory/Warrior Human Performance Research Center, University of Pittsburgh, Pittsburgh, PA, USA.

PMID: 39168457
DOI: 10.1123/ijsnem.2024-0080

Abstract

Objective: Micronutrient status, specifically vitamin D and iron, represent modifiable factors for optimizing military readiness. The primary purpose of this investigation was to determine associations between micronutrient deficiency (i.e., iron status and 25-hydroxy-vitamin D [25(OH)D]) and operationally relevant outcomes (i.e., skeletal health, musculoskeletal injury) at baseline and post-10 weeks of arduous military training.

Methods: A total of 227 (177 men, 50 women) Marine Officer Candidates School (OCS) candidates who completed OCS training with complete data sets were included in this analysis. Vitamin D and iron status indicators were collected at two timepoints, pre (baseline) and post OCS. Musculoskeletal outcomes at the mid- and proximal tibial diaphysis were assessed via peripheral quantitative computed tomography.

Results: Micronutrient status declined following OCS training in men and women and was associated with musculoskeletal outcomes including greater bone strength (strength strain index) at the mid-diaphysis site in those with optimal status (M = 38.26 mm3, SE = 15.59) versus those without (M = -8.03 mm3, SE = 17.27). In women (p = .037), endosteal circumference was greater in the deficient group (M = 53.26 mm, SE = 1.19) compared with the optimal group (M = 49.47 mm, SE = 1.31) at the proximal diaphysis. In men, greater baseline hepcidin concentrations were associated with an increased likelihood of suffering musculoskeletal injury during training.

Conclusions: Vitamin D and iron status declined over the course of training, suggesting impaired micronutrient status. Differences in musculoskeletal outcomes by micronutrient group suggests optimal vitamin D and ferritin concentrations may exert beneficial effects on bone fatigability and fracture reduction during military training.

Keywords: Marine OCS training; iron status; peripheral quantitative computed tomography (pQCT); total 25-OH Vitamin D.

MeSH terms

Adult
Bone Density
Female
Humans
Iron / blood
Male
Micronutrients* / blood
Military Personnel*
Musculoskeletal System / injuries
Nutritional Status
Vitamin D Deficiency
Vitamin D* / analogs & derivatives
Vitamin D* / blood
Young Adult

Substances

Vitamin D
Micronutrients
25-hydroxyvitamin D
Iron