Prednisone can affect this through 2 different nutrient pathways: Calcium, Magnesium. This medication is commonly used for Inflammation.
Each nutrient below contributes to this impact through a different mechanism.
In adults, chronically low calcium intake can quietly erode skeletal integrity, contributing to osteopenia, osteoporosis, and a higher risk of low‑trauma fractures over time. In children, inadequate calcium (often alongside vitamin D deficiency) impairs normal mineralization of the growing skeleton, leading to rickets with bone pain, deformities, and delayed growth, while in adults the same process manifests as osteomalacia with diffuse bone pain and muscle weakness rather than early fractures. The encouraging reality is that optimizing daily calcium intake, paired with sufficient vitamin D, protein, and weight‑bearing activity, has been shown to improve bone mineral density and meaningfully reduce fracture risk in at‑risk populations.
Bischoff-Ferrari HA, Rees JR, Grau MV, Barry E, Gui J, Baron JA. Effect of calcium supplementation on fracture risk: a double-blind randomized controlled trial. Am J Clin Nutr. 2008 Jun;87(6):1945-51. Cong B, Zhang H. The effects of combined calcium and vitamin D supplementation on bone mineral density and fracture risk in postmenopausal women with osteoporosis: a systematic review and meta-analysis of randomized controlled trials. BMC Musculoskelet Disord. 2025 Oct 8;26(1):928. Heaney RP. Lifelong calcium intake and prevention of bone fragility in the aged. Calcif Tissue Int. 1991;49 Suppl:S42-5. Arnaud, C. D., Sanchez, S. D. The Role of Calcium in Osteoporosis. September 6, 2013. NASA. Lyndon B. Johnson Space Center, Spacelab Life Sciences 1: Reprints of Background Life Sciences Publications. Cairoli E, Aresta C, Giovanelli L, Eller-Vainicher C, Migliaccio S, Giannini S, Giusti A, Marcocci C, Gonnelli S, Isaia GC, Rossini M, Chiodini I, Di Stefano M; Italian Society for Osteoporosis, Mineral Metabolism, Skeletal Diseases (SIOMMMS). Dietary calcium intake in a cohort of individuals evaluated for low bone mineral density: a multicenter Italian study. Aging Clin Exp Res. 2021 Dec;33(12):3223-3235. Uday S, Högler W. Nutritional Rickets and Osteomalacia in the Twenty-first Century: Revised Concepts, Public Health, and Prevention Strategies. Curr Osteoporos Rep. 2017 Aug;15(4):293-302.
Low or depleted magnesium levels are associated with a higher risk of osteoporosis and fractures, with studies linking magnesium deficiency to a 25–35% increased risk of hip, wrist, and spine fractures in some populations. Magnesium deficiency impairs bone mineralization and vitamin D activation, compounding skeletal weakness by disrupting osteoblast function and calcium balance. This is particularly concerning for older adults or those with additional risk factors, where monitoring magnesium status and considering supplementation may help mitigate bone loss.
Front Pharmacol. 2025 May 12;16:1592048. Rude RK, Singer FR, Gruber HE. Skeletal and hormonal effects of magnesium deficiency. J Am Coll Nutr. 2009 Apr;28(2):131-41. Liu L, Luo P, Wen P, Xu P. The role of magnesium in the pathogenesis of osteoporosis. Front Endocrinol (Lausanne). 2024 Jun 6;15:1406248. Li S, Chang W, Wu G, Wang K, Sun X, Sun H, Zhou J. Association between magnesium deficiency scores and hip bone health in adults: a population-based study. Magnes Res. 2025 Dec 1;38(3):81-94. Belluci MM, de Molon RS, Rossa C Jr, Tetradis S, Giro G, Cerri PS, Marcantonio E Jr, Orrico SRP. Severe magnesium deficiency compromises systemic bone mineral density and aggravates inflammatory bone resorption. J Nutr Biochem. 2020 Mar;77:108301.
Some side effects may be linked to nutrient depletion caused by this medication.
Research has found that corticosteroids increased chromium excretion in patients after just three days. Chromium is an essential mineral that helps regulate blood sugar levels. This is important because corticosteroids themselves can raise blood sugar, contributing to diabetes. Evidence suggests that chromium supplementation improved fasting blood glucose levels in patients with steroid-induced diabetes.
Maintaining healthy potassium levels is important when taking corticosteroids. These medications can increase the amount of potassium the body loses through urine. Potassium is a vital mineral that helps muscles and nerves function properly. While short-term use of corticosteroids might not cause significant problems, studies suggest that with prolonged treatment, the body's ability to maintain proper potassium balance (homeostasis) can be affected.
Corticosteroids can lower calcium levels in the body. This is a double threat to bone health because corticosteroids themselves can weaken bones. Calcium is essential for strong bones, and a study showed that supplementing with both calcium and vitamin D3 helped prevent bone loss in people with rheumatoid arthritis taking corticosteroids. Supplementation with calcium should be considered during long term corticosteroid therapy.
Corticosteroids can increase the urinary loss of selenium elevating the risk for deficient levels. Selenium is a mineral that acts as an antioxidant, helping protect cells from damage. Studies have shown that rheumatoid arthritis patients taking high doses of corticosteroids tend to have lower selenium levels. This is concerning because low selenium intake is linked to osteoporosis, and selenium has been shown to play a role in bone protection in animal models of corticosteroid-induced osteoporosis. Supplementation with selenium should be considered during long term corticosteroid therapy.
Corticosteroids can increase the body's excretion of magnesium, potentially leading to a deficiency. This is concerning because magnesium plays a vital role in many bodily functions, including muscle and nerve function. Research suggests that magnesium supplementation alleviated corticosteroid therapy associated muscle atrophy. Supplementation with magnesium should be considered during long term corticosteroid therapy.
Research suggests corticosteroids can lower vitamin D levels in the body by increasing its breakdown. This is a concern because vitamin D plays a crucial role in bone health and the immune system, and corticosteroids themselves can weaken bones. A study found that calcium and vitamin D3 supplements helped prevent bone loss in the lower back (lumbar spine) and hip (trochanter) for people with rheumatoid arthritis who were on low-dose corticosteroids. Evidence suggests vitamin D may work synergistically together with corticosteroids to improve asthma treatment by boosting the effectiveness of corticosteroids or by overcoming resistance to these medications in some patients.