Magnesium and Vitamin D Combination for Post-COVID Syndrome

More than 50 signs and symptoms have been described that characterize the post-COVID syndrome, among them the early presence of fatigue, shortness of breath, cough, joint and chest pain. Later, the signs and symptoms that may occur are muscle pain, headache, tachycardia, loss of smell or taste, memory and concentration problems, difficulty falling asleep, skin rashes and hair loss.

Vitamin D is a fat-soluble vitamin whose best-known function is calcium and phosphate homeostasis, but it is also involved in multiple processes, including the regulation of the immune response. In vitro, vitamin D decreases viral replication, which is linked to its ability to stimulate innate immunity, increases the synthesis of cathelicidin and defensins, peptides that favor the preservation of the mucosa and enhance its protective effect against infection. In vivo, vitamin D decreases the expression of the cellular co-receptor dipeptidyl peptidase (DPP)-4/cluster of differentiation antigen 26 (CD26), which interacts with protein S, which decreases the penetration of the virus into the cell, contributes to the regulation of immunity, regulating excessive immune response, which is associated with an adverse prognosis, and interacts with the nuclear factor-kappa B (NF-kB) pathway, decreases the intensity of the Th1 response and the synthesis of proinflammatory cytokines, and increases the synthesis of anti-inflammatory cytokines.

Magnesium, through its calcium channel blocking effect, decreases the inflammatory response produced by the NF-kB cascade, reduces the production of tumor necrosis factor alpha (TNF-α) and interleukin 6 (IL-6) by monocytes and the expression of cytokines and inflammatory proteins. It influences both cell-mediated and humoral adaptive immunity, since it participates in the activation of leukocytes, the binding of antigens to macrophages, apoptotic regulation, and it reduces the production of superoxide anions.

The pathophysiology of the post-COVID syndrome is not precisely known, although it has been established that it is a disorder with inflammatory components, endothelial damage, and thromboembolism.

In this context, magnesium deficiency is associated with the development of the pro-inflammatory and pro-thrombotic response that generates a favorable microenvironment for the development of inflammation, endothelial damage and thromboembolism, components linked to the post-COVID syndrome. On the other hand, it has been described that patients with post-COVID present with vitamin D deficiency, a deficiency that contributes to the development of fatigue, anemia and chronic inflammation. In addition, there is interaction between magnesium and vitamin D, in such a way that the deficiency of the first contributes to the decrease in the synthesis of 25-hydroxy vitamin D and 1,25-hydroxy vitamin D and the number and activity of vitamin D receptors.

Therefore, it is plausible to assume that both magnesium and vitamin D play an important role in the development of post-COVID syndrome.

Goal. To determine the efficacy of the administration of magnesium chloride + vitamin D as an adjuvant in the treatment of post-COVID syndrome.

Methods. Double-blind randomized controlled clinical trial to which subjects diagnosed with post-COVID syndrome will be integrated. The participants will be integrated: a) Intervention group that will receive 1 g of magnesium chloride (equivalent to 300 mg of elemental magnesium) + 4000 IU of vitamin D once a day, for four months. b) Control group that will receive inert placebo for four months.

Men and women, aged 18 years or older, with a diagnosis of post-COVID syndrome, hypomagnesaemia and vitamin D insufficiency will be included. Having received magnesium or vitamin D supplements in the last 30 days, as well as treatment based on of steroids, will be exclusion criteria. The withdrawal of informed consent and adherence to the intervention less than 80% will be criteria for elimination.

The outcome variable will be the improvement of the post-COVID syndrome. At the beginning and end of the study, blood samples will be taken to determine serum levels of vitamin D, total magnesium, ionic magnesium, calcium, fasting glucose and lipid profile.

Statistic analysis. The evaluation of the efficacy and safety of the proposed intervention will be carried out by establishing the differences between the intervention and control groups, which will be estimated using the unpaired Student's t-test for analysis of the parametric variables (Mann-Whitney U for non-parametric variables) and Chi-Square (Fisher's exact test) for the analysis of categorical variables.

Intragroup differences will be estimated using the paired Student's t-test. Even when it is assumed that the confounding variables will be controlled by the randomization process; Additionally, a stratified analysis will be carried out by those confounding variables that in the bivariate analysis show significant differences.