Vitamin D deficiency and co-morbidities in COVID-19 patients - A fatal relationship?
NFS Journal (Official Journal of the Society of Nutrition and Food Science) https://doi.org/10.1016/j.nfs.2020.06.001
Hans K. Biesalski
Institute of Nutritional Sciences, University Hohenheim, D 70599 Stuttgart, Germany. biesal@t-online.de, biesal@uni-hohenheim.de.
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Table of contents
- Introduction
- Vitamin D effects
- Vitamin D and immune system
- Food sources
- Vitamin D deficiency
- Risk factors for severe courses of COVID-19
- The renin-angiotensin-system (RAS)
- RAS and SARS-CoV-2
- RAS and vitamin D deficiency
- Vitamin D, blood pressure, and COVID-19 mortality
- Vitamin D and cardiovascular diseases
- Vitamin D, obesity and type II diabetes
- Vitamin D and ARDS (adult respiratory distress syndrome)
- Cytokine storm: Vitamin D, SARS-CoV-2, and ACE2
- Kawasaki syndrome
- Therapeutic aspects
- Limitations
- Conclusion
- References in PDF
- COVID-19 treated by Vitamin D - studies, reports, videos - VitaminDWiki
- Intervention
- Trial Results
43 studies in both Virus and Intervention - Virus meta-analyses and Systematic Reviews
- Observe - Less likely to become infected
- Observe - Reduced Severity/Death
Introduction
Infections of the respiratory tract are more frequent in the winter months and especially in the northern latitudes than they are in summer [1]. This obviously also applies to the COVID-19 infectious disease that briefly spread all over the world in the winter months and became a pandemic [2,3]. A common feature of the winter months and the inhabitants of all countries north of the 42nd parallel is a hypovitaminosis D that frequently occurs during this period [4]. In addition during cold temperature the virus will be more easily transmitted. This raises the question of whether an inadequate vitamin D supply has an influence on the progression and severity of COVID-19 disease.
A low vitamin D status, measured as the plasma level of the transport form of vitamin D, 25(OH)D,is widespread worldwide and is mainly found in regions of northern latitudes, but also in southern countries [5]. In Europe, vitamin D deficiency is widely prevalent during the winter months and affects mainly elderly people and migrants. In Scandinavia only 5% of the population is affected by a low vitamin D status, in Germany, France and Italy more than 25%, particularly older people e.g. in Austria up to 90% of senior citizens [6,7]. In Scandinavian countries, the low incidence of vitamin D deficiency may be due to the traditional consumption of cod liver oil rich in vitamin D and A or to genetic factors resulting in higher synthesis of vitamin D in the epidermal layer [8]. Taken together, low vitamin D status is common in Europe with the exception of the Scandinavian countries. The calculated COVID-19 mortality rate from 12 European countries shows a significant (P = .046) inverse correlation with the mean 25(OH)D plasma concentration [9].
This raises the question whether insufficient vitamin D supply has an influence on the course of COVID-19 disease? An analysis of the distribution of Covid-19 infections showed a correlation between geographical location (30-50° N + ), mean temperature between 5-11°C and low humidity [10]. In a retrospective cohort study (1382 hospitalized patients) 326 died, Among them 70.6% were black patients. However, black race was not independently associated with higher mortality [11]. An excess mortality (2 to sixfold have been described in African-Americans with average latitudes of their state of residence in higher latitudes (> 40) [12]. The mortality of COVID-19 (cases/ million population) shows a clear dependence on latitude. Below latitude 35, mortality decreases markedly [13]. Indeed, there are exceptions e.g. Brazil (tenfold higher than all other latin American countries - except mexico), however, the management of the pandemic may increase infection risk.Vitamin D effects
The skeletal and extra skeletal effects of vitamin D have recently been described in an extensive review [14]. Vitamin D exerts a genomic and non-genomic effect on gene expression. The genomic effect is mediated by the nuclear vitamin D receptor (VDR), which acts as a ligand activated transcription factor. The active form 1,25(OH)2D binds to the VDR and in most cases heterodimerizes with the retinoid X receptor (RXR), whose ligand is one of the active metabolites of vitamin A, 9-cis retinoic acid. The interaction of this complex with the vitamin D responsive element can regulate the expression of target genes either positively or negatively [15]. The non-genomic effects involve the activation of a variety of signaling molecules that interact with Vitamin D responsive element (VDRE) in the promoter regions of vitamin D dependent genes [16]. Vitamins A and D are also of particlular importance for the barrier function of mucous membranes in the respiratory tract [17,18].
Vitamin D and immune system
Vitamin D plays an essential role in the immune system [19]. Vitamin D interferes with the majority of the immune systems cells such as macrophages, B and T lymphocytes, neutrophils and dendritic cells, which express VDR (for details [20] and Fig. 3). Cathelicidin, a peptide formed by vitamin D stimulated expression, has shown antimicrobial activity against bacteria, fungi and enveloped viruses, such as corona viruses [21,22]. Furthermore Vitamin D inhibits the production of pro- inflammatory cytokines and increases the production of anti-inflammatory cytokines [23].
The active metabolite of vitamin D in macrophages and dendritic cells, derived from the precursor 25(OH)D, leads to the activation of VDR, which, after RXR heterodimerization, results in the expression of various proteins of the innate and adaptive immune system (Treg cells, cytokines, defensins, pattern recognition receptors etc.) [24]. Vitamin D exerts opposite effects on the adaptive (inhibition) and innate (promotion) immunsystem This correlates with an anti-inflammatory response and balances the immune response [25].
The active metabolite of vitamin D, 1,25(OH)2D3 can be formed in T and B lymphocytes and inhibits T cell proliferation and activation [26]. This way, vitamin D may suppress T-cell mediated inflammation and stimulate Treg cells proliferation, by increasing IL-10 formation in DC cells, and thus enhance their suppressive effect [27,28].Food sources
There are only few dietary sources of vitamin D (cod liver oil, fat fish) that could satisfy the recommended daily allowance (15-20 ug/ day for adults). To reach such amount besides availability of dietary sources, vitamin D skin synthesis, which contributes to 80% in healthy individuals up to the age of 65, is important.
With the exception of mushrooms there are no plant sources of vitamin D. In particular wild mushrooms, which are grown in light. Sun- dried but not fresh mushrooms can contain between 7 and 25 ug/100 g of vitamin D2 [29], which is an important source [30] with a good shelf life [31] and comparable bioavailability to vitamin D3 [32]. Vitamin D status can be significantly improved by fortified foods, as was shown in a meta-analysis [33].Vitamin D deficiency
Insufficient levels of vitamin D are caused by two main physiological causes: Low UVB exposure, especially in northern regions during the winter season [34] and in case of strong pigmentation, as well as decreased vitamin synthesis in the skin with aging [35]. In addition a poor diet, low in fish and fortified food (if available) are the major reason for deficiency in old age and people living in poverty. Major risk groups [36], besides pregnant women and children under 5, include elderly, over 65 years, those with little or no sun exposure (full body coverage, little contact with the outside world) as well as people with dark skin, especially in Europe and the USA.
The vitamin D deficiency is a worldwide problem, which is not only observed in the northern countries, but increasingly also in the south. While in Europe, for example, deficits (< 30 nmol) are between 20 and 60% in all age groups, in Asia the figure for children is 61% (Pakistan, India) and 86% (Iran) [37,38].
Particularly critical is the number of migrants from Southern countries with insufficient vitamin D status (<25nmol/L) [39]: e.g. Netherlands 51%, Germany 44% (in summer), UK 31% (end of summer) and 34% (autumn). In India, the number of adults with values < 25 nmol/L ranges from 20% to 96% depending on the region.
The half-life of 25(OH)D3 is about 15 days and that of 25(OH)D2 is between 13 and 15 days, due to the weaker affinity to the vitamin D binding protein [40]. Consequently, longer periods of time indoor, e.g. in care homes or longer time in quarantine, pose risk for developing vitamin D deficiency.Risk factors for severe courses of COVID-19
Older age and co-morbidities are linked to an insufficient vitamin D supply. Over 60 years of age, a reduction in the synthesis of vitamin D in the skin becomes apparent, which further increases getting older [41]. The precursor of vitamin D, 7-dehydrocholesterol in the skin declines about 50% from age 20 to 80 [42], and the elevation of cho- lecalciferol levels in serum following UVB radiation of the skin shows more than a 4-fold difference in individuals aged 62-80 yrs. compared with controls (20-30yrs) [43]. This explains the high number of older individuals with an inadequate vitamin D status.
Based on a meta-analysis including 30 studies with 53,000 COVID- 19 patients, co-morbidities are risk factors for disease severity:Risk factor Odds ratio 95% CI Old age > 50yrs 2.61 2.29-2.98 Male 1.38 1.195-1.521 Smoking 1.734 1.146-2.626 Any co-morbidity 2.635 2.098-3.309 Chronic kidney disease 6.017 2.192-16.514 COPD 5.323 2.613-10.847 Cerebrovascular disease 3.219 1.486-6.972
Independent prognostic factors for COVID-19 related death:Risk factor Relative risk 95% CI Old age > 60 9.45 8.09-11.04 CVD 6.75 5.40-8.43 Hypertension 4.48 3.69-5.45 Diabetes 4.43 3.49-5.61
Co-morbidities and old age show a relationship with Renin- Angiotensin-Aldosteron-System (RAS), vitamin D status and COVID-19 infection.The renin-angiotensin-system (RAS)
RAS plays an important role in maintaining vascular resistance and extracellular fluid homoeostasis. Fig. 1 summarizes the essential steps of this system.
Mainly in the juxtaglomerular apparatus of the kidney, but also in other tissues and cells, renin is formed, which cleaves the angiotensi- nogen secreted from the liver very selectively to the inactive form angiotensin I (Ang I). This decapeptide is then cleaved by a further protease the angiotensin-converting-enzyme (ACE) on the surface of the endothelial cells to the active angiotensin II (Ang II), which can bind to two different receptors AT1R or AT2R. Synthesis and secretion of renin in the kidney, as rate limiting enzyme of RAS, is stimulated by fluid volume, reduction of the perfusion pressure or salt concentration and by the sympathetic nervous system activity.
Renin synthesis and secretion is inhibited with increasing Ang II via an AT1R mediated effect and stimulated with decreasing Ang II [44]. The stimulating effect on renin synthesis and secretion due to either low levels of Ang II or Ang II converting inhibitors (ACEI) or Ang II receptor blockers (ARB) is mediated through ligands that activate cAMP/PKA (Protein Kinase A) pathways (e.g. catecholamines, prostaglandins and nitric oxide) [45,46].
Ang II leads to the release of catecholamines and vasoconstriction. Via AT1R, Ang II increases aldosterone release and sodium reabsorption. Furthermore, binding to AT1R has pro-inflammatory and pro- oxidative effects and inhibits the action of insulin in endothelial and muscle cells. The latter can lead to a decrease in NO production in endothelial cells and thus will further increase vasoconstriction [47].
With the discovery of ACE2, a novel homologue of ACE, a transmembrane metallopeptidase with an extracellular ectodomain, the understanding of RAS manifold regulatory function was deepened (Review [48]). ACE2, a monocarboxypeptidase has been shown to cleave Ang I to Ang 1-9, and Ang II to Ang 1-7. This degradation can weaken the effect of Ang II at AT1R and thus counteract the pathological changes. While Ang 1-9 exerts a cardioprotective effect via AT2R [49], Ang 1-7 acts via the Mas Oncogene receptor. This counterbalances the effect of ANG II at AT1R and subsequently the “overstimulation” of the RAS and its pathological consequences [50]. ACE2 is expressed in many organs, especially kidney and lung, and in the cardiovascular system in cardiomyocytes, cardiac fibroblasts, vascular smooth muscle and endothelial cells. It can counteract the effects of RAS, such as inflammation, vasoconstriction, hypertrophy and fibrosis, by degrading Ang I and Ang II, thus making them less available for the ACE/AngII/AT1 axis. At the same time ACE2 can strengthen the ACE2/ Ang 1-7/Mas axis which attenuates the proinflammatory RAS activation.RAS and SARS-CoV-2
Classical pathway
Angiotensinogen
Counter-regulatory pathway
Increases:- Bloodpressure
- Vasoconstriction
- Inflammation
- Catecholamines
- Cardiac hypertrophy
Decreases:
- Bloodpressure Vasoconstriction Inflammation Catecholamines Cardiac hypertrophy
- Renin
Fig. 1. In the classical RAS pathway Renin, expressed from the renin gene induces cleavage of Angiotensinogen to Angiotensin I which is converted to Angiotensin II via Angiotensin converting enzyme (ACE). Ang II activates the Angiotensin 1 receptor which results in an increase of blood pressure and further effects on the vascular system. In addition, Ang II suppresses renin synthesis via AT1R. To keep the system in balance a counter regulatory pathway exists. This pathway is activated through cleavage of Ang I to Ang1-9 via ACE2 or AT2R activation or Ang II to Ang1-7 which counter regulates via Mas receptor. This helps the system to stay within a homoeostatic balance, as long as the RAS activity is controlled.Infection with SARS-CoV-2 causes the virus spike protein to come into contact with ACE2 on the cell surface and thus to be transported into the cell. This endocytosis causes upregulation of a metallopepti- dase (ADAM17), which releases ACE2 from the membrane, resulting in a loss of the counter regulatory activity to RAS [51]. As a result, proinflammatory cytokines are released extensively into the circulation. This leads to a series of vascular changes, especially in the case of preexisting lesions, which can promote further progression of cardiovascular pathologies.
SARS-CoV-2 not only reduces the ACE2 expression, but also leads to further limitation of the ACE2/Ang 1-7/Mas axis via ADAM17 activation, which in turn promotes the absorption of the virus. This results in an increase in Ang II, which further upregulates ADAM 17. Thus a vicious circle is established turning into a constantly self-generating and progressive process. This process may contribute not only to lung damage (Acute respiratory distress syndrome - ARDS), but also to heart injury and vessels damage, observed in COVID-19 patients. Thus, previous lesions of the cardiovascular system represent a risk factor, since coexisting pathologies can progress as a result of the virus infection [52,53].RAS and vitamin D deficiency
Several studies have shown increased plasma renin activity, higher Ang II concentrations and higher RAS activity as a consequence of low vitamin D status [54,55]. The same applies to the decreasing Renin activity with increasing vitamin D levels [56]. There is an inverse relationship between circulating 25(OH)D and renin, which is explained by the fact that vitamin D is a negative regulator of renin expression and reduces renin expression by suppressing transcriptional activity in the renin gene promoter, thus acting as a negative RAS regulator to prevent overreaction In VDR knock out mice [57,58]. The 1,25(OH)2D induced repression of the renin gene expression is independent from Ang II feedback regulation.
Permanent increase of the renin levels with an increased Ang II formation has been described, suggesting that in vitamin D deficiency the expression and secretion of renin is increased at an early stage [59,60]. This results in increased fluid and salt intake and rise in blood pressure, that has been explained by an increase in renin and consecutive upregulation of the RAS in the brain [61].
Fig. 2 gives a short description of the impact of vitamin D on RAS.
In a small (open-label, blinded endpoint) study with 101 participants who received 2000 IU vitamin D3 or placebo over 6 weeks, a significant decrease in plasma renin activity and concentration was described [62].
The EVITA study examined the effect of vitamin D supplementation (4000IU/day) over 36 months [63]. No relationship was found between blood levels of 1,25(OH)2D and various parameters of the RAS (renin, aldosterone) and vitamin D plasma levels increase. Rather, vitamin D supplementation led to an increase in renin in a subgroup that initially had a mild deficiency of vitamin D. The 25(OH)D value in these subgroups increased from 20.4 nmol/L to 83.7 nmol/L after 36 months. Renin from 859 mIU/L to 1656mIU/L. It cannot be excluded that these were rather toxic effects of a dose in the upper level range. However, the fact that blood levels increase naturally reduced the renin concentration become clear when looking at the placebo group with initial hypovitaminosis D (21.3 nmol/L) with a strong increase after 36 months (45.6 nmol/L). Renin decreases from the initial value of 507 to 430mIU/L after 36 months. According to this, a moderate suppressive effect of vitamin D is conceivable under physiological conditions and in particular in participants with a compensated vitamin D deficiency. The plasma level of renin and 1,25(OH)2D show a significant inverse correlation in hypertensive individuals [64]. In a study on 184 normotensive participants, higher circulating Ang II levels were associated with decreasing 25(OH)D blood levels. After infusion of Ang II there was a blunted renal blood flow, both effects were considered RAS activation in the setting of lower plasma 25(OH)D [65].Vitamin D, blood pressure, and COVID-19 mortality
Vitamin D supplementation leads to a reduction in blood pressure in patients with essential hypertension [66,67], and to a reduction in blood pressure, plasma renin activity and angiotensin II levels in patients with hyperparathyroidism [68,69]. Low vitamin D status may contribute to increased activity of the RAS and subsequent higher blood pressure. An inverse relationship between the concentration of the active metabolite 1,25(OH)2D3 and blood pressure has been described in hypertensive as well as normotensive individuals [70,71]. In a study using the mendelian randomization approach in 35 trials (146,581 participants) with four SNPs (Single Nucleotid Polymorphism), a causal relationship was shown between increasing 25(OH)D levels and decreased risk of hypertension in individuals with genetic variants leading to low Vitamin D plasma levels [72].
Depending on the study, the number of COVID-19 patients affected with hypertension was between 20 and 30% and the proportion of diabetics between 15 and 22% [73]. Data from 5 studies in Wuhan (n:1458) reported 55.3% and 30.6% cases respectively of hypertension and of diabetes [74]. 49% of the 1591 patients in ICUs in Italy (Lombardy), 1287 of whom needed respirators, had hypertension and were older than the normotensive ones [75].,
Hypertension, followed by diabetes (16.2%), was the most frequent concomitant morbidity in patients with severe course disease [76,77,78].Vitamin D and cardiovascular diseases
Vitamin D has multiple functions in the cardiovascular system and thus represents an important protective factor of endothelial, vascular muscle, and cardiac muscle cells [79]. In a meta-analysis of 65,994 participants an inverse relationship between 25(OH)D vitamin D plasma levels (below 60 nmol/L) and cardiovascular events was shown [80]. These findings have been confirmed by the Framingham and NHANES data [81,82]. As for the positive effects on respiratory diseases shown by vitamin D supplementation, also for cardiovascular disease positive effect was reported only if there was a vitamin D-deficit before supplementation.
- Fig. 3. Ang II leads to a series of pro-inflammatory stimuli in the immune system via the activation of AT1R. These include an increase in the expression of MCP-1 as well as the chemokine receptor CCR2, which lead to a massive infiltration of the endothelium with macrophages. The same applies to the activation, migration and maturation of dendritic cells (DC) and the antigen (Ag) presentation. The negative effect on T lymphocytes as well as on T regulatory cells further promotes a proinflammatory state. A number of other proinflammatory processes are triggered by AT1R and favor the development of inflammation, hypertension and diabetes. Vitamin D is considered to counteract this reaction by contributing to a normalization of immune function through a variety of processes. However, it should not be overlooked that most processes in the immune system initiated by vitamin D occur together with vitamin A 196.
In a large cohort of patients (n = 3296) referred to coronary angiography, a significant increase in plasma renin and angiotensin II was observed with decreased 25(OH)D and 1,25(OH)2D levels, but not with circulating aldosterone levels [83]. Vitamin D plasma levels are an independent risk factor for CVD mortality. 92% of 1801 patients with metabolic syndrome, had a low vitamin D status (22.2% were severely deficient (25(OH)D < 25 nmol). CVD mortality and total mortality were reduced respectively by 69% and 75% in those with highest 25(OH)D levels (> 75nmol/L) [84].
CVD is considered an independent risk factor for fatal outcome in COVID-19 patients. The proportion of survivors with CVD was 10.8%, among non-survivors 20% [85]. Disturbed coagulation, endothelial dysfunction and proinflammatory stimuli described as a result of a viral infection are considered to be among the major causes [86].Vitamin D, obesity and type II diabetes
Obesity (BMI > 30 kg/m2) is often associated with low 25(OH)D plasma level [87,88]. Using a bi-directional genetic approach, 26 studies (42,024 participants - Caucasians from Northern Europe and America), including 12 SNPs, showed that higher BMI (Body Mass Index) leads to lower 25(OH)D plasma levels. The repeatedly discussed hypothesis that low 25(OH)D level leads to increased BMI could not be verified [89]. Obesity is therefore another risk factor for an insufficient vitamin D status independent from age [90].
Low 25(OH)D plasma values are also found in diabetes II [91,92]. This is often associated with an increased risk of metabolic syndrome, hypertension and cardiovascular diseases [93,94]. One of the main causes could be insulin resistance, often found in connection with low vitamin D levels [95]. This is well documented by the evaluation of observational and intervention studies using metabolic indicators. 10 out of 14 intervention studies showed a positive effect of Vitamin D on metabolic indicators [96]. Vitamin D deficiency is therefore also considered to be a potential link between obesity and diabetes type II [97].
Via a short-loop feedback Ang II inhibits the further release of renin via AT1R.
If the renin secretion is not sufficiently inhibited, an overreaction of the RAS can lead to a further increase in blood pressure, increased sodium reabsorption, increased aldosterone secretion and thus increased insulin resistance [98]. This overreaction is considered to be a major cause of the development of hypertension, diabetes and cardiovascular disease, especially in people with high BMI, since adipose tissue contributes to an overreaction of the RAS [99]. Adiponectin synthesis in adipocytes counteracts most of these effects, however circulating levels are inversely related to BMI [100,101]. Vitamin D can regulate the formation and release of adiponectin [102,103]. Obese people often have low adiponectin and vitamin D levels and an inverse relationship between fat mass and vitamin D levels has been described [104]. Therefore, vitamin D deficiency might explain RAS overreaction and following consequences [105].
In a small study on 124 IUC patients with SARS-CoV-2 it was found that obesity (BMI > 35 kg/m2) occurred in 47.6% of the cases and severe obesity (BMI > 35kg/m2) in 28.2% [106]. In the latter case, 85.7% had to be mechanically ventilated invasively, 60 patients (50%) had hypertension, 48 of these (80%) had to be ventilated invasively. A study from Shenzhen, China also confirmed that obesity is a risk factor for severe course of disease. In a cohort of 383 patients with COVID-19, overweight patients (BMI 24-27.9) had 86% higher risk of developing pneumonia and obese patients (BMI > 28) had 142% higher risk of developing pneumonia compared to normal weight patients [107].Vitamin D and ARDS (adult respiratory distress syndrome)
The main cause of death in COVID-19 patients is ARDS. Patients (without COVID-19) (mean age 62 Y) with ARDS (n:52) and those at high risk of ARDS (n:57) (esophagectomy) had low (27.6 nmol/L) to very low (13.7nmol/L) 25(OH)D blood levels as a sign for severe vitamin D deficiency [108].
ACE2 exerts a counter-regulation of the harmful effect of ACE. Ultimately, it would then be the balance between ACE and ACE2 that explains the reaction of the RAS. The ACE2 effect on the RAS is shown in experimental studies in which ACE2 knock out mice developed severe lung disease with increased vascular permeability and pulmonary edema [109]. Over-expression or the use of recombinant ACE2 improves blood flow and oxygenation and inhibits the development of ARDS after LPS-induced lung damage [110,111].
The development of ARDS shows typical changes in membrane permeability of the alveolar capillary, progressive edema, severe arterial hypoxemia and pulmonary hypertension [112]. The same changes can be achieved in animal experiments by injection of lipo- polysaccharides (LPS) [113]. Vitamin D significantly attenuates the lung damage caused by LPS. LPS exposure leads to a significant increase in the pulmonary expression of renin and ANGII. This promotes the pro- inflammatory effects of the conversion of AngII via AT1R and suppresses ACE2 expression. The administration of vitamin D was able to reduce the increased renin and AngII expression and thus significantly lower the lung damage. The authors conclude that this may have been due to the reduction of the renin and ACE/AngII/AT1R cascade and the promotion of ACE2/Ang1-7 activity by vitamin D through its influence on renin synthesis.
Increased ACE and ANGII expression and reduced ACE2/Ang1-7 expression in lung tissue favors lung damage induced by ischemia reperfusion in mice [114]. The ACE/Ang1-7 expression and the amount of circulating Ang 1 -7 was increased at the onset of ischemia and then decreased rapidly in contrast to the tissue concentration, while AngII increased. This suggests a dysregulation of local and systemic RAS. The application of recombinant ACE2 was able to correct the dysregulation and attenuate the lung damage, while ACE2 knock out increased the imbalance and was associated with more severe damage. Inhibition of the ACE/AngII/AT1R pathway or activation of the ACE2/Ang1-7 pathway have therefore been proposed as therapeutic options.
In rats with LPS-induced acute lung injury (ALI), the administration of vitamin D (calcitriol) was associated with a significant reduction in clinical symptoms of ALI. Calcitriol treatment led to a significant increase in the expression of VDR mRNA and ACE2 mRNA. VDR expression may have resulted in a reduction of angiotensin II, ACE2 expression in increased anti-inflammatory effects [115].
VDR is not only a negative regulator of renin, but also of NFkB [116], leading both to an increase in Ang II formation [117], which in turn promotes pro-inflammatory cascades. Furthermore SARS-CoV-2 infects T-lymphocytes [118] and the Covid-19 disease severity seems to be related to lymphopenia [119], which occurs in 83,2% of COVID-19 patients at hospital admission [120]. Indeed, in a recent meta-analysis on 53.000 COVID-19 patients decreased lymphocyte count and increased CRP were highly associated with severity [121].
Regulatory T cells (Treg) play an important role in the development of ARDS [122]. They can attenuate the pro-inflammatory effects of the activated immune system. Vitamin D increases the expression of Treg cells and supplementation of healthy volunteers results in a significant increase in Tregs [123]. Vitamin D causes a reduction in pro-inflammatory cytokines by inhibiting B- and T-cell proliferation [124,125]. Inflammatory processes also play an important role in the development of hypertension and CVD [126,127]. Here, an interesting but so far not proven connection between vitamin D and RAS is found. T-cells have a RAS system, which contributes to the generation of reactive oxygen species (ROS) and the development of high blood pressure through the formation of Ang II [128]. To what extent vitamin D in T cells is also a negative regulator of renin is not known, but could be one of the reasons for the anti-inflammatory effect [129].Cytokine storm: Vitamin D, SARS-CoV-2, and ACE2
In patients with a severe disease course (ARDS) a cytokine storm is assumed to be the underlying cause [130]. SARS CoV-2 can lead to a downregulation of ACE2 in the lungs and to a shedding of the ectodo- main of ACE2. This soluble sACE2 shows enzymatic activity, but the biological role is unclear. The soluble form is believed to exert systemic influence on angiotensin II [131]; since SARS-CoV-2 induces shedding, it is assumed that sACE2 is directly related to the virus- induced inflammatory response [132].
Downregulation of ACE2 expression by SARS-CoV infection is associated with acute lung damage (edema, increased vascular permeability, reduced lung function) [ 133] and with RAS dysregulation leading to increased inflammation and vascular permeability. Inflammatory cytokines such as TACE (TNF-a-converting enzyme) induce increase shedding [134], which in turn can be also caused by spike protein of the virus, promoting virus uptake by ACE2 [135]. Comparative studies on mortality rates in different countries and analysis of the relationship between vitamin D and CRP (as a marker of cytokine storm) plasma levels, concluded that.
risk factors for severity of the clinical course, predicted by high CRP and low vitamin D (<25 nmol) levels, were reduced by by 15.6% following vitamin D status normalization (>75nmol) [136]. It is interesting to note that calmodulin kinase IV (CaMK IV) stimulates vitamin D receptor (VDR) transcription and interaction with co-activator SRC (steroid receptor coactivator) [ 137]. According to the authors, this would explain the linkage of the genomic and non-genomic membrane pathways of vitamin D. The calmodulin binding domain at ACE2 [138] may explain why calmodulin inhibits the shedding of the ectodomain of ACE2 [139]. It is also conceivable that vitamin D may show significant effects either by stimulating VDR-mediated transcription, or by mediating 1,25(OH)D calcium-dependent activity through CaMK II and phospholipase A [140].Kawasaki syndrome
Children and adolescents rarely show severe disease courses. A meta-analysis comprising 18 studies with 444 children under 10years of age and 553 between 10 and 19years of age, reported only one case of severe complication in a 13-year-old child. In North America, 48 cases of children (4.2-16.6 yrs) have been described with severe disease course. Independently of this, COVID-19 children have a clinical picture that has not been associated with usual acute clinical manifestations of SARS-CoV-2 infection, showing an unusually high proportion of children with gastrointestinal involvement, Kawasaki disease (KD) like syndrome, until now [141].
KD is an acute vasculitis which can lead to aneurysms of the coronary arteries and is considered the leading cause of acquired heart disease in children [142]. A number of cases have been observed in recent weeks suggesting a relationship between Kawasaki syndrome and COVID-19 [143].
One reason probably relies upon ACE gene polymorphisms [144]. In these polymorphisms there is a strong increase in ACE without affecting AngII plasma levels [145]. There is a direct relationship between ACE polymorphism (with high ACE plasma levels) and the occurrence ofKD, according to a recent meta-analysis [146].
Irrespective of this, the disease occurs seasonally during the winter months in extratropical northern atmosphere and is often associated to respiratory tract infections [147]. A KD associated Antigen was found in proximal bronchial epithelium in 10 out of 13 patients with acute KD and in a subset of macrophages of inflamed tissues [148]. That strengthens the hypothesis that an infectious agent entering the respiratory tract, might be the cause of KD. Indeed, it was reported that children with KD were affected by respiratory diseases with HCoV: New Haven coronavirus [149]. The authors concluded that there was a significant association between KD and HCoV-NH infection.
Just like current evidence suggest that vitamin D-deficiency is associated with increased risk of CVD, including hypertension, heart failure, and ischemic heart disease, patients with KD also show very low vitamin D levels. Children with KD (79) had significantly lower 25(OH) D levels (9.17 vs 23.3ng/ml) compared to healthy children of the same age [150].
Intravenous immunoglobulin (IVIG) has become the standard therapy for KD [151], with a good therapeutic response from young patients, of which only 10-20% need additional anti-inflammatory medication [152]. In a study on 91 KD children, 39 of them with very low plasma vitamin D levels (< 20 ng/ml), showed immunoglobulin resistance compared to the rest of the children (n = 52) children with higher levels (> 20ng/ml) [153]. Children with immunoglobulin resistance also have a higher incidence of coronary artery complications [154,155].
The relationship between ACE polymorphism and peripheral vascular disease is observed in Asians but not in Caucasians [156,157]. Furthermore the prevalence of KD in Japan (240/100,000) is 10 times higher than in North America (20/100,000) [158,159]. During February and April 2020, 10 cases of COVID-19 and KD were reported in Bergamo, Italy, corresponding to 30 times higher rate than the last 5 years incidence [160]. The higher incidence of KD in Asian children (35.3 cases/100,000) as reported in California, may indeed indicate a more frequent ACE polymorphism in Asian population, followed by African-Americans (24.6/100,000) probably due to the fact that pigmentation reduces vitamin D production in the skin [161] compared to white children (14.7/100.000). From 189 children hospitalized between 1991 and 1998 136 (72%) of the children were African-American and 43 (23%) were white [162]. It is conceivable that Vitamin D deficiency which activates the RAS, promotes the development and course of KD.Therapeutic aspects
Vitamin D status
The aim of a therapy with vitamin D should be a normalization of the vitamin D status, preferably > 75 nmol/L. Basically, it can be assumed that a vitamin in physiological doses can do little more than remedy the symptoms or secondary manifestations of a deficiency. Vitamin D is a prohormone. Therefore, the question of correcting the status should be treated in the same way as for other hormones (e.g. thyroid hormone). Before starting therapy, the plasma level should be determined. This allows a dosage and therapy to be initiated that corresponds to the respective status. The analysis should be carried out especially in risk groups (Table 1) in order to be able to react adequately, especially in acute cases. The general recommendation to supplement with a recommended daily dose (800 IU) may apply to people who do not belong to a risk group, are healthy.
A recent meta analysis related to vitamin D and respiratory tract infections showed that a daily or weekly Vitamin D dose between 20
The vitamin D status is the basis for treatment with vitamin D. There are indeed, risk groups were a poor status can be expected.
As it is known that the amount of 25(OH)D circulating in the blood and less the active metabolite 1,25(OH)2D is a better indicator for a deficit, threshold values have been set here (Table 2).
Severe < 12.5 nmol/L < 5 ng/ml
Moderate 12.5-29 nmol/L 5-11.6 ng/ml
Mild 30.0-49 nmol/L 12-19.6 ng/ml
Sufficient > 50 nmol/L > 20ng/ml165
> 75 nmol/L > 30ng/ml166
Toxicity > 250 nmol/L > 100ng/ml
Table 2: Threshold levels to calculate deficiency ranges (25(OH)D)
A vitamin D status below 20 ng/ml or<50 nmol/L should be treated to achieve a minimum level of 30 ng/ml (75 nmol/L). Values around 75 nmol/L are considered optimal, with respect to the skeletal activities [167]. Particularly in countries where vitamin D fortified foods are not available, the importance of an adequate supply should be emphasized. A sufficient vitamin D status can be achieved in the healthy populations following the recommendations and the thresholds of the plasma levels. In case of comorbidities related to the clinical development of COVID-19 there might be a higher need and therefore it is discussed to choose other recommendations for the adequate care of persons with chronic diseases [168,169].g/daily for one year [171]. The overall infection score was significantly reduced in the treated group. Those with an initial vitamin D deficit showed the greatest benefit of the supplementation. With respect to COVID-19 a recommendation for primary prevention of vitamin D deficiency seems meaningful. Whether this will be prevention against COVID related diseases remains speculative. If a patient belonging to a risk group is delivered to the hospital, vitamin D status should be immediately assessed and in case of insufficiency (<50 nmol/L) or deficiency (<25 nmol/L) higher doses might be needed as recommended by the NHS [172].g and 50卩g resulted in a significant reduction of infections [170]. An isolated or added bolus with high doses (2.5 mg once or monthly) did not reduce risk. One study supplemented adults with high risk for ARDS with a 100The recommendations of the National Health Service UK are based on those of various professional associations. It should be noted that vitamin D therapy is contraindicated for patients with hypercalcemia or metastatic calcification. Suggested therapy should be used when low plasma levels and the following symptoms are present:
muscle pain
Proximal muscle weakness
Rib, hip, pelvis, thigh and foot pain (typical)
Fractures.Table 1
Risk factors for deficiency (NHS) [163].
Inadequate skin synthesis
Poor oral supply
Co-Morbidities
Air pollution
Vegetarian or fish
Reduced synthesis
Northern latitude/Winter
Free diet
Increased breakdown
Occlusive garments
Malabsorption
Drugs: rifampicin, HAART-
Pigmented skin
Short bowel
Therapy, ketoconazole
Habitual sunscreen use
Cholestatic jaundice
Anticonvulsants
Institutionalized/housebound and people with poor mobility
Pancreatitis
Glucocorticoids
Age > 65
Celiac disease
CKD (eGFR < 60) [164]So far, there is no experience on the use of vitamin D in COVID-19. The observation that a normal vitamin D status is important for the immune system as well as for the regulation of the RAS should, however, lead to a correction of the Vitamin D status if a deficiency is detected. Nevertheless, it should be borne in mind that high doses of
vitamin D also carry risks, as they can contribute to changes in VDR competence and thus have an inhibitory effect on immune function (Ref: Mangin M, Sinha R, Fincher K. Inflammation and vitamin D: the infection connection. Inflkamm Res 2014; 63: 803-811)
The importance of a vitamin D deficiency is shown by a recently published analysis of the COVID-19 deaths of 780 COVID-19 patients in Indonesia [173].
table 3 data of patients with COVID-19 related to vitamin D levels and disease outcomeVitamin D: < 20ng/ml 20-30 ng/ml > 30 ng/ml Overall, N 179 213 388 Mean age 66.9±13.8 62.9 ± 14.7 46.6±12.6 Comorbidity, % 80.0 73.8 18.8 Death, % 98.9 87.8 4.1 Active, % 1.1 12.2 95.9 Odds ratio
Adjusted for age, sex and comorbidity10.12 (p < .001) 7.63(p < .001)
The table illustrates that old age, comorbidities and vitamin D deficiency or insufficiency contributed to outcome of the disease.
Based on these data Vitamin D plasma level is an independent predictor of mortality.VDR agonists (VDRA)
VDRA are discussed to counteract the effect of imbalanced immune response and have suppressant effects on the RAS. Since VDRA have been observed to contribute to a significant reduction of inflammatory processes, they are increasingly used in immunosuppressive therapy to control TH1-related overreactions via interaction of VDRA with the chemokine CXCL10, a T cell chemoattractant chemokine [174]. The induction of CXCL10 is an important step against bacterial and virus infections. However, sustained CXCL10 induction leads to amplified neuroinflammation in Coronavirus (JHMV) induced neurologic infection [175]. CXCL10 is also considered a critical factor in ARDS. H5N1 influenza infection in mice resulted in increased CXCL10 secretion with a consequent inflamed neutrophils massive chemotaxis and a subsequent pulmonary inflammation [176]. Following SARS-CoV-2 infection, CXCL10 and other chemo- and cytokines are upregulated [177]. Anti CXCL10 antibodies have shown ARDS improvement following LPS induced lung injury with high CXCL10 levels [178].
Additionally evidence from animal models (diabetic nephropathy) has shown that VDRA block TGFft system in the glomerulus and thus abolish interstitial fibrosis [179]. It is assumed that VDRA modulates increased RAS activity. Indeed, a clinical study on 281 patients (type II diabetes with albuminuria) revealed that VDR activator paricalcitol (19-nor-1,15-dihydroxyvitamin D2) led to a significant albuminuria reduction as well as a decrease in blood pressure despite increased salt intake, as a sign of decreased RAS activity [180]; effect that could not be achieved with losartan (ANG II receptor antagonist) [181].Morphine
Morphine medication is an essential part of treatment for COVID patients with severe ARDS. it is used early for dyspnea or pain and for shivers [182]. Morphine, at doses similar to those used in humans, can lead to downregulation of VDR in human T cells and activation of RAS with renin upregulation and a threefold increase in Ang II production, resulting in increased reactive oxygen species (ROS) responsible for DNA damage and T cells apoptosis .
VDR agonist (EB1089) inhibits VDR downregulation, leading to RAS decreased activity, inhibition of morphine induced ANG II production, reduced ROS formation and lower DNA damage, thus inhibiting T-cell apoptosis [183]. In addition, if Jurkat cells were pretreated with EB 1089 and Losartan, an Angiotensin II receptor antagonist (ARB) before incubation with morphine. The combination of the Vitamin D Receptor agonist and Losartan attenuated the morphine-induced ROS formation. Indeed, as an example ARB increase ACE2 expression [184] and Ang 1-7/Mas axis activation reduced ROS formation [185].Autophagy, spermidine and vitamin D
Spermidine is a metabolite of polyamines which are delivered through the diet and partially metabolized by colon bacteria from undigested proteins. Polyamines can influence macrophages development into pro-inflammatory or anti-inflammatory type by altering cellular metabolism and triggering mito- and autophagy [186]. The capacity of spermidine to ensure proteostasis through the stimulation of the cyto- protective autophagy is acknowledged as one of its main features.
Recently, the effect of spermidine on autophagy in SARS-CoV-2 infected cells which results in inhibition of autophagy has been described [187]. Since spermidine promotes autophagy, spermidine and other agents may be a therapeutic approach to SARS-CoV-2 infection.
With regard to the specific risk of elderly to develop severe course of SARS-CoV-2 infection, it is interesting to note that spermidine concentrations in organs and cells decline with age and resulting in a decrease of autophagy [188]. Consumption of LKM512 yogurt increases spermidine synthesis in the gut in elderly [189]. Whether that has any impact on supply of spermidine to enterocytes or other tissues remains to be elucidated. Spermin and spermidine but not putrescine another polyamine metabolite can activate VDR in vitro within their physiological intracellular concentrations [190]. Vitamin D and VDR play an important role in autophagy. Vitamin D can induce autophagy similar to spermidine by inhibiting mTORC1 complex activation [191] and by increasing Beclin-1 expression, similar to spermidine [192].Limitations
A major limitation of al studies dealing with low levels of vitamin D and disease is the fact that there are only few studies, which show a causal relationship. Most studies show associations and data regarding the influence of COVID-19 on vitamin D status are missing. Furthermore, it should not be overlooked that many of the effects of vitamin D on genexpression in the immune system occur together with vitamin A. The effect of vitamin A deficiency in COVID-19 has not yet been investigated. However, vitamin A deficiency or combined deficiencies with vitamin D or other micronutrients exists not only in low income countries. .
Conclusion
An inadequate supply of vitamin D has a variety of skeletal and non- skeletal effects. There is ample evidence that various non-communicable diseases (hypertension, diabetes, CVD, metabolic syndrome) are associated with low vitamin D plasma levels. These comorbidities, together with the often concomitant vitamin D deficiency, increase the risk of severe COVID-19 events. Much more attention should be paid to the importance of vitamin D status for the development and course of the disease. Particularly in the methods used to control the pandemic (lockdown), the skin’s natural vitamin D synthesis is reduced when people have few opportunities to be exposed to the sun. The short half lives of the vitamin therefore make an increasing vitamin D deficiency more likely. Specific dietary advice, moderate supplementation or fortified foods can help prevent this deficiency. In the event of hospitalisation, the status should be urgently reviewed and, if possible, improved.
In the meantime, 8 studies have started to test the effect of supplementing vitamin D in different dosages (up to 200,000 IU) on the course of the COVID-19 disease. The aim is to clarify whether supplementation with vitamin D in different dosages has an influence on the course of the disease or, in particular, on the immune response, or whether it can prevent the development of ARDS or thromboses [193].Declaration of Competing Interest: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.
Acknowledgement: The author is grateful to the Society of Nutrition and Food Science e.V. (www.snfs.org) for defraying the open access publication charges for this article. My sincere thanks to Hellas Cena, University Pavia, Italy, for the critical reading of my manuscript and the excellent hints for strengthening the information contained therein. Ute Gola, Institute for nutrition and prevention, Berlin, Germany for valuable suggestions and advice.References in PDF
COVID-19 treated by Vitamin D - studies, reports, videos - VitaminDWiki
As of Jan 31, 2024, the VitaminDWiki COVID page had: 19+ trial results, 37+ meta-analyses and reviews, Mortality studies see related: Governments, HealthProblems, Hospitals, Dark Skins, All 26 COVID risk factors are associated with low Vit D, Fight COVID-19 with 50K Vit D weekly Vaccines Take lots of Vitamin D at first signs of COVID 166 COVID Clinical Trials using Vitamin D (Aug 2023) Prevent a COVID death: 9 dollars of Vitamin D or 900,000 dollars of vaccine - Aug 2023
5 most-recently changed Virus entries
Recent COVID-19 articles Click here for all VIRUS articles on VitaminDWiki
- COVID deaths cut in half by a single dose of 600,000 IU of Vitamin D - RCT Jan 2024
- Is 50 ng of Vitamin D enough to fight COVID - TrialSiteNews - Jan 2024
- COVID and or vaccinations causing less Vitamin D and more sickness - Jan 2024
- Long-COVID a month shorter if more than 20 ng of Vitamin D - Jan 2024
- COVID, Vitamin D, Drs. Grimes and Campbell - Jan 2024
- All died of COVID with standard vitamin D, 25% survived if 10X more vitamin D (mice) – Dec 2023
- COVID infections and vaccinations decrease Vitamin D – many studies
- Moderna is monitoring 150 million websites for ‘Anti-Vaccine’ Narratives - Nov 2023
- But not VitaminDWiki, so far
- The four viruses that are increasing at an ‘exponential rate’ (are all fought by Vitamin D) – Nov 2023
- COVID death rate 4X less at high altitude (more UVB which makes Vitamin D) - Oct 2023
- Doctors in NY cannot opt out of COVID boosters for children - Oct 2023
- Multiple COVID vaccinations might increase Cancer Incidence - many studies
- COVID fought by Vitamin D - video review of literature with transcript - Dec 2021
- What to do if you catch COVID - Dr. McCullough Sept 2023
- Long COVID with Neuro-Cognitive symptoms had especially low vitamin D levels – Sept 2023
- Mask studies for viral infection: 104 studies: ineffective, 61 studies: harmful - Sept 2023
- The ONLY Solution to Long COVID (Vitamin D) - video and transcript Sept 2023
- Long-COVID can hide in the body for years in scores of locations – Sept 2023
- Vaccine Clinical Trial - cardiovascular death 3.7X more likely if vaccinated - preprint Sept 2023
- One in five people with long COVID can no longer work (Doctors in this case) - Sept 2023
- Number of people with long COVID could be vastly underestimated - Aug 2023
- mRNA Vaccine Toxicity -free book by Doctors for COVID Ethics - Aug 2023
- Politics says put your masks back on, Science says masks may INCREASE COVID infection - Aug 2023
- Epstein-Barr Virus may be a prerequisite for Multiple Sclerosis - July 2023
- COVID Vaccinations increased risk of cardiac deaths in youths by 19% - Aug 2023
- Athletes who had been COVID infected had lower Vitamin D levels – July 2023
- Vitamin D was the most popular supplement during the COVID Pandemic – July 2023
- COVID cost the US 18,000 dollars per survivor, and many excess deaths - July 2023
- COVID, Long-COVID and Vitamin D in children - Review April 2023
- COVID in hospital stopped by Vitamin D Receptor activators (curcumin, quercetin) – RCT June 2023
- Children with COVID 4X more likely to have poor Vitamin D Receptors (Note: COVID deactivates VDR) – April 2023
- Chance of moderately severe COVID 3X less likely if plant-based diet – April 2021
- COVID, Long COVID, and Vitamin D – May 2023
- 3,400 peer-reviewed studies found COVID Vaccination problems as of April 2023
- COVID death 1.5 X less likely if high vitamin D, emergency D (50K to 100K) is great – meta-analysis March 2023
- Poor vaccine batches associated with adverse events - March 2023
- Probably less of a problem if had high Vitamin D when vaccinated
- Excess deaths - 5 possible reasons - many studies
- COVID was associated with low Vitamin D or Zinc – umbrella review Feb 2023
- COVID predicted to be a pandemic that could be stopped by high dose vitamin D - Feb 2020
- COVID and other Virus fought by UV - many studies
- Seniors raised Vitamin D levels, more COVID survivors, less CKD (Slovakia) – Feb 2023
- COVID recovery 1.6X faster after 200,000 IU of Vitamin D RCT – Feb 2023
- Multisystem Inflammatory Syndrome of COVID in Children 3X more likely if low Vitamin D – Feb 2023
- COVID was associated with low Vitamin D or Zinc – umbrella review Feb 2023
- Vitamin D, now conclusive (for COVID) - Dr. Campbell Video and transcript - Feb 1, 2023
- COVID ICU 3X less-likely if take any amount and type of Vitamin D – meta-analysis Jan 2023
- 2nd COVID infection increases the risk of Long-COVID - 2022
- More COVID vaccinations, more infections - Cleveland Clinic - Dec 2022
- COVID vaccination increased by 137X the risk of 10-14 year olds of dying (UK) – Jan 2023
- Chart of excess deaths and vaccination in the Netherlands - for 2022
- China: From Zero Covid to No Plan - people left to improvise - NYT Dec 18, 2022
- COVID variants in US evade bivalent vaccination by 3X to 13X – Cell Dec 13, 2022
- Fight infections such as COVID with 50 ng of Vitamin D – Sunil Dec 2022
- COVID and Vitamin D: any amount of D, at any time, for any duration reduced ICU - meta-analysis Dec 2022
- The vitamins and minerals that help the immune system respond to respiratory viruses – Dec 2022
- The COVID supplement with the most publications: Vitamin D – Nov 2022
- 23 COVID mitigation strategies: at least 6 of which increase Vitamin D in cells - Sept 2022
- Severe COVID 1.8 X more likely in pregnant women with less than 15 ng of vitamin D – Nov 2022
- Long-COVID fatigue reduced by Vitamin C and l-Arginine in one month– RCT Nov 2022
- COVID 2X more likely to be severe if low Vitamin D in previous month (Denmark, May 2020) – Nov 2022
- Respiratory viral infection (RSV) and low vitamin D - many studies
- T1 Diabetic adults 5X more likely to get COVID (hint low vitamin D)– Nov 2022
- Prevent a COVID death: 9 dollars of Vitamin D or 900,000 dollars of vaccine - Aug 2023
- COVID US deaths: 116,000 fewer if everyone had been taking Vitamin D – Campbell transcript Nov 2022
- COVID existed in the second half of 2019 - several studies nothing about Vitamin D
- PICU layoffs due to pandemic lulls, but children are now getting 3 years of viral infection all at once – Oct 2022 nothing about Vitamin D
- Fatigue and other long-haul problems appear to be associated with low Magnesium - Chambers Oct 2022
- Long-COVID symptoms in 10 Percent of women 3 months after infection (22 countries) – Oct 2022 nothing about Vitamin D
- COVID-Osteoporosis association appears to be low Vitamin D – Oct 2022
- Low Magnesium associated with severe COVID – many studies
- 10,000 COVID infections: Hospitalization 2.4X more likely if low vitamin D - Oct 2022
- BIDEN: "Almost everyone who will die from COVID this year will not be up to date on their shots." (nope) - Oct 2022
- Tripledemic: Flu, COVID, and RSV (all fought by Vitamin D) - Oct 2022
- COVID: more than 33 lineages and vaccines – Nov 2022 nothing about Vitamin D
- 1,000 X lower COVID mortality rate in 2020 for age 10 vs 65 – Oct 2022
- COVID 5.5 X more likely to be severe if low Vitamin D (children in this case) – Oct 2022
- Vitamin D was the most popular nutraceutical to avoid COVID – 41 percent of dentists in Brazil – Oct 2022
- The more COVID vaccinations you get, the More Likely you’ll get COVID - Oct 2022
- CDC v-safe vaccination data is finally on-line - Oct 5, 2022
- 400 doctors, scientists declare “international medical crisis” due to COVID-19 vaccinations - Sept 2022
- Hair loss is increased by stress: example 4X increase by COVID (hint: Vitamin D) – Sept 2022
- COVID in hospital fought by Vitamin D (25,000 IU daily for 4 days, then 25K weekly) - RCT – July 2022
- We had an inexpensive life-saving solution both before and during the pandemic (Vitamin D) - Malone May 2022
- Australia’s COVID Response resulted in 31 X more life years lost than were saved - Sept 2022
- Congress members demand FDA Investigate COVID-19 Vaccine Injuries – Sept 2022
- Early puberty during pandemic (low vitamin D) - several studies
- Vitamin D energizes the innate and adaptive immune systems to fight lung inflammation – Sept 2022
- COVID increased seniors risk of Alzheimer's by 1.7X in the next year- Sept 2022
- Pfizer vaccination trial – 1 in 800 actually had a serious adverse event – Sept 2022
- Model discovered: More UV, less COVID (many excellent charts) – Sept 2022
- COVID kids were more likely to have a poor VDR (4.3 X), than low Vitamin D (2.6 X) – Sept 2022
- Worse COVID during 3Q pregnancy if 2.5 ng lower Vitamin D – meta-analysis Sept 2022
- COVID fought by the antioxidants: Vitamin D, Zinc, Vitamin C, and Selenium – Review Sept 2022
- Vitamin D Supplementation and COVID-19 Outcomes: Mounting Evidence and Fewer Doubts - Aug 2022
- Many viral infections can be fought by Vitamin D (Astronaut’s in this case)– Aug 2022
- COVID worse if lower Vitamin C, but not Vitamin D in this study – Aug 2022 Why C but NOT D?
- Vitamin D improves Sinovac vaccine (fast innate response) - July 2022
- COVID survival in Europe in 2020 best predicted by population-level Vitamin D (of 13 variables) – July 2022
- Vitamin D can provide HEALTH immunity to fight the Corona virus this fall - Aug 2022
- Super-immune do not get COVID symptoms (perhaps Vitamin D) - Aug 2022
- COVID children helped by Vitamin D, trial terminated: unethical to not give Vitamin D to all: – RCT July 2022
- Current Compherensive Approach to COVID-19 (293 pages) - July 2022
- Some countries give treatment kits containing vitamin D if test positive for COVID - July 2022
- Elderly who had been in COVID ICU were 4X more likely to die if low vitamin D – Nov 2022
- Pandemic of the Boosted: UK Data Reveal Problem With COVID Vaccinations - July 2022
- Pandemic Vitamin D levels dropped by 3.3 ng (perhaps less D, more health problems) – May 2022
- Long-COVID is now the biggest COVID concern - many studies
- Severe COVID 2.6 X less likely if supplement with Vitamin D – 26th meta-analysis - July 2022
- Calcifediol is in the title of 7 virus pages as of June 2022
- Some COVID hospitalizations are due to poor Vitamin D genes (Binding Protein in this commentary) – June 2022
- COVID, Cancer, etc. are Vitamin D low-hanging-fruit – Editorial June 2022
- COVID deaths are often of fully vaccinated in fully vaccinated countries – June 2022
- Both Omicron and Monkeypox show evidence of mutation by the human immune system – June 2022
- Treat COVID early with high-dose Vitamin D (20th as of June 2022)
- Vitamin D might mitigate endemic COVID - June 2022
- Vitamin D also provides COVID Neuroprotection – April 2022
- 89% are vaccinated, but Omicron BA.5 is surging (Portugal) June 2022
- COVID hospital deaths reduced 2X by 8 days of UVB – pilot RCT May 2022
- Surviving COVID with vitamins and minerals is not a myth – June 2022
- Vitamin D is the only one which: 1) Can be done at home, 2) Needs only a single dose
- 400,000 IU of vitamin D 3 days after COVID symptoms reduced 14 day mortality by 3X – Annweiler RCT May 2022
- COVID patients not helped by 500K IU of Vitamin D (they already had enough) – May 2022
- Suspect that they did not get the Vitamin D until 1 week after getting symptoms
- both groups had adequate vitamin D levels upon entering hospital
- COVID-19 Is Treatable and Preventable With Vitamin D: Dr. Malone - May 24, 2022
- Less COVID if more vitamin D from food (Spain) – May 2022
- You Are Going to Get COVID Again … and Again … and Again once every 3 years
- Unless you take Vitamin D
- Omicron BA.2.12.1 - US dominate form,100,000 cases daily - May 24, 2022
- Problems after childhood vaccinations - many studies - perhaps fewer problems if more Vitamin D
- Loading dose of Vitamin D for patients hospitalized with COVID (140,000 IU) – RCT completed 2021
- COVID Ventilation 2X less likely if 200,000 IU of Vitamin D when enter hospital – May 2022
- COVID in seniors 5X less likely to be severe if vegetarian (small study) – April 2022
- Inhaling Nitric Oxide 4 times a day (which increases Vitamin D) fights COVID - May 2022
- Forecast of 100 million more US COVID infections in fall and winter - May 2022
- Vitamin D, Immune function, and SARS-CoV2 – May 2022
- COVID death 5.2X more likely if Vitamin D deficient – May 2022
- Severe COVID while pregnant - none had taken any vitamin D – Oct 2021
- Risk factors for severe COVID in children are all related to low vitamin D (same as adults) - April 2022
- Innate immune suppression by SARS-CoV-2 mRNA vaccinations - April 2022
- Dr. McCullough is one of the authors, in-depth look at VARS 2021 data
- COVID death 6.9X less likely if high Magnesium to Calcium ratio – April 2022
- 13 Magnesium and COVID studies in VitaminDWiki
- 21 fewer days in hospital with ARDS (COVID) if 10,000 IU of Vitamin D daily after enter hospital – RCT April, 2022
- Speculation: "No hospitalization if had gotten high dose vitamin D at COVID symptom onset"
- 4X less likely to get COVID following 4,000 IU daily for a month – RCT April 2022
- COVID and CVD deadly pandemics share a risk factor: low vitamin D - April 2022
- 29 X more likely to die of COVID if less than 20 ng of Vitamin D - March 2022
- 2.9 X less risk of COVID ICU if seniors had supplemented with Vitamin D (any amount) – April 2022
- Data from Spring of 2020. Wonder why the 2 year delay
- Micronutrients such as vitamin D should improve vaccine effectiveness (and decrease side effects) – April 2022
- High altitudes reduce the COVID-19 infection (not a surprise) – April 2022
- Obesity, Hypovitaminosis D, and COVID-19 – April 2022
- COVID while pregnant: 2.6 X more likely to be Vitamin D deficient (need to supplement) - March 2022
- Pfizer vaccine produced 30 percent more antibodies if more vitamin D – July 2022
- COVID-XE variant can probably be fought by strong immune systems (Vitamin D, etc.) - April 2022
- COVID Long-Haul at 49 weeks: overactive immune system, type O blood - March 2022
- CDC and UK data reveal the COVID vaccines do not prevent cases, transmission, severe illness or deaths - April 3, 2022
- Children have less severe COVID, but just as much long-haul as adults - April 2022
- COVID-XE variant can probably be fought by strong immune systems (Vitamin D, etc.) - April 2022
- COVID breakthru 2X more likely if pregnant (should take Vitamin D) - April 2022
- COVID, like influenza, may be able to mutate to avoid vaccines for decades - March 2022
- Increase in COVID Omicron deaths among vaccinated (CA this time) - March 2022
- Risk of COVID not reduced by 3,200 IU of vitamin D during 6 months (no surprise) – RCT March 2022
- COVID length of stay: the best predictor was Vitamin D (of 70 parameters) – March 2022
- Review of Early Treatments of COVID-19 (within a few days of symptoms)
- Omicron-1 survives on surfaces 3X longer than original - March 18, 2022
- Compare symptoms of Omicron, Flu and Colds Vitamin D fights all of them
- Immune system both activates and uses vitamin D (in brain, fight COVID, etc.) - March 2022
- COVID length of stay: The best predictor was Vitamin D (of 70 parameters) – March 2022
- COVID: most places are dropping restrictions, some are surging, and a few are both - March 15, 2022
- Giving Vitamin D often reduced COVID Mortality– Review of 11 studies – March 2022
- 18 million excess global deaths in past 2 years: COVID plus collateral damage - Lancet March 2022
- decreased Vitamin D due to lock-up is one of the possible causes
- Vitamin D of 30-40 ng fights COVID, Dr. Grimes on Liverpool Study - March 2022
- Vitamin D separately helps X or COVID, should help X with COVID (example: diabetes) – March 2022
- Recall: 26 health problems associated with increased COVID risk, ALL are assoicated with low vitamin D
- COVID can be fought by healthy immune systems (vitamins, etc.) - Feb 2022
- Note elsewhere: Vitamin D improved immune system so much that half did not even test positive 24th meta-analysis
- Vitamin D helps both the innate and adaptive immune systems fight COVID-19 – Jan 2022
- Only a single supplement taken before infection decreased COVID severity (vitamin D) – Feb 2022
- COVID children with multisystem inflammatory syndrome have less than 10 ng of vitamin D – March 2022
- Vitamin D supplementation reduced risk of COVID-19 ICU by 2.8 X – review of 10 reviews Feb 2022
- COVID vaccination makes 6X more antibodies in those having good levels of both vitamin D and Iron – June 2021
- VitaminDWiki interview and transcript - Jan 2022 143 minute - includes a section on early treatments for COVID
- 14 X less likely to have severe COVID if previously had more than 40 ng level of Vitamin D – Feb 2022
- How vitamins A, B, C, D, E, F (Omega), K fight COVID - Feb 2022
- Estrogen supplements may cut COVID-19 deaths by half (no surprise - more E, more Vitamin D) - Feb 2022
- Group achieving 30 ng (vs 26 ng) were 2X less likely to get COVID symptoms - RCT Jan 2022
- Vitamin D helps both the innate and adaptive immune systems fight COVID-19 – Jan 2022
- COVID test positive is about half as likely if have Vitamin D – 24th meta-analysis - Jan 2022
- FLCCC COVID guidelines now include vitamin D loading doses - Jan 2022
- Vitamin D and its’ role in Parkinson’s disease patients with COVID - Jan 2022
- COVID death rate was 3X lower in those with Multiple Sclerosis (85 pcnt were taking Vitamin D) - Jan 2022
- Vitamin D fights COVID (54 studies of 1,400,000 people) – 23rd meta-analysis - Dec 2021
- Vitamin D benefits ignored at a time they are most needed - Grant Jan 9, 2022
- Increase in non-COVID deaths (ages 18-64) in Indiana, India, etc. - Jan 5, 2022
- Vitamin D and COVID-19: a narrative review - Holick - Jan 4, 2022
- Two times less likely to test positive for COVID if vitamin D level more than 55ng, etc. – Dec 31, 2021
- Vitamin D and COVID - Davies, Benskin (Dark Horse video with transcript) - Dec 27, 2021
- Ivermectin taken before COVID decreased death rate by 68 percent (3,000 with Ivermectin vs 3,000 without) - Dec 24, 2021
- The Vitamin D Receptor is associated with many health problems perhaps SARS-COV-2 as well
- Dr. McCullough on COVID-19: vaccine problems, home treatment – video, transcript – Dec 13, 2021
- Far fewer vaccination antibodies against Omicron - Dec 14, 2021
- Did HIV help Omicron evolve - Dec 10, 2021
- COVID-19 death increased 2X if low Vitamin D (less than 10 to less than 30 ng) – 21st meta-analysis Dec 2021
- Most COVID patients had sticky blood platelets (Omega-3 helps) - Dec 2021
- 16,000 Physicians and Scientists Agree Kids Shouldn’t Get COVID Vaccine - Dec 15, 2021
- Florida A.G. recommends Vitamin D, Zinc, Quercetin, etc. to reduce risk of COVID - Dec 12, 2021
- Vitamin D and a Dr. in Israel - Campbell video and transcript - Dec 11, 2021
- Epstein-Barr Virus probably causes Long-COVID, CFS, and MS - many studies
- Pfizer knew of 290 kinds of COVID vaccine problems
- Vaccinated have HIGHER infection rates than unvaxxed (UK age 30-70) - Dec 9, 2021
- Rapid Vitamin D Delivery May Result in Better COVID Outcomes - Dec 9, 2021
- 11,321 Breakthru COVID cases in Massachusetts last week (fully vaccinated) - Dec 7, 2021
- COVID vaccines produce blood antibodies, not the needed mucosal antibodies - Dec 7, 2021
- also has several Vitamin D & COVID videos
- Coronaviruses evolve faster with vaccinations, expect more beyond Omicron - Nov 30, 2021
- Omega-3 decreases heart disease and COVID: Harris and Patrick, video and transcript - Dec 2021
- COVID is also associated with low Vitamin K - many studies
- Compulsory COVID Interventions do not work (400 studies - GreenMed Info) Dec 1, 2021
- Vitamin D loading doses quickly and safely raise levels – meta-analysis Dec 2021
- Real Anthony Fauci - book synopsis by Masterjohn Dec 3, 2021
- Large dose of calcifediol or vitamin D up to 15 days before COVID hospitalization reduced death rates (1.5X, 1.3X) – Dec 2021
- COVID-19 infection risk 2X higher in vaccinated than previously infected (28,000 in Netherlands) – preprint Nov 24, 2021
- Higher COVID death rates in more obese counties - Dec 2021
- COVID Virus kept mutating for 154 days in an immunocompromised person – Dec 2020
- COVID-19 risk reduction by Vitamin D, etc. - Grassroots Health Nov 29, 2021
- Vitamin D appears to drop while fighting COVID but recover later – Nov 2021
- How obesity reduces the ability of vitamin D to fight health problems such as COVID - Nov 2021
- Vaccinated were 28 percent of cases, 23 percent of deaths (waning)- CDC Sept 2021
- 11 percent fewer COVID-19 deaths if lockdowns had allowed sunshine – Nov 2021
- Long-Haul COVID is somewhat less of a problem if vaccinated – Nov 2021
- Elderly vaccinated for COVID were 2X more likely to die of ischemic stroke (2930 vs 1180 deaths)– Nov 2021
- Younger are much less likely to die of COVID than elderly (posters) - Nov 2021
- 3.3 X more likely to die if infected with SARS-Cov-2 plus a second pathogen – meta-analysis May 2021
- Pfizer trial vaccinated 22,000: 1 COVID death prevented, but 4 died of heart attacks - Nov 2021
- Problems with vaccine use during a pandemic - Dr. Bossche 2021 - 2023
- 3,900 deaths within 2 weeks of 2nd vaccination in Sweden - Nov 18, 2021
- Discussion of COVID and 50 ng of Vitamin D (video and transcript)– Dr. Campbell Nov 17, 2021
- Vaccine definition by the CDC seems to now include Vitamin D - Sept 2021
- US is buying 5 billion dollars of Pfizer COVID pills (10 million dollars of Vitamin D might do as well) - Nov 2021
- Vaccination immunity is waning - Fauci - Nov 14, 2021
- Low Vitamin D etc. more than 3 months after COVID hospitalization – Sept 2021
- Bill Gates admits COVID-19 vaccines don't stop viral transmission - Nov 5, 2021
- COVID, influenza, hepatitis B, measles, etc. vaccine responses vary with Vitamin D and its receptor
- 2X more male teens died than normal in England this summer (perhaps vaccination) - Oct 2021
- Vaccine passports expire in 6 months in Israel, but not (yet) in the US - Oct 2021
- COVID probably fought by Vitamin D, might need 50 ng - Dr. Patrick Nov 8, 2021
- COVID-19 risk reduced by vitamin D supplementation – umbrella review of 7 meta-analysis – Oct 2021
- Perhaps 3X more likely to catch COVID-19 in a group (church) in Nov 2021 than Nov 2020
- Vaccination effectiveness dropped from 83 percent to ZERO after 9 months (Sweden, preprint) – Oct 2021
- COVID natural Immunity is most likely better than vaccination immunity- literature review by Masterjohn - Oct 2021
- COVID winter is coming again in Northern US, Canada, Europe, Russia - Nov 2021
- French recommended 200,000 IU of Vitamin D to stop COVID-19 - Jan 2021
- COVID-19 severity associated with 3 vitamin D genes – Oct 2021
- Vitamin D was the only supplement that fought COVID-19 (out of 6) – Oct 2021
- Colin Powell died of COVID-19 (he had 4 risk factors for low vitamin D) – Oct 18, 2021
- https://vdmeta.com/
- COVID-19 treated by Vitamin D (example: ICU reduced by 5X) – 20th meta-analysis Oct 13, 2021
- COVID-19 and Vitamin D (42 studies, consensus) – Oct 2021
- Vitamin D was a top COVID-19 treatment at 4 hospital groups - May 2021
- ~ 83,000 patients
- COVID-19 and Vitamin D - Wikipedia Oct 10, 2021
- COVID-19 risk reduction by early treatment: 5X Vitamin D – Oct 8, 2021
- Dr. McCullough on COVID-19: vaccine problems, home treatment – video, slides, transcript – Oct and Dec 2021
- COVID-19 symptoms and comorbidities associated with the type of Vitamin D Receptor – Oct 2021
- COVID-19 and Vitamin D – expert consensus and guidelines (Annweiler, behind paywall) – Oct 2021
- Pfizer vaccine half as effective as Moderna after 6 months (fading or Delta) - Mayo preprint Aug 2021
- Severe COVID-19 2.5 X more likely if low vitamin D (23 studies) – 19th meta-analysis Oct 2021
- COVID-19 cases vs. vaccination (counties and countries) - Sept 2021
- 7 Symptoms predictive of COVID-19 (from 1,000,000 in UK) – Oct 2021
- Emergency treatments if get COVID-19 symptoms - Oct 2021
Intervention
Intervention Trial Summary Table
Details on #5 = COVIT-TRIAL Dec 27
Note: >70% of the RCT using Vitamin D to fight COVID-19 are using at least 100,000 IU during the first week
Trial Results
43 studies in both Virus and Intervention This list is automatically updated
- 5 X less COVID infection of health care workers who took lots of vitamin D – meta-analysis Feb 2024
- COVID deaths cut in half by a single dose of 600,000 IU of Vitamin D - RCT Jan 2024
- COVID in hospital stopped by Vitamin D Receptor activators (curcumin, quercetin) – RCT June 2023
- Vitamin D Supplements Don’t Reduce COVID-19 Risk (used only 3,200 IU daily) - Oct 2022
- High dose vitamin D fights Folate gene changes by COVID, autoimmune, CVD, ALZ – Oct 2022
- COVID in hospital fought by Vitamin D (25,000 IU daily for 4 days, then 25K weekly) - RCT – July 2022
- Small Vitamin D doses for a short time never help (not improve vaccination in this case) – RCT Sept 2022
- The challenges of a Vitamin D RCT – too many already taking it, etc. – Martineau Sept 2022
- Early COVID treatments rarely work 7 days after symptoms, this trial gave Vitamin D on 7th day – RCT May 2022
- COVID children helped by Vitamin D, trial terminated: unethical to not give Vitamin D to all: – RCT July 2022
- COVID hospital deaths reduced 2X by 8 days of UVB – pilot RCT May 2022
- 21 fewer days in hospital with ARDS (COVID) if 10,000 IU of Vitamin D daily after enter hospital – RCT April, 2022
- 4X less likely to get COVID following 4,000 IU daily for a month – RCT April 2022
- Risk of COVID not reduced by 3,200 IU of vitamin D during 6 months (no surprise) – RCT March 2022
- Group achieving 30 ng (vs 26 ng) were 2X less likely to get COVID symptoms - RCT Jan 2022
- Tested positive for COVID, taking probiotics stopped symptoms 5 days sooner - RCT Jan 2022
- Vitamin D given slowly in hospital did not fight COVID-19 much - Nov 2021
- Nursing home vaccinated against Influenza, 800 IU of vitamin D daily cut infection rate in half – small RCT Oct 2021
- COVID-19 appears reduced by Resveratrol plus 100K IU of vitamin D – Small RCT Sept 2021
- Vitamin D trial for COVID-19 – using their patented slow-release form – Aug 2021
- COVID-19 mortality reduced 4X (chart looks like 2X) by large, infrequent doses of Vitamin D in France – July 2021
- COVID-19 outpatients getting Quercetin nanoemulsion had excellent outcomes (Q increased Vitamin D in cells) – RCT – June 2021
- 5,000 U daily raised Vitamin D a bit and helped COVID-19 a bit – RCT June 2021
- COVID-19 inflammation extinguished by 60,000 IU of vitamin D nanoemulsion daily for a week – RCT May 2021
- Better response to shingles virus after 6,400 IU Vitamin D raised above 40 ng – Jan 2021
- COVID-19 ICU survival rate increased 7X by daily Omega-3 – RCT March 2021
- Kidney patients who happened to be getting high-dose Calcitriol were 9X less likely to die of COVID-19 - April 6, 2021
- Vitamin D not help 10 days after COVID-19 symptoms - RCT March 2021
- 5X less likely to enter ICU with COVID-19 if get Calcifediol (semi-activated vitamin D) - RCT Feb 19, 2021
- calcifediol rct
- COVID-19 defeated 3x faster by 420,000 IU Vitamin D nanoemulsion – RCT Nov 12, 2020
- COVID-19 defeated by calcifediol form of Vitamin D in Spain - pilot RCT Aug 29, 2020
- Swine flu not prevented by 2,000 IU of vitamin D daily (the upper limit at the time) – RCT 2014
- Influenza vaccine antibodies not change with Vitamin D – 21 ng or 44 ng – RCT Feb 2019
- Dengue virus prevented by a small amount of Vitamin D – RCT Nov 2019
- Half the risk of Influenza -A in infants taking 1200 IU of vitamin D for 4 months – RCT Jan 2018
- Chikungunya virus arthritis pain reduced by weekly 60,000 IU vitamin D – Sept 2016
- Many Infectious diseases (virus) treated and prevented by Vitamin D – review July 2009
- Influenza prevented by 40 ng levels or treated with vitamin D hammer (50,000 IU) – June 2015
- Infection fighting ability increased with 5,000 IU Vitamin D daily – April 2015
- Vitamin D prevents Hepatitis-C and helps treat it (many studies)
- Malaria in mice brains, and associated inflammation, prevented by Vitamin D intervention – July 2014
- Influenza A: 5X reduction in first month (only) with 2,000 IU of vitamin D– RCT July 2014
Virus meta-analyses and Systematic Reviews
Short URL for this section = is.gd/vdwmeta
- COVID Vaccinations increased risk of cardiac deaths in youths by 19% - Aug 2023
- T1 Diabetes increased by 27% by second year of COVID – meta-analysis June 2023
- Yet another reason to take Vitamin D while pregnant – fight COVID - meta-analysis May 2023
- COVID death 1.5 X less likely if high vitamin D, emergency D (50K to 100K) is great – meta-analysis March 2023
- COVID ICU 3X less-likely if take any amount and type of Vitamin D – meta-analysis Jan 2023
- COVID and Vitamin D: any amount of D, at any time, for any duration reduced ICU - meta-analysis Dec 2022
- Worse COVID during 3Q pregnancy if 2.5 ng lower Vitamin D – meta-analysis Sept 2022
- Severe COVID 2.6 X less likely if supplement with Vitamin D – 26th meta-analysis - July 2022
- COVID Long-Haul prevalence increases with time: 50% at 4 months - meta June 2022
- COVID test positive is about half as likely if have Vitamin D – 24th meta-analysis - Jan 2022
- Small amounts of Vitamin D reduce Influenza risk by 22 percent (loading dose is far better) – meta-analysis Jan 2022
- Vitamin D fights COVID (54 studies of 1,400,000 people) – 23rd meta-analysis - Dec 2021
- COVID-19 treated by Vitamin D (reduce ICU by 3X) - 22nd meta-analysis - Dec 29, 2021
- COVID-19 death increased 2X if low Vitamin D (less than 10 to less than 30 ng) – 21st meta-analysis Dec 2021
- COVID-19 risk reduced by vitamin D supplementation – umbrella review of 7 meta-analysis – Oct 2021
- COVID-19 treated by Vitamin D (example: ICU reduced by 5X) – 20th meta-analysis Oct 13, 2021
- Severe COVID-19 2.5 X more likely if low vitamin D (23 studies) – 19th meta-analysis Oct 2021
- COVID-19 mortality extrapolates to zero at 50 ng of vitamin D – 18th Meta-analysis Sept 2021
- COVID-19 death 1.6 X more likely if low vitamin D (24 studies) – 17th meta-analysis Aug 2021
- Severe COVID-19 5X more likely if low vitamin D (23 studies) – 16th meta-analysis July 2021
- Severe COVID-19 3.5 more likely if low vitamin D (30 studies) – meta-analysis July 2021
- COVID-19 patients who had supplemented with Vitamin D were 3X less likely to enter ICU – June 2021
- Low Calcium associated with severe COVID-19 – several studies
- COVID-19 mortality 3X more likely if low vitamin D (999,179 people) – meta-analysis March 29, 2021
- COVID-19 was 2.6X more severe if very low Vitamin D (43 studies) – meta-analysis March 26, 2021
- Low Vitamin D associated with 2.7X more severe COVID-19 – 12th MA March 5, 2021
- Vitamin D supplementation fights COVID-19 – 11th meta-analysis Jan 24, 2021
- 3.7 X less likely to die of COVID-19 if supplemented with Vitamin D - meta-analysis Jan 5, 2021
- Less likely to test positive for COVID-19 if higher Vitamin D – meta-analysis Jan 6, 2021
- Vitamin D reduces COVID-19 by 80 percent - anonymous meta-analysis - Jan 5, 2021
- COVID-19 1.7X more likely to be severe if low Vitamin D - meta-analysis Oct 2020
- Low Vitamin D associated 1.8X increased risk of COVID-19 death in hospital – meta-analysis Nov 4, 2020
- Acute viral respiratory infections (RTI) reduced by Vitamin D - 20 reviews - Aug 2020
- Prudent to consider that Vitamin D has a role in COVID-19 – meta-analysis – Aug 7, 2020
- Risk of enveloped virus infection is increased 50 percent if poor Vitamin D Receptor - meta-analysis Dec 2018
- Hepatitis B patients have 2 ng lower level of Vitamin D – meta-analysis June 2019
- Influenza Vaccination not benefited by lowish levels of vitamin D – meta-analysis March 2018
Reviews
- Vitamin D supplementation reduced risk of COVID-19 ICU by 2.8 X – review of 10 reviews Feb 2022
- COVID-19 and Vitamin D (42 studies, consensus) – Oct 2021
Observe - Less likely to become infected
short URL to this section = https://is.gd/COVID_less
- 14 X less likely to have severe COVID if previously had more than 40 ng level of Vitamin D – Feb 2022
- COVID-19 patients had low levels of Zinc, Vitamin A, Vitamin D, and Vitamin C – Sept 2021
Observe - Reduced Severity/Death
MORTALITY AND Virus (automatically updated):
- COVID infection (without hospitalization) – 1.7X more likely to die in 6 months if low Vitamin D – March 2024
- Vaccines increased your risk of dying of COVID in NZ - official data - Feb 2024
- 3X increase in unspecified causes of Death (Canada 2019-2022) - Dec 2023
- Deaths after vaccination - also reported in Japan - Dec 2023
- Excess deaths after COVID vaccination - 17 countries - Sept 2023
- Excess Deaths in Australia jumped up in 2022– preprint Feb 2023
- Prevent a COVID death: 9 dollars of Vitamin D or 900,000 dollars of vaccine - Aug 2023
- Number needed to vaccinate to prevent 1 Omicron death: 30,000 for age 60-70 - Sept 2022
- COVID survival in Europe in 2020 best predicted by population-level Vitamin D (of 13 variables) – July 2022
- Elderly who had been in COVID ICU were 4X more likely to die if low vitamin D – Nov 2022
- More COVID mortality if less than 20 ng of Vitamin D (Mexico) – May 2022
- 15,000,000 excess deaths in 2 years - May 2022
- COVID death 5.2X more likely if Vitamin D deficient – May 2022
- 29 X more likely to die of COVID if less than 20 ng of Vitamin D - March 2022
- Giving Vitamin D reduced COVID Mortality– Review of 11 studies – March 2022
- 18 million excess global deaths in past 2 years: COVID plus collateral damage - Lancet March 2022
- COVID severity and death more likely if low vitamin D (Egypt this time) - March 2022
- US nursing homes are epicenters for COVID deaths (200,000) - Feb 2022
- Ivermectin taken before COVID decreased death rate by 68 percent (3,000 with Ivermectin vs 3,000 without) - Dec 24, 2021
- Increase in non-COVID deaths (ages 18-64) in Indiana, India, etc. - Jan 5, 2022
- Only 35,000 died in US of COVID who previously had been healthy
- COVID-19 mortality extrapolates to zero at 50 ng of vitamin D – 18th Meta-analysis Sept 2021
- COVID-19 patients getting 300,000 IU of Vitamin D were 5X less likely to die – Sept 2021
- Predict 2X more likely to die of COVID-19 if vitamin D Deficient (Iran 2020) – Sept 2021
- COVID-19 mortality not associated with Vitamin D (everyone had very low levels) -Sept 2021
- COVID-19 mortality for Blacks is 5X that for whites in 2 LA Hospitals - July 2021
- COVID-19 mortality was associated with vitamin D deficiency of 47 countries – July 2021
- Similar death rate for Vaccination and COVID-19 study and video – June 24, 2021
- COVID-19 death in hospital 5X more likely if low vs high vitamin D – preprint June 2021
- COVID-19 deaths 1.7X more likely if low vitamin D (even after “adjusting” for low D health problems) – May 2021
- COVID-19 deaths 1.5X less likely if more than 40 ng of vitamin D – US VA – April 2021
- Vitamin D supplementation and high levels reduce COVID-19 deaths in elderly – Review April 17, 2021
- Less COVID-19 infection, mortality in countries with higher Vitamin D (Asia in this case) – May 2021
- COVID-19 was the third-leading cause of death in the US, especially in those with dark skins - April 1, 2021
- Risk of COVID-19 death was 4.9 X higher if very low vitamin D – March 31, 2021
- COVID-19 mortality 2X higher if low Vitamin D (Mexican hospital, preprint) - March 2021
- All COVID-19 patients had low vitamin D, the lowest were more likely to die – Feb 18, 2021
- 2.7 fewer COVID-19 hospital deaths in those having more than 30 ng of vitamin D – Mayo Jan 9, 2021
- Worse COVID-19 patients got 400,000 IU of vitamin D, deaths cut in half – Jan 14, 2021
- Iranians with COVID-19 were 2.3 X more likely to die if low vitamin D – Jan 2021
- Poor COVID-19 prognosis was 6 X more likely if low vitamin D – Jan 21, 2021
- Less than 10 dollars of Vitamin D per COVID-19 life saved in Myanmar - Jan 2021
- 2.8 X fewer COVID-19 nursing home deaths if add 10,000 IU Vitamin D daily for a week (small observation)- Jan 2021
- Italian nursing home COVID-19 – 4X less likely to die if taking Vitamin D– Dec 22, 2020
- Shift workers 2X more likely to get COVID-19 (low Vitamin D) - Dec 2020
- Those getting high dose vitamin D were 7 X less likely to die of COVID-19 - Dec 11, 2020
- COVID-19 male mortality increased 3.9 X if low vitamin D – observation Nov 25, 2020
- Hospital COVID-19 observation: 7X more likely to live if more than 20 ng of vitamin D– Nov 19, 2020
- COVID-19 lung death 4X more likely in Iran if less than 25 ng of vitamin D – Oct 30, 2020
- COVID-19 was killing dark-skinned doctors, then they got a Vitamin D recommendation
- Vitamin D of 30-40 ng fights COVID, Dr. Grimes on Liverpool Study - March 2022
- Higher vitamin D, less severe COVID and deaths in hospital (in Iran this time) – Sept 2021
Vitamin D Dosing Recommendations for COVID-19
- COVID predicted to be a pandemic that could be stopped by high dose vitamin D - Feb 2020
- FLCCC COVID guidelines now include vitamin D loading doses - Jan 2022
- Vitamin D and COVID, review of evidence, loading dose if less than 50 ng - Masterjohn Sept 2021
Short URL for this section = https://is.gd/covitamind https://is.gd/virusvitd
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