Role of Vitamin D and Vitamin D Polymorphisms in COVID-19 Risk and Severity in Children: A Systematic Review

The role of vitamin D in the susceptibility to coronavirus disease 2019 (COVID‐19) disease has been investigated since the beginning of the pandemic, but there is still scarce data on children. We investigated the impact of vitamin D status and the related genetic variants on COVID-19 vulnerability and severity of the disease in children. A systematic review was performed in accordance with the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines, to identify reports on vitamin D status and genetic polymorphisms, their association with the susceptibility of children to COVID-19 and multisystem inflammatory syndrome in children (MIS-C), and the effect of supplementation on the clinical course. Of an initial total of 279 articles, 26 studies, published between September 2020 and May 2023, were finally included in this review according to inclusion criteria. Quantitative data provided by 11 studies revealed that 43.05% of pediatric COVID-19 patients had low vitamin D levels. Mean serum 25(OH)D levels were observed to be significantly low in COVID-19 cases, with an estimated pooled mean value of 17 ng/mL, as provided by 16 studies. Vitamin D deficiency and the vitamin D receptor (VDR) FokI polymorphism may suggest independent risk factors for susceptibility to COVID-19 in the pediatric population. The 25(OH)D level may constitute a significant biomarker associated with the COVID-19 severity and MIS-C. While supplementation of COVID-19 cases with vitamin D showed favorable results, the effect on the outcome of the disease remains uncertain.


Introduction And Background
Coronavirus disease 2019 (COVID-19) has been typically a mild disease in children [1].However, serious illness in children has been reported and a few of them may develop severe complications, especially without early diagnosis and treatment of the multisystem inflammatory syndrome in children (MIS-C), the pediatric hyperinflammation disorder related to the severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) [2].
Vitamin D is a fat-soluble steroid hormone with a wide range of immunoregulatory effects [3].Recent literature data support its role as a potent regulator of innate and acquired immunity responses, its strong effect on the gene expression of antimicrobial peptides, and the inflammatory cascade [3].The biological actions of vitamin D are executed through the vitamin D receptor (VDR), a transcription factor expressed by the cells of 30 or more different target tissues, making vitamin D a versatile hormone worth studying in different diseases [3].Genetic changes in genes involved in the metabolism, transport, or binding of vitamin D, such as the genes encoding the VDR receptor, may result in its deficiency [4].In fact, single nucleotide polymorphisms (SNPs) of the gene encoding VDR in children have been associated with vulnerability to acute, mainly viral, infections of the lower respiratory system, which supports the possible role of vitamin D in the immune response to viral respiratory infections [4].
The functional consequences of the genetic variants within the vitamin D pathway are reported to have a substantial impact on vitamin D levels and, thus, may confer susceptibility to infections.Still, their effect on the susceptibility of children to COVID-19 remains unsettled.In the case of COVID-19 pathogenesis, multiple inflammatory pathways are involved, including unregulated inflammatory responses and cytokine storm [5].Therefore, 25(OH)D status and the related genetic background may be associated with the occurrence of COVID-19 infection and adverse outcomes in children and may constitute a significant biomarker for predicting disease complications, including MIS-C.However, much remains to be elucidated regarding the association of vitamin D polymorphisms with COVID-19 susceptibility and clinical course and the impact of vitamin D supplementation on the disease in children.While the association of vitamin D deficiency with the susceptibility to COVID-19 disease in children and adolescents is under investigation to date, it has been linked to clinical severity and higher inflammation markers in the disease in children [5,6].
Addressing the link between vitamin D genetic variants and the susceptibility of individuals to COVID-19, studies in adults have shown that VDR gene polymorphisms might play a critical role in the vulnerability to infection and severity of the disease [7].In this systematic review, we aim to determine the prevalence and the effect of vitamin D deficiency in COVID-19 in children and the association between genetic variances in the vitamin D pathway and the disease severity and clinical course.In this review, we also summarize the existing data in the literature regarding the effect of vitamin D levels on the severity of MIS-C and the effect of vitamin D supplementation on the clinical outcome of COVID-19 disease.

Search Strategy and Selection Criteria
This systematic review was conducted according to the recommendations of the Preferred Reporting Items for Systematic Review and Meta-Analysis (PRISMA) guidelines [8].The studies were selected after performing a comprehensive literature search in the PubMed database without language or date restrictions.
Various search strategies were piloted aiming to maximum sensitivity.The title and abstract of the articles were screened for relevance and duplicate records were excluded.Cited references were also reviewed to identify additional relevant studies.The first-stage screening of titles and abstracts based on our research question and the full-text articles were independently assessed by two authors according to study selection criteria.In cases of unresolved disagreement during the screening process, a third author was consulted to reach a consensus.The included studies were then reviewed in detail for data extraction.

Data Extraction and Analysis
Extraction of variables was performed using a standardized Excel form (Microsoft Corporation, Redmond, Washington, United States).

Study Selection
A PRISMA flowchart (Figure 1) summarizes the literature search, study review screening, and selection.The literature search yielded a total of 279 studies, and one article was retained from citation searching.Of these, 26 studies were finally reviewed for data extraction after the removal of irrelevant studies, review articles, duplicate records, or studies that did not meet the inclusion criteria.Based on the information provided from 18 of the 26 included studies and 1726 pediatric COVID-19 patients, 51.76% were males and the median age of patients was 10 years (range 0.3-18.9).

Findings of the Included Studies
Vitamin D status in pediatric COVID-19 patients: Findings regarding vitamin D status in pediatric patients with COVID-19 were reported by 23 of the 26 included studies and the proportion of patients with vitamin D deficiency was noted.Twelve of the 23 studies that reported on vitamin D status in children were conducted during the first wave of the COVID-19 pandemic, mostly between March and May 2020.Out of them, nine studies retrospectively assessed 25(OH)D levels, measured in COVID-19-infected children at admission.The remaining 11 studies were conducted during the first and/or the second COVID-19 wave.In the current review, no studies were included reporting directly on the impact of the COVID-19 lockdowns on the prevalence of vitamin D deficiency in children.
Those with 25(OH)D levels of 21-29 ng/mL (52.5 and 72.5 nmol/l) [16,17] or 12-20 ng/mL (30-50 nmol/L) [9,23] were defined as vitamin D insufficient, and those with levels above 30 ng/ml (75 nmol/L) were considered to have normal levels [16,17].COVID-19 disease was classified as asymptomatic, mild, moderate, severe, and critical according to clinical presentation.Not all studies included all the possible patient groups.Different published classifications or national protocols were used in the included studies in order to assess clinical presentation; although quite similar, there was not a unique scoring system for all studies in the current review.
Regarding clinical presentation, six studies provided data on the proportion of patients with mild disease and were calculated to constitute 48.8% of their included cases [11,20,[23][24][25].Moderate and moderate-tosevere disease was addressed in seven studies and was calculated as 26.27% of the included patients [5,6,11,17,23,24].Severe cases constituted 12% of the provided data from four studies [11,20,23,24].Our analysis of the associated vitamin D levels with clinical severity from data provided by two studies [5,23], showed that 65.36% of the included patients with severe and moderate-to-severe disease had vitamin D insufficiency or deficiency as opposed to the 8.6% who had normal values.
In three of the 26 systematically appraised studies regarding the influence of patients' characteristics on vitamin D status, patients' age was correlated negatively with serum 25(OH)D levels [17,26,27].One study found no statistically significant association between age and vitamin D levels [20].
Characteristics and key data of included studies regarding the vitamin D status of COVID-19 pediatric patients and its correlation with the susceptibility to infection and clinical outcome are summarized in Table 1.[14].

Author, Year
A statistically significant relationship was observed between vitamin D values and the extent of pulmonary involvement, tachycardia, tachypnea, clinical signs, gastrointestinal complications, and saturation of peripheral oxygen (SpO2) levels [20].Patients' serum levels of 25(OH)D were inversely related to the presence and severity of clinical symptoms and the existence of respiratory manifestations including pneumonia, rhinopharyngitis, and laryngitis [6,11,24].According to Karimian et al., clinical severity and rate of involvement had an important direct association with high vitamin D levels, suggesting that moderate levels of vitamin D could possibly have a better impact on the immune response [20].A retrospective study reported that fever and vitamin D levels were negatively correlated among patients [6].In a similar study, however, fever and cough were more frequent in patients with normal vitamin D levels as opposed to the vitamin D-deficient group, considering the possible role of vitamin D in the inflammatory process [17].
Vitamin D deficiency on admission was found as an independent predictor of severe COVID-19 [5].Another study noted that low vitamin D levels on admission may constitute a modifiable risk factor for severity and mortality in hospitalized patients [10].
Unfavorable clinical outcomes were also associated with low vitamin D levels in Omicron subvariant BA.2 infection in children [27].A weak negative correlation was found in a study regarding the severity of COVID-19 and serum 25(OH)D and the duration of hospital stay [9].The latter was also negatively correlated with low serum 25(OH)D levels of COVID-19 patients in the study by Alpcan et al. [17].A population-based study including pediatric and adult cases, found that the likelihood of hospitalization due to COVID-19 was significant only in patients aged over 50 years [14].Another study found no difference in COVID-19diagnosed children and adolescents regarding vitamin D levels and disease clinical course and severity [16].Bayrak et al. found no significant difference between COVID-19 patients with normal and low 25(OH)D levels when compared in terms of clinical severity (asymptomatic, mild, and moderate clinical course) [19].
Nine studies examined the association of vitamin D levels with inflammatory and other laboratory biomarkers in COVID-19 [5,9,16,17,19,20,23,24,26].Two studies noted a negative correlation between serum concentrations of vitamin D with C-reactive protein (CRP) and fibrinogen levels [5,23].Bagiu et al. stated an indirect significant association of CRP and lactate dehydrogenase (LDH) values with COVID-19 severity in patients with low values of vitamin D [24].However, three studies found no statistically significant association of laboratory markers including ferritin and CRP with vitamin D levels [16,17,20], although CRP was found higher in the group of patients with low vitamin D levels in one of the aforementioned studies [17].Mean lymphocyte count was found significantly lower in the same group [17], and was positively correlated with vitamin D levels in three studies [5,9,26].Data from 21 studies including 1840 pediatric COVID-19 patients revealed a mortality rate of 0.43%.Only 2/21 studies reported deaths among hospitalized cases and cases with intensive care unit (ICU) admission, respectively [11,15].
Vitamin D levels and MIS-C severity: Next, we sought to evaluate the effect of serum vitamin D levels on the severity of MIS-C in children, indicated by clinical, laboratory, and cardiac biomarkers, as well as the length of hospitalization.Torpoco Rivera et al. [22] observed that 90% of patients with vitamin D deficiency had a severe course of the disease and Petrovic et al. [18] reported a correlation of 25(OH)D levels with MIS-C severity, including cardiovascular involvement, prolonged ICU, and hospital length of stay, although their multivariate analysis showed no independent associations.A moderate negative association with more severe MIS-C was suggested by Keleş et al. [9].Darren et al., who also found lower mean 25(OH)D values in pediatric intensive care unit (PICU) patients as opposed to the non-PICU group, noted that the association with MIS-C severity was not statistically significant [29].
Vitamin D polymorphisms and COVID-19 risk and severity: Two studies investigated the impact of vitamin D genetic variants on susceptibility, clinical outcome, and disease severity of COVID-19 [13,16].Zeidan et al., who investigated the VDR FokI polymorphism solely in pediatric patients, found that VDR FokI polymorphism and vitamin D deficiency could represent independent risk factors for the infection [16].The polymorphism genotype distribution was not associated with clinical severity of COVID-19 [16].Kotur et al. determined the significant effect of the associated with lower vitamin D levels variants DHCR7/NADSYN rs12785878, GC rs2282679, VDR rs2228570 (FokI) and CYP2R1 rs10741657 variants with severe COVID-19 in adults but no statistically significant correlations were observed between the analyzed genetic variants and the disease severity or risk for symptomatic disease in pediatric patients [13].
Vitamin D supplementation in severe COVID-19: The effect of vitamin D supplementation on COVID-19 severity was explored in a randomized controlled clinical trial appraising the effectiveness and outcomes of vitamin D supplementation in pediatric COVID-19 patients with moderate disease, as defined by requiring hospitalization or oxygen supplementation [15].Patients were divided into the vitamin D group, which received doses of 1,000 or 2,000 IU/day according to age, and the control group without supplementation.The authors concluded that vitamin D supplementation in pediatric patients appears to decrease the risk of COVID-19 progression and death.In the study by Söbü et al., supplementation of vitamin D was administered to children with deficiency or insufficiency, and all children included in the study were cured [30].However, it remains uncertain whether the favorable results could be attributed to vitamin D supplementation because these children were also treated with supportive and medical therapy.

Discussion
Vitamin D deficiency has been suggested to be associated with an increased risk of respiratory viral infections in children [33].In the current review, we systematically appraised the available literature to determine the effect of vitamin D deficiency on the severity and mortality of COVID-19 infection and the reported genetic variants known to modulate susceptibility to severe COVID-19 disease.In addition, we evaluated the relationship between serum 25(OH)D levels and multisystem inflammatory syndrome related to COVID-19 in children.
Altogether, mean serum vitamin D levels were observed to be significantly low in COVID-19 cases.In this review, almost half of pediatric patients with COVID-19 presented vitamin D deficiency.This rate is in accordance with a previous report that noted a considerable number of pediatric COVID-19 patients suffering from vitamin D deficiency, with their reported prevalence also approaching the rate of 50% [34].
Vitamin D deficiency determined by serum 25(OH)D levels less than 20 ng/mL, is reported in about one-third of children worldwide, notably in adolescents [19].Accordingly, in published data reports on the levels of vitamin D in healthy children aged 0-18 years, deficiency is found in almost 40% of them [30].In the current review, data provided from case-control studies showed that vitamin D deficiency in healthy controls ranges from 15-17.5% [16,17] to 19.3% for severe deficiency, 56.8% for mild-moderate, and 23.8% for slight deficiency [21].
The negative association between age and serum 25(OH)D values, which was evaluated in three studies, was also addressed in a previous report in which older children including adolescents, had lower 25(OH)D serum levels [35].
In the present review, vitamin D deficiency was suggested as a risk factor for COVID-19, based on the available evidence.This finding is in accordance with another study which noted that low vitamin D levels were associated with prominent infection risk and poor prognosis in children [34].Vitamin D insufficiency and deficiency were indicated in a significant number of cases with severe and moderate-to-severe COVID-19 disease, in this review.Although not all studies coincide on whether the presence of clinical symptoms, the likelihood of hospitalization, and the disease clinical course are significantly correlated with vitamin D deficiency, the presented evidence led us to conclude that low vitamin D levels have an impact on the risk of severe infection.Thus, this report further strengthens previously reported evidence [34].
Vitamin D is a known important modulator of innate and acquired immunity and has been shown to balance the inflammatory and macrophage responses, such as attenuating the cytokine storm, which is common in COVID-19 [3,4,7,27].
Importantly, based on the results of this review, serum 25(OH)D concentration in COVID-19 pediatric patients may affect the inflammatory and hematological parameters or vice versa, due to its role in the cytokine storm and the unregulated inflammation, and it may play a role in severe COVID-19 and lead to poor clinical outcome [7,27,36].Although not statistically significant in all cases, more than half of the addressed studies correlated vitamin D levels with laboratory markers in pediatric COVID-19 cases.
Based on these findings, the hypothesis that the use of vitamin D as a modifiable intervention could alter COVID-19 outcomes through its protective immuno-regulatory effects emerges as crucial [37].Indeed, it has been suggested that vitamin D supplementation may reduce clinical severity and mortality in adult patients with COVID-19 [38].Although a beneficial effect of vitamin D supplementation in children was indicated and the provided evidence suggested a possible relationship between COVID-19 severity and vitamin D deficiency, it was not possible through the review of the available studies to establish a favorable effect of vitamin D supplementation on COVID-19 progression.
Despite the low prevalence of severe or critical COVID-19 disease in children, serious illness has been reported and a few of them may develop severe complications, especially without early diagnosis and treatment of MIS-C.In our study, although not all cases reached statistical significance, a link between MIS-C progression and severity and vitamin D deficiency was made evident.Still, it remains unclear whether vitamin D deficiency predisposes patients to severe MIS-C or constitutes a result of the disease, due to the involvement of inflammatory effects in the disease process which may result in reduced 25(OH)D [37].
To our knowledge, only two studies have addressed the effect of vitamin D genetic variants on COVID-19 risk of infection and severity in children [13,16].
Based on the evidence provided by two studies [13,16], an evident relationship between the VDR FokI polymorphism and COVID-19 severity or clinical course could not be established, but it may constitute an independent risk factor for susceptibility to COVID-19 [16].Other genetic variants related to the status and bioavailability of vitamin D including the DHCR7/NADSYN rs12785878, GC rs2282679, and CYP2R1 rs10741657 could not be significantly related to the symptomatic or severe COVID-19 in children [13].However, since recognition of the genetic susceptibility of children to infection could contribute to early treatment through personalized strategies but still remains relatively unexplored in the literature, more primary studies are required to explore and substantiate this hypothesis.
Although this review provides a broad systematic literature search, assessment of study selection by two independent authors, and review in detail for data extraction, it has several limitations, including the heterogeneity of the included studies in terms of study design, participant characteristics, and mainly the wide variation between the 25(OH)D levels determined as sufficient, insufficient, and deficient by each author.Thus, this difference can lead to a measurement bias regarding the calculated pooled prevalence of vitamin D deficiency and the pooled mean value of the participants, which considerably limited the analysis and interpretation of the provided evidence.Furthermore, due to limited published data and the unavailability of randomized controlled trials, we could not explore the impact of vitamin D supplementation in pediatric COVID-19 patients.

Conclusions
Our findings demonstrated that most COVID-19 patients had suboptimal or low vitamin D serum levels.The estimate of suboptimal and low vitamin D levels in COVID-19 in children was provided in this systematic review, as well as the available evidence regarding its association with the clinical course of the disease and complications.While it appears that the infection has a mild course in children, 25(OH)D levels may suggest an independent risk factor for susceptibility to infection and adverse outcomes in the pediatric population.
In addition, vitamin D, probably acting as an important immunomodulatory agent, may constitute a significant biomarker in MIS-C associated with the disease severity.While there is recent evidence that vitamin D genetic variants are associated with COVID-19 severity in adults, findings provided in the review underline the need for further investigation of vitamin D genetic polymorphisms distribution and their possible role as disease risk factors and markers of severe clinical course.The effect of vitamin D supplementation on COVID-19 in children needs to be further explored in future clinical trials.

FIGURE 1 :
FIGURE 1: PRISMA flow diagram of selected studies.PRISMA: Preferred Reporting Items for Systematic Review and Meta-Analysis Based on information provided by 11 studies in the present systematic review, we evaluated the proportion of COVID-19 pediatric patients with vitamin D deficiency or insufficiency.Due to wide variations in defining sufficient, insufficient, and deficient levels according to each author, a considerable value of 43.05% (n=375) was calculated in the present review as the pooled prevalence of low vitamin D levels among the included COVID-19 subjects (n=871).The pooled mean serum 25(OH)D in pediatric COVID-19 patients was evaluated as 17 ng/mL, among the included COVID-19 subjects (n=1478) from the values provided by 16 studies.
is associated with clinical severity of pediatric COVID-19 and inflammation markers.19 cases had lower 25(OH)D levels compared to the controls.Vitamin D levels were negatively associated with fever symptoms and may be associated with COVID-19 disease by modulating inflammation and cytokine release to the virus.Keleş et al.with COVID-19 and MIS-C had insufficient vitamin D levels.Serum 25(OH)D levels may be associated with the severity of MIS-C.D'Alessandro et al., 2023 [10] Italy Children and adults Vitamin D levels were inadequate in all COVID-19 patients.Hypovitaminosis upon admission may increase the risk of COVID-19 infection and suggest a modifiable risk factor for unfavorable clinical outcomes in hospitalized patients. of 25(OH)D were inversely related to the presence and severity of clinical symptoms, as well as ICU admission and death, demonstrating that 25(OH)D is an important biomarker for COVID-19 pediatric patients.Basińska-Lewandowska et al., 2023 [12] Poland Children and adults (6-50 years) Patients with severe 25(OH)D deficiency were more likely to develop subsequent COVID-19 infection Kotur et al., 2021 [13] Serbia Children and adults No significant correlations were observed between the associated with lower 25(OH)D levels genetic variants and the disease severity or risk for symptomatic disease in pediatric patients Merzon et al., low plasma 25(OH)D levels were found to be an independent risk factor for COVID-19 infection, the likelihood for hospitalization due to COVID-19 was significant only in patients aged over 50 years.Zurita-Cruz et al., in pediatric patients appears to decrease the risk of COVID-19 progression and death.and VDR Fok I FF genotype were associated with increased susceptibility to COVID-19 in children and adolescents.was correlated negatively with age in the COVID-19 group.Vitamin D deficiency was observed in significantly more COVID-19 patients compared to the control group, and was correlated to the disease severity.Petrovic et al., 2023 [18] Croatia Children (1-16 years) MIS-C severity was significantly correlated to 25(OH)D levels.No association between 25(OH)D levels and laboratory inflammatory and cardiac markers.Vitamin D supplementation should be considered during the early stages of management of MIS-C.Bayrak et al., 2023 [19] Turkey Children (1 month-18 years) Children with COVID-19 had a significantly lower 25(OH)D vitamin level compared to the controls.No significant difference was found between COVID-19 patients with normal and low 25(OH)D levels when compared in terms of clinical severity (asymptomatic, mild, and moderate clinical course) (p= 0.418) Karimian et al., Iran Children (1 month-A significant relationship was observed between vitamin D levels and levels of involvement, clinical signs and gastrointestinal complications.Clinical severity and rate of 2024 Giatraki et al.Cureus 16(5): e61326.DOI 10.7759/cureus.involvementhad an important association with high vitamin D levels, suggesting that moderate levels of vitamin D could possibly have a better impact on the immune system.patients had statistically significantly lower mean serum vitamin D levels than healthy children.Vitamin D supplementation should be considered as a supportive therapy in COVID-19 infection.vitamin D deficiency was significantly correlated to severe MIS-C, including increased risk of cardiac involvement, prolonged ICU and hospital length of stay.association was observed between serum concentrations of vitamin D and levels of serum lymphocytes and neutrophils but a negative correlation with CRP, fibrinogen, and d-dimer values.Patients with moderate or severe COVID-19 disease had significantly lower serum vitamin D levels compared to patients with mild clinical were indirectly moderately correlated with CRP and LDH levels, with clinical presentation and severity.Olivé-Cirera et al., COVID-19 infection, which is low in children with neuroimmunologic disorders and not influenced by immunosuppressive therapies, was associated with low vitamin between serum 25(OH)D levels and lymphocyte counts was observed in children with COVID-19 infection, who appeared to have a mild clinical course, suggesting the possible role of vitamin D in immune response.OH)D levels showed a significant negative association with patients' age.Vitamin D insufficiency might result in poorer clinical outcomes in children with Omicron subvariant BA.2 infection.Katz et al.adultsAn increased likelihood of COVID-19 infection was observed in patients with vitamin D deficiency.Darren et al.of PIMS-TS was found in children of BAME background, who were also found more susceptible to vitamin D deficiency.-19 had significantly lower vitamin D levels than controls.Clinical improvement of patients with low vitamin D levels cannot be attributed to vitamin D supplementation because they also received supportive and medical treatment.levels were observed in most of the infected patients in the study.was the most common nutrient deficiency in COVID-19 patients, suggesting its possible role in increased susceptibility of children to the disease.
The following algorithm was used: (Vitamin D OR Vit D) AND (children OR infant OR neonate OR adolescent OR pediatric) AND (COVID-19 OR SARS-CoV-2 OR COVID-2019 OR 2019-nCOV OR 2019 novel coronavirus infection OR coronavirus disease-19 OR coronavirus disease 2019 OR novel coronavirus OR mis-c OR multisystem inflammatory syndrome in children).The last search was updated on February 18, 2024.
The study selection included the following criteria: original research studies published in English and peerreviewed journals reporting on vitamin D status or polymorphisms in vitamin D-related genes and COVID-19 infection in pediatric cases.Studies regarding the effect of vitamin D levels on the severity and prognosis of MIS-C in addition to the role of supplementation as a complementary treatment of COVID-19 disease were included.Prospective or retrospective cohort studies and cross-sectional studies were included if relevant.Exclusion criteria were non-English language publications, experimental or animal studies, review articles and case reports, studies including only adult cases, and other studies of general content.

TABLE 1 : Characteristic details and key findings of selected studies.
total of 16 studies provided data on the correlation between serum 25(OH)D levels and COVID-19 severity in terms of the severity of clinical symptoms, hospital length of stay, and mortality in hospitalized patients aged one month to 18 years [5,6,9-11,13-17,19-21,24,27,29].One population-based study, conducted during the first wave of the COVID-19 pandemic, assessed the likelihood of hospitalization in children over two months of age and adults [12,14,28]ediatric inflammatory multisystem syndrome temporally associated with SARS-CoV-2; BAME: Black, Asian, and minority ethnic; MIS-C: multisystem inflammatory syndrome in children Vitamin D levels and COVID-19 risk and severity: The current review addressed the effect of low vitamin D levels on COVID-19 infection risk.Patients with vitamin D deficiency were more likely to develop COVID-19 infection and according to the provided data, low vitamin D levels were found to constitute an independent risk factor for the infection (p < 0.001)[12,14,28].A