The association between vitamin D levels and the clinical severity and inflammation markers in pediatric COVID-19 patients: single-center experience from a pandemic hospital.

Vitamin D has an immunomodulating property that regulates the inflammatory response. In this study, the aim was to evaluate the relationship between vitamin D levels and clinical severity and inflammation markers in children and adolescents with COVID-19. The clinical and laboratory records of 103 pediatric cases with COVID-19, whose vitamin D levels had been measured, were retrospectively reviewed. The cases were divided into groups according to their clinical severity (asymptomatic, mild, and moderate-to-severe) and vitamin D levels. The moderate-to-severe clinical group had significantly higher inflammation markers (CRP, procalcitonin, fibrinogen, D-dimer) and a lower lymphocyte count compared to both the mild and asymptomatic groups. The 25 OH vitamin D levels were also significantly lower (p < 0.001), and the ratio of vitamin D deficiency was 70.6% in the moderate-to-severe group. The vitamin D-deficient group had a significantly higher age and fibrinogen levels while also having a lower lymphocyte count compared to the insufficient and normal groups. The 25 OH vitamin D level was correlated positively with the lymphocyte count (r = 0.375, p = <0.001), and negatively with age (r = -0.496, p = <0.001), CRP (r = -0.309, p = 0.002) and fibrinogen levels (r = -0.381, p = <0.001). In a logistic regression analysis, vitamin D deficiency, D-dimer, and fibrinogen levels on admission were independent predictors of severe clinical course.
Conclusion: This study revealed an association between vitamin D deficiency and clinical severity, in addition to inflammation markers in pediatric COVID-19 cases. Prophylactic vitamin D supplementation may be considered, especially in the adolescent age group. What is Known: • • The pathology of COVID-19 involves a complex interaction between the SARS-CoV-2 and the immune system. Hyperinflammation/cytokine storm is held responsible for the severity of the disease. • Vitamin D has multiple roles in the immune system that can modulate the body reaction to an infection. What is New: • • Clinically more severe group had significantly lower vit D levels and significantly higher inflammation markers. • Lower 25 OH vit D levels were associated with higher inflammation markers, suggesting an important role of vitamin D in the clinical course of COVID-19 in children and adolescents probably by regulating the systemic inflammatory response.

Introduction

Coronavirus disease 2019 (COVID-19), which is caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) first appeared in Wuhan, China, and was announced as a pandemic in March 2020 [1, 2]. The clinical severity of the infection varies from a simple cold to severe acute respiratory syndrome (ARDS) or even death [3]. The infection is reported to be rarely seen in childhood and commonly affects ≥15 years old [4]; however, the number of pediatric COVID-19 cases has increased rapidly with the global spread of the infection.

Although the clinical course has been observed to be milder in children than in adults, the prevalence of serious disease has been reported as 3–10% and is especially high in children under 1 year old [5].

Although basic guidelines on infection control have been published and studies on vaccination are ongoing, time is needed for an effective vaccine to become available for most people. This has led researchers to focus on a variety of drugs currently available to find an effective treatment. Vitamin D has been proven to increase the expression of genes associated with antioxidation, strengthen cellular immunity, and balance adaptive immunity [6-8]. Based on the data, it has been suggested that vitamin D supplements can alleviate the clinical course of COVID-19 and be used as an effective treatment method [9, 10]. A few adult studies have demonstrated an association between vitamin D deficiency and COVID-19 severity and mortality [11, 12]; however, pediatric data are scarce.

In this study, the aim was to determine the potential association between the level of vitamin D (25 OH vitamin D), clinical course, and inflammatory markers (C-reactive protein, fibrinogen, d-dimer, and procalcitonin) in children and adolescents with COVID-19.

Material and method

Patients

In this retrospective cohort study, pediatric cases aged between 1 and 18 years, attending to the department of pediatrics of Haseki Training and Research Hospital between March and May 2020 and whose SARS-CoV-2 infection was confirmed by a polymerase chain reaction (PCR) analysis using a nasopharyngeal swab were consecutively evaluated (n = 356). Patients with a measured 25 OH vitamin D (25 OH vit D) level were included (n = 175) while patients with comorbidities (diabetes, asthma, tuberculosis, chronic renal failure, etc.), which may affect the clinical course of COVID-19, and those under 1 year of age (n = 72) were excluded from the study. Ultimately, a total of 103 patients were enrolled in the study.

Data collection

Clinical data, laboratory, and imaging (chest X-ray and computed tomography) findings on admission were recorded retrospectively. According to the clinical findings, patients were divided into three groups: (1) asymptomatic group: patients who underwent a PCR test due to only contact history without any complaints; (2) mild group: patients with nonspecific symptoms such as cough, fever, malaise, and myalgia; and (3) moderate-to-severe group: patients whose pneumonia was confirmed by physical examination and imaging (chest X-ray and/or computed tomography) with or without oxygen need. The moderate-to-severe group consisted of hospitalized patients. Asymptomatic and mild cases were followed by telephone or outpatient clinic visits, and none of them had a clinical deterioration.

Laboratory data were recorded retrospectively from the patients’ files. At the beginning of the pandemic, all possible COVID-19 cases were routinely tested for a complete blood count: C-reactive protein (CRP), procalcitonin, fibrinogen, d-dimer, ferritin, calcium, phosphorus, and alkaline phosphatase (ALP). At the beginning of the pandemic, all patients with a positive PCR test were invited to the outpatient clinic for a second evaluation to assess the disease’s progress, which was within 1 week after the first visit. Due to its possible effect on the course of COVID-19, vitamin D (25 OH vit D) and parathyroid hormone (PTH) levels were measured in patients who accepted the invitation in addition to hospitalized patients in this second visit.

SARS-CoV-2 was investigated using reverse-transcriptase quantitative PCR by detection kit on nasopharyngeal swabs (Bioksen ArGe Teknik Co., Ltd., Turkey; Biospeedy®). Levels of serum 25 OH vit D were detected with an DXI800 instrument (Beckman Coulter, Brea, CA, USA) via an immunoinhibition assay. Patients were also grouped according to 25 OH vit D serum levels as sufficient (> 20 ng/mL), deficient (12–20 ng/mL), and insufficient (<12 ng/mL) [13]. This study was approved by the local ethical committee (Haseki Training and Research Hospital, 2020-56, 14.05.2020).

Statistical analysis

The SPSS software version 20.0 (SPSS, Inc., Chicago, IL, USA) was used in the analysis. Continuous data were given as the mean ± SD or median (25th; 75th percentile) and categorical variables were given as numbers (percentages). Patients were divided into groups according to clinical severity and vitamin D levels. The Kruskal-Wallis and chi-square tests were used for intragroup comparisons. Bonferroni correction was performed for post hoc analysis. The Spearman’s rank correlation test was used to analyze the association between inflammatory markers and vitamin D levels. To identify predictors of clinical severity, all parameters that showed a p value of ≤ 0.1 in the univariate analysis were tested using the multivariable logistic regression analysis. A two-tailed p value of ≤ 0.05 was defined as statistically significant.

Results

A total of 103 children whose PCR test revealed SARS-CoV-2 and had a measured 25 OH vit D level were included in the study. The mean age was 12.2 ± 4.92 (range 1–17) years and 52.4% (n = 54) were male. The frequency of 25 OH vit D deficiency was 41.7% (n = 43), insufficiency was 38.4% (n = 41), and sufficiency was only 18.4% (n= 19). Of all cases, 69.9% (n = 72) consisted of adolescents (10–19 years old). Among the adolescents, the frequency of vitamin D deficiency, insufficiency, and sufficiency were 55.6%, 37.5%, and 6.9%, respectively. Vitamin D deficiency was found in only three (9.7%) of the patients under 10 years of age, while vitamin D was sufficient in 45.2% (n = 14) of these children.

Comparison of vitamin D levels and inflammatory markers between patient groups defined by clinical course as asymptomatic, mild, and moderate-to-severe groups

Patient characteristics and laboratory findings of the three clinical groups are demonstrated in Table 1. The prevalence of vitamin D deficiency in the asymptomatic, mild, and moderate-to-severe groups were 17.2%, 35.4%, and 70.6%, respectively. Consistent with this, the moderate-to-severe group had by far the lowest median 25 OH vit D levels and highest inflammation markers compared to both the asymptomatic and mild groups. The mild group had similar laboratory findings to the asymptomatic group in terms of both inflammation and calcium metabolism markers.

Table 1

Comparison of patients according to clinical groups as asymptomatic, mild, and moderate-to-severe groups

Variables	Asymptomatic (n = 29)	Mild (n = 40)	Moderate-to-severe (n = 34)	p*	p**	p***
Age (year)	11.3 ± 5.05	11.9 ± 5.01	13.2 ± 4.68	NS	NS	NS
Male gender, n (%)	19 (65.5)	22 (55)	13 (38.2)	NS	NS	NS
Hemoglobin (%)	13.5 (12.8–15.2)	13.4 (12.6–14.4)	12.9 (11.8–11.4)	NS	NS	NS
Leukocyte (103 μL)	6.52 (5.3–8.74)	5.46 (4.37–6.46)	5.56 (4.0–7.1)	NS	NS	NS
Neutrophil (103μL)	3.02 (2.21–4.33)	2.56 (1.75–3.31)	2.71 (1.84–3.68)	NS	NS	NS
Lymphocyte (103 μL)	2.3 (2.00–3.38)	2.2 (1.8–2.6)	1.64 (1.12–2.38)	NS	0.001	0.04
Platelet (103 μL)	226 (209–287)	244 (207–285)	218 (187–279)	NS	NS	NS
C-reactive protein (mg/L)	0.8 (0.5–2.7)	1.5 (0.7–2.5)	8.45 (1.45–33.4)	NS	0.001	0.001
Procalcitonin (ng/mL)	0.02 (0.02–0.035)	0.03 (0.02–0.03)	0.04 (0.2–0.13)	NS	0.03	0.01
d-dimer (mg/L)	0.31 (0.25–0.63)	0.35 (0.26–0.46)	0.74 (0.35–1.28)	NS	0.009	0.02
Fibrinogen (mg/dL)	242 (227–300)	266 (236–332)	372 (314–459)	NS	<0.001	<0.001
Calcium (mg/dL)	10 (9.6–10.25)	9.8 (9.6–10.1)	9.4 (9.1–9.82)	NS	0.001	0.003
Phosphorus (mg/dL)	4.8 (4–5.35)	4.5 (3.7–5)	3.85 (2.5–4.37)	NS	0.004	NS
Alkaline phosphatase (U/L)	186 (103–240)	171 (91–248)	110 (86–182)	NS	NS	NS
Parathormone (pg/mL)	32.5 (25–44.2)	33 (24–47.5)	43 (29–46.2)	NS	NS	NS
25-OH vitamin D (ng/mL)	16.3 (12.6–19.1)	13.95 (10.0–17.2)	9.95 (7.9–12.9)	NS	<0.001	0.001
25-OH vitamin D levels, n (%)				0.001
Normal (>20 ng/ mL)	7 (24.1)a	9 (22.5)a	3 (8.6)a
Insufficiency (12–20 ng/mL)	17 (58.6)a	17 (42.5)a,b	7 (20.6)b
Deficiency (<12 ng/mL)	5 (17.2)a	14 (35.2)a	24 (70.6)b

Data was presented as mean ± standard deviation, median (25th–75th percentiles) or n (%). Kruskal-Wallis test and chi-square test with a Bonferroni correction were performed to compare continuous and categorical data, respectively

NS not significant

p*, asymptomatic vs mild group

p**, asymptomatic vs moderate-to-severe group

p***, mild vs moderate-to-severe group

a,bWithin each row, percentages that do not share a subscript are significantly different

The comparison of patients according to vitamin D levels (normal, insufficient, and deficient groups) revealed that 55.8% of the deficient group, 17.1% of the insufficient group, and 15.8% of the sufficient group applied with a moderate-to-severe clinical course (p < 0.001). The deficient group had the highest mean age and had by far the highest fibrinogen and lowest lymphocyte levels compared to both the insufficient and normal groups (Supplementary Table 1).

Correlation analysis

25 OH Vit D was positively correlated with a lymphocyte count (r = 0.375, p = <0.001) and negatively correlated with age ((r = −0.496, p = <0.001), CRP (r = −0.309, p = 0.002), and fibrinogen levels (r = −0.381, p = <0.001), (Fig. 1). The lymphocyte count was negatively correlated with CRP (p = <0.001, r = −0.428) and fibrinogen (p = 0.001, r = −0.330).

Fig. 1

Correlations of 25 OH vitamin D with inflammation markers. Vitamin D was correlated positively with lymphocyte count and negatively with C-reactive protein and fibrinogen levels

In the multivariate logistic regression analysis, vitamin D deficiency (OR 6.16; 95% CI 1.66–22.81; p = 0.006), d-dimer (OR 2.03; 95% CI 1.11–3.70; p = 0.02), and fibrinogen levels (OR 1.01; 95% CI 1.0–1.02; p = 0.004) on admission were found as the independent predictors of moderate-to-severe clinical course in a model including age, gender, lymphocyte count, CRP, procalcitonin, d-dimer, fibrinogen, and vitamin D deficiency.

Discussion

In the study, in which the relationship between the serum level of vitamin D and COVID-19 clinical severity and markers of inflammation in children and adolescents was evaluated, it is shown that lower vitamin D levels were associated with clinical severity in addition to higher inflammation markers (i.e., CRP and fibrinogen) and a lower lymphocyte count. Interestingly, these associations were observed especially when there was a deficiency (i.e., 25 OH vit D <12 ng/mL) rather than insufficiency.

Vitamin D has multiple roles in the immune system that can modulate the body’s reaction to an infection. Activation of the vitamin D receptor, which is expressed in many cells of the immune system, regulates the expression of many genes involved in congenital and adaptive immunity [14]. The immunomodulatory effect of vitamin D has been demonstrated by reducing plasma cells, proinflammatory cytokine production, and immunoglobulin release and increasing anti-inflammatory cytokine production, activating Tall-like receptors (TLR), and increasing the release of anti-microbial peptides such as cathelicidin and β-defensin [15-18]. In addition, it has been reported that vitamin D balances inflammatory response by increasing the expression of angiotensin converting enzyme 2 (ACE2), which is an anti-inflammatory component “ACE2/angiotensin (1-7)/Mas receptor (MaSR) axis” [19].

Studies conducted to date have shown that vitamin D plays an important immunomodulatory role in reducing both the incidence and severity of bacterial and viral infections. Vitamin D deficiency has been found to increase the risk of respiratory infections by respiratory syncytial virus, tuberculosis, and influenza [20]. Furthermore, vitamin D supplementation, especially if there is a deficiency, has been shown to reduce the risk of acute respiratory infections [21]. In terms of severity, vitamin D deficiency has been shown to be a risk factor for exaggerated and persistent inflammation and play a role in the development of acute respiratory distress syndrome [22-24].

The pathology of COVID-19 involves a complex interaction between SARS-CoV-2 and the immune system. The renin-angiotensin system (RAS) is thought to play a central role in the pathophysiology of COVID-19, which balances the inflammation response with two opposing regulatory routes: the classical inflammation pathway formed by the ACE/angiotensin 2 receptor and the alternative anti-inflammation pathway formed by the ACE2/angiotensin (1-7)/MaSR. The ACE2 is the host receptor for the entry of SARS-CoV-2 into the cell [25]. It has been suggested that the introduction of SARS-CoV-2 into the cell decreases angiotensin (1-7)/MaSR levels, causing downregulation of ACE2. Thereby, suppression of the anti-inflammatory response and excessive activation of the classical pathway may result in hyperinflammation/cytokine storm, which is held responsible for the severity of the disease [26]. Children experience COVID-19 more mildly compared to adults. Older age and chronic illnesses are also risk factors for severe disease in the pediatric age group. In our cohort, age and gender were not significantly different between patient groups according to clinical severity.

There are a few, mostly observational, studies evaluating the relationship between vitamin D and COVID-19 severity or mortality in adults. The cause of a higher hospitalization and mortality rate of COVID-19 cases in northern latitudes was attributed to a common vitamin D deficiency in people living in northern countries [27]. A negative correlation has also been found between mean vitamin D levels and the number of COVID-19 cases in different countries [10]. Vitamin D deficiency has been reported to be associated with worse clinical outcomes and mortality in adult COVID-19 cases [11, 12]. Pediatric research evaluating vitamin D levels and COVID-19 in terms of clinical severity and inflammation markers is scarce. In this study, vitamin D deficiency (<12 ng/mL) was significantly higher in patients with a moderate-to-severe clinical course (24/34, 70.6%) compared to both mild (14/40, 35.2%) and asymptomatic (5/29, 17.2%) cases. In line with this, 55.8% of the vitamin D–deficient patient group had a moderate-to-severe clinical course. The multivariate logistic regression analysis demonstrated that vitamin D deficiency was associated with six times an increase in having a moderate-to-severe clinical course. These findings demonstrate the association between vitamin D deficiency and clinical severity in pediatric COVID-19 cases.

The cutoff values to define vitamin D deficiency and insufficiency have been established according to vitamin D (25 Oh vit D) levels associated with abnormal laboratory and imaging findings of bone metabolism (i.e., risk for rickets) (13). However, there are controversial reports regarding the serum level of vitamin D at which the immune system functions optimally (4). In the current study, interestingly, vitamin D insufficiency (12–20 ng/mL) was found to be similar to the normal group in terms of both clinical severity and inflammation markers, whereas vitamin D deficiency was associated with both clinical severity and markers of inflammation.

In COVID-19 cases, a decrease in the number of peripheral lymphocytes has been widely observed and associated with a severe clinical course [28]. The proposed mechanism is functional depletion of ACE2 expressing and SARS-CoV-2-infected lymphocytes in the early stages of the disease, which in turn causes impairment of viral immunity. It has also been shown that the lymphocyte count reaches the lowest values when the inflammatory cytokine levels are the highest on days 4 to 6 [29]. Moreover, the association of vitamin D deficiency with hyperinflammation has been reported in animal studies [22, 24]. A decrease in hyperinflammation with vitamin D supplementation has been also reported [23]. Increased CRP levels in response to inflammatory cytokines have been associated with disease severity and mortality in COVID-19 cases [30]. In the present study, the clinically more severe group, which also had significantly lower vitamin D levels and lymphocyte count, had significantly higher inflammation markers. Furthermore, the lower 25 OH vit D level was associated with higher inflammation markers (i.e., CRP and fibrinogen) and a lower lymphocyte count. Therefore, vitamin D deficiency may have a role in hyperinflammation and an associated low lymphocyte count in COVID-19.

Vitamin D deficiency is still a common public health problem worldwide. In some countries, prophylactic vitamin D supplementation is given in both infancy and adolescents [31]. In our country, prophylactic vitamin D supplementation is given only in infancy. In the present cohort, sufficient 25 OH vit D levels were observed only in 18.4% of all cases. Vitamin D deficiency was more evident in the adolescent age group. The high ratio of vitamin D insufficiency (38.4%) and deficiency (41.7%) may be explained by decreased synthesis of natural vitamin D due to the low exposure to the sun because of the quarantine and the beginning of the pandemic, which started just at the end of winter in our country. In addition, children under 1 year old were excluded as routine vitamin D supplementation is applied. Considering the high prevalence of vitamin D insufficiency and deficiency in the adolescent age group and the given relationship between vitamin D levels and the clinical severity of the COVID-19 in this study, prophylactic vitamin D supplementation to adolescents should be considered during the COVID-19 pandemic as a health policy.

This is a single-center study, and the findings may not be attributable to other populations as COVID-19 is a pandemic affecting all nations. Genetic variability of ACE2 or the vitamin D receptor may also affect the disease’s course. As the anthropometric measures of all patients were unavailable, the effect of obesity on the clinical course and inflammation markers could not be evaluated. This is the first study to evaluate the relationship between vitamin D and clinical severity and inflammatory markers in pediatric COVID-19 cases. Although the relationship between COVID-19 and vitamin D deficiency has been demonstrated, the cause and effect relationship has not been fully explained due to the retrospective nature of the study. Thus, randomized-controlled prospective studies are needed.

Conclusion

Although the effects of vitamin D on the immune system are quite complex, the available data support that adequate 25 OH vit D levels facilitate the defense process against bacterial and viral infections and prevent hyperinflammation. In this study, it has been shown that the serum vitamin D level was associated with clinical severity and markers of inflammation in children and adolescents with COVID-19. Interestingly, these associations were observed especially when there was a deficiency (i.e., 25 OH vit D <12 ng/mL). Although it has been demonstrated that vitamin D insufficiency has a role in bone metabolism, in the present study, vitamin D insufficiency was not found to be associated with disease severity or inflammation markers in COVID-19. Lastly, we suggest that considering the ongoing lockdown measures, prophylactic vitamin D supplementation may be considered especially for the adolescent age group during the COVID-19 pandemic as a health policy.

(PDF 139 kb)

What is Known: • • The pathology of COVID-19 involves a complex interaction between the SARS-CoV-2 and the immune system. Hyperinflammation/cytokine storm is held responsible for the severity of the disease. • Vitamin D has multiple roles in the immune system that can modulate the body reaction to an infection.

What is New: • • Clinically more severe group had significantly lower vit D levels and significantly higher inflammation markers. • Lower 25 OH vit D levels were associated with higher inflammation markers, suggesting an important role of vitamin D in the clinical course of COVID-19 in children and adolescents probably by regulating the systemic inflammatory response.