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Vol. 76.
(January 2021)
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Vol. 76.
(January 2021)
REVIEW ARTICLE
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Relationship between vitamin D deficiency and psychophysiological variables: a systematic review of the literature
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Mariluce Rodrigues Marques SilvaI,II, Waleska Maria Almeida BarrosI,II,III, Mayara Luclécia da SilvaII,III, José Maurício Lucas da SilvaII,III, Ana Patrícia da Silva SouzaI,II, Ana Beatriz Januário da SilvaI,II, Matheus Santos de Sousa FernandesI, Sandra Lopes de SouzaI, Viviane de Oliveira Nogueira SouzaIV,V,
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viviane.nogueira@ufpe.br

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I Programa de Pos-graduacao em Neuropsiquiatria e Ciencias do Comportamento, Centro de Ciencias da Saude, Universidade Federal de Pernambuco, Recife, PE, BR
II Centro Integrado de Tecnologias em Neurociencia (CITENC), Centro Universitario Osman Lins (UNIFACOL), Vitoria de Santo Antao, PE, BR
III Departamento de Fisioterapia, Centro de Ciencias da Saude, Centro Universitario Osman Lins (UNIFACOL), Vitoria de Santo Antao, PE, BR
IV Nucleo de Nutricao, Centro Academico de Vitoria (CAV), Universidade Federal de Pernambuco, Vitoria de Santo Antao, PE, BR
V Programa de Pos-graduacao em Nutricao, Atividade Fisica e Plasticidade Fenotipica, Centro Academico de Vitoria, Universidade Federal de Pernambuco, Vitoria de Santo Antao, PE, BR
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Vitamin D is a fat-soluble vitamin that plays a role not only in calcium homeostasis, but also in several other functions, including cell growth and immune functions, and is considered a neurosteroid. Vitamin D deficiency is highly prevalent worldwide and has been suggested to be associated with an increased risk of emotional disorders. Therefore, the association between vitamin D levels and psychophysiological disorders, such as depression, anxiety, and mood, has been investigated. To list these variables, a bibliographical literature research was conducted in the MEDLINE/PubMed, Web of Science, Scopus, Science Direct and PsycINFO databases, between November and December 2020, with no year limits of publication. The studies involved humans aged between 18 and 59 years without associated diseases. This review presents evidence of the main variables involved in this association, main tools used to verify these variables, and methods used to verify circulating vitamin D levels in populations. Most studies have indicated that the main psychophysiological variables involved with vitamin D levels are depression and anxiety followed by mood, and an association has been observed between increased serum vitamin D levels and reduction in symptoms of depression, anxiety, and mood, and there is a heterogeneity of methods for assessing vitamin D. More studies are clearly needed to improve our understanding of their role in modulating the psychophysiological aspects of vitamin D levels.

KEYWORDS:
Vitamin D
Humor
Adults
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INTRODUCTION

Vitamin D is a liposoluble micronutrient acquired mainly endogenously by exposure of the skin to the sun, specifically ultraviolet B (UVB) rays (at wavelengths of 290-315 nm), which represents 80-90% of this acquisition. Its exogenous form is found in foods that naturally contain this vitamin, such as milk and its derivatives, as well as fatty fish (1-4).

Skin exposure to UVB rays forms pre-vitamin D3, the skin precursor 7-dehydrocholesterol, which is present in all layers of human skin, mainly in the epidermis (4,5). Vitamins D2 and D3 are transported by vitamin D binding protein (VDBP) to the liver, where they undergo hydroxylation by vitamin D-25-hydroxylase (CYP2R1) to produce 25-hydroxyvitamin D (25 (OH) D). This is the main circulating metabolite of vitamin D, which is used to assess the individual status of vitamin D. Then, 25 (OH) D reaches the kidney, where it undergoes an additional hydroxylation by 25 (OH) D-1α-hydroxylase (CYP27B1) to 1,25-dihydroxyvitamin D (1.25 (OH) 2D or calcium), resulting in the bioactive form of vitamin D (5).

After hydroxylation in the kidney, calcitriol has the ability to regulate calcium-phosphorus balance and to stimulate the absorption of calcium and phosphorus by enterocytes. Similarly, calcitriol acts with parathyroid hormone, which stimulates calcium absorption by osteoclasts. In the kidney, the conversion of vitamin D to its hormonal form occurs, linked to calcium homeostasis (4). Similarly, it has been proposed that endothelial brain cells can convert inactive cholecalciferol into 25 (OH) D3. This can be metabolized into 1,25 (OH)2 D3 by cells, such as microglia or neurons, before being transferred to astrocytes, where it can promote binding to the vitamin D receptor and initiate gene transcription or, when in excess, is inactivated (6).

Authors have been committed to describing the physiological role of vitamin D receptors in various tissues and organs of the body, including the central nervous system (CNS) (7-10). In the last two decades, variability in vitamin D levels has been used as a predictor of brain health (11-13). In this sense, its properties are not only related to calcium homeostasis, since there is a relationship with cognition and emotions, state of stress, anxiety, depression, poor sleep quality, mood, and neuropsychophysiological implications in general (14-16). It is important to note that the reduction in serum vitamin D levels, known as hypovitaminosis D, has been found in several populations, such as children, adolescents, adults, and the elderly, without distinction of race, ethnicity, or country (15,17-19). This characteristic has been associated with different clinical conditions, including vascular, infectious diseases, osteoporosis, and certain types of cancer, as well as being intrinsically related to brain health (16,20,21).

Recently, researchers have investigated the possible association between vitamin D deficiency and the neurodegeneration process. This study was conducted with 2,716 apparently healthy participants, and it was observed that vitamin D deficiency (25 (OH) D <30 nmol/L) was associated with a reduction in brain volume, especially in the hippocampus, in addition to a lower amount of white matter when compared with subjects with sufficient vitamin D levels (≥50 nmol). These results suggest that the decrease in plasma levels of circulating vitamin D may act as an indicator of brain health in this population (22).

Overall, studies have not only investigated the consequences of high levels of vitamin D in the human body. However, it is well established that levels above 100 ng/mL are considered toxic and may result in extra bone hypercalcemia, a low prevalence condition (5).

Although the literature presents studies that discuss the properties and actions of vitamin D in relation to the development and maintenance of CNS function, a systematized approach analyzes the possibilities of the relationship between the variation in circulating serum levels of this micronutrient and main related cognitive and emotional aspects. Therefore, this review aimed to evaluate the possible relationship between vitamin D levels and different psychophysiological outcomes in a healthy adult population of both sexes, as well as to establish the main tools used to measure these supposed aspects.

METHODSSearch strategy

The protocol for systematic review was registered in the International Prospective Registry of Systematic Reviews (registration number: CRD42020211406).

A peer-reviewed literature search was conducted without language limitations or publication period in the Medline/PubMed, Web of Science, Scopus, Science Direct, and Psycinfo databases. The research period without limitation per year ensured a broad overview of the literature and was considered adequate given the increasing global attention to vitamin D deficiency and psychophysiological variables. The keywords used comprised terms related to vitamin D, depression, anxiety, and psychophysiological aspects.

Inclusion and exclusion criteria

Studies of cross-sectional epidemiological projects, clinical trials, cohorts, and case studies were included if they met the following inclusion criteria: 1) studies published in all languages, without distinction of year of publication; 2) analysis of young adults aged between 18 and 59 years, avoiding the malabsorption bias caused by skin aging and of both sexes; and 3) studies that have a relationship between vitamin D deficiency and psychophysiological aspects. Animal studies that were not published in full and those with associated diseases were excluded.

Selection of studies

Two reviewers (MRMS and MLS) independently selected the titles and abstracts of the articles identified in the research. The full texts of the potentially eligible studies were obtained and evaluated later by two reviewers (MRMS and MLS). Disagreements were resolved through discussion and consultation with a third reviewer (WMAB).

Data extraction and analysis

The following data were extracted from each study by two authors of the review (MRMS and MLS): title, author, year of publication, sample, variables analyzed, main methods/instruments of measurements, vitamin D parameters, and associated results. Discrepancies in data extraction were resolved through discussion.

Where applicable, the quality of the included studies was evaluated using the Joanna Briggs Institute Critical Assessment Tools checklist (available free of charge at https://joannabriggs.org/critical-appraisal-tools). We evaluated the quality of studies that analyzed the relationship between vitamin D deficiency and psychophysiological variables according to the type of study. Specifically, we used the checklist for analytical cross-sectional studies (23), randomized clinical trials (24), cohort studies (25), and case-control studies (26) (Tables 1-4).

Table 1.

Critical appraisal results for included studies using the Joanna Briggs Institute for verification of cross-sectional analytical studies.

Study  Q1  Q2  Q3  Q4  Q5  Q6  Q7  Q8 
Avinun; Romer e Israel 2020 
Casseb et al. 2019 
Pooyan et al. 2018 
Kim et al. 2016 
Bicíková et al. 2015 
Huang et al. 2014 
Atram; Ragunath e Kannan 2020 
Altinbas et al. 2019 
Von Känel et al. 2015 

Y - Yes, N - No, U - Unclear. Q1: Have the criteria for inclusion in the sample clearly defined?; Q2: Were the study subjects and the setting described in detail?; Q3: Was the exposure measured in a valid and reliable way?; Q4: Were objective, standard criteria used for measurement of the condition?; Q5: Were Confounding factors identified?; Q6: Were strategies to deal with confounding factors stated?; Q7: Were the outcomes measured in a valid and reliable way?; Q8: Was appropriate statistical analysis used?

Table 2.

Critical appraisal results for included studies using the Joanna Briggs Institute for verification of randomized clinical trials.

Study  Q1  Q2  Q3  Q4  Q5  Q6  Q7  Q8  Q9  Q10  Q11  Q12  Q13 
Dean et al. 2011 
Lansdowne e Provost 1998 
Choukri et al. 2018 
Williams et al. 2016 

Y - Yes, N - No, U - Unclear. Q1: Was true randomization used for assignment of participants to treatment groups?; Q2: Was allocation to treatment groups concealed?; Q3: Were treatment groups similar at the baseline?; Q4: Were participants blind to treatment assignment?; Q5: Were those delivering treatment blind to treatment assignment?; Q6: Were outcomes assessors blind to treatment assignment?; Q7: Were treatment groups treated identically other than the intervention of interest?; Q8: Was follow up complete and if not, were differences between groups in terms of their follow up adequately described and analyzed?; Q9: Were participants analyzed in the groups to which they were randomized?; Q10: Were outcomes measured in the same way for treatment groups?; Q11: Were outcomes measured in a reliable way?; Q12: Was appropriate statistical analysis used?; Q13: Was the trial design appropriate, and any deviations from the standard RCT design (individual randomization, parallel groups) accounted for in the conduct and analysis of the trial?

Table 3.

Critical appraisal results for included studies using the Joanna Briggs Institute for verification of cohort studies.

Study  Q1  Q2  Q3  Q4  Q5  Q6  Q7  Q8  Q9  Q10  Q11 
Black et al. 2014 

Y - Yes, N - No, U - Unclear. Q1: Were the two groups similar and recruited from the same population?; Q2: Were the exposures measured similarly to assign people to both exposed and unexposed groups?; Q3: Was the exposure measured in a valid and reliable way?; Q4: Were confounding factors identified?; Q5: Were strategies to deal with confounding factors stated?; Q6: Were the groups/participants free of the outcomes at the start of the study (or at the moment of exposure)?; Q7: Were the outcomes measured in a valid and reliable way?; Q8: Was the follow up time reported and sufficient to be long enough for outcomes to occur?; Q9: Was follow up complete, and if not, were the reasons to loss to follow up described and explored?; Q10: Were strategies to address incomplete follow up utilized?; Q11: Was appropriate statistical analysis used?

Table 4.

Critical appraisal results for included studies using the Joanna Briggs Institute for checking case control studies.

Study  Q1  Q2  Q3  Q4  Q5  Q6  Q7  Q8  Q9  Q10 
Hashemi et al. 2017 

Y - Yes, N - No, U - Unclear. Q1: Were the groups comparable other than the presence of disease in cases or the absence of disease in controls?; Q2: Were cases and controls matched appropriately?; Q3: Were the same criteria used for identificatio of cases and controls?; Q4: Was exposure measured in a standard, valid and reliable way?; Q5: Was exposure measured in the same way for cases and controls?; Q6: Were confounding factors identified?; Q7: Were strategies to deal with confounding factors stated?; Q8: Were outcomes assessed in a standard, valid and reliable way for cases and controls?; Q9: Was the exposure period of interest long enough to be meaningful?; Q10: Was appropriate statistical analysis used?

The overall quality of these studies was good, and the vast majority of articles met the requirements proposed by the Joanna Briggs article quality assessment medium.

Data synthesis was based on all included studies. Overcoming the range of study projects, characteristics, and variation in quality, a meta-analysis could not be performed. Instead, a narrative synthesis of the findings was considered the most appropriate way to evaluate and to report evidence.

RESULTS

The research identified 775 records of peer reviews of the literature after removing duplicates. A total of 684 abstracts were selected, of which 28 were considered potentially relevant, as described in the Preferred Reporting Items for Systematic Reviews and Meta-Analyses flowchart (Figure 1). Of these, one full text of the peer-reviewed literature was not available and was not found in any online database, other was excluded after full reading because it was associated with some type of disease, and 11 were excluded after reading the full text because they did not meet the established criteria, such as age of participants. Finally, 15 studies were considered eligible and were included in this review. This systematic review investigated the main psychophysiological aspects involved in the decrease in levels of vitamin D circulating in the human body (Table 5). Among these studies, 10 were cross-sectional (27-36).

Figure 1.

Flowchart of bibliographic research and selection of studies for this systematic review according to PRISMA.

(0.04MB).
Table 5.

Descriptions of the studies included in the systematic review.

Author, year  Type of Study  Sample, age  Objective  Variables analyzed  Measuring instruments  Parameters of vitamin D  Main Results 
01°(Avinun 2020) (27Cross sectional  n=522278 womenAverage age: 20 years.  Investigate the association between polygenic vitamin D scores and neuroticism personality traits.  Personality;General psychological factor;Race/ethnicity;Economic statusBMIVitamin D genotyping  Personality inventory;Mini international; neuropsychiatricScale with stadiometer;Economic questionnaire;Isolation of saliva DNA using DNA self-collection kits.  __  ↑ GWAS-derived polygenic scores of associated vitamin D serum concentrations ↓ neuroticismResults suggest a positive genetic influence on vitamin D, neuroticism, and psychopathology 
02°(Casseb, Ambrosio et al. 2019) (28Cross sectional  n=3627 women09 menAge: 36-46 years  Investigate the relationship between vitamin D levels, biochemical profile, and symptoms of depression and anxiety in healthy individuals.  Symptoms of depressionAnxietySerum level of 25-hydroxyvitamin D, insulin, cortisol, CRP, blood count, glucose, lipid profileSociodemographic statusBody composition (visceral fat, lean mass, and waist ratio)  Beck (BDI)IDATEBiochemical blood analysisChemiluminescence immunoassays (cortisol and insulin)Bristol scale (bowel habit and type of stool)CRP and CBCHexokinase (glucose)Enzymatic methods (lipid profile): To check vitamin D, the ELISA kit was used.  Insufficient: <40 ng/mLSuitable: ≥40 ng/mL  ↓ 25 (OH) D3 levels associated with detrimental effects on the biochemical profile, including ↑ glucose levels, triglycerides, and triglyceride/HDL ratioN/S association with symptoms of depression or anxiety 
03°(Pooyan 2018) (29Cross sectional  n=265139 women126 menAge: 18-55 years  Examine the effects of polymorphisms on the GC gene, which encodes VDBP  Anthropometry Body composition Dietary intakeSymptoms of depression, Blood pressure Glucose levels, total cholesterol LDL, and HDL serum 25-hydroxyvitamin D level  Depression AnxietyStress ScalesAutomatic pressure monitorSemiquantitative food frequency questionnaireSegmental body composition analyzerScale and tape measureKits for biochemical measurements by radioimmunoassay method  __  This study demonstrated that an HP/LF diet can interact with the VDBP genotype to moderate the risk of depression 
04°(Kim 2016) (30Cross sectional  n=14,104Age: 20-49 years  Examine the correlation between vitamin D level and HRQoL in adults  Serum level of 25-hydroxyvitamin DHealth-related quality of lifeSociodemographic variables  HRQOL survey (assesses quality of life, including depression and anxiety)Kits for vitamin D (radioimmunoassay),Maslach Burnout InventoryKarasek's work content questionnaireSelf-administered questionnaire, derived from the Sleep Disorders QuestionnaireHospital Anxiety and Depression Scale (HADS)  __  Vitamin D level was not significantly associated with EuroQol-5 dimensions, except for depression and anxiety problems 
05°(Bicikova, Duskova et al. (2015) (31Cross sectional  n=12664 women62 menAge: 29.8- 33.7 years  Investigate association of vitamin D levels in depression, anxiety, and control groups  Depression and anxiety  Neuropsychiatric Interview (MINI Sheehan et al. 1998)Calcidiol was detected by the ECLIA method  Suitable: 30-40 ng/mL  Significantly lower levels of calcidiol were found in men and women with depression 
06°(Huang, Arnold et al. 2014) (32Cross sectional  n=500Age: >18-<60 years  To assess the associations between vitamin D concentrations in early pregnancy and symptoms of depression and antepartum anxiety and their potential modifiers.  Serum level of 25-hydroxyvitamin D Symptoms of depression and anxiety  Depression, Anxiety and Stress Scales (DASS-21) Patient Health Questionnaire Depression Module (PHQ-9)BMISerum concentrations of 25-hydroxyvitamin D (25 [OH] D) were measured using liquid chromatography-mass spectrometry.  Insufficient: ≤32 ng/mLDeficient: ≤20 ng/mL  A decrease of 1 ng/mL in 25 [OH] D was associated with greater anxiety and depression scores Participants with the lowest concentrations of 25 [OH] D (quartile 4: 25 [OH] D <28.9 ng/mL) had 1.11 higher PHQ-9 scores compared with participants with the highest concentrations of 25 [OH] D (quartile 1: 25 [OH] D ≥39.5 ng/mL. 
07°(Black, Jacoby et al. 2014) (37Cohort  n=2,125young adultsAverage age: 20 years  Examine the associations between vitamin D concentrations and depressive symptoms.  Serum level of 25-hydroxyvitamin DSymptoms of depression, stress, and anxiety  Depression, Anxiety and Stress Scales of 21 self-reported items (DASS-21).Isotope dilution liquid chromatography and mass spectrometry, it was used for verification of vitamin D  Sufficient: ≥75 nmol/LInsufficient: 50-74.9 nmol/LDeficient: <50 nmol/L  There was a cross-sectional association between vitamin D concentrations and symptoms of depression, but not anxiety and stress. 
08°(Dean 2011) (38Clinical trial  n=128(more than half women).Age: 18-30 years  Check if vitamin D supplementation influences cognition and emotion compared with placebo.  Working memoryResponse inhibitionCognitive flexibilitySerum level of 25-hydroxyvitamin DPsychotic experiencesDepressive symptomsTraces of anxietyRageAdverse effects  Task N-BackResponse inhibition - stop signal taskCognitive flexibilityThe Peters Delusion Inventory-21 (PDI-21)The white noise taskBeck Depression Inventory (BDI)State-Trait Anxiety Inventory (STAI) Inventário de Expressão de Raiva Traço-Estado (STAXI-2).Emerging symptoms scaleVitamin D capillary whole blood by finger prick by mass spectroscopy.  Ctoff point used for failure: 50 nmol/L  Results: N/S, despite ↑ in vitamin D levels. 
09°(Lansdowne and Provost 1998) (39Clinical trial  n=44 students34 women10 menIdade: 18-43 anos  Investigate whether vitamin D3 improves mood in healthy individuals during winter.  Humor  Programming scale of positive and negative effects (PANAS)  __  Vitamin D3 levels have a positive effect on mood and vary significantly between seasons. Results imply a link between the hormone and seasonal mood swingsSupplementation and testing were carried out in late winter, when natural vitamin D3 levels were probably minimal 
10°(Al-Atram 2020) (33Cross-sectional  n=100 menAge: 19-23 years  To understand the correlation between vitamin D deficiency, incidence of depression and anxiety and its influence on the academic performance of university dental students  Symptoms of depression and anxiety  25 (OH) D assay using Elisa DiaSorin S.p.A (Saluggia, Italy)The anxiety scaleThe Beck Beck Depression Inventory  Insufficiency: 25 (OH) D <20 ng/mL.  Vitamin D deficiency was positively correlated with anxiety symptomsN/S correlation between vitamin D deficiency and depression. 
11°(Altinbas 2019) (34Cross-sectional  n=96 health professionals76 women20 menAge: 38.12±8.52 years  To investigate the impact of vitamin D levels on the severity of anxiety and depression in the operating room and ICU staff.  Symptoms of depression and anxiety  Measurement of vitamin D levels by (Electrochemiluminescence) Hospital Anxiety and Depression Scale (HADS)Sociodemographic data.  Insufficiency: 25 (OH) D3 <20 ng/mL  ↓ vitamin D levels in the operating room and ICU staff had a negative impact on anxiety and depression levels 
12°(Choukri, Conner et al. 2018) (40Clinical trial  n=152 young adult womenAge: 18-40 years.  To test the causal effects of vitamin D3 supplementation on depression in a large non-clinical sample of pre-menopausal women over a 6-month period.  DepressionAnxietyHumor anthropometric data (height and weight)Flourishing (analyzes happiness or well-being)AnthropometryOutdoor timeSkin color  CES-D (symptoms of depression)Online journals of positive and negative moodAnxiety subscale of the Hospital Anxiety and Depression Scale (HADS)Eight-item flowering scalePositive and negative mood (at 0, 2, 4, and 6 months, participants evaluated their daily positive and negative mood on a scale) for vitamin D, the isotope dilution liquid chromatography method was used.  Levels <20 ng/mL have been established for insufficiency.  N/S the effects of a single monthly dose of vitamin D3 supplementation during autumn and winter on depression and other mood outcomes in healthy premenopausal women. 
13°(Williams, Romero et al. 2016) (35Cross Sectional  n=126 pregnant women  Check if lower levels of vitamin D during pregnancy would be associated with higher depression symptom scores during pregnancy and 6-8 weeks after delivery.  DepressionBiomarkers (omega-3 fatty acids, eicosapentaenoic acid (EPA) and serum docosahexaenoic acid (DHA)Serum level of 25-hydroxyvitamin D and omega-3 fatty acids, eicosapentaenoic acid (EPA) and docosahexaenoic acid  Beck Depression InventoryMini International Neuropsychiatric interviewEdinburgh Postnatal Depression Scale (EPDS)25-OH-D radioimmunoassay kit  Sufficiency: >20 ng/mLDeficiency: <20 ng/mL  ↓ Vitamin D levels in early pregnancy are associated with ↑ depressive symptom scores in early and late pregnancy 
14°(Hashemi 2017) (41Case Control  n=45 female non-depressed medical science students with some degrees of stress and anxiety 45 controls without depression, stress, and anxietyAge: 18-32 years  Investigate the relationship between stress and anxiety with vitamin D and serum TAC  Depression and anxiety  Depression, Anxiety and Stress Status Questionnaire (DASS)Beck inventoryEnzyme immunoassay in human serum or plasma by Elisa kit determined vitamin D levelsQuantitative determination of total antioxidant capacity in serum and plasma  Insufficient: 25-74 nM/LSufficient: 75-250 nM/L and Potential intoxication: >250 nM/L  Low levels of vitamin D may be associated with increased stress and anxiety. 
15°(von Kanel, Fardad et al. 2015) (36Cross sectional  n=38070% womenAverage age: 47±12 years  To investigate the relationship between vitamin D status, severity, and dimension of depressive symptoms in hospitalized patients with psychiatric depression  Severity of depression  Hospital Anxiety and Depression Scale(HADS)Beck-II depression inventoryBrief Symptom InventoryVitamin D status (liquid chromatography-mass spectrometry)  Deficiency: <50 nmol/LInsufficiency: 50-75 nmol/LSufficiency: >75 nmol/L  Vitamin D deficiency: ↑ score on the HADS-D scale and on an anhedonia symptom factor. Vitamin D deficiency: ↑score on the BDI-II scale. 

DNA- Deoxyribonucleic acid; Nucleic Acid; GWAS- Genome-wide association study (methodology used to detect associations between genetic variations); BDI- Beck Depression Inventory; N/S- Not significant; GC- The main transport protein responsible for the transfer of calcitriol to the target neurons; VDBP- Vitamin D binding protein; LDL- Low density lipoprotein; HDL- High density lipoprotein; HP- high protein; Low-fat LF; HRQOL- Health-related quality of life; HADS- Hospital Anxiety and Depression Scale; DASS-21- Depression, Anxiety and Stress Scales of 21 self-reported items; PANAS- Scale of programming of positive and negative effects; EPDS-Edinburgh Postnatal Depression Scale; TAC- Total antioxidant capacity.

The search found one cohort study (37), and three studies were clinical trials (38-40). One study was a case control type (41). In general, among the studies included in this review, female individuals were the most studied (35,40,41). In total, 950 women were included in the studies, and only one study conducted the research exclusively with men (33). The studies (30,32,37) did not report the sex of their population. In terms of age, all studies were of adults aged between 18 and under 60 years, according to the eligibility criteria of the study.

Vitamin D levels and the main psychophysiological aspects evaluated

Of the 15 studies included in this review, 13 investigated the association between vitamin D levels and symptoms of anxiety and depression (28-33,34-40). Of these studies, nine were cross-sectional (28-32,33-36). Mood was investigated in two studies (39,40); happiness or well-being were addressed in the study by Choukri et al. (40); anger, cognition, and emotion were psychophysiological aspects in the study by Dean et al. (38); and personality was investigated in the study by Avinun et al. (27).

In studies that examined the association between vitamin D levels and depressive symptoms or depression, as well as traits and/or anxiety, there was no association between low vitamin D levels and symptoms of depression or anxiety (28,38). A study by Pooyan et al. (29) showed that there was food interaction with the VDBP genotype to moderate the risk of depression; studies (30-32,34,36,41) also showed a strong association between the decrease in vitamin D levels and emergence of higher levels of anxiety and depression scores. Black et al. (37) showed a cross-sectional association between vitamin D concentrations and symptoms of depression, but not anxiety and stress. Al-Atram et al. (33) reported that vitamin D deficiency was positively correlated with anxiety symptoms, but no significant correlation (N/S) between vitamin D deficiency and depression. Lansdowne and Provost (39) evaluated vitamin D and mood levels and showed that higher levels of vitamin D3 had positive effects on mood. The study by Choukri et al. (40) analyzed an association between vitamin D deficiency, depression, and mood simultaneously in women and found that the effects of a single monthly dose of vitamin D3 supplementation during autumn and winter on depression and other mood outcomes in premenopausal healthy women were considered non-significant (N/S); the study evaluated pregnant women, and their results showed that low vitamin D levels at the beginning of pregnancy are associated with higher scores of depressive symptoms at the beginning and end of pregnancy (35). In addition to anxiety, Hashemi et al. (41) also observed stress and concluded that low levels of vitamin D may be associated with a higher level of stress and anxiety. Von Känel et al. (36) found that vitamin D deficiency increases the severity of depression, as well as symptoms of anhedonia.

Methods for the evaluation of circulating vitamin D

Although most methods of analysis for the evaluation of vitamin D levels used in the studies are heterogeneous, in some cases, a certain homogeneity was followed as in the studies (28,33,41) that used the enzyme-linked immunosorbent assay (ELISA) method to verify vitamin D levels; the vitamin D levels were analyzed by radioimmunoassay (29,30,35). Studies (36,37,40) used the liquid isotope dilution chromatography method for their analyses, and Black et al. (37), in addition, used liquid isotope dilution and mass spectrometry. Huang et al. (32) used liquid chromatography and mass spectrometry. Dean et al. (38) used mass spectrometry alone. Avinun et al. (27) used saliva DNA isolation using a self-collecting DNA kit. Bičíková et al. (31) performed the electrochemiluminescence immunoassay method, and Altınbaş (34) used the electrochemiluminescence method. However, the study (39) did not report its method of analysis.

Main tools used to perform the evaluation of psychophysiological aspects

The studies (30,34,36,40) used the Hospital Anxiety and Depression Scale (HADS) as a tool for these variables. Beck’s depression inventory was used in six studies (28,33,35,36,38,41), which is a widely-used tool to investigate both anxiety and depression symptoms. The Anxiety and Stress Depression Questionnaire was used in three studies (32,37,41).

Parameters of vitamin D levels

Of the 15 articles chosen, 11 established parameters of vitamin D levels in their studies (28,31-38,40,41) and in four studies (27,29,30,39), these levels have not been determined. Vitamin D levels were considered low or deficient when they corresponded to values less than or equal to 20 ng/mL, as reported in previous studies (32-35,40). Other variations in relation to reference values were reported: a study established a value of less than 40 ng/mL as insufficiency and that of greater than or equal to 40 ng/mL as vitamin D sufficiency (28). Bičíková et al. (31) established levels of 30-40 ng/mL as sufficient or adequate. Dean et al. (38) established insufficiency as a value of less than 50 ng/mL. Choukri et al. (40) established a value of less than 20 ng/mL as insufficiency. Another author, Black et al. (37), established levels for sufficiency as greater than 75 nmol/L, insufficiency as 50-74.9 nmol/L, and deficiency as less than 50 nmol/L. Similarly, Von Känel et al. (36) established values for sufficiency as greater than 75 nmol/L, insufficiency as 50-75 nmol/L, and deficiency as less than 50 nmol/L. These values differ from what has been presented in other studies. Hashemi et al. (41) also considered the levels of intoxication and reported levels of 25-74 ng/mL as insufficient, 75-250 ng/mL levels, and greater than 250 ng/mL as intoxication.

DISCUSSION

Some evidence suggests that the main psychophysiological aspects related to vitamin D levels are symptoms of depression or established depression, followed by traits (obsessive-compulsive and panic disorders) and/or anxiety. These findings were observed in 13 of the 15 studies analyzed in this review. Most of the evidence is from cross-sectional studies, and the results vary considerably depending on the established parameters and tools used to test these variables.

Regarding the association between vitamin D levels and changes in brain function, rodent research has demonstrated the distribution of vitamin D receptors throughout the embryonic brain (proliferation zone), as well as in the neuroepithelium (42). These findings have optimized the relationship between vitamin D and neuromodulation aspects, which are not limited only to the brain in formation, but include the adult brain of humans and comprise several areas, such as the temporal, orbital, cingulate cortex, thalamus, accumbens nuclei, and parts of the terminal stria and amygdala, as well as pyramidal neurons of the CA1 and CA2 hippocampus regions, CA3, and CA4 (8).

Although the mechanisms involved in the pathophysiology of depression are complex and still poorly defined or established (43), the results of this study support research that establishes a relationship between the levels of vitamin D circulating in the body and depressive symptoms, because vitamin D exerts neuroprotective effects by inhibiting inflammatory cytokines, such as interleukin 6 (44). A cohort study conducted in the Netherlands between 2004 and 2007 with a population aged 18-65 years, which differs from the population aged 18-59 years established in this review, aimed to analyze the possible association between vitamin D levels and depressive symptoms; this study indicated that low levels of 25 (OH) D were associated with the presence and severity of depressive disorder, suggesting that hypovitaminosis D may represent an underlying biological vulnerability for the onset of depression. The evaluation method entailed isotope dilution-liquid chromatography of online solid phase extraction-mass spectrometry, a method that was used in some studies of this review. The tool used to assess depression severity was the self-report Inventory of Depressive Symptomatology of 28 items (45). It is noteworthy that none of the studies in this review used this tool; many of our results have also linked the effects of vitamin D to anxiety, as this may precede depression, and both can be caused by stress (46).

A recent study conducted in rats aimed to investigate the possible protective effects of vitamin D on anxiety and depression-like behaviors induced by unpredictable chronic stress and criteria for oxidative damage to brain tissue and neuroinflammation. The results do not differ from those presented in this review, since there was a positive association between vitamin D and neuropsychophysiological aspects, such as depression, anxiety, and stress. The authors also added that pre-treatment with vitamin D improved the performance of rats in the elevated cross maze, open field, and forced swimming test (47). In addition, a clinical trial conducted with older adults found no relationship between increased serum vitamin D levels and improvement of depressive symptoms, despite supplementation with increasing serum concentrations of 25 (OH) D in the intervention group to an average of 85 nmol/L after 6 months, while the placebo group remained stable at an average value of 43 nmol/L. However, the intervention had no significant effect on depressive symptoms in the study by De Koning et al. (48), which may be because of the age of the participants. Although there is no consensus on the positive performance of vitamin D and depression, some authors have found this association.

There is heterogeneity in the main laboratory methods verifying circulating vitamin D levels, as well as in our results. The choice of method is adopted not only in human studies (49) but also in animals. One study used ELISA kits both before and after vitamin D supplementation to conduct research with rats (50). Radioimmunoassays were used in three studies of this review, dating back to the 1990s and specifically used for vitamin D metabolism (51). Today, its use is well established. Studies have used this method for their research, corroborating the results found in this review (52,53). Similar to radioimmunoassays, tests with liquid chromatography were also mentioned in this review and have well-established bases to verify circulating vitamin D (54,55). Tests using mass spectrometry have been presented in recent studies and are used as a method of choice (56).

This review clarifies that the main tool used to verify depressive disorders was the Beck Inventory, which proved to be an effective measure for the identification of depressive symptoms. A study conducted with postpartum women used the Beck Depression Inventory as an observational tool for depressive symptoms (50). In addition to Beck's Inventory, the HADS has been presented as a choice to trace depressive symptoms, used in three studies. Rolf et al. (52) used this method in their study with humans; this was a clinical trial with patients with multiple sclerosis to observe if there was a difference in the scores of depression before and after vitamin D supplementation, and for this, they chose the HADS as a tool (52). The results of this review sought to identify the diversity of psychophysiological aspects involved in vitamin D mechanisms and how vitamin levels can contribute to this heterogeneity.

Although a diversity of studies addressed vitamin D levels, a consensus has not yet been well established. In our results, most studies indicate that a value of greater than 20 ng/mL is adequate to provide certain protection and/or health-related benefits in the populations studied. Most experts agree that 25 (OH) D levels of less than 20 ng/mL is considered vitamin D deficiency, while 25 (OH) D levels of 21-29 ng/mL is considered insufficient. The goal should be to keep the levels in children and adults at a level of greater than 30 ng/mL to maximize the health benefits offered by vitamin D (57-60). Although some authors agree with these vitamin D levels, there is still a controversy because of the lack of consensus on the ideal range for serum 25 (OH) D (61,62).

Taken together, most experts agree that vitamin D deficiency can be defined as a 25 (OH) D level of less than 20 ng/mL, which is in agreement with the results of this review, since the severity of depressive symptoms and/or anxiety were found in patients with vitamin D levels lower than 20 ng/mL.

CONCLUSION

This study reported some evidence regarding the main variables related to vitamin D levels and psychophysiological aspects involving the young population, highlighting the depression and/or symptoms, as well as anxiety and/or traits, followed by variation of mood status. In our research, it became clear that Beck's Depression Inventory is the most commonly used tool for investigating symptoms and depression. There is strong evidence that the increase in circulating vitamin D levels in the body plays an important role in the psychophysiophagic health of young individuals. Even lower levels of 20 ng/mL confer a greater possibility of developing psychophysiological disorders, and these higher levels are related to lower risk and/or improvement of these dysfunctions.

AUTHOR CONTRIBUTIONS

Silva MRM conceived the review and selected titles and abstracts. Barros WMA reviewed the manuscript. Silva ML selected title and abstracts. Silva JML, Souza APS, Silva ABJ and Fernandes MSS supported the study planning. Souza SL and Souza VON guided data collection and study planning.

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No potential conflict of interest was reported.

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