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Original Research

Prevalence of vitamin D deficiency during the summer and its relationship with sun exposure and skin phototype in elderly men living in the tropics

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Pages 1347-1351 | Published online: 03 Oct 2013

Abstract

Objective

The aim of the study reported here was to determine the prevalence of vitamin D deficiency among elderly men and its association with sun exposure and skin phototypes.

Subjects and methods

This was an analytical cross-sectional study, which involved 284 men aged 60 years or over, randomly recruited from a basic care unit in the city of Recife (Brazil).

Measurements

Serum levels of 25 hydroxyvitamin D (25(OH)D), sun index, and skin phototypes were evaluated.

Results

The prevalence of vitamin D deficiency was 31.5% and 66.7% when cut points of less than 20 and 30 ng/mL, respectively, were used. Mean serum 25(OH)D was 27.86 ± 13.52 standard deviation (SD) ng/mL. There was no difference (P = 0.113) in 25(OH) D (23.98 ± 14.66 SD vs 29.88 ± 13.78 SD) between individuals in the lowest quartile (Q) of the sun index (Q1: 1.96) compared with those in the highest (Q4: 7.86). When considering a cutoff of 20 ng/mL, the sun index was different in the two groups (P = 0.006), but there was no difference when cutoffs of 25 and 30 ng/mL were used. After adjustment, sun index and body mass index were associated positively and negatively, respectively with serum 25(OH)D independently. Most subjects (66.7%) had Fitzpatrick’s skin phototypes IV, V, and VI. Low calcium intake was observed in 72%. There was no difference in serum 25(OH)D levels between patients with low intake and those with intermediate and high intakes. Only 2.5% were taking a vitamin supplement.

Conclusion

We found a high prevalence of vitamin D deficiency among elderly men despite their high sun exposure during the summer months.

Introduction

The discovery that the majority of body tissues and cells harbor vitamin D receptors and that several possess the enzymatic equipment to convert the primary form in circulation into the active form, has provided new insights into the function of this steroid hormone. There is great interest in the role that vitamin D can play in many chronic diseases, including common cancers, autoimmune, infectious, and cardiovascular.Citation1Citation3

The sources of vitamin D are primarily the cutaneous production and food intake. In Brazil, the dietary source is scant, since foodstuffs such as fatty fish are not available in tropical and subtropical climates. There are no official recommendations in Brazil on the fortification of foods with vitamin D.Citation4

Elderly populations present certain particularities. With aging, solar exposure is generally limited in view of the changes in lifestyle, such as clothing and activities outside the home. Diets may become less varied, with lower vitamin content. However, more important is the lower cutaneous production of vitamin D with aging, due to the atrophic skin alterations with greater availability of the precursor 7-dehydrocholesterol. Among other factors, the production of 1,25-dihydroxyvitamin D3 diminishes as a result of the decrease in kidney function with aging.Citation5Citation7

Several cutoffs related to the blood levels of 25-hydroxyvitamin D (25(OH)D) have been proposed to define deficiency/insufficiency in asymptomatic individuals. This is partially due to the variability of the concentration of vitamin D according to geographic location and the different methodologies employed in the various studies.Citation8,Citation9 In northeast Brazil, Bandeira et al found significant differences in the bone mineral density and in the serum levels of parathyroid hormone, with 25(OH)D values below 25 ng/mL in postmenopausal women.Citation10 Ensrud et al, in a large American cohort, demonstrated that 25(OH)D levels below 20 ng/mL were associated with significant hip bone loss in older men, when compared with higher levels, but this loss was not found in younger.Citation11 Other studies have demonstrated that levels above 32 ng/mL are necessary for an adequate intestinal absorption of calcium.Citation12,Citation13

Although the literature reveals a high prevalence of vitamin D deficiency in the elderly, as far as we are aware, no consistent population studies in the tropics have evaluated its prevalence in elderly men and its relation to sun exposure and skin phototypes.

Methods

Study design and participants

This was an analytical cross-sectional study, which involved 234 men aged over 60 years of age, randomly recruited from a basic care unit in the fifth health district (5th HD) of the city of Recife in the state of Pernambuco, during the Brazilian summer months, from October 2010 to January 2011. The city of Recife is divided into five health districts. The 5th HD was chosen because it caters mostly for the elderly.

The patients eligible for the study were free-living individuals (people who are not living in an aged care institution), able to walk unaided and who had not used drugs such as corticosteroids for prolonged periods (doses ≥2.5 mg of prednisone or equivalent for over 3 months), anticonvulsants, or lithium for 1 year. Subjects with metabolic bone diseases and active neoplasms, except neoplasms of the skin such as basal cell and spino-cellular cancer, were excluded.

The study protocol was approved by the Ethics in Research Committee of the Agamenon Magalhães Hospital.

Definition of the study variables

Demographic and economic data, medications, calcium intake, and vitamin supplements were evaluated by means of a questionnaire. Exposure to the sun was calculated using the sun index (SI; fraction of the area of the body surface exposed multiplied by the number of hours of sun exposure per week).Citation14 Skin phototypes were classified into six types, according to Fitzpatrick’s classification (type I being the lightest and type VI the darkest).Citation15 Daily calcium intake was defined by asking patients to advise their calcium intake from food and supplements and classified as follows: low = intake below two portions (250 mL) per day of milk and/or dairy products and without calcium supplements (<600 mg/day); intermediate = intake of two or more portions without calcium supplementation (600–1,000 mg/day); and high = daily calcium supplementation and the consumption of milk and/or dairy products (>1,000 mg/day).Citation16 When the individual did not have a calcium intake from diary but used supplements, calcium intake was classified according to the calculation of the amount of calcium contained in the supplement. In Brazil, the recommended intake of calcium is 1,000 mg daily. The questionnaire also asked whether the patient was using vitamin supplements containing vitamin D.

Serum 25(OH)D levels were measured by electrochemiluminescent competitive immunoassay using a DiaSorin LIAISON® analyzer (Turin, Italy), with the inter- and intra-assay coefficients of variations of 8%–15% and 8%–13%, respectively and a minimum limit of detection of 2 ng/mL.Citation17 Measurement of 25(OH)D by immunoassay is considered the method of choice for reasons of convenience, speed, turnaround, and cost.Citation17

Statistical analysis

For the description of the prevalence rates, the percentages and respective 95% confidence intervals were recorded using the binomial method. Pearson’s chi-square test and Student’s t-test with equal or unequal variances were used for percentage and mean comparisons.

Adjustments were made by means of multivariate linear regression. The model was performed with step-wise selection of variables, maintaining in the model the variables with a significance of up to 15.0% (P < 0.15). The following independent variables were studied: age, annual income, grouped skin phototypes (Group 1: skin types I–III; Group 2: skin types IV–VI), calcium intake, and body mass index (BMI).

The level of significance applied in the statistical tests was 5%. The statistical significance tests were two sided.

SPSS software (v 15.0; IBM Corp, Armonk, NY, USA) was used for the statistical calculations.

Results

The clinico-epidemiological characteristics of the elderly patients studied are shown in . The mean age was 69.4 ± 6.5 years (mean ± standard deviation [SD]) and the majority (66.7%) had dark skin (type IV, V, or VI of Fitzpatrick’s classification). When comparing prevalence according to skin type (dark vs light) for each serum 25(OH)D cutoff (<20, <25, and <30 ng/mL), we found no significant difference (P = 0.46). Only 2% reported use of vitamin D supplements. Using cutoffs for serum 25(OH)D levels below 20 and 30 ng/mL, the prevalence of vitamin D deficiency was 31.5% and 66.7%, respectively (). Mean serum 25(OH)D was 27.86 ± 13.52 ng/mL (mean ± SD). After stratification according to age group (60–69, 70–79, and ≥80 years), no difference in the prevalence of vitamin D deficiency was found between them.

Table 1 Baseline characteristics of participants (N = 284)

Figure 1 Prevalence of vitamin D deficiency in elderly men according to serum 25 hydroxyvitamin D level.

Abbreviation: CI, confidence interval.
Figure 1 Prevalence of vitamin D deficiency in elderly men according to serum 25 hydroxyvitamin D level.

The mean SI was 5.49 ± 5.05 (mean ± SD). There was a significant difference (P = 0.006) between SI means in the groups with serum 25(OH)D levels below and above 20 ng/mL (4.46 ± 3.69 vs 6.01 ± 5.54). However, for the cutoffs of 25 ng/mL (5.07 ± 4.31 vs 5.95 ± 5.69) and 30 ng/mL (5.22 ± 4.43 vs 6.12 ± 6.14), no significant difference was found. Considering SI values divided into quartiles (Qs), the lowest quartile (Q1) was 1.96 and the highest (Q4) was 7.86. Nonetheless, there was no statistical difference (P = 0.113) in serum 25(OH)D levels between Q1 (23.98 ± 14.66) and Q4 (29.88 ± 13.78), nor in the prevalence of hypovitaminosis D for the 20, 25, and 30 ng/mL cutoffs ().

Figure 2 Serum 25 hydroxyvitamin D (25(OH)D) levels (mean ± standard deviation) according to sun index quartile (Q).

Figure 2 Serum 25 hydroxyvitamin D (25(OH)D) levels (mean ± standard deviation) according to sun index quartile (Q).

A low calcium intake was observed in 72% of the subjects and an annual family income of ≤US$4,200 in 64.5%. There were no statistical differences between the groups with a low calcium intake and those with an intermediate and high intake at the three cutoffs for 25(OH)D, nor were there between the groups with an annual income of <US$4,200 and of >US$4,200. A low level of education, defined as illiteracy or incomplete primary school education, was observed in 82.8% and only seven subjects (2.5%) were using vitamin supplements.

presents the results of the multivariate linear regression analysis to determinate the independent factors associated with vitamin D deficiency. The numerical variables included in the initial model were age, SI, and BMI. The dichotomous variables were income bracket, grouped skin phototype, vitamin D supplement use, calcium supplement use, and calcium intake. The variables remaining in the model were solar index, calcium intake, and BMI. The SI was independently associated with serum 25(OH)D levels.

Table 2 Factors independently associated with 25 hydroxyvitamin D deficiency after linear regression

Discussion

In this study of elderly men living in the tropics, vitamin D deficiency was found to be very common. Approximately one-third of participants presented with levels <20 ng/mL, and the majority – that is, two-thirds – presented with levels <30 ng/mL. Similar results were found in the Osteoporotic Fractures in Men Study (MrOS). In that study, 26% and 72% of the elderly men presented with levels <20 and <30 ng/mL, respectively. Despite the similarity in results, we had expected that the prevalence of deficiency would be much lower in our region, given that the individuals studied live in an area with abundant sunlight and the blood collection was performed in the sunniest months of the summer. Since the MrOS study did not use SI as a clinical parameter, we could not compare this variable in the two studies. A fact that might account for the high prevalence in this region despite the high SI is the increased prevalence of individuals considered to have dark skin according to Fitzpatrick’s classificationCitation15 as well as a high BMI. The MrOS study, after bivariate analysis, demonstrated that black people are independently associated with a high prevalence of vitamin D deficiency, with a 2.4-fold greater risk of deficiency than white people.

Melhus et al, in a cohort study carried out in Sweden with elderly men, demonstrated that the prevalence of vitamin D deficiency, despite limited sun exposure in the winter and high latitude (60°N), was rare for the 16 ng/mL cutoff.Citation18 The mean serum 25(OH)D level was 27.5 ng/mL, which is similar to that of our patients (27.9 ng/mL). These data show that sun exposure in itself is not the preponderant factor in the prevention of 25(OH)D deficiency.

In relation to sun exposure, it may be observed that in the population with greatest SI (Q4), when compared with the least exposed group (Q1), no significant differences in mean serum 25(OH)D levels for the three cutoffs studied were observed, which suggests that the sun has little effect in preventing vitamin D deficiency in this population. In addition, the mean serum 25(OH)D in Q4 was 29.8 ng/mL, demonstrating that, despite maximum sun exposure, mean 25(OH)D levels remained below 30 ng/mL. Binkley et alCitation19 demonstrated a prevalence of 25(OH)D deficiency of 51%, using the 30 ng/mL cutoff, in a population of young surfers (mean age 24 years) in Hawaii (20°N) with a mean SI of 11.1 ± 0.7. Similarly, low serum 25(OH)D levels were observed in workers with a mean SI 11.5Citation14 and in two of 18 Puerto Rican farmers with a weekly sun exposure of 32–70 hours.Citation20

In our study, the prevalence of dark-skinned patients (types IV, V, and VI) was 66.9%. When comparing prevalence according to skin type (dark vs light) for each serum 25(OH) D cutoff, we found no significant difference (P = 0.46). Harris et al found a significant difference between black and white people with regard to the prevalence of low 25(OH)D concentration.Citation16 While 28% of elderly white men presented levels below the 20 ng/mL cutoff, the corresponding figure for elderly black men was 73.1% (P < 0.001).Citation15 These data are in agreement with Loomis’ observation that black people produce less vitamin D than white people at normal levels of sun exposure.Citation21 The majority of the individuals in our study (45.7%) had a skin color classified as intermediate (type III and IV). The number of individuals classified in the extremes for skin color was very low (four whites and 33 blacks), making comparative analysis misleading.

In our study, 72% had a low calcium intake and only 2.5% (n = 7) used vitamin supplements. It should be emphasized that the number of food items enriched with vitamin D is low in Brazil. These numbers differ considerably from those of North America, where 24% of black and 44% of white elderly men and women studied were on vitamin D supplements.Citation22 In this regard, Forrest and Stuhldreher demonstrated a high prevalence of vitamin D deficiency among a group of Americans, particularly in those who were black, obese, and illiterate and in those with a low milk intake (P < 0.05).Citation23

As this study was not a population-based study, the results cannot be translated to the general population.

Conclusion

We found a high prevalence of vitamin D deficiency in elderly men living in the tropics, despite their high exposure to the sun in the summer months.

Disclosure

The authors declare no conflicts of interest in this work.

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