key: cord-0966272-3crm62wd
authors: Sari, Dina Keumala; Sari, Liza Meutia; Laksmi, Lidya Imelda; Farhat,
title: The Moderate Correlation Between 25(OH)D Serum and Saliva in Healthy People with Low Vitamin D Intake
date: 2021-03-11
journal: Int J Gen Med
DOI: 10.2147/ijgm.s302912
sha: ada51074a4d79e46975bbb6fe7cbe71ecd4973c8
doc_id: 966272
cord_uid: 3crm62wd

PURPOSE: The routine examination of vitamin D levels is carried out by checking serum 25(OH)D levels, while serum 1.25(OH)D levels are less frequently utilized. The proposition that testing for salivary vitamin D can show a correlation with serum levels in healthy people is questionable, especially with low vitamin D intake. This study aimed to find the correlation between vitamin D levels, which were assessed as 25(OH)D and 1.25(OH)D in saliva, and serum 25(OH)D and 1.25(OH)D levels in people with low vitamin D intake. PATIENTS AND METHODS: This study is a cross-sectional study involving healthy men and women, aged 18–60 years, carried out from August to November, 2020, in North Sumatra Province, Indonesia. The parameters studied were the 25(OH)D and 1.25(OH)D levels in saliva and serum, and vitamin D intake. The statistical analysis used was the Spearman correlation test, performed to determine the correlation between each parameter. RESULTS: This study involved 56 study subjects, who were rural adults (male or female) with a 78.6% deficiency in 25(OH)D found by examining saliva, and a 76.8% deficiency found by examining the serum. All of the subjects were categorized as having low vitamin D intake (less than 15 micrograms per day). The analysis showed a moderate correlation between levels of saliva 25(OH)D and serum 25(OH)D (p = 0.424), and a weak correlation between levels of saliva 1.25(OH)D and serum 25(OH)D (p = 0.339). CONCLUSION: In people with low vitamin D intake, there was a moderate correlation between serum 25(OH)D and saliva, but a weak correlation was found in the 1.25(OH)D assay. The use of saliva 25(OH)D levels to detect 25(OH)D in the circulation is a possible non-invasive alternative to serum testing.

Vitamin D deficiency occurs in various parts of the world, including in the tropics, and it occurs in both healthy and sick people. 1, 2 Vitamin D deficiency is often found in people with a low intake of food sources of vitamin D. 3, 4 Vitamin D is found at higher levels in fish oil and sun exposure, but not all people can consume fish oil easily, or are exposed to sunlight, considering lifestyle factors. 5, 6 The difficulty involved in getting fish oil or vitamin D supplements is a challenge in preventing vitamin D deficiency. 5, 7, 8 The examination of serum 25(OH)D levels is necessary for determining the level of vitamin D in circulation and in its active form, namely, serum 1.25(OH)D. 9 However, this examination often causes discomfort in the patient, so an easier examination is needed that does not cause pain. Saliva contains various types of biological compounds, including vitamins and enzymes, so it is hoped that saliva can become a biological specimen that describes health status. 10, 11 Saliva screening is considered a non-invasive test, and little encouragement and direction is required to produce a suitable specimen. 10 Several of the vitamins and enzymes that describe health status and that are contained in saliva include vitamin D, vitamin A, vitamin C, vitamin B6, vitamin B12, and enzymes that describe oxidative stress, such as malondialdehyde, amylase and proteomes. 10, [12] [13] [14] This examination of vitamin D is necessary due to the role of vitamin D, which can increase body immunity through its role as an endocrine. [15] [16] [17] [18] It also acts as an antiinflammatory and has a regulatory effect on the immune system. The effects of vitamin D therapy can be felt in various metabolic diseases, and in cancer. 18, 19 The examination of vitamin D levels in the form of 25(OH)D and 1.25(OH)D in saliva has not been used often for diagnostic purposes, because these levels may not show the actual levels in the body, or reflect specific conditions such as low vitamin D level or chronic diseases. 11, 20 Saliva examination is more applicable in hormonal, immunological, and infection tests, but it is rarely used. 11, 21, 22 In addition, saliva examination may reveal many other contamination factors, so its use in diagnostic tests is often neglected. 22 However, if done according to the correct procedure, the risk of contamination can be removed, but whether there is a correlation between saliva and serum vitamin D levels in adults with low vitamin D intake remains questionable. Adults in rural areas offer an example of homogeneity in food intake, compared to those in urban areas with heterogeneity in their food intake.

Previous studies have shown a correlation between saliva and serum; however, these studies only examined the correlation between serum 25(OH)D levels and the saliva levels in healthy controls. The studies did not examine serum 1.25(OH)D levels, which represent the active form of vitamin D. 11 Research on vitamin D, especially on those with vitamin D deficiency due to insufficient intake of food sources of vitamin D, has not been reported. Moreover, vitamin D deficiency, or subclinical symptoms, are likely to be important etiological factors in the pathogenesis of many chronic disease, but this deficiency condition is often ignored. 23 Based on the results of the above research, we conducted a study on the correlation between levels of 25 (OH)D and 1.25(OH)D in the saliva and serum. The goal was to find the correlation between these two parameters in rural adults with low vitamin D intake; besides this, another intention was to find an alternative to serum testing, which is invasive and causes discomfort to the patient. It is hoped that with the findings of this research, saliva examination could replace serum testing.

This study was conducted according to the guidelines laid down in the Declaration of Helsinki, and all procedures involving research study participants were approved by Clinical Trials.gov (number: NCT04655664; date of document: November 18th, 2020). This research was also approved by the Universitas Sumatera Utara Ethical Committee, No. 63/KEP/USU/2020. All participants knowingly consented to participate in this study. The subjects of this study gave signed informed consent prior to being included. Written and verbal informed consent was obtained from all subjects. Verbal consent was witnessed and formally recorded in a statement sheet after explanation. During the study, no therapy or intervention was carried out, and the research subjects were not charged any fees for the laboratory examination.

This study was conducted in Batubara District, Simalungun Regency, North Sumatra, Sumatra Island, Indonesia, from August to November 2020. During the data collection period, strict health protocols were also observed because of the COVID-19 pandemic. This area is about 153 kilometers from the city center of Medan City, near rubber and oil palm plantations, and the hope was that the research subjects would be healthier because of their high activity levels. Adults in rural areas have homogeneity in their food intake compared to those in cities, whose intakes are more heterogeneous, so food intake in rural areas can offer a more detailed representation of vitamin D intake.

This study included 56 study subjects. The inclusion criteria were men and women aged 18-60 years, not currently experiencing chronic pain, kidney problems, liver problems or other hormone disorders. The exclusion criteria were study subjects who consumed vitamin D supplements regularly, or were pregnant or breastfeeding. 

The assessment of food intake was carried out using interview techniques. The questions in the nutritional intake interview related to the diversity of food consumed, the quantity consumed, and the choice of food to be consumed, using a 24-hour food recall approach for two days. The questions included concerned such issues as time of eating, type of food, types of basic food ingredients, and the quantity of food ingredients in the household consumed by the subject at one time. Calculations were conducted using the Nutrisurvey application (2005), which included Indonesian foods. 24 The assessment of nutrient intake was based on food recall over two days (one weekday and one weekend day), including energy, protein intake, fat intake, carbohydrate intake, and percentage of fulfilment, according to the Indonesian recommended dietary allowances (RDA), 2019.

The following categorizations were determined: for calorie intake, <2500 calories per day was low and ≥2500 calories per day was normal; for protein intake, <60 g per day was low and ≥60 g per day was normal; for carbohydrate intake, <400 g per day was low and ≥400 g per day was normal; for fat intake, <65 g per day was low and ≥65 gr per day was normal; for fiber intake, <25 g per day was low and ≥25 g per day was normal. 25 

The tests carried out examined 25(OH)D and 1.25(OH)D levels in serum and saliva, in relation to demographic data and other anthropometries. The examination was carried out by taking 5 mL of blood and 2 mL of saliva, and then checking the serum and saliva levels of 25(OH)D and 1.25 (OH)D.

In the collection of serum, after blood was drawn by taking 2 mL of blood into a clean and dry tube without coagulant, let it stand for 15 minutes. Centrifugation is carried out at 3000 rpm for 10 minutes and the specimen is immediately stored at -20 o C for further determination of the levels of serum 25(OH)D and 1.25(OH). The transport time to the laboratory is two hours along with saliva specimen.

The collection of saliva was carried out in the morning (09.00-11.00 AM) using the spitting method, and was unstimulated. The research subjects were asked not to consume food or drink for at least 90 minutes before being examined. This method includes several stages: The subject is asked not to eat or drink for approximately one hour before saliva is taken. The subject is asked to sit comfortably for five minutes, then clean their mouth with a distilled water solution. Then, the subject is asked to swallow the saliva in their oral cavity so measuring can commence. After that, their head is lowered and moved as little as possible (talking is restricted). The subject is not allowed to swallow their saliva during the measurement process. The subject is asked to collect saliva in their oral cavity with lips closed and eyes open for one minute, then spit it into a container. The collection is undertaken over five minutes, and then the data are entered into the data table. Centrifugation is carried out (2500 rpm for 10 minutes), and the specimen is immediately stored at -20 o C. The transport time to the laboratory is two hours.

The serum and salivary 25(OH)D levels are defined as deficient if below 10 ng/mL, insufficient if between 11 and 20 ng/mL, and optimal if ≥20 ng/mL. The 1.25(OH)D serum and saliva levels are deemed deficient if ≤48 pmol/L and normal if >48 pmol/L. 26, 27 The examination of 25(OH)D and 1.25(OH)D serum and saliva levels was carried out using the Bio-Rad Enzyme-Linked Immunosorbent Assay (ELISA) technology tool, California, United States of America, with the ELISA kit, Brand Bioassay, Bioassay Technology Laboratory, Shanghai, China.

The study sample sizes were chosen with the aim of demonstrating a correlation between 1.25(OH)D saliva and 1.25(OH)D serum levels, and the correlation between 25(OH)D saliva and 25(OH)D serum levels. To determine the minimum sample size in the two-tailed hypothesis test, this study had a significance level of 0.05 (α-value) and 80% power (β-value). This study calculates both hypotheses and takes the largest sample size.

Descriptive statistics for continuous variables were summarized as means ± standard deviations (SD), and the categorical variables were summarized by proportions. Statistical analysis was performed by presenting the data in the form of standard deviations if the data were normally distributed, but if the data were not normally distributed, then they were presented in the form of minimum, maximum and median. The normally distributed data included levels of 25 The data were not normally distributed, so the Spearman correlation test was used. A weak correlation was determined as 0.2 to <0.4, a moderate correlation was 0.4 to <0.6, and a strong correlation was 0.6 to <0.8.

Based on the demographic data, in the research location, there are more people in their mid-30s to 40s, and women are more likely to work as housewives, while men are the most likely to be self-employed as entrepreneurs (Table 1) . In rural areas, the majority of the population are usually categorized as farmers, but this study shows that most of them are entrepreneurs. This work is likely to facilitate a sedentary lifestyle and limited sun exposure. These jobs are presumably taken because they provide a better income than those of farmers, who are very affected by the climate. This is similar to the lifestyles of housewives who spend most of their time performing activities inside the house, which results in less exposure to sunlight as a source of vitamin D. Education related to knowledge about the importance of vitamin D is assessed via the education level of the research subject, whereby the highest percentage were seniors in high school.

Based on the anthropometric examination, most of the study subjects were categorized as obese; however, based on the criteria for abdominal circumference, a greater percentage of women exhibited central obesity ( Table 2 ). Table 3 shows that the research subjects had a very low intake of energy, carbohydrates and vitamin D; however, from the whole nutritional intake, macro-and micronutrient deficiencies can be seen. Vitamin D can be produced by the body with the help of sun exposure, and it can also be obtained from food and supplements. People who live in rural areas have difficulty obtaining food sources of vitamin D, which can be seen from the nutritional data survey that shows a low intake of food sources of vitamin D. When a person rarely eats these foods or is not exposed to sunlight, they are at risk of developing a vitamin D deficiency. Table 4 shows that the percentage of deficiency was 78.6% when testing with salivary 25(OH)D, and 76.8% when testing with serum 25(OH)D. As for the 1.25(OH)D examination in saliva and serum, 100% of the study subjects were within the normal limits. The results of the study, shown in Table 5 

This study shows that vitamin D deficiencies occur in groups of healthy research subjects, although they do not tend to be accompanied by diseases caused by vitamin D deficiency. 1,3 Vitamin D deficiency symptoms often go unnoticed. In fact, if left untreated, this condition can increase the risk of certain diseases, ranging from bone disorders to infections. 3, 6, 23, [28] [29] [30] Vitamin D can be produced by the body with the help of sun exposure, and can also be obtained from foods, such as fish, fish oil, beef liver, cheese, eggs, mushrooms, and fortified milk with vitamin D. [31] [32] [33] [34] However, a lack of vitamin D intake may affect vitamin D levels. This study reported that most of the study subjects did not consume adequate amounts of Categorized, n (%):

Less than 15 microgram/day 56(100) More than 15 microgram/day -Notes: Numeric data were presented in mean and standard deviation (SD). Categorical data were presented in number of the subject and percentage. food sources of vitamin D. The low intake of vitamin D caused most of the study subjects to experience vitamin D deficiency and/or insufficiency. However, a low intake of vitamin D is not the main cause of vitamin D deficiency, as there are several other factors that can affect it, including obesity. [35] [36] [37] [38] [39] Vitamin D deficiency is an independent risk factor for obesity and abdominal obesity in women. 40, 41 Previous studies have reported that there is a link between obesity and low levels of vitamin D in the body. [42] [43] [44] It is not yet known what the cause of vitamin D deficiency is, that is, whether it is due to insufficient sunlight exposure, low vitamin D intake, or vitamin D receptor gene polymorphism. [45] [46] [47] [48] One probable mechanism of vitamin D deficiency associated with obesity is the decreased bioavailability of vitamin D (cholecalciferol/vitamin D3) from skin and food as it accumulates in adipocytes, and people who are obese will thus be less able to convert vitamin D into the active form. 41, 43, 49, 50 The examination of vitamin D has become routine, and most often uses 25(OH)D serum, which reflects the circulating vitamin D levels, whereas the examination of serum 1.25(OH)D levels represents the active form of vitamin D. 6, 9, 30 Both these examination are often uncomfortable and invasive. Various studies have also been conducted to compare this examination with the examination of other body fluids. 10, 14 In addition to serum examinations, some studies have discussed the diagnosis of vitamin D status using a questionnaire. 4 This suggests that an invasive examination is not required to establish vitamin status, but this study focused only on the elderly. 4 Other studies have shown that serum levels offer more precise results compared to other body fluids. 8, 51, 52 The saliva examination in this study resulted in a higher measured level than the serum examination, which was probably due to the different sensitivities involved detecting 25(OH)D in serum vs. saliva. Saliva examination results are also considered to be heavily influenced by contaminants, so these results cannot be adjusted to the levels in serum. However, this study showed that there was a moderate correlation between saliva and serum levels, especially in terms of 25(OH)D levels, but the correlation was weak in terms of 1.25(OH) D levels. This was probably due to the condition of low vitamin D intake, which is reflected in the high percentage of vitamin D deficiency and insufficiency.

The examination of 1.25(OH)D in saliva exhibited a higher limit compared to in serum, so with a cutoff point of 48 pmol/L, it showed that no study subject had a vitamin D deficiency. All study subjects belonged to the normal group. This result is certainly different from those of other studies, which showed a deficiency via both serum and saliva. 2, 10, 12, 16, 52, 53 This study showed a moderate correlation between saliva and serum as regards 25(OH)D levels, and this moderate correlation shows that saliva assessment can be in place of serum testing, especially in people with a low intake of vitamin D. The examination of 1.25(OH)D showed a weak correlation between the two approaches; this needs further analysis, and indicates that salivary examination cannot reveal the correlation between saliva and serum. The fulfillment of nutritional needs is intrinsic to improving vitamin D status in the body.

The results of this study differ from those of previous studies, which reported significantly lower serum vitamin D levels in patients with recurrent aphthous stomatitis than in healthy people. 11 However, the average levels of vitamin D in all those study subjects were higher than in this study. The very low levels of vitamin D in this study were probably due to an insufficient intake of food sources of vitamin D, instead of chronic disease conditions or an inflammatory reaction, as in previous studies. 11, 54 This study offers different results from those of previous research, especially as regards the results from healthy and sick people who have levels of 25(OH)D in their saliva and serum. 11 In this study examining the group's intake of food sources of vitamin D, this intake was low, and the group also showed moderate levels of 25(OH)D in serum and saliva, and weak levels of 1.25(OH)D in serum and saliva.

This study also has limitations, particularly as regards the interview bias related to the use of the 24-hour food recall method. This can arise in subjects or respondents who did not report the exact food consumed. This interview bias occurs due to respondents' honesty, respondent's memory, and the under-/overestimation of food intake.

This study also does not assess the levels of calcium and parathyroid hormone, which would have allowed a discussion of the relationship between the three nutrients, and this study did not compare vitamin D levels in people experiencing chronic disease or other diseases, which would have shown a more pronounced difference.

The assessment of 25(OH)D saliva levels to detect the 25 (OH)D levels in circulation could be a non-invasive alternative to serum testing, especially in people with low International Journal of General Medicine 2021:14 submit your manuscript | www.dovepress.com DovePress 847 vitamin D intake. There was a moderate correlation between serum 25(OH)D and saliva, but a weak correlation was found in the 1.25(OH)D assay. The examination using saliva as a substitute for serum testing is expected to facilitate the examination of 25(OH)D levels, but is less applicable for testing 1.25(OH)D levels. This study also emphasizes the importance of adequate vitamin D intake in order to keep vitamin levels within the normal limits in the body.

The authors confirm that the data supporting the findings of this study are available within the article.

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14 submit your manuscript | www

The authors would like to thank Dr. Muhammad Nizar and Kepala UPT Puskesmas Lima Puluh for assisting in participant recruitment in Village III, Desa Simpang Dolok, Kecamatan Datuk Lima Puluh, Kabupaten Batubara, North Sumatera, Sumatra Island, Indonesia. We also would like to thank the research volunteers who participated in this study.

All authors made substantial contributions to conception and design, acquisition of data, or analysis and interpretation of data; took part in drafting the article or revising it critically for important intellectual content; agreed to submit to the current journal; gave final approval of the version to be published; and agree to be accountable for all aspects of the work. 

The authors declare that they have no conflicts of interests for this work.

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