Vitamin D Knowledge and Awareness Is Associated with Physical Activity among Adults: A Cross-Sectional Survey
by
, , ,
Nasser M. Al-Daghri
1,*
,
Hanan A. Alfawaz
1,2
,
Nasiruddin Khan
3
,
Gamal M. Saadawy
1 and
Shaun Sabico
1 1
Biochemistry Department, King Saud University, Riyadh 11451, Saudi Arabia
2
Department of Food Science & Nutrition, College of Food & Agriculture Science, King Saud University, Riyadh 11495, Saudi Arabia
3
Department of Food Science and Human Nutrition, College of Applied and Health Sciences, A’Sharqiyah University, Ibra 400, Oman
*
Author to whom correspondence should be addressed.
Int. J. Environ. Res. Public Health 2023, 20(2), 1601; https://doi.org/10.3390/ijerph20021601
Submission received: 27 November 2022
/
Revised: 10 January 2023
/
Accepted: 14 January 2023
/
Published: 16 January 2023
(This article belongs to the Collection Health Behaviors, Risk Factors, NCDs and Health Promotion)
Abstract
:The relation between knowledge and awareness of vitamin D (VD) and physical activity in adults has not been well studied. The present cross-sectional study aims to demonstrate this relation among adults living in Saudi Arabia. A total of 774 adults participated and were stratified based on self-reports of whether they were physically active (PA group, N = 562) or not (non-PA, N = 212). The prevalence of VD awareness and its health effects were significantly higher in the PA group compared with their counterparts (97 vs. 93.4%; p = 0.02 and 92.3 vs. 81.6%; p < 0.001, respectively). Sunlight was the preferred overall source of VD among the PA group (91.1%) followed by food, supplements, and fortified foods. Sardine, salmon, oily fish (63.7%) and eggs (54.6%) were reported as good dietary sources. Other positive attitudes, represented by taking supplement or multivitamins (51.2%), high sun exposure (33.1%), and daily duration of exposure to sunlight (15–30 min; 53.4%) were higher in the PA than the non-PA group (p values < 0.05). The body parts exposed to the sun among the PA group were arms (67.1%), hands (64.1%), face and hands (62.5%), legs (58.5%), and face (53.2%), while sunscreen cream (47.2%) was their preferred sun-protection method. High levels of knowledge and positive attitudes were reported by the PA group compared with the non-PA group in regard to walking outdoors for sun exposure (80.6 vs. 62.7%; p < 0.001). Information about good dietary sources, the role of VD in human health, associated diseases, positive attitudes to sun exposure, and the use of supplements or multivitamins were among the determinants of VD knowledge and awareness. In conclusion, VD knowledge and awareness are positively associated with self-reported physical activity in adults. Further objective classifications of PA may strengthen the results of the present investigation.
1. Introduction
The prevalence of vitamin D (VD) deficiency is increasing worldwide and is reported to range from 20–90% in the Middle East, USA, and Europe [1,2]. A recent study conducted among South Asian countries (Bangladesh, India, Pakistan, Nepal, Bhutan, Maldives, Sri Lanka, and Afghanistan) reported a high prevalence of VD deficiency in the adult population [3]. Despite the plentiful sunshine, the situation is similar in Saudi Arabia with a high prevalence of VD deficiency among all ages and genders [4] Although a recent report from Saudi Arabia suggested improved serum levels of 25 (OH)D in the general population over time (2008–2017) [5], current evidence has also implicated VD deficiency in various disorders not previously documented in the country, including osteomalacia and different levels of intelligence in adolescents [6,7], as well as sarcopenia and premature biological aging in adults [8,9]. Such observations further fuel the need to avoid complacency when disseminating VD knowledge to the general community.
Insufficient dietary intake including fish, milk products, and fortified foods, along with limited exposure to or avoidance of sunlight, traditional clothing, indoor activities, obesity, and unhealthy lifestyles are some of the common risk factors associated with VD deficiency in the Saudi population [10]. VD deficiency has been found to be related to increased risk of chronic non-skeletal diseases, including several communicable and non-communicable diseases such as diabetes, CVD, arthritis, breast cancer, and colon cancer [11,12]. In addition, VD is associated with homeostasis, and helps regulate the immune and endocrine systems [13].
Low levels of knowledge about VD and low supplement intake were reported to be causal factors for the high prevalence of VD deficiency among Saudi adults with pre-existing conditions and low PA [14,15]. In a recent study from UAE, higher overall VD knowledge was observed among adult Emiratis, but lower or medium levels of knowledge related to PA and awareness of VD supplements [16]. Similarly, a web-based Jordanian study reported lower levels of knowledge and practices regarding VD among university students [17]. In Malaysia, female office workers were observed to have a good VD knowledge (45%) but moderate attitude (76%) and practice (84%) in relation to sunlight exposure and dietary VD intake [18].
It is well established that regular outdoor PA [20–30 min] may help increase VD levels by as much as two to three times during the summer [19]. PA has been shown to affect hormonal changes which in turn can lead to changes in VD level [20]. Moreover, the level of VD increases during indoor muscle-building exercise because VD can be stored in muscles [21]. There is limited knowledge about VD and muscle function in the Saudi adult population. Adult Saudi females exhibited improved muscle strength after consuming oral VD supplementation [22] and similar results were obtained among the Asian Indian population [23].
Recent studies from different parts of Saudi Arabia have assessed awareness and knowledge about VD in relation to various lifestyle behaviors and risk factors among adult males and females [24,25,26,27]. However, none of these studies focused on whether VD awareness and knowledge could reflect an attitude towards PA, or provided any information in this context. Therefore, to fill this gap, the present cross-sectional study aims to determine the relation between VD knowledge, awareness, and PA among adults living in Saudi Arabia.
2. Materials and Methods
2.1. Study Design and Participants
The present cross-sectional study was conducted from 20 October to 8 December 2021. The survey aimed to investigate the knowledge, behaviors, and attitudes relating to VD and sun exposure among adult males and females (aged 18 years and above) living in Saudi Arabia. A consent form was completed by each participant prior to inclusion. A total of 774 individuals participated. Sample size was determined using the estimated population size (20,000 adults), accepted margin of error = 3.45%, level of confidence = 95%, and response distribution rate = 50%. The actual sample size = 774 was obtained using a Raisoft ® sample-size calculator. This study was granted ethical approval in March 2018 from the Ethics Committee of the College of Science, Ref No: KSU-HE-21-379, King Saud University, Riyadh, Saudi Arabia.
2.2. Questionnaire
A pilot test (N = 100 participants) was performed to ascertain the validity and reliability of the online survey questions included in the questionnaire. Appropriate changes were applied, based on feedback. The Cronbach’s coefficient reliability test range yielded 0.70–0.95 for each component of the questionnaire, with a Cronbach’s alpha of 0.90. No significant difference was observed in the reliability coefficient between males and females. The questionnaire included 24 questions, with both close-ended and multiple-choice options pertaining to VD knowledge, behaviors, attitudes, and sun exposure. For participants’ clarity and understanding, the cover letter was made available both in Arabic and English languages. The final version of the questionnaire was distributed through social media platforms (WhatsApp groups and Twitter accounts). One response per ID was permitted, to ensure no duplication of data. The questionnaire consisted of three parts, the first including baseline demographic data, social data (residence, marital status, education, family income, and smoking history), and anthropometric measurements (age and BMI). In the second part, questions included medical history and health data (if you may have VD deficiency will you take a test, taking VD supplements, VD supplement dose, motivation to take VD supplements. The final part consisted of questions regarding awareness and attitudes: VD sources, the role of VD in the body, sunlight exposure, use of sun blocker, length of day, season affecting VD synthesis).
2.3. Statistical Analysis
Data were analyzed using SPSS (version 22, IBM, Chicago, IL, USA). Continuous data are presented as mean ± standard deviation (SD) and categorical data as frequencies and percentages (%). All continuous variables were checked for normality using the Kolmogorov–Smirnov test, and independent T testing was performed between the PA status groups for age and BMI. VD knowledge, behavior, and attitude were analyzed on the basis of physical activity status using Chi-square and Fisher exact tests. Multinomial logistic regression was performed for odds ratio to physical activities status, for the VD knowledge categories of main source, dietary source and associated diseases. A p value < 0.05 was considered statistically significant.
3. Results
The demographic and anthropometric information of the subjects are shown in Table 1. The participants with PA exhibited a significantly lower BMI of 25.2 ± 5.8 kg/m2 (p = 0.002) compared with those without PA. The rest of the variables were not significantly different between groups.
Table 2 shows the prevalence of medical and family histories according to PA status. The prevalence of diabetes mellitus (DM) (60.7 vs. 60.4%), dyslipidemia (23.7 vs. 19.3%), and arthritis (32.1 vs. 28.1%) was slightly high among families of PA vs. the non-PA group while hypertension (HTN) and heart disease were more prevalent among the non-PA group (60 vs. 61.3% and 26.5 vs. 30.2%, respectively).
VD source, attitude, and knowledge related to physical activities are shown in Table 3. The majority of the participants with PA were aware about VD and responded “yes” for questions such as “effect of VD on health is important”, to a greater extent than the non-PA group (97 vs. 93.4% and 92.3 vs. 81.6%, respectively). Around 91.1% of PA respondents reported sunlight as an overall source of VD, followed by food, supplements, and fortified foods (83.5, 81.7, and 61.6%, respectively). Good dietary sources of VD as reported by the majority of participants with PA were sardine, salmon, oily fish (63.7%), eggs (54.6%), and breast milk (52.5%). Moreover, the majority of the PA group responded positively to questions related to the role of VD including absorption of calcium and phosphorus, developing mineralization, aiding immune system function, and helping to strengthen muscles (60.7, 76.5, 69.6, 72.4%) compared with the non-PA group (55.7, 71.7, 57.1, and 55.2%, respectively).
A higher proportion (89%) of the PA group believed that “indoor working people were at high risk of VD deficiency” compared with the non-PA group (80.7%). Around 59.4% of the PA group responded yes to undergoing a test for VD, which was higher than the non-PA group (53.8%). About (78.8%) of the PA group were curious and interested to know more about VD. More than half of the PA group (51.2%) reported having used supplements or multivitamins at some point in their lives, with 24.9% (p = 0.029) taking a dose of approximately <1000 IU. When asked about their motivation for starting VD supplements, some (5.3%) stated that friends or family were a source of motivation, while the majority used supplements either due to VD deficiency (54.1%) or after recommendation from a doctor or health care professional (15.8%).
Positive responses to “are you getting enough sun exposure?” were higher in the PA group (33.1%) than the non-PA group (18.4%). Around 53.4% of the PA group participants reported their average length of daily stay in sun as 15–30 min, which was a higher rate than their counterparts (40.6%). When asked “which part of your body is generally exposed to sun?”, various positive responses were frequent in the PA group participants, including arms (67.1%), hands (64.1%), face and hands (62,5%), legs (58.5%), and face (53.2%). Moreover, the percentage of participants who completely covered their bodies was lower in the PA group (31%) than the non-PA group (33%). The responses from participants (PA vs. non-PA group) regarding the use of sun protection in summer and autumn ranged from “always” (22.4, 20.3%) to “never” (24.9, 39.6%, respectively). Among the PA group, around 47.2% used sunscreen cream, with others using hats (12.1%), or umbrellas (10.7%) as primary protection if exposed to the sun.
The majority of the participants in the PA group (80.6%) reported walking outdoors daily to obtain sufficient sun exposure, which was a higher rate than their non-PA counterparts (62.7%). Knowledgeable responses to the statement “season affect the amount of time in the sun required to synthesis adequate VD” was also high in the PA group (75.1%). Similarly, the frequency of positive responses from PA participants were higher (64.9%) when faced with the statements that “taking VD supplements, unless recommended by a physician, is wrong” and that it is “only necessary only in case of lack of exposure to sunlight” (58%), compared with the non-PA group (51.9, 54.7%, respectively). Table 4 represent the logistic regression analysis for PA and its association with other parameters (negative responses provide the reference).
4. Discussion
Knowledge, awareness, and positive attitudes among Saudi adults regarding VD and sun exposure were high, as specifically reflected among participants in the PA group. However, there is an urgent need for more information and awareness about sun exposure and related health effects, including skin care, VD supplements, and multivitamin use among the Saudi adult population. It is well established that physical inactivity is a modifiable risk factor for various diseases [28,29]. Our present study shows high prevalence of family history of disease among both the PA and non-PA group participants.
Involvement in physical activity among the PA group with high prevalence of reported disease conditions in their family history may possibly reveal their precautionary actions, positive attitudes, knowledge, and awareness of PA and its association with various disease conditions. Their involvement in PA reveals their concern and their interest in follow a healthy lifestyle in order to overcome risk factors and avoid such diseases. In contrast, it is quite possible that non-involvement in physical activity could increase the risk factors for acquiring such family diseases among the non-PA group.
4.1. Awareness, Knowledge and Physical Activity among PA and Non-PA Group
In agreement with previous research, our present study demonstrated the frequency of knowledge among PA and non-PA groups regarding the main sources of VD such as “sunlight”. Overall knowledge was approximately equal compared with a previous local study (91.1% vs. 91%) [30] and lower than among British adults (91.1 vs. 99%) [31]. The respective probabilities of “having heard about VD” and agreeing that the “effect of VD on health is important” were 2.3-fold (95% CI: 1.09–4.68) and three-fold (95% CI1.17–7.68) higher in the PA compared with the non-PA group. Comparable with the observations reported by Babelghaith and colleagues [30], a higher proportion of PA group participants compared with non-PA responded correctly to statements about other sources of VD such as supplements (81.7 vs. 73%) and food sources including oily fish (63.7 vs. 45.8%) and egg (54.6 vs. 30.8%, respectively). Participants with PA also had a significantly higher probabilities of positive responses related to “good dietary sources of VD”, such as eggs at a probability of 1.6 (1.1–2.4), vegetables 1.6 (1.1–2.3), red meat 1.6 (1.0–2.5), and liver 1.8 (1.2–2.6), compared with those without PA.
As mentioned above, Malaysian females [18] showed good knowledge but moderate attitudes and practice regarding VD, while Emirati adults exhibited high awareness but low to medium knowledge about PA, calcium, and VD supplements [16]. The present results showed reasonable levels of knowledge about VD and its effect on bone health, main sources of VD such as sunlight, and other sources such as supplements. Our present study supports previous observations [18,32] showing a high prevalence of awareness about VD among all participants.
It is well established that PA is associated with increased VD levels, higher bone mass, and reduced calcium excretion [33,34]. Moreover, in terms of its effect on immunity, VD supplementation is associated with reduced risk of upper respiratory tract infections in populations involved with PA [35], while increased immunity (increased secretory immunoglobulin A) has been demonstrated after VD supplement replacement in athletes [36]. Furthermore, the combined effect of VD supplements with PA helps chronic kidney disease (CKD) patients to improve muscle strength [37]. Other observations have included a positive linear association of PA with 25(OH)D levels in White subjects, with favorable synergistic effects on atherosclerotic cardiovascular disease in White and Black subjects [38], relief of depressive symptoms [39], and overall better quality of life [40].
There have been reports showing limited sun exposure and mixed attitudes towards the use of VD supplements, multivitamins, and fortified foods [41,42]. In fact, Saudi adults showed low levels of knowledge and consumption of multivitamins and VD supplements [14]. Similar to UK results [31], our present study demonstrated positive attitudes among 78% of PA group participants who expressed an urge to know more about VD. Also, a positive attitude was reported in the PA group, revealing that more than half (51.2%) were using either multivitamins or VD supplements and that majority use these as recommended by health professionals.
4.2. Attitudes toward Sun Exposure and VD among PA and Non-PA Groups
Despite sufficient knowledge about sun exposure as a primary source of VD, a negative attitude towards sun exposure has been shown among Saudi females [25]. The high prevalence of VD deficiency in the Saudi Arabian population is due to limited exposure to direct sunlight. The main factors for this behavior include cultural and traditional practices (such as the abaya: a traditional garment that fully covers the skin), hot weather, and dark skin [6,7,14]. Therefore, it is essential that the Saudi citizens and residents rely on other sources of VD, such as food products enriched with VD and VD supplementation. Practices regarding sun exposure and VD that were reported in a Malaysian study included exposure of the face and hands among the majority of females [18]. In the Qassim region, the majority of subjects exposed their faces, arms, or legs to sunlight for <5 min (43.0%), or 5 to 15 min (30.4%). Only 17.2% of the participants used sunscreen when they were exposed to sunlight [27]. Methods employed to minimize sun exposure included covering the face, or the head, and wearing long sleeves (54.7, 41.3, and 46.5%, respectively) [43]. The use of sunscreen was more commonly reported in Arabian females in the general population [44,45], similar to the findings for Canadian females [46].
In relation to UV and health effects, previous Saudi studies have reported awareness among participants of skin cancer, related death, and skin, hence encouraging them to adopt different ways of using primary sun protection and sunscreen [43]. Our study corroborates this finding, showing sufficient positive attitudes towards sun exposure and protection in the PA group. The probability of positive responses in relation to obtaining sufficient sun exposure was twice as high at 2.2 (1.5–3.2) among the PA group compared with their non-PA counterparts, which partially supports Kuwaiti findings that also showed a positive attitude towards sunlight exposure [42]. In addition, the practice of walking outdoors (80.6%) to attain sufficient sun exposure indicates their healthy practices and positive attitudes, revealing their capacity to translate their knowledge about VD into daily lifestyle behaviors. In our present study, individuals with PA were 3.6 times more likely to walk in sunlight than those without PA. This is encouraging, since in Saudi Arabia the fortification of food with VD has not been fully implemented [47], despite national and regional recommendations [48,49].
The authors acknowledge several limitations to the current study. First, the classification of participants into PA and non-PA groups was based only on participant responses (yes or no). This approach is subject to known biases affecting self-reported measures, including social desirability and acquiescence [50], which may also explain why there were more PA participants than non-PA. This, however, was somehow controlled with use participant anonymity. Second, the study had more female than male respondents, which could bias our findings about sun exposure, sunscreen use, and protection against the sun. Moreover, our results might be subject to recall bias due to the online self-reporting method used when collecting questionnaire responses. Further research should investigate the same section of the population, using a more detailed questionnaire including questions about types and dosage of different VD supplements and multivitamins, sunscreen, skin health, and barriers to sun exposure specifically in females.
5. Conclusions
In conclusion, high levels of knowledge and awareness as well as positive attitudes towards VD and sun exposure may reflect involvement in PA as a favorable health behavior among Saudi adults. The determinants of VD knowledge and awareness included knowledge about good dietary sources of VD and diseases associated with VD deficiency, as well as positive attitudes towards VD relating to sun exposure and use of VD supplements and multivitamins, all of which were associated with PA. The presence of low and mixed levels of awareness and knowledge among Saudi adults about the use of sun protection requires the provision of more information via trustworthy sources including health professionals. The present study is a reminder to the Saudi health authorities and other relevant organizations that the majority of the Saudi adult population still needs to be educated about the favorable effects of VD supplementation and the consequences of VD deficiency. For this purpose, the Saudi health authorities must ascertain and encourage the use of VD supplements and multivitamins among all age groups.
Author Contributions
N.M.A.-D. and H.A.A. designed the study. H.A.A., N.K., G.M.S. and S.S. performed the study and analysis. N.K. wrote the manuscript. S.S. and H.A.A. revised the manuscript. N.M.A.-D. supervised the study. All authors have read and agreed to the published version of the manuscript.
Funding
This study was funded by the Researchers Supporting Project (RSP2023R21) in King Saud University, Saudi Arabia.
Institutional Review Board Statement
The study was conducted according to the guidelines of the Declaration of Helsinki, and by the Ethics Committee for Scientific Research and Postgraduate Studies at the College of Science, King Saud University, Saudi Arabia (Ref #KSU-HE-21-379).
Informed Consent Statement
Informed consent was obtained from all participants involved in the study.
Data Availability Statement
The data presented in this study are available on request from the corresponding author. The data are not publicly available due to privacy protection.
Acknowledgments
The authors thank the Researchers Supporting Project (RSP2023R21) in King Saud University, Saudi Arabia for their support. We also thank Malak Nawaz Khan Khattak for the data analysis. We also thank all the study respondents for their participation.
Conflicts of Interest
The authors declare no conflict of interest.
References
- Amrein, K.; Scherkl, M.; Hoffmann, M.; Neuwersch-Sommeregger, S.; Köstenberger, M.; Berisha, A.T.; Martucci, G.; Pilz, S.; Malle, O. Vitamin D deficiency 2.0: An update on the current status worldwide. Eur. J. Clin. Nutr. 2020, 74, 1498–1513. [Google Scholar] [CrossRef]
- Lips, P.; Cashman, K.D.; Lamberg-Allardt, C.; Bischoff-Ferrari, H.A.; Obermayer-Pietsch, B.; Bianchi, M.L.; Stepan, J.; El-Hajj Fuleihan, G.; Bouillon, R. Current vitamin D status in European and Middle East countries and strategies to prevent vitamin D deficiency: A position statement of the European Calcified Tissue Society. Eur. J. Endocrinol. 2019, 180, P23–P54. [Google Scholar] [CrossRef] [Green Version]
- Siddiqee, M.H.; Bhattacharjee, B.; Siddiqi, U.R.; MeshbahurRahman, M. High prevalence of vitamin D deficiency among the South Asian adults: A systematic review and meta-analysis. BMC Public Health 2021, 21, 1823. [Google Scholar] [CrossRef]
- Al-Daghri, N.M. Vitamin D in Saudi Arabia: Prevalence, distribution and disease associations. J. Steroid Biochem. Mol. Biol. 2018, 175, 102–107. [Google Scholar] [CrossRef]
- Al-Daghri, N.M.; Hussain, S.D.; Ansari, M.G.; Khattak, M.N.; Aljohani, N.; Al-Saleh, Y.; Al-Harbi, M.Y.; Sabico, S.; Alokail, M.S. Decreasing prevalence of vitamin D deficiency in the central region of Saudi Arabia (2008–2017). J. Steroid Biochem. Mol. Biol. 2021, 212, 105920. [Google Scholar] [CrossRef]
- Al-Daghri, N.M.; Yakout, S.; Sabico, S.; Wani, K.; Hussain, S.D.; Aljohani, N.; Uday, S.; Högler, W. Establishing the Prevalence of Osteomalacia in Arab Adolescents Using Biochemical Markers of Bone Health. Nutrients 2022, 14, 5354. [Google Scholar] [CrossRef]
- Metwally, A.S.M.; Yakout, S.M.; Khattak, M.N.K.; Alkhaldi, G.; Al-Daghri, N.M. Vitamin D Status and Its Association with Multiple Intelligence among Arab Adolescents. Int. J. Environ. Res. Public Health 2021, 18, 13036. [Google Scholar] [CrossRef]
- Alsaawi, T.A.; Aldisi, D.; Abulmeaty, M.M.A.; Khattak, M.N.K.; Alnaami, A.M.; Sabico, S.; Al-Daghri, N.M. Screening for Sarcopenia among Elderly Arab Females: Influence of Body Composition, Lifestyle, Irisin, and Vitamin D. Nutrients 2022, 14, 1855. [Google Scholar] [CrossRef]
- Al-Daghri, N.M.; Sabico, S.; Ansari, M.G.; Abdi, S.; Tripathi, G.; Chrousos, G.P.; McTernan, P.G. Endotoxemia, vitamin D and premature biological ageing in Arab adults with different metabolic states. Saudi J. Biol. Sci. 2022, 29, 103276. [Google Scholar] [CrossRef]
- AlFaris, N.A.; AlKehayez, N.M.; AlMushawah, F.I.; AlNaeem, A.N.; AlAmri, N.D.; AlMudawah, E.S. Vitamin D Deficiency and Associated Risk Factors in Women from Riyadh, Saudi Arabia. Sci. Rep. 2019, 9, 20371. [Google Scholar] [CrossRef]
- Mostafa, W.Z.; Hegazy, R.A. Vitamin D and the skin: Focus on a complex relationship: A review. J. Adv. Res. 2015, 6, 793–804. [Google Scholar] [CrossRef] [Green Version]
- Holick, M.F. Vitamin D Deficiency. N. Engl. J. Med. 2007, 357, 266–281. [Google Scholar] [CrossRef]
- Bouillon, R.; Carmeliet, G.; Lieben, L.; Watanabe, M.; Perino, A.; Auwerx, J.; Schoonjans, K.; Verstuyf, A. Vitamin D and energy homeostasis—Of mice and men. Nat. Rev. Endocrinol. 2013, 10, 79–87. [Google Scholar] [CrossRef]
- Aljefree, N.M.; Lee, P.; Ahmed, F. Knowledge and attitudes about vitamin D, and behaviors related to vitamin D in adults with and without coronary heart disease in Saudi Arabia. BMC Public Health 2017, 17, 266. [Google Scholar] [CrossRef] [Green Version]
- Anand, S.; Kaysen, G.A.; Chertow, G.M.; Johansen, K.L.; Grimes, B.; Dalrymple, L.S.; Tamura, M.K. Vitamin D deficiency, self-reported physical activity and health-related quality of life: The Comprehensive Dialysis Study. Nephrol. Dial. Transplant. 2011, 26, 3683–3688. [Google Scholar] [CrossRef] [Green Version]
- Saleh, A.; Alhadhrami, J.S.; Al Ramahi, M.S.; Albloushi, H.A.; Hijazi, R.; Abboud, M.; Papandreou, D. Emirati Adults Have a Higher Overall Knowledge on Vitamin D Compared to Tourists. Front. Psychol. 2020, 11, 1022. [Google Scholar] [CrossRef]
- Mohamed, N.; Al-Qerem, W.; Gassar, E.; Hailat, M.; Elhamdy, F.A.M. A need for improvement in the knowledge, attitudes and practice toward Vitamin D among university students. Bahrain Med. Bull. 2020, 43, 482–490. [Google Scholar] [CrossRef]
- Jamil, N.A.; Shahudin, N.N.; Aziz, N.S.A.; Qi, C.J.; Wan Aminuddin, W.; Ludin, A.F.M.; Chin, K.-Y.; Manaf, Z.A.; Daud, N.M. Knowledge, Attitude and Practice Related to Vitamin D and Its Relationship with Vitamin D Status among Malay Female Office Workers. Int. J. Environ. Res. Public Health 2019, 16, 4735. [Google Scholar] [CrossRef] [Green Version]
- Lanteri, P.; Lombardi, G.; Colombini, A.; Banfi, G. Vitamin D in exercise: Physiologic and analytical concerns. Clin. Chim. Acta 2013, 415, 45–53. [Google Scholar] [CrossRef]
- van den Heuvel, E.G.H.M.; van Schoor, N.; De Jongh, R.T.; Visser, M.; Lips, P. Cross-sectional study on different characteristics of physical activity as determinants of vitamin D status; inadequate in half of the population. Eur. J. Clin. Nutr. 2013, 67, 360–365. [Google Scholar] [CrossRef]
- Bell, N.H.; Godsen, R.N.; Henry, D.P.; Shary, J.; Epstein, S. The effects of muscle-building exercise on Vitamin D and mineral metabolism. J. Bone Miner. Res. 2009, 3, 369–374. [Google Scholar] [CrossRef]
- Ewid, M.; AlTelbany, M.; Billah, S.M.B.; Saquib, N.; Helmy, A.; AlJundi, S.; Rajab, T.; Enabi, S.; AlShwaikh, A.; Morhaf, A.; et al. Muscle strength and quality of life improved after vitamin D supplementation among adult Saudi females. Clin. Nutr. Exp. 2019, 26, 34–43. [Google Scholar] [CrossRef] [Green Version]
- Gupta, R.; Sharma, U.; Gupta, N.; Kalaivani, M.; Singh, U.; Guleria, R.; Jagannathan, N.R.; Goswami, R. Effect of cholecalciferol and calcium supplementation on muscle strength and energy metabolism in vitamin D deficient Asian Indians: A randomized controlled trial. Clin. Endocrinol. 2010, 73, 445–451. [Google Scholar] [CrossRef]
- Kaddam, I.M.; Al Shaikh, A.; Abaalkhail, B.A.; Asseri, K.S.; Al-Saleh, Y.M.; Al-Qarni, A.A.; Al-Shuaibi, A.M.; Tamimi, W.G.; Mukhtar, A.M. Prevalence of vitamin D deficiency and its associated factors in three regions of Saudi Arabia. Saudi Med. J. 2017, 38, 381–390. [Google Scholar] [CrossRef]
- Zareef, T.A.; Jackson, R.T. Knowledge and attitudes about vitamin D and sunlight exposure in premenopausal women living in Jeddah, and their relationship with serum vitamin D levels. J. Health Popul. Nutr. 2021, 40, 38. [Google Scholar] [CrossRef]
- Al-Daghri, N.M.; Alfawaz, H.; Khan, N.; Al-Saleh, Y.; Aljohani, N.J.; Aldisi, D.; Alkhaldi, G.; Alqarni, A.M.; Almasoudi, H.O.; Alshehri, L.A.; et al. Association of Vitamin D Knowledge, Behavior and Attitude with BMI Status among Arab Adults. Int. J. Environ. Res. Public Health 2022, 19, 11107. [Google Scholar] [CrossRef]
- Alharbi, A.A.; Alharbi, M.A.; Aljafen, A.S.; Aljuhani, A.M.; Almarshad, A.I.; Alomair, I.A.; Alfalah, M.A. Gender-specific differences in the awareness and intake of Vitamin D among adult population in Qassim Region. J. Fam. Community Med. 2018, 25, 148–154. [Google Scholar] [CrossRef]
- Bouchard, C.; Shephard, R.J. Physical Activity Fitness and Health: The Model and Key Concepts. In Physical Activity Fitness and Health: International Proceedings and Consensus Statement; Bouchard, C., Shephard, R.J., Stephens, T., Eds.; Human Kinetics: Champaign, IL, USA, 1994; pp. 77–88. [Google Scholar]
- U.S. Department of Health and Human Services. Healthy People 2000: National Health Promotion and Disease Prevention Objectives; US Department of Health and Human Services: Washington, DC, USA, 1991. [Google Scholar]
- Babelghaith, S.D.; Wajid, S.; A.Al-Zaaqi, M.; S.Al-Malki, A.; D.Al-Amri, F.; Alfadly, S.; Alghadeer, S.; Al-Arifi, M.N. Knowledge and practice of vitamin D deficiency among people lives in Riyadh, Saudi Arabia-A cross-sectional study. Biomed. Res. 2017, 28, 3114–3118. [Google Scholar]
- O’Connor, C.; Glatt, D.; White, L.; Iniesta, R.R. Knowledge, Attitudes and Perceptions towards Vitamin D in a UK Adult Population: A Cross-Sectional Study. Int. J. Environ. Res. Public Health 2018, 15, 2387. [Google Scholar] [CrossRef] [Green Version]
- Aljefree, N.; Lee, P.; Ahmed, F. Exploring Knowledge and Attitudes about Vitamin D among Adults in Saudi Arabia: A Qualitative Study. Healthcare 2017, 5, 76. [Google Scholar] [CrossRef] [Green Version]
- Fernandes, M.R.; Junior, W.D.R.B. Association between physical activity and vitamin D: A narrative literature review. Rev. Assoc. Med. Bras. 2017, 63, 550–556. [Google Scholar] [CrossRef] [PubMed]
- Specker, B.L. Evidence for an interaction between calcium intake and physical activity on changes in bone mineral density. J. Bone Miner. Res. 1996, 11, 1539–1544. [Google Scholar] [CrossRef]
- Rawson, E.S.; Miles, M.P.; Larson-Meyer, D.E. Dietary Supplements for Health, Adaptation, and Recovery in Athletes. Int. J. Sport Nutr. Exerc. Metab. 2018, 28, 188–199. [Google Scholar] [CrossRef] [PubMed] [Green Version]
- He, C.-S.; Fraser, W.D.; Tang, J.; Brown, K.; Renwick, S.; Rudland-Thomas, J.; Teah, J.; Tanqueray, E.; Gleeson, M. The effect of 14 weeks of vitamin D3 supplementation on antimicrobial peptides and proteins in athletes. J. Sports Sci. 2016, 34, 67–74. [Google Scholar] [CrossRef] [PubMed] [Green Version]
- Ahmed, B.; Nasir, K.; Mehmood, A.; Abid, M.A.; Zehra, N.A.; Khan, A.H.; Hussain, S.A.; Kashif, W.U.; Iqbal, R. Effect of physical activity and vitamin D compared with vitamin D alone on muscle strength, back flexibility and aerobic activity in patients with chronic kidney disease: A comparative study from Pakistan. Asia Pac. J. Clin. Nutr. 2021, 30, 566–572. [Google Scholar] [CrossRef]
- Chin, K.; Zhao, D.; Tibuakuu, M.; Martin, S.S.; Ndumele, C.E.; Florido, R.; Windham, B.G.; Guallar, E.; Lutsey, P.L.; Michos, E. Physical Activity, Vitamin D, and Incident Atherosclerotic Cardiovascular Disease in Whites and Blacks: The ARIC Study. J. Clin. Endocrinol. Metab. 2017, 102, 1227–1236. [Google Scholar] [CrossRef]
- Blumenthal, J.A.; Babyak, M.A.; Doraiswamy, P.M.; Watkins, L.; Hoffman, B.M.; Barbour, K.A.; Herman, S.; Craighead, W.E.; Brosse, A.L.; Waugh, R.; et al. Exercise and Pharmacotherapy in the Treatment of Major Depressive Disorder. Psychosom. Med. 2007, 69, 587–596. [Google Scholar] [CrossRef] [Green Version]
- Raczkiewicz, A.; Kisiel, B.; Kulig, M.; Tłustochowicz, W. Vitamin D Status and Its Association With Quality of Life, Physical Activity, and Disease Activity in Rheumatoid Arthritis Patients. Am. J. Clin. Oncol. 2015, 21, 126–130. [Google Scholar] [CrossRef] [Green Version]
- Kotta, S.; Gadhvi, D.; Jakeways, N.; Saeed, M.; Sohanpal, R.; Hull, S.; Famakin, O.; Martineau, A.; Griffiths, C. “Test me and treat me”—Attitudes to vitamin D deficiency and supplementation: A qualitative study. BMJ Open 2015, 5, e007401. [Google Scholar] [CrossRef] [Green Version]
- Al-Mutairi, N.; Nair, V.; Issa, B.I. Photoprotection and vitamin D status: A study on awareness, knowledge and attitude towards sun protection in general population from Kuwait, and its relation with vitamin D levels. Indian J. Dermatol. Venereol. Leprol. 2012, 78, 342–349. [Google Scholar] [CrossRef]
- Alsudairy, F.K.; Alharbi, T.I.; Qadi, A.B.; Almutairi, S.M.; Asiree, H.H. Awareness of Sun Exposure and use of sunscreen among adults in Saudi Arabia, 2018. Int. J. Med. Dev. Ctries. 2019, 3, 389–394. [Google Scholar] [CrossRef]
- Almuqati, R.R.; Alamri, A.S.; Almuqati, N.R. Knowledge, attitude, and practices toward sun exposure and use of sun protection among non-medical, female, university students in Saudi Arabia: A cross-sectional study. Int. J. Women’s Dermatol. 2019, 5, 105–109. [Google Scholar] [CrossRef] [PubMed]
- Sultana, N. Sun Awareness and Sun Protection Practices. Clin. Cosmet. Investig. Dermatol. 2020, 13, 717–730. [Google Scholar] [CrossRef] [PubMed]
- Pinault, L.; Fioletov, V. Sun exposure, sun protection and sunburn among Canadian adults. Health Rep. 2017, 28, 12–19. [Google Scholar]
- Sadat-Ali, M.; Al Elq, A.; Al-Farhan, M.; A Sadat, N. Fortification with vitamin D: Comparative study in the Saudi Arabian and US markets. J. Fam. Community Med. 2013, 20, 49–52. [Google Scholar] [CrossRef] [Green Version]
- Al-Daghri, N.M.; Al-Saleh, Y.; Aljohani, N.; Sulimani, R.; Al-Othman, A.M.; Alfawaz, H.; Fouda, M.; Al-Amri, F.; Shahrani, A.; Alharbi, M.; et al. Vitamin D status correction in Saudi Arabia: An experts’ consensus under the auspices of the European Society for Clinical and Economic Aspects of Osteoporosis, Osteoarthritis, and Musculoskeletal Diseases (ESCEO). Arch. Osteoporos. 2016, 12, 1. [Google Scholar] [CrossRef] [Green Version]
- Al Saleh, Y.; Beshyah, S.A.; Hussein, W.; Almadani, A.; Hassoun, A.; Al Mamari, A.; Ba-Essa, E.; Al-Dhafiri, E.; Hassanein, M.; Fouda, M.A.; et al. Diagnosis and management of vitamin D deficiency in the Gulf Cooperative Council (GCC) countries: An expert consensus summary statement from the GCC vitamin D advisory board. Arch. Osteoporos. 2020, 15, 35. [Google Scholar] [CrossRef]
- Kreitchmann, R.S.; Abad, F.J.; Ponsoda, V.; Nieto, M.D.; Morillo, D. Controlling for Response Biases in Self-Report Scales: Forced-Choice vs. Psychometric Modeling of Likert Items. Front. Psychol. 2019, 10, 2309. [Google Scholar] [CrossRef]
Table 1.
Demographic and anthropometric information of the subjects.
| Parameters | Physical Activities | p Value | |
|---|---|---|---|
| Yes | No | ||
| Sex (M/F) | 562 (180/382) | 212 (59/153) | |
| Age | 30.7 ± 12.6 | 31.0 ± 12.1 | 0.77 |
| BMI (kg/m2) | 25.2 ± 5.8 | 26.7 ± 6.6 | 0.002 |
| Residence Status | |||
| City | 524 (93.2) | 197 (92.9) | 0.49 |
| Village | 38 (6.8) | 15 (7.1) | |
| Marital Status | |||
| Single | 276 (49.1) | 105 (49.5) | |
| Married | 259 (46.1) | 93 (43.9) | 0.62 |
| Widowed | 13 (2.3) | 5 (2.4) | |
| Divorced | 14 (2.5) | 9 (4.2) | |
| Education Status | 0.71 | ||
| University | 306 (54.4) | 112 (52.8) | |
| Postgraduate | 87 (15.5) | 38 (17.9) | |
| Secondary | 135 (24.0) | 45 (21.2) | |
| Primary | 29 (5.2) | 14 (6.6) | |
| Read and write | 5 (0.9) | 3 (1.4) | |
| Income Status | 0.27 | ||
| <5000 SAR | 99 (17.6) | 44 (20.8) | |
| 5001–15,000 SAR | 252 (44.8) | 101 (47.6) | |
| >15,000 SAR | 211 (37.5) | 67 (31.6) | |
| Smoking Status | 0.52 | ||
| Frequent | 31 (5.5) | 12 (5.7) | |
| Occasional | 25 (4.4) | 15 (7.1) | |
| Ex-smoker | 24 (4.3) | 8 (3.8) | |
| Never smoked | 482 (85.8) | 177 (83.5) | |
Note: Data presented as N (%). p value significant at <0.05 using Chi-square and Fisher exact tests.
Table 2.
Frequency of family history related to PA.
| Parameters | Physically Active | |
|---|---|---|
| Yes | No | |
| Sex (M/F) | 562 (180/382) | 212 (59/153) |
| Family History | ||
| DM | 341 (60.7) | 128 (60.4) |
| HTN | 337 (60.0) | 130 (61.3) |
| Heart disease | 149 (26.5) | 64 (30.2) |
| Dyslipidemia | 133 (23.7) | 41 (19.3) |
| Cancer | 84 (14.9) | 36 (17.0) |
| Osteoporosis | 109 (19.4) | 50 (23.6) |
| Arthritis | 68 (32.1) | 158 (28.1) |
| Bone fracture | 23 (10.8) | 52 (9.3) |
| Medical History | ||
| DM | 51 (9.1) | 21 (9.9) |
| HTN | 48 (8.5) | 23 (10.8) |
| Heart disease | 15 (2.7) | 10 (4.7) |
| Dyslipidemia | 29 (5.2) | 16 (7.5) |
| Cancer | 4 (0.7) | 3 (1.4) |
| Osteoporosis | 15 (2.7) | 11 (5.2) |
| Arthritis | 30 (5.3) | 18 (8.5) |
| Bone fracture | 10 (1.8) | 8 (3.8) |
Note: Data presented as N (%). p value significant at 0.05 and 0.01 level using Chi-square and Fisher exact tests.
Table 3.
Vitamin D sources and knowledge according to physical activity status.
| Parameters | Physically Active | p Value | |
|---|---|---|---|
| Yes | No | ||
| Gender (M/F) | 562 (180/382) | 212 (59/153) | |
| Have you ever heard about VD? | 0.02 | ||
| Yes | 545 (97.0) | 198 (93.4) | |
| No | 17 (3.0) | 14 (6.6) | |
| VD belongs to | 0.15 | ||
| Fat-soluble vitamins | 157 (27.9) | 45 (21.2) | |
| Soluble vitamins, all solutions | 42 (7.5) | 21 (9.9) | |
| Water-soluble vitamins | 72 (12.8) | 23 (10.8) | |
| Don’t know | 291 (51.8) | 123 (58.0) | |
| Effect of VD on health is important | <0.001 | ||
| Yes | 519 (92.3) | 173 (81.6) | |
| No | 9 (1.6) | 9 (4.2) | |
| Don’t know | 34 (6.0) | 30 (14.2) | |
| Overall source of VD | |||
| Food | 469 (83.5) | 165 (77.8) | 0.17 |
| Supplements | 459 (81.7) | 157 (74.1) | 0.04 |
| Exercise | 142 (25.3) | 34 (16.0) | 0.01 |
| Air | 92 (16.4) | 22 (10.4) | 0.11 |
| Sunlight | 512 (91.1) | 186 (87.7) | 0.028 |
| Fortified food | 346 (61.6) | 129 (60.8) | 0.49 |
| Water | 122 (21.7) | 34 (16.0) | 0.22 |
| Dietary source sufficient for VD level | 0.037 | ||
| Yes | 159 (28.3) | 51 (24.1) | |
| No | 293 (52.1) | 115 (54.2) | |
| Don’t know | 110 (19.6) | 46 (21.7) | |
| Good dietary sources of VD | |||
| Fruits | 262 (46.6) | 85 (40.1) | 0.10 |
| Sardine, salmon, oily fish | 358 (63.7) | 124 (58.5) | 0.41 |
| Cow’s milk | 212 (37.7) | 67 (31.6) | 0.26 |
| Eggs | 307 (54.6) | 93 (43.9) | 0.03 |
| Chicken | 116 (20.6) | 31 (14.6) | 0.15 |
| Vegetables | 257 (45.7) | 76 (35.8) | 0.04 |
| Infant or toddler formula | 235 (41.8) | 92 (43.4) | 0.49 |
| Red meat | 129 (23.0) | 36 (17.0) | 0.08 |
| Bread | 53 (9.4) | 20 (9.4) | 0.78 |
| Breast milk | 295 (52.5) | 95 (44.8) | 0.14 |
| Fortified cow’s milk | 212 (37.7) | 82 (38.7) | 0.54 |
| Liver | 208 (37.0) | 61 (28.8) | 0.010 |
| Others | 93 (16.5) | 39 (18.4) | 0.24 |
| Indoor workers at high risk of VD deficiency | 0.001 | ||
| Yes | 500 (89.0) | 171 (80.7) | |
| No | 23 (4.1) | 8 (3.8) | |
| Don’t know | 39 (6.9) | 33 (15.6) | |
| Role of VD in body | |||
| Absorption of calcium and phosphorus | 341 (60.7) | 118 (55.7) | 0.45 |
| Antioxidant | 212 (37.7) | 77 (36.3) | 0.20 |
| Developing mineralization | 430 (76.5) | 152 (71.7) | <0.001 |
| Aiding with immune system function | 391 (69.6) | 121 (57.1) | 0.001 |
| Helping to strengthen muscles | 407 (72.4) | 117 (55.2) | <0.001 |
| Needed for blood clotting | 140 (24.9) | 42 (19.8) | 0.07 |
| Will undergo a test for VD | 0.28 | ||
| Yes | 334 (59.4) | 114 (53.8) | |
| No | 98 (17.4) | 38 (17.9) | |
| Don’t know | 130 (23.1) | 60 (28.3) | |
| Taking VD supplements, unless recommended by physician, is wrong | 0.001 | ||
| Yes | 365 (64.9) | 110 (51.9) | |
| No | 107 (19.0) | 46 (21.7) | |
| Don’t know | 90 (16.0) | 56 (26.4) | |
| Are you getting enough sun exposure? (awareness) | <0.001 | ||
| Yes | 186 (33.1) | 39 (18.4) | |
| No | 340 (60.5) | 153 (72.2) | |
| Don’t know | 36 (6.4) | 20 (9.4) | |
| Average length of daily sun exposure | <0.001 | ||
| <15 min | 186 (33.1) | 67 (31.6) | |
| 15–30 min | 300 (53.4) | 86 (40.6) | |
| 30–60 min | 36 (6.4) | 23 (10.8) | |
| >60 min | 9 (1.6) | 6 (2.8) | |
| None | 31 (5.5) | 30 (14.2) | |
| Parts of the body exposed to the sun | |||
| Face | 299 (53.2) | 104 (49.1) | 0.17 |
| Hands | 360 (64.1) | 135 (63.7) | 0.52 |
| Face and hands | 351 (62.5) | 129 (60.8) | 0.39 |
| Both arms | 377 (67.1) | 120 (56.6) | 0.006 |
| Both legs | 329 (58.5) | 106 (50.0) | 0.011 |
| Completely covered | 174 (31.0) | 70 (33.0) | 0.31 |
| Walk outdoor daily for sufficient exposure | <0.001 | ||
| Yes | 453 (80.6) | 133 (62.7) | |
| No | 109 (19.4) | 79 (37.3) | |
| Taking supplement is only necessary in cases of lack of exposure to sunlight | 0.42 | ||
| Yes | 326 (58.0) | 116 (54.7) | |
| No | 147 (26.2) | 54 (25.5) | |
| Don’t know | 89 (15.8) | 42 (19.8) | |
| Sun protection in summer and autumn | 0.001 | ||
| Always | 126 (22.4) | 43 (20.3) | |
| Never | 140 (24.9) | 84 (39.6) | |
| Often | 104 (18.5) | 24 (11.3) | |
| Rarely | 83 (14.8) | 28 (13.2) | |
| Sometimes | 109 (19.4) | 33 (15.6) | |
| If I am exposed to the sun, I apply primary sun protection | 0.016 | ||
| Hat | 68 (12.1) | 23 (10.8) | |
| Sunscreen cream | 265 (47.2) | 83 (39.2) | |
| Umbrella | 60 (10.7) | 17 (8.0) | |
| Unscreened | 95 (16.9) | 42 (19.8) | |
| Other | 74 (13.2) | 47 (22.2) | |
| The season affects the amount of time in the sun required to synthesis adequate VD | <0.001 | ||
| Yes | 422 (75.1) | 128 (60.4) | |
| No | 53 (9.4) | 31 (14.6) | |
| Don’t know | 87 (15.5) | 53 (25.0) | |
| Are you interested to know more about VD? | 0.002 | ||
| Yes | 443 (78.8) | 146 (68.9) | |
| No | 70 (12.5) | 29 (13.7) | |
| Don’t know | 49 (8.7) | 37 (17.5) | |
| Do you walk in sunlight? | <0.001 | ||
| Yes | 105 (18.7) | 17 (8.0) | |
| Sometimes | 191 (34.0) | 38 (17.9) | |
| No | 266 (47.3) | 157 (74.1) | |
| Disease listed associated with low VD | |||
| Breast cancer | 52 (9.3) | 18 (8.5) | 0.43 |
| Skin cancer | 112 (19.9) | 31 (14.6) | 0.05 |
| Type1 DM | 118 (21.0) | 31 (14.6) | 0.03 |
| Inflammatory bowel disease | 90 (16.0) | 25 (11.8) | 0.08 |
| Multiple sclerosis | 130 (23.1) | 36 (17.0) | 0.04 |
| Rheumatoid arthritis | 215 (38.3) | 84 (39.6) | 0.39 |
| Depression | 356 (63.3) | 125 (59.0) | 0.15 |
| Renal disease | 94 (16.7) | 45 (21.2) | 0.09 |
| Bone disease | 366 (65.1) | 121 (57.1) | 0.024 |
| Gallstones | 68 (12.1) | 32 (15.1) | 0.16 |
| Heart disease | 108 (19.2) | 25 (11.8) | 0.008 |
| Rickets | 284 (50.5) | 83 (39.2) | 0.003 |
| Osteoporosis | 374 (66.5) | 138 (65.1) | 0.38 |
| Ever taken supplements or multivitamins containing VD (Yes) | 288 (51.2) | 90 (42.5) | <0.001 |
| VD dose | 0.029 | ||
| <1000 IU | 140 (24.9) | 34 (16.0) | |
| >1000 IU | 124 (22.1) | 50 (23.6) | |
| Don’t know | 298 (53.0) | 128 (60.4) | |
| Motivation for starting VD supplementation | 0.016 | ||
| Friends or family members | 30 (5.3) | 21 (9.9) | |
| Doctor or health care professional | 89 (15.8) | 33 (15.6) | |
| VD deficiency | 304 (54.1) | 105 (49.5) | |
| Read about VD on internet, social media | 82 (14.6) | 27 (12.7) | |
| School or university | 37 (6.6) | 24 (11.3) | |
| Seminar or workshop related to VD | 20 (3.6) | 2 (0.9) | |
Note: Data presented as N (%). p value significant at 0.05 and 0.01 level using Chi-square and Fisher exact tests.
Table 4.
Logistic regression analysis for PA with other parameters (negative response as the reference).
Table 4.
Logistic regression analysis for PA with other parameters (negative response as the reference).
| Parameters | Odds Ratio (95% CI) | p Value | Adjusted BMI p Value |
|---|---|---|---|
| Have you ever heard about VD (Yes) | 2.27 (1.09–4.68) | 0.027 | 0.19 |
| Effect of VD on health is important (Yes) | 3.0 (1.17–7.68) | 0.022 | 0.08 |
| Overall source of VD (yes) | |||
| Supplements | 1.36 (0.83–2.22) | 0.22 | 0.21 |
| Exercise | 1.92 (1.24–2.95) | 0.003 | 0.005 |
| Air | 1.69 (1.02–2.81) | 0.044 | 0.04 |
| Sunlight | 0.63 (0.23–1.68) | 0.35 | 0.33 |
| Fortified food | 1.19 (0.79–1.77) | 0.39 | 0.41 |
| Water | 1.46 (0.93–2.26) | 0.09 | 0.10 |
| Dietary source sufficient for VD level (Yes) | 1.22 (0.84–1.79) | 0.30 | 0.32 |
| Good dietary source of VD (yes) | |||
| Fruits | 1.16 (0.79–1.67) | 0.44 | 0.49 |
| Sardine, salmon, oily fish | 1.25 (0.82–1.89) | 0.30 | 0.27 |
| Cow’s milk | 1.27 (0.86–1.88) | 0.22 | 0.24 |
| Eggs | 1.61 (1.09–2.37) | 0.016 | 0.006 |
| Chicken | 1.57 (0.99–2.48) | 0.052 | 0.04 |
| Vegetables | 1.57 (1.09–2.27) | 0.016 | 0.01 |
| Infant or toddler formula | 0.83 (0.56–1.22) | 0.35 | 0.31 |
| Red meat | 1.62 (1.05–2.52) | 0.03 | 0.046 |
| Bread | 1.05 (0.60–1.83) | 0.87 | 0.85 |
| Breast milk | 1.28 (0.87–1.89) | 0.22 | 0.12 |
| Fortified cow’s milk | 0.86 (0.58–1.26) | 0.43 | 0.57 |
| Liver | 1.75 (1.20–2.57) | 0.004 | 0.002 |
| Indoor workers are at high risk of VD deficiency (yes) | 1.93 (1.26–2.97) | 0.003 | 0.017 |
| Role of VD in body | |||
| Absorption of calcium and phosphorus | 1.22 (0.77–1.93) | 0.39 | 0.40 |
| Antioxidant | 0.86 (0.57–1.30) | 0.47 | 0.48 |
| Developing mineralization | 0.59 (0.32–1.08) | 0.09 | 0.06 |
| Aiding immune system function | 1.35 (0.86–2.13) | 0.20 | 0.34 |
| Helping to strengthen muscles | 1.56 (0.99–2.45) | 0.052 | 0.06 |
| Needed for blood clotting | 1.12 (0.72–1.74) | 0.63 | 0.56 |
| Will undergo a test for VD (Yes) | 1.14 (0.74–1.75) | 0.56 | 0.72 |
| Taking VD supplements, unless recommended by a physician, is wrong | |||
| Yes | 1.43 (0.95–2.14) | 0.09 | 0.17 |
| Are you getting enough sun exposure? (Yes) | 2.19 (1.49–3.24) | <0.001 | <0.001 |
| Average length of daily sun exposure | |||
| <15 min | 2.69 (1.51–4.77) | 0.001 | 0.002 |
| 15–30 min | 3.38 (1.94–5.89) | <0.001 | <0.001 |
| 30–60 min | 1.52 (0.73–3.13) | 0.26 | 0.40 |
| >60 min | 1.45 (0.46–4.58) | 0.53 | 0.45 |
| None | Ref | ||
| Which parts of your body are exposed to the sun? (Yes) | |||
| Face | 1.18 (0.86–1.62) | 0.30 | 0.54 |
| Hands | 1.0 (0.72–1.40) | 0.98 | 0.53 |
| Face and hands | 1.06 (0.076–1.46) | 0.74 | 0.80 |
| Both arms | 1.55 (1.12–2.14) | 0.009 | 0.030 |
| Both legs | 1.52 (1.07–2.13) | 0.018 | 0.07 |
| Completely covered | 0.90 (0.64–1.27) | 0.56 | 0.46 |
| Walk outdoors daily for sufficient exposure (Yes) | 2.47 (1.74–3.50) | <0.001 | <0.001 |
| Taking supplements is only necessary if lacking exposure to sunlight (Yes) | 1.03 (0.71–1.51) | 0.87 | 0.80 |
| Sun protection in summer and autumn | |||
| Always | Ref: | ||
| Never | 0.57 (0.37–0.88) | 0.012 | 0.07 |
| Often | 1.48 (0.84–2.59) | 0.17 | 0.08 |
| Rarely | 1.01 (0.58–1.76) | 0.96 | 0.72 |
| Sometimes | 1.13 (0.67–1.89) | 0.65 | 0.50 |
| If I am exposed to the sun, I have to apply primary sun protection | |||
| Hat | 1.31 (0.72–2.37) | 0.38 | 0.36 |
| Sunscreen cream | 1.41 (0.91–2.20) | 0.12 | 0.17 |
| Umbrella | 1.56 (0.82–2.98) | 0.18 | 0.15 |
| Other | 0.70 (0.42–1.16) | 0.17 | 0.41 |
| Unscreened | Ref: | ||
| Season affects amount of time to synthesize adequate VD (Yes) | 1.93 (1.20–3.13) | 0.008 | 0.017 |
| Are you interested to know more about VD (Yes) | 1.26 (0.78–2.01) | 0.34 | 0.33 |
| Do you walk in sunlight? | |||
| Yes | 3.65 (2.11–6.32) | <0.001 | <0.001 |
| Sometimes | 2.97 (1.99–4.43) | <0.001 | <0.001 |
| No | Ref: | ||
| Diseases listed are associated with low VD (Yes) | |||
| Breast cancer | 1.10 (0.63–1.93) | 0.74 | 0.71 |
| Skin cancer | 1.45 (0.94–2.24) | 0.09 | 0.07 |
| Type1 DM | 1.55 (1.01–2.39) | 0.046 | 0.08 |
| Inflammatory bowel disease | 1.43 (0.89–2.29) | 0.14 | 0.15 |
| Multiple sclerosis | 1.47 (0.98–2.21) | 0.064 | 0.06 |
| Rheumatoid arthritis | 0.94 (0.68–1.31) | 0.73 | 0.91 |
| Depression | 1.20 (0.87–1.66) | 0.26 | 0.36 |
| Renal disease | 0.75 (0.50–1.11) | 0.15 | 0.12 |
| Bone disease | 1.40 (1.01–1.94) | 0.039 | 0.04 |
| Gallstones | 0.77 (0.49–1.22) | 0.27 | 0.26 |
| Heart disease | 1.78 (1.12–2.83) | 0.016 | 0.02 |
| Rickets | 1.59 (1.15–2.19) | 0.005 | 0.001 |
| Osteoporosis | 1.07 (0.77–1.49) | 0.70 | 0.88 |
| Ever taken supplements or multivitamins containing VD (Yes) | 1.21 (0.86–1.69) | 0.28 | 0.27 |
| VD dose of supplement | |||
| <1000 IU | Ref: | ||
| >1000 IU | 0.60 (0.37–0.99) | 0.046 | 0.06 |
Note: Data presented as odds ratio (95% CI). p value significant at 0.05 and 0.01 level, adjusted and unadjusted model. Dependent parameters: Physical activity (yes = 1 and No = 0). Independent parameters: negative response taken as reference.
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MDPI and ACS Style
Al-Daghri, N.M.; Alfawaz, H.A.; Khan, N.; Saadawy, G.M.; Sabico, S. Vitamin D Knowledge and Awareness Is Associated with Physical Activity among Adults: A Cross-Sectional Survey. Int. J. Environ. Res. Public Health 2023, 20, 1601. https://doi.org/10.3390/ijerph20021601
AMA Style
Al-Daghri NM, Alfawaz HA, Khan N, Saadawy GM, Sabico S. Vitamin D Knowledge and Awareness Is Associated with Physical Activity among Adults: A Cross-Sectional Survey. International Journal of Environmental Research and Public Health. 2023; 20(2):1601. https://doi.org/10.3390/ijerph20021601
Chicago/Turabian StyleAl-Daghri, Nasser M., Hanan A. Alfawaz, Nasiruddin Khan, Gamal M. Saadawy, and Shaun Sabico. 2023. "Vitamin D Knowledge and Awareness Is Associated with Physical Activity among Adults: A Cross-Sectional Survey" International Journal of Environmental Research and Public Health 20, no. 2: 1601. https://doi.org/10.3390/ijerph20021601
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