Next Article in Journal
A National Communication Campaign in Indonesia Is Associated with Improved WASH-Related Knowledge and Behaviors in Indonesian Mothers
Next Article in Special Issue
Incidence of Anorexia Nervosa in Women: A Systematic Review and Meta-Analysis
Previous Article in Journal
Effect of Different Running Exercise Modalities on Post-Exercise Oxidative Stress Markers in Trained Athletes
 
 
ijerph-logo
Article Menu

Article Menu

Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:
Background:
Article

The Effect of Physical Activity and High Body Mass Index on Health-Related Quality of Life in Individuals with Metabolic Syndrome

by Alba Marcos-Delgado 1, Tania Fernández-Villa 1,*, Miguel Ángel Martínez-González 2,3,4, Jordi Salas-Salvadó 2,5,6,7, Dolores Corella 2,8, Olga Castañer 2,9, J. Alfredo Martínez 2,10,11, Ángel M. Alonso-Gómez 2,12, Julia Wärnberg 2,13, Jesús Vioque 14,15, Dora Romaguera 2,16, José López-Miranda 2,17, Ramon Estruch 2,18, Francisco J Tinahones 2,19, José Lapetra 2,20, J. LLuís Serra-Majem 2,21, Laura García-Molina 14,22, Josep A. Tur 2,16,23, José Antonio de Paz 1, Xavier Pintó 2,24, Miguel Delgado-Rodríguez 25,26, Pilar Matía-Martín 27, Josep Vidal 28,29, Clotilde Vázquez 2,30, Lidia Daimiel 31, Emilio Ros 2,32, Nancy Babio 2,5,7, Ignacio M Gimenez-Alba 2,8, Estefanía Toledo 2,3, María Dolores Zomeño 9, M. A. Zulet 10, Jessica Vaquero-Luna 12, Jessica Pérez-López 2,13, Ana Pastor-Morel 33, Aina M Galmes-Panades 2,16, Antonio García-Rios 2,17, Rosa Casas 2,18, María Rosa Bernal-López 2,34, José Manuel Santos-Lozano 2,20, Nerea Becerra-Tomás 2,5,7,8, Carolina Ortega-Azorin 2,8, Zenaida Vázquez-Ruiz 2,3, Karla Alejandra Pérez-Vega 9, Itziar Abete 10, Carolina Sorto-Sánchez 12, Antoni Palau-Galindo 2,5,7, Iñigo Galilea-Zabalza 2, Júlia Muñoz-Martínez 9 and Vicente Martín 1,14,† for the PREDIMED-Plus Investigatorsadd Show full author list remove Hide full author list
1
Institute of Biomedicine (IBIOMED), University of León, 24071 León, Spain
2
Centro de Investigación Biomédica en Red Fisiopatología de la Obesidad y la Nutrición (CIBEROBN), Institute of Health Carlos III, 28040 Madrid, Spain
3
Department of Preventive Medicine and Public Health, IdiSNA, University of Navarra, 31008 Pamplona, Spain
4
Department of Nutrition, Harvard T.H. Chan School of Public Health, Boston, MA 02115, USA
5
Departament de Bioquímica i Biotecnologia, Unitat de Nutrició, Universitat Rovira i Virgili, 43201 Reus, Spain
6
Nutrition Unit, University Hospital of Sant Joan de Reus, 43204 Reus, Spain
7
Institut d’Investigació Sanitària Pere Virgili (IISPV), 43204 Reus, Spain
8
Department of Preventive Medicine, University of Valencia, 46010 Valencia, Spain
9
Unit of Cardiovascular Risk and Nutrition, Institut Hospital del Mar de Investigaciones Médicas Municipal d’Investigació Médica (IMIM), 08003 Barcelona, Spain
10
Department of Nutrition, Food Sciences, and Physiology, Center for Nutrition Research, University of Navarra, 31009 Pamplona, Spain
11
Precision Nutrition and Cardiometabolic Health Program, IMDEA Food, CEI UAM + CSIC, 28049 Madrid, Spain
12
Bioaraba Health Research Institute, Cardiovascular, Respiratory and Metabolic Area, Osakidetza Basque Health Service, Araba University Hospital, University of the Basque Country UPV/EHU, 48940 Vitoria-Gasteiz, Spain
13
Department of Nursing, Institute of Biomedical Research in Malaga (IBIMA), University of Málaga, 29010 Málaga, Spain
14
CIBER de Epidemiología y Salud Pública (CIBERESP), Instituto de Salud Carlos III, 28029 Madrid, Spain
15
Instituto de Investigación Sanitaria y Biomédica de Alicante, ISABIAL, 03010 Alicante, Spain
16
Health Research Institute of the Balearic Islands (IdISBa), University Hospital Son Espases, 07120 Palma de Mallorca, Spain
17
Department of Internal Medicine, Maimonides Biomedical Research Institute of Cordoba (IMIBIC), Reina Sofia University Hospital, University of Cordoba, 14004 Cordoba, Spain
18
Department of Internal Medicine, Institut d’Investigacions Biomèdiques August Pi Sunyer (IDIBAPS), Hospital Clinic, University of Barcelona, 08036 Barcelona, Spain
19
Virgen de la Victoria Hospital, Department of Endocrinology, Instituto de Investigación Biomédica de Málaga (IBIMA), University of Málaga, 29010 Málaga, Spain
20
Department of Family Medicine, Research Unit, Distrito Sanitario Atención Primaria Sevilla, 29009 Sevilla, Spain
21
Research Institute of Biomedical and Health Sciences (IUIBS), University of Las Palmas de Gran Canaria & Centro Hospitalario Universitario Insular Materno Infantil (CHUIMI), Canarian Health Service, 35016 Las Palmas de Gran Canaria, Spain
22
Department of Preventive Medicine and Public Health, University of Granada, 18010 Granada, Spain
23
Research Group on Community Nutrition & Oxidative Stress, University of Balearic Islands, 07122 Palma de Mallorca, Spain
24
Lipids and Vascular Risk Unit, Internal Medicine, Hospital Universitario de Bellvitge, Hospitalet de Llobregat, 08907 Barcelona, Spain
25
Nutritional Genomics and Epigenomics Group, IMDEA Food, CEI UAM + CSIC, 28049 Madrid, Spain
26
Division of Preventive Medicine, Faculty of Medicine, University of Jaén, 23071 Jaén, Spain
27
Department of Endocrinology and Nutrition, Instituto de Investigación Sanitaria Hospital Clínico San Carlos (IdISSC), 28040 Madrid, Spain
28
CIBER Diabetes y Enfermedades Metabólicas (CIBERDEM), Instituto de Salud Carlos III (ISCIII), 28029 Madrid, Spain
29
Department of Endocrinology, Institut d’Investigacions Biomédiques August Pi Sunyer (IDIBAPS), Hospital Clinic, University of Barcelona, 08036 Barcelona, Spain
30
Department of Endocrinology and Nutrition, Hospital Fundación Jimenez Díaz, Instituto de Investigaciones Biomédicas IISFJD, University Autonoma, 28040 Madrid, Spain
31
Nutritional Control of the Epigenome Group, Precision Nutrition and Obesity Program, IMDEA Food, CEI UAM + CSIC, 28049 Madrid, Spain
32
Lipid Clinic, Department of Endocrinology and Nutrition, Institut d’Investigacions Biomèdiques August Pi Sunyer (IDIBAPS), Hospital Clínic, 08036 Barcelona, Spain
33
Centro de Salud Cabo Huertas, 03540 Alicante, Spain
34
Departament of Internal Medicine, Regional University Hospital of Malaga, Instituto de Investigación Biomédica de Málaga (IBIMA), 29010 Málaga, Spain
*
Author to whom correspondence should be addressed.
PREDIMED-Plus study investigators.
Int. J. Environ. Res. Public Health 2020, 17(10), 3728; https://0-doi-org.brum.beds.ac.uk/10.3390/ijerph17103728
Submission received: 12 April 2020 / Revised: 11 May 2020 / Accepted: 21 May 2020 / Published: 25 May 2020
(This article belongs to the Special Issue Assessment of Health-Related Quality of Life (HRQoL) in Public Health)

Abstract

:
The main objective of this study was to examine the relationship between the level of physical activity (PA) and the degree of obesity with health-related quality of life (HRQoL) in individuals with metabolic syndrome (MetS) who participated in the Predimed-Plus study. A total of 6875 subjects between 55 and 75 years of age with MetS were selected and randomized in 23 Spanish centers. Subjects were classified according to categories of body mass index (BMI). PA was measured with the validated Registre Gironí del Cor (REGICOR) questionnaire and subjects were classified according to their PA level (light, moderate, vigorous) and the HRQoL was measured with the validated short-form 36 (SF-36) questionnaire. By using the ANOVA model, we found a positive and statistically significant association between the level of PA and the HRQoL (aggregated physical and mental dimensions p < 0.001), but a negative association with higher BMI in aggregated physical dimensions p < 0.001. Furthermore, women obtained lower scores compared with men, more five points in all fields of SF-36. Therefore, it is essential to promote PA and body weight control from primary care consultations to improve HRQoL, paying special attention to the differences that sex incurs.

1. Introduction

According to the World Obesity Federation, obesity is a chronic, recurring disease, considered to be the epidemic of the 21st century, due to its increase in recent decades [1]. More than 1.5 trillion adults worldwide are overweight and 500 million of who suffer from obesity [2,3]. These figures have doubled since 1980 and currently almost three million deaths per year are attributed to excess weight, a trend that indicates overweight and obesity will cause more deaths worldwide than malnutrition [4,5].
Overweight/obesity and excess visceral fat in particular, represent a higher risk of morbidity and mortality [6,7]. It is also associated with diseases like type two diabetes, high blood pressure, dyslipidemia, cardiovascular diseases, sleep apnea [7,8,9], some types of cancer [10] and increased social stigma [11]. In addition to diseases being associated with obesity, a major obstacle to physical activity for adults with obesity, are impairments in movement and walking [12,13]. The epidemiological model of obesity describes diet as the main causative agent of excess weight and scarce physical activity (PA) as the second main driver [1,14]. Fast food, including consumption of ultraproccessed foods, is currently replacing traditional diet and the percentage of people who exercise regularly in their spare time is continuously decreasing and becomes even less frequent with age. In Spain, 12.4% of people between 45%–64% and 5.9% of people 65 years and older [15] exercise regularly. As such, obesity and lack of PA seem to have a negative effect on health-related quality of life (HRQoL) [16,17].
According to the World Health Organization’s (WHO) definition, we can associate HRQoL with the impact a disease has on our perception of happiness, position in life and on our physical, psychological, social and spiritual well-being [18]. Evidence suggests that doing 150 to 300 min of moderate PA per week and following the Mediterranean diet provide considerable benefits in maintaining health, healing and in HRQoL [17,19,20,21,22,23,24]. Overweight/obesity are the main determinants of metabolic syndrome (MetS) and there are increasing numbers of studies that use HRQoL in individuals with MetS, since it is considered a strong predictor of disability and long-term mortality [25,26,27].
Therefore, the main objective of our study is to evaluate whether higher body mass index (BMI) and doing PA are cross-sectionally associated with a better HRQoL in the participants of the multicenter randomized primary prevention trial Predimed-Plus. The final objective is to be able to incorporate strategies that improve the population’s HRQoL, since professionals at the primary care level are in a position to stimulate, reinforce, teach and facilitate healthy habits in patients.

2. Materials and Methods

2.1. Study Design

A cross-sectional descriptive analysis was carried out with the participants in the Predimed-Plus study, a multicenter randomized trial, in which a total of 23 Spanish centers participated. The aim was to evaluate the effect of an intensive intervention with a hypocaloric Mediterranean diet associated with physical exercise and behavioral therapy compared to a control group that received a traditional Mediterranean diet for primary prevention of cardiovascular diseases in Spain. The protocol can be found at https://www.predimedplus.com/ [28] and the study design was described elsewhere [29,30].

2.2. Ethical Considerations

This trial was approved by the Institutional Review Boards of all recruitment centers where the study was conducted [29]. The investigations were carried out following the rules of the Declaration of Helsinki of 1975, revised in 2013.
Participants signed a written informed consent. The trial was registered in 2014 at the International Standard Randomized Controlled Trial (ISRCTN89898870).

2.3. Participants

The inclusion criteria of the participants in the Predimed-Plus study were men between the ages of 55–75 years and women between 60–75 years, overweight or obese (BMI ≥ 27 and <40 kg/m2), who had at least three criteria of MetS [31] and did not have cardiovascular disease. A total of 6874 subjects were recruited and randomized. For the current analysis, we excluded 130 who did not answered REGICOR questionnaire for PA and 24 participants who did not have available data for BMI at the time. A total of 6720 participants were included for evaluation in the current study. The data in this analysis were collected before the intervention.

2.4. HRQoL

The HRQoL was measured with the Spanish version of the SF-36 questionnaire [32,33], validated for the Spanish population and widely used as an accurate way to measure self-perceived HRQoL. This questionnaire consisted of 36 items that assessed eight dimensions or scales: physical functioning (PF), role—physical (RP), bodily pain (BP), general health (GH), vitality (VT), social functioning (SF), role—emotional (RE) and mental health (MH). These dimensions were grouped into two health components: the physical component summary (PCS) and the mental component summary (MCS).
Cronbach’s α was used to measure the reliability of the SF-36 scales and found that the values for the Spanish population aged ≥60 years was higher than the proposed standard of 0.7.
Each item received a numerical score that was encoded, summed up and put on a scale from 0 to 100. The higher the score, the better the quality of life in the analyzed field.

2.5. PA and BMI

PA was measured with a short version of the REGICOR questionnaire, validated for the Spanish population [34]. It included the type of PA, how often it was done in the past month (number of days) and the duration of each session, in minutes. The intensity of each PA was measured with metabolic equivalents (METs), according to the Compendium of Physical Activities [35]. The total energy expenditure was calculated by multiplying the METs assigned to each activity by the number of times done per months, minutes per day and divided by 4 weeks/month (METs. min/week) to classify PA as light, moderate or vigorous.
Weight and height were collected the same way in all the centers, by trained personnel following a pre-established protocol. BMI was calculated by dividing the weight (Kg) by the squared height (m2). Lastly, the sample population was categorized into four groups (BMI < 30 kg/m2, between 30 kg/m2 and 32.4 kg/m2, between 32.5 kg/m2 and 34.9 kg/m2 and ≥35 kg/m2).

2.6. Other Covariables

The sociodemographic variables were collected with the general questionnaire administered at the first visit were sex, age, level of education (primary, secondary and higher education) and marital status (single, married, divorced/separated and widowed).
Other covariates used for adjusted models were measurements for high blood pressure, smoking (non-smoker, smoker, ex-smoker), type 2 diabetes, depression, chronic obstructive pulmonary disease and previous history of cancer.

2.7. Statistical Analysis

Participants were divided in three categories of PA based on the intensity measured with the short version of the REGICOR questionnaire: Light PA (<1200 METs–min/week), moderate (1200–2700 METs–min/week) and vigorous (>2700 METs–min/week).
The BMI variable was categorized in four categories: <30 kg/m2, between 30 kg/m2 and 32.4 kg/m2, between 32.5 kg/m2 and 34.9 kg/m2 and ≥35 kg/m2.
In the sample description, means and standard deviations for quantitative variables were calculated, as well as the percentages for qualitative variables, consistent with the defined categories for PA and BMI. PA levels were compared with age and BMI with ANOVA test and with type 2 diabetes, depression, blood pressure, history of cancer, history of lung disease, smoking status, marital status and educational level with a χ2 test.
The mean of each dimension of the SF-36 questionnaire and of the two additional fields in the three PA categories and BMI were compared with ANOVA models. The differences between groups were calculated using linear regression models, stratified by sex. Three adjustment models were done for each scale of the HRQoL questionnaire. The first model was adjusted for age and educational level (primary, secondary and higher education). In the second PA model, BMI (<30 kg/m2, between 30 kg/m2 and 32.4 kg/m2, between 32.5 kg/m2 and 34.9 kg/m2 and ≥35 kg/m2), smoking habit (non-smoker, smoker, ex-smoker) and marital status (single, married, divorced/separated, widowed) were included and, with BMI as a dependent variable, PA (light, moderate and vigorous) was included in the model as an adjustment variable. Lastly, the third model was adjusted for comorbidities that are associated with lower HRQoL, high blood pressure (yes/no), type 2 diabetes (yes/no), depression (yes/no), chronic obstructive pulmonary disease (yes/no) and previous history of cancer (yes/no). Benjamini-Hochberg Procedure (BH) was used as a correction test.
Linear trends for the association of PA, BMI and HRQoL dimensions were also calculated. For this, we considered the PA and BMI categories to be a continuous quantitative variable included in the multivariate adjusted models. The data were analyzed using the available, complete PREDIMED-Plus database, dated 25/03/2019.
All statistical analyses were done using the StataCorp statistical package. 2015. Stata Statistical Software: Release 15. College Station, TX, USA: StataCorp LP. We considered a two-tailed value of 0.05 to be the threshold for statistical significance.

3. Results

The descriptive characteristics of the sample in terms of PA levels and BMI are shown in Table 1 and Table 2. A decrease in the prevalence in the pathologies studied was seen with increasing intensity of PA. Conversely, in the BMI categories, the lower the BMI, the lower the prevalence of chronic conditions such as type 2 diabetes, depression, high blood pressure and a history of lung disease. Furthermore, the prevalence of pathologies like depression and a history of cancer were higher in women and a higher percentage of women are smokers and have primary education.
Tables S1 and S2 show the adjusted means of the eight dimensions that make up the HRQoL SF-36 questionnaire in the three PA categories. As shown, the higher the level of PA, the higher the average scores in HRQoL and, furthermore, all scores were lower in women than in men (Figure 1 and Figure 2). Using the third adjustment model as a reference, we observed statistically significant differences on all scales in women (p < 0.001), while in men no differences were found in role—physical (p = 0.1686), bodily pain (p = 0.4762) and role—emotional (p = 0.0756).
Within the scales that make up the PCS, we observed a difference of ten points in the means between light activity, (PF 65.14 (95% CI 64.07–66.22) RP 61.73 (95% CI 59.59–63.87)); and vigorous activity (PF 75.27 (95% CI 74.00–76.54) RP 73.37 (95% CI 70.84–75.91)) in the PF and RP scales in women. On the BP and GH scales, the difference is eight points. In men, there is a five-point difference between the levels of PA in the PF and GH scales and a two-point difference in RF and BP scales.
In the MCS component there were significant differences (p < 0.0001) in all scales between the average scores found in terms of the PA category in women and men (the higher the level of physical exercise, the higher the HRQoL scores) except in the RE scale in men (p = 0.092). In women there was a difference of ten points in all fields except MH, where the difference was nine points. The greatest difference in men was found in the VT field, where VT was seven points over the PA average, in SF and RE, the difference was three points and in MH there was a difference of four points.
Tables S4 and S5 show the average scores obtained in the eight dimensions of the SF-36 questionnaire in relation to the BMI categories. In the PCS component, the higher the BMI, the lower the average score of the dimensions in both sexes. All scores were lower in women than in men (Figure 3 and Figure 4). The fields with a greater difference in both sexes were PF and BP, with a difference of seven and ten points, respectively.
In terms of the relationship between MCS and BMI, for women, the higher the degreed of obesity, the lower the average scores on the VT (p < 0.001) and SF (p = 0.026) scales, while in RE and MH, no statistically significant differences were observed. In men, the average scores tended to increase slightly as the BMI increased, except in the vitality field where there was a significant decreased between the lowest and highest BMI category (p = 0.0001). The greatest change in both sexes was in the VT field, with a difference of four points in women and three points in men.

4. Discussion

In our study, there was a significant increase in the scores for women in all dimensions that making up the HRQoL SF-36 questionnaire when more PA was done. There was also a significant increase for men in all fields except RP, BP and RE. Regarding the association between HRQoL and BMI, we found an inversely proportional relationship in the areas that make up PCS in both women and men. Furthermore, we could observe that this association is also significant in the mental component in women.
This suggests that both PA and obesity/overweight were determinants in HRQoL. We can also saw that all scores were lower in women than in men, which was consistent with previous published articles [22,36,37].
Jantunen et al. [38] assessed the association between PA and HRQoL for ten years in a Finnish cohort, where a statistically significant association was observed between increased PA and improving the physical component dimension in men and women. A statistically significant association was also found in women for the mental component dimension, which was similar to our study. Other research suggested that there were benefits of PA to improve physical and mental state, increase physical function, reduce anxiety, depression and stress through various mechanisms, like the effect of endorphins, thermogenic hypothesis or the effect of the immune system through cytokines, among others [39,40].
As such and in relation to other previous published studies, the same trend occurred with obesity and HRQoL [41,42,43,44]. In the systematic review of reviews conducted by Kolotkin et al. [16], articles included, that were similar to our study verified that the scores in the physical component field were lower when the BMI ≥ 25 kg/m2, a relationship make even more evident in higher BMI categories, like in our subjects. The lowest scored dimensions within the physical component field, for both men and women, were PF and BP. This may be due to the relationship between obesity and chronic pain, including generalized joint pain and other musculoskeletal pain, which in turn interferes with physical functioning. The mechanisms involved are still unclear, however, one of the most accepted theories is that excess weight exerts mechanical pressure on the joints and intervertebral discs, which contributes directly and indirectly to pain. Another related factor seems to be sedentary lifestyle; people with obesity who practice little PA have more lower back pain than people without obesity, which is consistent with our study [45].
In the study by Fanning et al. [22] compared the effect of weight loss alone or in combination with aerobic or resistance training in individuals with MetS on HRQoL, although our study is not comparable since it was a cross-sectional, it was found that there was a significant improvement in physical domain scores on the SF-12 questionnaire in those individuals who combined weight loss with either aerobic or resistance training, which leads us to believe that it is the combination of adequate BMI and PA that will result in the greatest increase in HRQoL.
In terms of the mental field, there was a worsening of HRQoL in women with higher BMI, specifically in the VT and SF dimensions, but this did not occur in men. One of the reasons could be the effect that the stigma of obesity has on women compared to men [46].
By contrast, there were several studies in which the participants’ perceived HRQoL did not change after an intervention with PA. One was a study conducted in Norway were a physical exercise intervention was carried out for 12 weeks on patients who had hip surgeries [47] and the other was a 12-month exercise program with women over 65 years of age [48]. However, when comparing these data, we must take into consideration that the participants in our study were otherwise healthy people with cardiovascular risk factors
On the other hand, it was proven that the type of exercise performed seems to have no influence on HRQoL [49], which leads us to believe that the simple act of doing PA is what improves HRQoL.
Pozas et al. [50] in their study of the association between MetS and HRQoL involving 229 participants, 118 with MetS and 111 without MetS, found no greater worsening of HRQoL in the total sample of individuals with MetS compared to the group without MetS. However, when BMI was analyzed, they found that there was an inverse relationship between BMI and HRQoL in both groups, which may lead to believe that it is the degree of BMI that influences HRQoL and not the MetS. On the other hand, in this same study, unlike ours, it was the men with MetS who obtained significantly worse scores in the RE dimension.
We can saw that all scores were lower in women than in men. This difference could be explained by sociodemographic characteristics like income level, level of education and some chronic diseases, as well as the aforementioned effect that the stigma of high BMI and obesity may exert on some women [46,51].
This study had some limitations that need to the highlighted. First, it was a cross-sectional study, meaning that it did not imply causation. Second, also inherent to its design, we cannot exclude the possible inverse causation, that PA and a normal BMI can improved HRQoL, but also a good HRQoL can encouraged physical exercise and contributed to obtaining an ideal weight. Third, the result cannot be extrapolated to other study populations since our analyzes included only elderly Mediterranean individuals with MetS.
In terms of our study’s strengths, it is important to note that we had a high number of participants and accurate validity and reproducibility to measure the HRQoL of the SF-36 questionnaire.

5. Conclusions

In conclusion, our results suggest how lack of PA were negatively associated to aggregated physical and mental dimensions (p < 0.001) and obesity were negatively associated to aggregated physical dimensions (p < 0.001) that comprise HRQoL. Women suffered the most severe deterioration compared to men, more five points in all fields of SF-36. Therefore, it is essential to promote PA and body weight control from the primary care standpoint through consultations to improve HRQoL, paying special attention to the differences that sex incurs.

Supplementary Materials

The following are available online at https://0-www-mdpi-com.brum.beds.ac.uk/1660-4601/17/10/3728/s1. Table S1: Adjusted means for each of the eight dimensions of HRQoL by baseline categories of PA (METs–min/week). Table S2: Adjusted means for the two aggregated dimensions of HRQoL by baseline categories of PA (METs–min/week). Table S3: Adjusted means for each of the eight dimensions of HRQoL by baseline categories of BMI (kg/m2). Table S4: Adjusted means for the two aggregated dimensions of HRQoL by baseline categories of BMI (kg/m2).

Author Contributions

Conceptualization, A.M.-D., T.F.-V., J.A.d.P. and V.M.; data curation, A.M.-D., T.F.-V., and V.M.; formal analysis, A.M.-D., T.F.-V., J.A.d.P., E.T. and V.M.; funding acquisition, M.Á.M.-G., J.S.-S., O.C., J.V. and J.V.; investigation, M.Á.M.-G., J.S.-S., D.C., O.C., J.A.M., Á.M.A.-G., J.W., J.V., D.R., J.L.-M, R.E., F.J.T., J.L., J.L.S.-M., J.A.T., X.P., M.D.-R., P.M.-M, J.V., C.V., L.D., E.R. and V.M.; methodology; A.M.-D., T.F.-V., M.A.M.-G, J.S.-S., D.C., O.C., J.A.M., Á.M.A.-G., J.W., J.V., D.R., J.L.-M., R.E., F.J.T., J.L., J.L.S.-M., J.A.T., J.A.d.P., X.P., M.D.-R., P.M.-M., J.V., C.V., L.D., E.R. and V.M.; project administration, M.Á.M.-G., J.S.-S, D.C., O.C., J.A.M., Á.M.A.-G., J.W., J.V., D.R., J.L.-M., R.E., F.J.T., J.L., J.L.S.-M., J.A.T., X.P., M.D.-R., P.M.-M., J.V., C.V., L.D., E.R. and V.M.; supervision, T.F.-V. and V.M.; writing—original draft, A.M.-D, T.F.-V. and V.M.; writing—review & editing, M.Á.M.-G., J.S.-S, D.C., O.C., J.A.M., A.M.A.-G., J.W., J.V., D.R., J.L.-M., R.E., F.J.T., J.L., J.L.S.-M, L.G.-M., J.A.T., J.A.d.P., X.P., M.D.-R., P.M.-M., J.V., C.V., L.D., E.R., N.B., I.M.G.-A., E.T., M.D.Z., M.A.Z., J.V.-L., J.P.-L., A.P.-M., A.M.G.-P., A.G.-R., R.C., M.R.B.-L., J.M.S.-L., N.B.-T., C.O.-A., Z.V.-R., K.A.P.-V., I.A., C.S.-S., A.P.-G., I.G.-Z., J.M.-M. and V.M. All authors have read and agreed to the published version of the manuscript.

Funding

The Predimed-Plus trial was supported by the Spanish government’s official funding agency for biomedical research, ISCIII, through the Fondo de Investigación para la Salud (FIS), which is co-funded by the European Regional Development Fund (three coordinated FIS projects led by Jordi Salas-Salvadó and Josep Vidal, including the following projects: PI13/00673, PI13/00492, PI13/00272, PI13/01123, PI13/00462, PI13/00233, PI13/02184, PI13/00728, PI13/01090, PI13/01056, PI14/01722, PI14/0147, PI14/00636, PI14/00972, PI14/00618, PI14/00696, PI14/01206, PI14/01919, PI14/00853, PI14/01374, PI16/00473, PI16/00662, PI16/01873, PI16/01094, PI16/00501, PI16/00533, PI16/00381, PI16/00366, PI16/01522, PI16/01120, PI17/00764, PI17/01183, PI17/00855, PI17/01347, PI17/00525, PI17/01827, PI17/00532, PI17/00215, PI17/01441, PI17/00508, PI17/01732, PI17/00926, PI19/00957, PI19/00386, PI19/00309, PI19/01032, PI19/00576, PI19/00017, PI19/01226, PI19/00781, PI19/01560, PI19/01,332), the Special Action Project entitled: Implementación y evaluación de una intervención intensiva sobre la actividad física Cohorte PREDIMED-PLUS grant to Jordi Salas-Salvadó, the European Research Council (Advanced Research Grant 2013–2018; 340918) grant to Miguel Ángel Martínez-Gonzalez, the Recercaixa grant to Jordi Salas-Salvadó (2013ACUP00194), grants from the Consejería de Salud de la Junta de Andalucía (PI0458/2013; PS0358/2016; PI0137/2018), the PROMETEO/2017/017 grant from the Generalitat Valenciana, the SEMERGEN grant and FEDER funds (CB06/03 and CB12/03), Olga Castaner is funded by the JR17/00,022 grant, ISCIII. Christopher Papandreou is supported by a postdoctoral fellowship granted by the Autonomous Government of Catalonia (PERIS 2016–2020 Incorporació de Científics i Tecnòlegs, SLT002/0016/00,428). María Rosa Bernal-Lopez was supported by “Miguel Servet Type I” program (CP15/00028) from the ISCIII-Madrid (Spain), cofinanced by the Fondo Europeo de Desarrollo Regional-FEDER, Ignacio M.Giménez-Alba is supported by a FPU predoctoral contract (reference FPU18/01703) from the Ministerio de Ciencia, Innovación y Universidades, Spain.

Conflicts of Interest

The authors declare no conflict of interest.

Steering Committee

J. Salas-Salvadó (Coordinator), M.A. Martínez-González, M. Fitó. E. Ros, FJ. Tinahones, D. Corella and R. Estruch

Executive Committee

J. Salas-Salvadó, M.A. Martínez-González, D. Corella, M. Fitó, J. Vioque, D. Romaguera, J.A Martínez, J. Wärnberg, J. Lopez-Miranda, R. Estruch, A. Bueno-Cavanillas, Á.M. Alonso-Gómez, J.A. Tur, FJ. Tinahones, L. Serra-Majem, V. Martin, J. Lapetra, C. Vázquez, X. Pinto, J. Vidal, L. Daimiel, M. Delgado-Rodríguez, M.A. Rubio and E. Ros.

Dietary and Lifestyle Intervention Committee

J. Salas-Salvadó (chair), M.A. Martínez-González, M. Fitó and R. Estruch;
Dietary Intervention: J. Salas-Salvadó (chair), N. Babio, E. Ros, A. Sánchez-Tainta;
Physical Exercise: M. Fitó (chair), H. Schröder, A. Marcos, D. Corella, J. Warnberg;
Behavioural support: R. Estruch (chair), F. Fernández-Aranda, C. Botella and J. Salas-Salvadó.

Clinical Event Ascertainment Committee

F. Arós (Chair), M. Aldamiz, A. Alonso-Gómez, L. Forga, A. García-Layana, J. Portu, J. Timiraos, A. González-Pinto, I. Zorrilla, M. Martínez-Kareaga, P. Seoane.
Chair: Dr. Fernando Arós
Cardiology: Dr. Angel Alonso-Gómez; Dr. Fernando Arós
Neurology: Dr. Juan Timiraos
Internal Medicine: Dr. Mikel Aldamiz; Dr. Joseba Portu
Endocrinology: Dr. Lluis Forga
Ophthalmology: Dr. Alfredo García-Layana
Psychiatry: Dr. Ana González Pinto; Dr. Iñaki Zorrilla
Oncology: Dr. Mireia Martínez; Dr. Patricia Seoane

Independent Data and Safety Monitoring Board:

M.J. Stampfer (Harvard School of Public Health), J. Sabate (Loma Linda University), A. Astrup (Copenhagen University), F. Fernandez-Aviles (Universidad Complutense of Madrid), X. Pi-Sunyer (Columbia University).

Rovira i Virgili University, Department of Biochemistry and Biotechnology, Human Nutrition Unit, University Hospital of Sant Joan de Reus, Pere Virgili Institute for Health Research, Reus, Spain

R. Pedret Llaberia, R. Gonzalez, R. Sagarra Álamo, F. París Palleja, J. Balsells, J.M. Roca, T. Basora Gallisa, J. Vizcaino, P. Llobet Alpizarte, C. Anguera Perpiñá, M. Llauradó Vernet, C. Caballero, M. Garcia Barco, M.D. Morán Martínez, J. García Rosselló, A. Del Pozo, C. Poblet Calaf, P. Arcelin Zabal, X. Floresví, M. Ciutat Benet, A. Palau Galindo, J.J. Cabré Vila, F. Dolz Andrés, M. Soler, M. Gracia Vidal, J. Vilalta J. Boj Casajuana, M. Ricard, F. Saiz, A. Isach, M. Sanchez Marin Martinez, E. Granado Font, C, Lucena Luque, C. Mestres Sola, N. Babio, N. Becerra-Tomás, G. Mestres, J. Basora, G. Mena-Sánchez, L. Barrubés Piñol, M. Gil Segura, N. Rosique-Esteban, S. Chig, I. Abellán Cano, V. Ruiz García, C. Gomez-Martinez, L. Lopez-Gonzalez, A. Salas-Huetos, I. Paz-Graniel, J. Roig Vallverdú, C. Claudia Miñana Garcia, L. Sánchez Niembro, P. Hernandez-Alonso, S. Canudas, A. Díaz-López.

Department of Preventive Medicine and Public Health, University of Navarra-Navarra Institute for Health Research (IdiSNA), Pamplona, Spain

M. Ruiz-Canela, E. Toledo, P. Buil-Cosiales, Z. Vázquez, C. Razquin, M. Bes-Rastrollo, A. Gea, A. Sanchez Tainta, B. SanJulian Aranguren, E. Goñi, L. Goñi, M.J. Cobo, A. Rico-Campa, F.J. Basterra Gortari, A. Garcia Arellano, J. Diez-Espino, O. Lecea-Juarez, J. Carlos Cenoz-Osinaga, I. Alvarez-Alvarez, M.C. Sayon-Orea, C.I. Fernandez-Lázaro, L. Ruiz-Estigarribia, J. Bartolome-Resano, A. Sola-Larraza (†), E. Lozano-Oloriz, B. Cano-Valles, S. Eguaras, E. Pascual Roquet-Jalmar, I. Galilea-Zabalza, H. Lancova, R. Ramallal, M.L. Garcia-Perez, V. Estremera-Urabayen, M.J. Ariz-Arnedo, C. Hijos-Larraz, C. Fernandez-Alfaro, B. Iñigo-Martinez, R. Villanueva Moreno, S. Martin-Almendros, L. Barandiaran-Bengoetxea, C. Fuertes-Goñi, A. Lezaun-Indurain, M.J. Guruchaga-Arcelus, O. Olmedo-Cruz, L. Escriche-Erviti, R. Ansorena-Ros, R. Sanmatin-Zabaleta, J. Apalategi-Lasa, J. Villanueva-Telleria, M.M. Hernández-Espinosa, L. Herrera-Valdez, L. Dorronsoro-Dorronsoro, Lourdes Echeverria-Lizarraga (†), J.A. Cabeza-Beunza, P. Fernández-Urretavizcaya, P. Gascó-García, C. Royo-Jimenez, J. Moran-Pí, F. Salazar-Fernández, F.J. Chasco-Ros, F. Cortés-Ugalde, J.J. Jurio-Burgui, P. Pascual-Pascual, A.I. Rodríguez-Ezpeleta, M. Esparza-Cáceres, C. Arroyo-Azpa, M. Rodríguez-Sanz de Galdeano, T. Forcen-Alonso, M. Armendariz-Marcotegui, A. Brugos-Larumbe, A. Arillo, B. López-Aisa.

Department of Preventive Medicine, University of Valencia, University Jaume I, Conselleria de Sanitat de la Generalitat Valenciana, Valencia, Spain

J.I. González, J.V. Sorlí, O. Portolés, R. Fernández-Carrión, C. Ortega-Azorín, R. Barragán, E.M. Asensio, O. Coltell, R. Martínez-Lacruz, I. GiménezAlba, C. Sáiz, R. Osma, E. Férriz, I. González-Monje, P. Guillém-Sáiz, F. Giménez-Fernández, L. Quiles, P. Carrasco, A. Carratalá-Calvo, C. Valero-Barceló, C. Mir, S. Sánchez-Navarro, J. Navas, I. González-Gallego, L. Bort-Llorca, L. Pérez-Ollero, M. Giner-Valero, R. Monfort-Sáez, J. Nadal-Sayol, V. Pascual-Fuster, M. Martínez-Pérez, C. Riera, M.V. Belda, A. Medina, E. Miralles, M.J. Ramírez-Esplugues, M. Rojo-Furió, G. Mattingley, M.A. Delgado, M.A. Pages, Y Riofrío, L. Abuomar, N. Blasco-Lafarga, R. Tosca, L. Lizán, A.M Valcarce, M.D. Medina, S. de Valcárcel, N. Tormo, O. Felipe-Román, S. Lafuente, E.I. Navío, G. Aldana, J.V. Crespo, J.L. Llosa, L. González-García, R. Raga-Marí.

Cardiovascular Risk and Nutrition Research Group, Endocrinology Service, Neurosciences Programme, Clinical Research Unit at the Hospital del Mar Medical Research Institute (IMIM), Barcelona. Medicine Departament, Universitat Autònoma de Barcelona, Barcelona, Spain

M. Fitó, O. Castañer, M.A. Muñoz, M.D. Zomeño, A. Hernaéz, L. Torres, M. Quifer, R. Llimona, G Freixer, KA. Pérez-Vega, M. Farràs, R. Elosua, J. Vila, I. Subirana, S. Pérez, A. Goday, J.J. Chillaron Jordan, J.A. Flores Lerroux, D. Benaiges Boix, G. Llauradó, M. Farré, E. Menoyo, A. Aldea-Perona, M. Pérez-Otero, D. Muñoz-Aguayo, S. Gaixas, G. Blanchart, A. Sanllorente, M. Soria, J. Valussi, A. Cuenca, L. Forcano, A. Pastor, A. Boronat, S. Tello, M. Cabañero, L. Franco, H. Schröder, R. De la Torre, C. Medrano, J. Bayó, M.T. García, V. Robledo, P. Babi, E. Canals, N. Soldevila, L. Carrés, C. Roca, M.S. Comas, G. Gasulla, X. Herraiz, A. Martínez, E. Vinyoles, J.M. Verdú, M. Masague Aguade, E. Baltasar Massip, M. López Grau, M. Mengual, V. Moldon, M. Vila Vergaz, R. Cabanes Gómez, Ciurana, M. Gili Riu, A. Palomeras Vidal, F Peñas F, A Raya, M.A. Sebastian, M. Valls, J. Guerrero, M. Marne, E. Minguella, M. Montenegro, A. Sala, M.R. Senan, N. Talens, N. Vera.

Nutritional Epidemiology Unit, Miguel Hernandez University, ISABIAL-FISABIO, Alicante, Spain

J. Vioque, M. García-de-la-Hera, E.M. Navarrete-Muñoz, S. Gonzalez-Palacios, L. Torres-Collado, L. Compañ-Gabucio, A. Oncina-Canovas, L. Notario-Barandiaran, D. Orozco-Beltran, S. Pertusa Martínez, A. Asensio, I. Candela-García, J.M. Zazo, C. Gisbert Sellés, N. Fernándis-Brufal, J. Román Maciá, C. Sánchez Botella, M. García Muñoz, C. Barceló, M.C. Altozano-Rodado, N. Iranzo García, M.C. Martínez Vergara, M.A. Sempere Pascual, S.J. Miralles Gisbert, A. González Botella, C.M. López García, R. Valls Enguix, N. Gómez Bellvert, I. López Aguilera, R. Lloret Macián, A. Pastor Morell, E. Alonso Bartolomé, J.J. Ballester Baixauli, M.T. Cano Sánchez, B.E. Ayús Rojo, E.P. Cases Pérez, C. Tercero Maciá, L.A. Mira Castejón, I.A. García García, M. Jordá Ballesta, C. Pastor Polo, E. Puig Agulló

Hospital Son Espases (HUSE) and Institute for Health Research Illes Balears (IdISBa), Palma de Mallorca, Spain

M. Fiol, M. Moñino, A. Colom, J. Konieczna, M. Morey, R. Zamanillo, A.M. Galmés-Panadés, V. Pereira, M.A. Martín, A. Yáñez, J. Llobera, J. Ripoll, R. Prieto, F. Grases, A. Costa, C. Fernández-Palomeque, E. Fortuny, M. Noris, S. Munuera, F. Tomás, F. Fiol, A. Jover, J.M. Janer, C. Vallespir, I. Mattei, N. Feuerbach, M. del Mar Sureda, S. Vega, L. Quintana, A. Fiol, M. Amador, S. González, J. Coll, A. Moyá, T. Piqué Sistac, M.D. Sanmartín Fernández, M.C. Piña Valls, M.A. Llorente San Martín, J. Pou Bordoy.

Department of Nutrition, Food Sciences, and Physiology, Center for Nutrition Research, University of Navarra, Pamplona, Spain

I. Abete, I. Cantero, C. Cristobo, I. Ibero-Baraibar, M. Zulet, J. Ágreda-Peiró, M.D. Lezáun-Burgui, N. Goñi-Ruiz, R. Bartolomé-Resano, E. Cano-Cáceres, T. Elcarte-López, E. Echarte-Osacain, B. Pérez-Sanz, I. Blanco-Platero, A. Andueza- Azcárate, A. Gimeno-Aznar, E. Ursúa-Sesma, B. Ojeda-Bilbao, J. Martinez-Jarauta, L. Ugalde-Sarasa, B. Rípodas-Echarte, M.V. Güeto-Rubio, C. Napal-Lecumberri, MD Martínez-Mazo, E Arina-Vergara, A. Parra-Osés, F. Artal-Moneva, F. Bárcena-Amigo, F. Calle-Irastoza, J. Abad-Vicente, J.I. Armendáriz-Artola, P. Iñigo-Cibrian, J. Escribano-Jarauta, J. Ulibarri-delportillo, B. Churio-Beraza, Y. Monzón-Martínez, E. Madoz-Zubillaga, C. Arroniz.

University of Málaga and Institute of Biomedical Research in Malaga (IBIMA), Málaga, Spain

F.J. Barón-López, J.C. Fernández García, N. Pérez-Farinós, N. Moreno-Morales, M. del C. Rodríguez-Martínez, J. Pérez-López, J.C. Benavente-Marín, E. Crespo Oliva, E. Contreras Fernández, F.J. Carmona González, R. Carabaño Moral, S. Torres Moreno, M.V. Martín Ruíz, M. Alcalá Cornide, V. Fuentes Gómez.

Lipids and Atherosclerosis Unit, Department of Internal Medicine, Maimonides Biomedical Research Institute of Cordoba (IMIBIC), Reina Sofia University Hospital, University of Cordoba, Cordoba, Spain

J. López-Miranda, A. Garcia-Rios, J. Criado García, A.I. Jiménez Morales, A. Ortiz Morales, J.D. Torres Peña, F.J. Gómez Delgado, J.F. Alcalá, A. León Acuña, A.P. Arenas Larriva, F. Rodríguez Cantalejo, J. Caballero Villaraso, I. Nieto Eugenio, P. Coronado Carvajal, M.C del Campo Molina, P.J. Peña Orihuela, I. Perez Corral, G. Quintana Navarro.

Department of Internal Medicine, Institut d’Investigacions Biomèdiques August Pi i Sunyer (IDIBAPS), Hospital Clínic, University of Barcelona, Barcelona, Spain

R. Casas, M. Domenech, C. Viñas, S. Castro-Barquero, A.M. Ruiz-León, R. Losno, L. Tarés, A. Jordán, R. Soriano, M. Camafort, C. Sierra, E. Sacanella, A. Sala-Vila, J. M. Cots, I. Sarroca, M. García, N. Bermúdez, A. Pérez, I. Duaso, A. de la Arada, R. Hernández, C. Simón, M.A. de la Poza, I. Gil, M. Vila, C. Iglesias, N. Assens, M. Amatller, LL. Rams, T. Benet, G. Fernández, J. Teruel, A. Azorin, M. Cubells, D. López, J.M. Llovet, M.L. Gómez, P. Climente, L. de Paula, J. Soto, C. Carbonell, C. Llor, X. Abat, A. Cama, M. Fortuny, C. Domingo, A. I. Liberal, T. Martínez, E. Yañez, M. J. Nieto, A. Pérez, E. Lloret, C. Carrazoni, A. M. Belles, C. Olmos, M. Ramentol, M. J. Capell, R. Casas, I. Giner, A. Muñoz, R. Martín, E. Moron, A. Bonillo, G. Sánchez, C. Calbó, J. Pous, M. Massip, Y. García, M.C. Massagué, R. Ibañez, J. Llaona, T. Vidal, N. Vizcay, E. Segura, C. Galindo, M. Moreno, M. Caubet, J. Altirriba, G. Fluxà, P. Toribio, E. Torrent, J. J. Anton, A. Viaplana, G. Vieytes, N. Duch, A. Pereira, M. A. Moreno, A. Pérez, E. Sant, J. Gené, H. Calvillo, F. Pont, M. Puig, M. Casasayas, A. Garrich, E. Senar, A. Martínez, I. Boix, E. Sequeira, V. Aragunde, S. Riera, M. Salgado, M. Fuentes, E. Martín, A. Ubieto, F. Pallarés, C. Sala, A. Abilla, S. Moreno, E. Mayor, T. Colom, A. Gaspar, A. Gómez, L. Palacios, R. Garrigosa.

Departament of Preventive Medicine and Public Health, University of Granada, Granada, Spain

L. García Molina, B. Riquelme Gallego, N. Cano Ibañez, A. Maldonado Calvo, A. López Maldonado, E.M. Garrido, A. Baena Dominguez, F. García Jiménez, E. Thomas Carazo, A. Jesús Turnes González, F. González Jiménez, F. Padilla Ruiz, J. Machado Santiago, M.D. Martínez Bellón, A. Pueyos Sánchez, L. Arribas Mir, R. Rodríguez Tapioles, F. Dorador Atienza, L. Baena Camus, C. Osorio Martos, D. Rueda Lozano, M. López Alcázar, F. Ramos Díaz, M. Cruz Rosales Sierra, P. Alguacil Cubero, A. López Rodriguez, F. Guerrero García, J. Tormo Molina, F. Ruiz Rodríguez.

Bioaraba Health Research Institute, Cardiovascular, Respiratory and Metabolic Area; Osakidetza Basque Health Service, Araba University Hospital; University of the Basque Country UPV/EHU, Vitoria-Gasteiz, Spain

I. Salaverria, A. Alonso-Gómez, M.C. Belló, L. Tojal, L. Goicolea, C. Sorto, A Goikoetxea, A. Casi Casanellas, M.L. Arnal Otero, J. Ortueta Martínez De Arbulo, J. Vinagre Morgado, J. Romeo Ollora, J. Urraca, M.I. Sarriegui Carrera, F.J. Toribio, E. Magán, A. Rodríguez, S. Castro Madrid, M.T. Gómez Merino, M. Rodríguez Jiménez, M. Gutiérrez Jodra, B. López Alonso, J. Iturralde Iriso, C. Pascual Romero, A. Izquierdo De La Guerra.

Research Group on Community Nutrition & Oxidative Stress, University of Balearic Islands and Institute for Health Research Illes Balears (IdISBa), Palma de Mallorca, Spain

M. Abbate, E. Angullo, E. Argelich, M.M. Bibiloni, C. Bouzas, X. Capó, S. Carreres, L. Gallardo, J.M. Gámez, B. García, C. García, A. Julibert, C. Gómez, I. Llompart, A. Martorell, C.M. Mascaró, D. Mateos, M, Monserrat, S. Montemayor, A. Pons, A. Pouso, M. Quetglas, J. Ramos, T. Ripoll, T. Rodríguez, A. Sureda, S. Tejada, L. Ugarriza, P. Vicente.

Virgen de la Victoria Hospital, University of Málaga, Málaga, Spain

M.R. Bernal López, M. Macías González, J. Ruiz Nava, J.C. Fernández García, A. Muñoz Garach, A. Vilches Pérez, A. González Banderas, A.V. Alarcón-Martín, M. García Ruiz de Mier, J. Alcaide Torres, A. Vargas Candela, M. León Fernández, R. Hernández Robles, S. Santamaría Fernández, J.M. Marín.

University of Las Palmas de Gran Canaria, Las Palmas, Spain

J. Álvarez-Pérez, E.M. Díaz Benítez, F. Díaz-Collado, A. Sánchez-Villegas, J. Pérez-Cabrera, L.T. Casañas-Quintana, R.B. García-Guerra, I. Bautista-Castaño, C. Ruano-Rodríguez, F. Sarmiento de la Fe, J.A. García-Pastor, B. Macías-Gutiérrez, I. Falcón-Sanabria, C. Simón-García, A.J. Santana-Santana, J.B. Álvarez-Álvarez, B.V. Díaz-González, J.M. Castillo Anzalas, R.E. Sosa-Also, J. Medina-Ponce.

Biomedicine Institute (IBIOMED); University of León, and Primary Health Care Management of León (Sacyl), León, Spain: Biomedicine Institute (IBIOMED); University of León, and Primary Health Care Management of León (Sacyl), León, Spain

S. Abajo Olea, L. Álvarez-Álvarez, M. Rubín García, A. Torres, P. Farias, N. Cubelos, A. Adlbi Sibai, M. Ajenjo, E. Carriedo Ule, M. Escobar Fernández, J.I. Ferradal García, J.P. Fernández Vázquez, C. González Quintana, F. González Rivero, M. Lavinia Popescu, J.I. López Gil, J. López de la Iglesia, A. Marcos Delgado, C. Merino Acevedo, S. Reguero Celada, M. Rodríguez Bul, E. Fernández Mielgo.

Department of Family Medicine, Distrito Sanitario Atención Primaria Sevilla, Sevilla, Spain

J.M. Santos-Lozano, L. Miró-Moriano, C. Domínguez-Espinaco, S. Vaquero-Díaz, F.J. García-Corte, A. Santos-Calonge, C. Toro-Cortés, N. Pelegrina-López, V. Urbano-Fernández, M. Ortega-Calvo, J. Lozano-Rodríguez, I. Rivera-Benítez, M. Caballero-Valderrama, P. Iglesias-Bonilla, P. Román-Torres, Y. Corchado-Albalat, L. Mellado-Martín.

Department of Endocrinology and Nutrition, Hospital Fundación Jimenez Díaz. Instituto de Investigaciones Biomédicas IISFJD. University Autonoma, Madrid, Spain

A.I. de Cos, S. Gutierrez, S. Artola, A. Galdon, I. Gonzalo.
Lipids and Vascular Risk Unit, Internal Medicine, University Hospital of Bellvitge- IDIBELL, Hospitalet de Llobregat, Barcelona, Spain: X. Pintó, A. Galera, M. Gimenez-Gracia, E. de la Cruz, R. Figueras, M. Poch, R. Freixedas, F. Trias, I. Sarasa, M. Fanlo-Maresma, H. Lafuente, M. Liceran, A. Rodriguez-Sanchez, C. Pallarols, E. Gómez-Sanchez, V. Esteve-Luque, J. Monedero, X. Corbella, E. Corbella.

Department of Endocrinology, IDIBAPS, Hospital Clinic, University of Barcelona, Barcelona, Spain

A. Altés, I. Vinagre, C. Mestre, J. Viaplana, M. Serra, J. Vera, T. Freitas, E. Ortega, I. Pla, R. Olbeyra.

Nutritional Control of the Epigenome Group. Precision Nutrition and Obesity Program, Institute IMDEA-Food, CEI UAM+CSIC, Madrid, Spain

J.M. Ordovás, V. Micó, L. Berninches, L. Díez, M.J. Concejo, J. Muñoz, M. Adrián, Y. de la Fuente, C. Albertos, M.L. Cornejo, C. Cuesta. A. Montero., J. Aroca

Division of Preventive Medicine, University of Jaén, Jaén, Spain

J.J. Gaforio, S. Moraleda, N. Liétor, J.I. Peis, T. Ureña, M. Rueda, M.I. Ballesta.

Department of Endocrinology and Nutrition, Hospital Clínico San Carlos, Instituto de Investigación Sanitaria del Hospital Clínico San Carlos (IdISSC), Madrid, España (Spain para internacionales)

C. Moreno Lopera, C. Aragoneses Isabel, M.A. Sirur Flores, M. Ceballos de Diego, T. Bescos Cáceres, Y. Peña Cereceda, M. Martínez Abad, R. Cabrera Vélez, M. González Cerrajero, M.A. Rubio Herrera, M. Torrego Ellacuría, A. Barabash Bustelo, M. Ortiz Ramos, A. Larrad Sainz.

Department of Basic and Clinical Psychology and Psychobiology, University Jaume I, Castellón de la Plana, Spain

R. Baños, A. García-Palacios.

Oxidative Pathology Unit. Department of Biochemistry and Molecular Biology, School of Medicine-INCLIVA, Service of Clinical Analyses, University Hospital Doctor Peset, Valencia, Spain. University of Valencia, Valencia Spain

G. Sáez Tormo (Sáez GT), N. Estañ-Capell, A. Iradi Casal, L. Monzó Beltrán, C. Bañuls Morant, E. Alonso Iglesias, D. Acevedo León, A. Hernando Espinilla, A. Mora Herranz, S. Alcover Sáez, J. A. Sánchez Herrero, J. Ventura Gayete, JM. López Ortega, ML Santaolaria Ayora, A. Carbonell Moncho, S. Mayo de Andrés.

Department of Preventive Medicine, University of Malaga, Malaga, Spain

J. Fernández-Crehuet Navajas, M. Gutiérrez Bedmar, A. García Rodriguez, A. Mariscal Larrubia, M. Carnero Varo, C. Muñoz Bravo.

Department of Psychiatry, University Hospital of Bellvitge, Barcelona, Spain

F. Fernández-Aranda, S. Jiménez-Murcia, N. Mallorqui-Bagué, R. Granero, Z. Agüera, M. Lozano-Madrid.

References

  1. Bray, G.A.; Kim, K.K.; Wilding, J.P.H. Obesity: A chronic relapsing progressive disease process. A position statement of the World Obesity Federation. Obes. Rev. 2017, 18, 715–723. [Google Scholar] [CrossRef] [Green Version]
  2. Global Obesity Observatory. Available online: https://www.worldobesitydata.org/country-profiles/ (accessed on 4 February 2020).
  3. WHO. Obesity: Preventing and Managing the Global Epidemic; WHO: Geneva, Switzerland, 2015. [Google Scholar]
  4. Catenacci, V.A.; Hill, J.O.; Wyatt, H.R. The obesity epidemic. Clin. Chest Med. 2009, 30, 415–444. [Google Scholar] [CrossRef]
  5. Bentham, J.; Di Cesare, M.; Bilano, V.; Bixby, H.; Zhou, B.; Stevens, G.A.; Riley, L.M.; Taddei, C.; Hajifathalian, K.; Lu, Y.; et al. Worldwide trends in body-mass index, underweight, overweight, and obesity from 1975 to 2016: A pooled analysis of 2416 population-based measurement studies in 128·9 million children, adolescents, and adults. Lancet 2017, 390, 2627–2642. [Google Scholar]
  6. Berrington de Gonzalez, A.; Hartge, P.; Cerhan, J.R.; Flint, A.J.; Hannan, L.; MacInnis, R.J.; Moore, S.C.; Tobias, G.S.; Anton-Culver, H.; Freeman, L.B.; et al. Body-Mass Index and Mortality among 1.46 Million White Adults. N. Engl. J. Med. 2010, 363, 2211–2219. [Google Scholar] [CrossRef] [Green Version]
  7. Cerhan, J.R.; Moore, S.C.; Jacobs, E.J.; Kitahara, C.M.; Rosenberg, P.S.; Adami, H.-O.; Ebbert, J.O.; English, D.R.; Gapstur, S.M.; Giles, G.G.; et al. A pooled analysis of waist circumference and mortality in 650,000 adults. Mayo Clin. Proc. 2014, 89, 335–345. [Google Scholar] [CrossRef] [Green Version]
  8. DeFronzo, R.A.; Ferrannini, E.; Groop, L.; Henry, R.R.; Herman, W.H.; Holst, J.J.; Hu, F.B.; Kahn, C.R.; Raz, I.; Shulman, G.I.; et al. Type 2 diabetes mellitus. Nat. Rev. Dis. Prim. 2015, 1, 15019. [Google Scholar] [CrossRef]
  9. Seravalle, G.; Grassi, G. Obesity and hypertension. Pharmacol. Res. 2017, 122, 1–7. [Google Scholar] [CrossRef]
  10. Garcia-Estevez, L.; Moreno-Bueno, G. Updating the role of obesity and cholesterol in breast cancer. Breast Cancer Res. 2019, 21, 35. [Google Scholar] [CrossRef] [Green Version]
  11. Puhl, R.; Suh, Y. Health Consequences of Weight Stigma: Implications for Obesity Prevention and Treatment. Curr. Obes. Rep. 2015, 4, 182–190. [Google Scholar] [CrossRef]
  12. Gill, S.V.; Hicks, G.E.; Zhang, Y.; Niu, J.; Apovian, C.M.; White, D.K. The association of waist circumference with walking difficulty among adults with or at risk of knee osteoarthritis: The Osteoarthritis Initiative. Osteoarthr. Cartil. 2017, 25, 60–66. [Google Scholar] [CrossRef] [Green Version]
  13. Gill, S.V.; Walsh, M.K.; Pratt, J.A.; Toosizadeh, N.; Najafi, B.; Travison, T.G. Changes in spatiotemporal gait patterns during flat ground walking and obstacle crossing 1 year after bariatric surgery. Surg. Obes. Relat. Dis. 2016, 12, 1080–1085. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  14. Huang, H.; Yan, Z.; Chen, Y.; Liu, F. A social contagious model of the obesity epidemic. Sci. Rep. 2016, 6, 37961. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  15. Encuesta Europea de Salud 2014. Instituto Nacional de Estadística. Gobierno De España. Número De Días Por Semana De Ejercicio Físico Durante El Tiempo De Ocio Según Sexo y Grupo De Edad. Población De 15 y Más Años. Available online: https://www.ine.es/jaxi/Tabla.htm?path=/t15/p420/a2014/p06/l0/&file=04022.px&L=0 (accessed on 3 March 2020).
  16. Kolotkin, R.L.; Andersen, J.R. A systematic review of reviews: Exploring the relationship between obesity, weight loss and health-related quality of life. Clin. Obes. 2017, 7, 273–289. [Google Scholar] [CrossRef] [Green Version]
  17. Gillison, F.B.; Skevington, S.M.; Sato, A.; Standage, M.; Evangelidou, S. The effects of exercise interventions on quality of life in clinical and healthy populations; a meta-analysis. Soc. Sci. Med. 2009, 68, 1700–1710. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  18. The WHOQOL Group. The World Health Organization quality of life assessment (WHOQOL): Position paper from the World Health Organization. Soc. Sci. Med. 1995, 41, 1403–1409. [Google Scholar] [CrossRef]
  19. Suárez, C.; Calvo, D.; María, C.; Sampedro, G. Health related to quality of life and their relationship with adherence to the mediterranean diet and physical activity at the university in Galicia. Nutr. Clín. Diet. Hosp. 2017, 37, 42–49. [Google Scholar]
  20. Piercy, K.L.; Troiano, R.P.; Ballard, R.M.; Carlson, S.A.; Fulton, J.E.; Galuska, D.A.; George, S.M.; Olson, R.D. The physical activity guidelines for Americans. J. Am. Med. Assoc. 2018, 320, 2020–2028. [Google Scholar] [CrossRef]
  21. Galilea-Zabalza, I.; Buil-Cosiales, P.; Salas-Salvadó, J.; Toledo, E.; Ortega-Azorín, C.; Díez-Espino, J.; Vázquez-Ruiz, Z.; Zomeño, M.D.; Vioque, J.; Martínez, J.A.; et al. Mediterranean diet and quality of life: Baseline cross-sectional analysis of the PREDIMED-PLUS trial. PLoS ONE 2018, 13, e0198974. [Google Scholar] [CrossRef] [Green Version]
  22. Fanning, J.; Walkup, M.P.; Ambrosius, W.T.; Brawley, L.R.; Ip, E.H.; Marsh, A.P.; Rejeski, W.J. Change in health-related quality of life and social cognitive outcomes in obese, older adults in a randomized controlled weight loss trial: Does physical activity behavior matter? J. Behav. Med. 2018, 41, 299–308. [Google Scholar] [CrossRef]
  23. Ryu, M.; Lee, S.; Kim, H.; Baek, W.-C.; Kimm, H. Effect of Aerobic Physical Activity on Health-Related Quality of Life in Middle Aged Women with Osteoarthritis: Korea National Health and Nutrition Examination Survey (2016–2017). Int. J. Environ. Res. Public Health 2020, 17, 527. [Google Scholar] [CrossRef] [Green Version]
  24. Daimiel, L.; Martínez-González, M.A.; Corella, D.; Salas-Salvadó, J.; Schröder, H.; Vioque, J.; Romaguera, D.; Martínez, J.A.; Wärnberg, J.; Lopez-Miranda, J.; et al. Physical fitness and physical activity association with cognitive function and quality of life: Baseline cross-sectional analysis of the PREDIMED-Plus trial. Sci. Rep. 2020, 10, 1–12. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  25. Saboya, P.P.; Bodanese, L.C.; Zimmermann, P.R.; da Silva Gustavo, A.; Assumpção, C.M.; Londero, F. Síndrome metabólica e qualidade de vida: Uma revisão sistemática. Rev. Lat. Am. Enferm. 2016, 24, 1–8. [Google Scholar]
  26. Heistaro, S.; Jousilahti, P.; Lahelma, E.; Vartiainen, E.; Puska, P. Self rated health and mortality: A long term prospective study in eastern Finland. J. Epidemiol. Community Health 2001, 55, 227–232. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  27. Slagter, S.N.; van Vliet-Ostaptchouk, J.V.; van Beek, A.P.; Keers, J.C.; Lutgers, H.L.; van der Klauw, M.M.; Wolffenbuttel, B.H.R. Health-Related Quality of Life in Relation to Obesity Grade, Type 2 Diabetes, Metabolic Syndrome and Inflammation. PLoS ONE 2015, 10, e0140599. [Google Scholar] [CrossRef]
  28. Estudio Predimed-Plus. Available online: https://www.predimedplus.com/ (accessed on 24 May 2019).
  29. Martínez-González, M.A.; Buil-Cosiales, P.; Corella, D.; Bulló, M.; Fitó, M.; Vioque, J.; Romaguera, D.; Martínez, J.A.; Wärnberg, J.; López-Miranda, J.; et al. Cohort Profile: Design and methods of the PREDIMED-Plus randomized trial. Int. J. Epidemiol. 2019, 48, 387–388. [Google Scholar] [CrossRef] [Green Version]
  30. Salas-Salvadó, J.; Díaz-López, A.; Ruiz-Canela, M.; Basora, J.; Fitó, M.; Corella, D.; Serra-Majem, L.; Wärnberg, J.; Romaguera, D.; Estruch, R.; et al. Effect of a Lifestyle Intervention Program With Energy-Restricted Mediterranean Diet and Exercise on Weight Loss and Cardiovascular Risk Factors: One-Year Results of the PREDIMED-Plus Trial. Diabetes Care 2019, 42, 777–788. [Google Scholar] [CrossRef] [Green Version]
  31. Alberti, K.G.M.M.; Eckel, R.H.; Grundy, S.M.; Zimmet, P.Z.; Cleeman, J.I.; Donato, K.A.; Fruchart, J.C.; James, W.P.T.; Loria, C.M.; Smith, S.C. Harmonizing the metabolic syndrome: A joint interim statement of the international diabetes federation task force on epidemiology and prevention; National heart, lung, and blood institute; American heart association; World heart federation; International atherosclerosis society; And international association for the study of obesity. Circulation 2009, 120, 1640–1645. [Google Scholar]
  32. Vilagut, G.; Ferrer, M.; Rajmil, L.; Rebollo, P.; Permanyer-Miralda, G.; Quintana, J.M.; Santed, R.; Valderas, J.M.; Ribera, A.; Domingo-Salvany, A.; et al. The Spanish version of the Short Form 36 Health Survey: A decade of experience and new developments. Gac. Sanit. 2005, 19, 135–150. [Google Scholar] [CrossRef] [Green Version]
  33. Alonso, J.; Regidor, E.; Barrio, G.; Prieto, L.; Rodríguez, C.; de la Fuente, L. Population reference values of the Spanish version of the Health Questionnaire SF-36. Med. Clin. 1998, 111, 410–416. [Google Scholar]
  34. Molina, L.; Sarmiento, M.; Peñafiel, J.; Donaire, D.; Garcia-Aymerich, J.; Gomez, M.; Ble, M.; Ruiz, S.; Frances, A.; Schröder, H.; et al. Validation of the Regicor Short Physical Activity Questionnaire for the Adult Population. PLoS ONE 2017, 12, e0168148. [Google Scholar] [CrossRef]
  35. Ainsworth, B.E.; Haskell, W.L.; Whitt, M.C.; Irwin, M.L.; Swartz, A.M.; Strath, S.J.; O’Brien, W.L.; Bassett, J.; Schmitz, K.H.; Emplaincourt, P.O.; et al. Compendium of physical activities: An update of activity codes and MET intensities. Med. Sci. Sports Exerc. 2000, 32, S498–S516. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  36. Lopez-Garcia, E.; Guallar-Castillón, P.; Garcia-Esquinas, E.; Rodríguez-Artalejo, F. Metabolically healthy obesity and health-related quality of life: A prospective cohort study. Clin. Nutr. 2017, 36, 853–860. [Google Scholar] [CrossRef] [PubMed]
  37. Pengpid, S.; Peltzer, K. High sedentary behaviour and low physical activity are associated with lower health related quality of life in Myanmar and Vietnam. Cogent Psychol. 2019, 6, 1601327. [Google Scholar] [CrossRef]
  38. Jantunen, H.; Wasenius, N.; Salonen, M.K.; Kautiainen, H.; von Bonsdorff, M.B.; Kajantie, E.; Eriksson, J.G. Change in physical activity and health-related quality of life in old age—A 10-year follow-up study. Scand. J. Med. Sci. Sports 2019, 29, 1797–1804. [Google Scholar] [CrossRef] [PubMed]
  39. Mikkelsen, K.; Stojanovska, L.; Polenakovic, M.; Bosevski, M.; Apostolopoulos, V. Exercise and mental health. Maturitas 2017, 106, 48–56. [Google Scholar] [CrossRef]
  40. Alsufiany, M.B.; Lohman, E.B.; Daher, N.S.; Gang, G.R.; Shallan, A.I.; Jaber, H.M. Non-specific chronic low back pain and physical activity. Medicine 2020, 99, e18544. [Google Scholar] [CrossRef]
  41. Jahangiry, L.; Montazeri, A.; Najafi, M.; Yaseri, M.; Farhangi, M.A. An interactive web-based intervention on nutritional status, physical activity and health-related quality of life in patient with metabolic syndrome: A randomized-controlled trial (The Red Ruby Study). Nutr. Diabetes 2017, 7, e240. [Google Scholar] [CrossRef] [Green Version]
  42. Busutil, R.; Espallardo, O.; Torres, A.; Martínez-Galdeano, L.; Zozaya, N.; Hidalgo-Vega, Á. The impact of obesity on health-related quality of life in Spain. Health Qual. Life Outcomes 2017, 15, 197. [Google Scholar] [CrossRef]
  43. Barcones-Molero, M.F.; Sánchez-Villegas, A.; Martínez-González, M.A.; Bes-Rastrollo, M.; Martínez-Urbistondo, M.; Santabárbara, J.; Martínez, J.A. The influence of obesity and weight gain on quality of life according to the SF-36 for individuals of the dynamic follow-up cohort of the University of Navarra. Rev. Clínica Española 2018, 218, 408–416. [Google Scholar] [CrossRef] [Green Version]
  44. Sayón-Orea, C.; Santiago, S.; Bes-Rastrollo, M.; Martínez-González, M.; Pastor, M.; Moreno-Aliaga, M.; Tur, J.; Garcia, A.; Martínez, J. Determinants of Self-Rated Health Perception in a Sample of a Physically Active Population: PLENUFAR VI Study. Int. J. Environ. Res. Public Health 2018, 15, 2104. [Google Scholar] [CrossRef] [Green Version]
  45. Chin, S.H.; Huang, W.L.; Akter, S.; Binks, M. Obesity and pain: A systematic review. Int. J. Obes. 2019, 44, 969–979. [Google Scholar] [CrossRef] [PubMed]
  46. Tronieri, J.S.; Wurst, C.M.C.; Pearl, R.L.; Allison, K.C. Sex Differences in Obesity and Mental Health. Curr. Psychiatry Rep. 2017, 19, 29. [Google Scholar] [CrossRef] [PubMed]
  47. Sylliaas, H.; Brovold, T.; Wyller, T.B.; Bergland, A. Prolonged strength training in older patients after hip fracture: A randomised controlled trial. Age Ageing 2012, 41, 206–212. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  48. Karinkanta, S.; Nupponen, R.; Heinonen, A.; Pasanen, M.; Sievänen, H.; Uusi-Rasi, K.; Fogelholm, M.; Kannus, P. Effects of exercise on health-related quality of life and fear of falling in home-dwelling older women. J. Aging Phys. Act. 2012, 20, 198–214. [Google Scholar] [CrossRef] [PubMed]
  49. Awick, E.A.; Wójcicki, T.R.; Olson, E.A.; Fanning, J.; Chung, H.D.; Zuniga, K.; Mackenzie, M.; Kramer, A.F.; McAuley, E. Differential exercise effects on quality of life and health-related quality of life in older adults: A randomized controlled trial. Qual. Life Res. 2015, 24, 455–462. [Google Scholar] [CrossRef] [Green Version]
  50. Pozas Saboya, P.; Bodanese, L.C.; Zimmermann, P.R.; da Silva Gustavo, A.; Macagnan, F.E.; Pandolfo Feoli, A.M.; da Silva Oliveira, M.; Lourega Chieza, F. Association between metabolic syndrome and quality of life. Sci. Med. 2016, 26, 3. [Google Scholar] [CrossRef] [Green Version]
  51. Hajian-Tilaki, K.; Heidari, B.; Hajian-Tilaki, A. Are gender differences in health-related quality of life attributable to sociodemographic characteristics and chronic disease conditions in elderly people? Int. J. Prev. Med. 2017, 8, 95. [Google Scholar]
Figure 1. Adjusted means (points) for each of the 8 dimensions and aggregated physical/mental dimensions of health-related quality of life (HRQoL) by baseline categories of PA (metabolic equivalents (METs).min/week).
Figure 1. Adjusted means (points) for each of the 8 dimensions and aggregated physical/mental dimensions of health-related quality of life (HRQoL) by baseline categories of PA (metabolic equivalents (METs).min/week).
Ijerph 17 03728 g001
Figure 2. Mean differences and confidence intervals in the HRQoL dimensions according to PA categories in the Predimed-Plus trial.
Figure 2. Mean differences and confidence intervals in the HRQoL dimensions according to PA categories in the Predimed-Plus trial.
Ijerph 17 03728 g002
Figure 3. Adjusted means (points) for each of the 8 dimensions and aggregated physical/mental dimensions of HRQoL by baseline categories of BMI (kg/m2).
Figure 3. Adjusted means (points) for each of the 8 dimensions and aggregated physical/mental dimensions of HRQoL by baseline categories of BMI (kg/m2).
Ijerph 17 03728 g003
Figure 4. Mean differences and confidence intervals in the HRQoL dimensions according to BMI categories in the Predimed-Plus trial.
Figure 4. Mean differences and confidence intervals in the HRQoL dimensions according to BMI categories in the Predimed-Plus trial.
Ijerph 17 03728 g004
Table 1. Baseline characteristics of the participants according to baseline PA levels. Light = 0–1200 METs–min/weeks; moderate = 1200–1800 METs–min/week; vigorous= >2800 METs–min/week. Mean ± SD for age and body mass index (BMI). (%) for type 2 diabetes. depression. blood pressure. history of cancer. history of lung disease. smoking status. marital status and educational level. PA levels were compared with age and BMI with ANOVA test and with diabetes, depression, blood pressure, History of cancer, history of lung disease and smoking status. Marital status and educational level with a χ2 test. Significant p values in bold.
Table 1. Baseline characteristics of the participants according to baseline PA levels. Light = 0–1200 METs–min/weeks; moderate = 1200–1800 METs–min/week; vigorous= >2800 METs–min/week. Mean ± SD for age and body mass index (BMI). (%) for type 2 diabetes. depression. blood pressure. history of cancer. history of lung disease. smoking status. marital status and educational level. PA levels were compared with age and BMI with ANOVA test and with diabetes, depression, blood pressure, History of cancer, history of lung disease and smoking status. Marital status and educational level with a χ2 test. Significant p values in bold.
PA
TotalMenWomen
LightModerateVigorousp-ValueLightModerateVigorousp-ValueLightModerateVigorousp-Value
METs–min/week0–12001200–2800>2800 0–12001200–2800>2800 012001200–2800>2800
N 221722062297 97710791417 12401127880
Age (y) 64 (5)65 (5)65 (5)<0.00162 (5)64 (5)64 (5)<0.00166 (4)66 (4)66(4)0.356
Body-mass index (kg/m2)33.2 (3.5)32.4 (3.3)32.0 (3.1)<0.00133.0 (3.3)32.1 (3.1)31.9 (3.0)<0.00133.4 (3.6)33.7 (3.5)32.2 (3.3)<0.001
Type 2 Diabetes at baseline (%)29.426.126.30.04830.628.828.50.57928.423.522.70.017
Depression at baseline (%)23.920.817.7<0.00112.413.110.90.24832.928.128.50.021
Systolic blood pressure ≥140 mmHg (%)44.447.748.60.01346.351.553.30.0034344.1410.382
Systolic blood pressure ≥90 mmHg (%)18.518.919.10.86524.823.922.20.32513.614.114.10.907
History of cancer (%)8.57.35.80.00245.94.20.06812.18.68.40.004
History of lung disease (%)5.24.14.30.1575.74.54.70.4154.93.73.50.238
Smoking status (%) <0.001 <0.001 0.002
Current smoker47.444.939.9 22.619.623.1 66.96966.9
Former smoker37.843.448.9 56.463.862.5 23.22427.2
Never smoker14.811.711.2 2116.614.5 1075.9
Marital status (%) 0.004 0.15010 0.234
Married74.775.878.9 82.884.786.5 68.367.266.8
Single5.455.1 5.64.34 5.25.67
Divorced9.17.67.1 8.77.66.3 9.47.58.4
Widowed/widower10.911.78.8 2.93.43.3 17.119.717.8
Educational level (%) 0.939 0.006 0.468
Primary school or less49.748.948.4 35.237.542 61.159.858.8
Secondary school28.629.129.2 33.932.332 24.426.124.7
High school or university21.72222.4 30.930.226 14.414.116.6
Table 2. Baseline characteristics of the participants according to baseline BMI categories <30 kg/m2; 30–32.4 kg/m2; 32.5–34.9 kg/m2; ≥35 kg/m2. Mean ± SD for age and METs.min/week. (%) for type 2 diabetes, depression, blood pressure, history of cancer, history of lung disease, smoking status, marital status and educational level. BMI categories were compared with age and METs.min/week with ANOVA test and with diabetes, depression, blood pressure, history of cancer, history of lung disease, smoking status, marital status and educational level with a χ2 test. Significant p values in bold.
Table 2. Baseline characteristics of the participants according to baseline BMI categories <30 kg/m2; 30–32.4 kg/m2; 32.5–34.9 kg/m2; ≥35 kg/m2. Mean ± SD for age and METs.min/week. (%) for type 2 diabetes, depression, blood pressure, history of cancer, history of lung disease, smoking status, marital status and educational level. BMI categories were compared with age and METs.min/week with ANOVA test and with diabetes, depression, blood pressure, history of cancer, history of lung disease, smoking status, marital status and educational level with a χ2 test. Significant p values in bold.
BMI
TotalMenWomen
kg/m2 <3030–32.432.5–34.9>35p-Value<3030–32.432.5–34.935p-Value<3030–32.432.5–34.935p-Value
N 1.7471.8461.5171.610 9591.032780702 788814737908
Age (SD) 65 (5)65 (5)65 (5)65 (5)0.09364 (5)64 (5)63 (5)63 (5)0.00366 (4)67 (4)66 (4)66 (4)0.352
PA (Mets-min/week)2724.6
(2309.4)
2595.1
(2376.1)
2473.1
(2381.4)
2014.7
(2059.5)
<0.0013108.9
(2524.7)
2944.7
(2667.0)
2852.5
(2711.9)
2369.6
(2377.2)
<0.0012256.8
(1916.9)
2151.9
(1854.8)
2071.6
(1893.0)
1740.3
(1727.5)
<0.001
Type 2 diabetes at baseline (%)26.326.127.529.40.11629.727.82930.80.19222.123.825.928.40.121
Depression at baseline (%)17.919.921.624<0.00110.511.813.412.70.30626.83030.432.70.068
Systolic blood pressure ≥140 mmHg (%)42.948.24650.8<0.00147.350.551.455.10.01937.445.340.347.4<0.001
Diastolic blood pressure ≥90 mmHg (%)15.319.120.420.9<0.00119.723.625.526.20.0069.913.515.116.70.001
History of cancer (%)7.66.77.27.50.73664.35.13.10.0489.59.79.410.80.749
History of lung disease (%)4.13.955.20.1554.53.95.56.30.1063.73.84.54.40.798
Smoking status (%) <0.001 0.120 <0.001
Current smoker42.640.544.748.8 2321.520.622.2 66.464.770.269.3
Former smoker42.146.843.441.2 57.562.863.860.9 23.426.521.926
Never smoker15.312.711.910 19.515.715.716.9 10.28.97.94.8
Marital status (%) 0.078 0.113 0.702
Married7777.877.573.6 84.585.186.783 67.768.467.866.3
Single54.94.85.9 3.254.36 7.14.95.45.8
Divorced8.77.67.38.1 8.67.25.97.6 8.78.18.78.5
Widowed/widower9.59.710.412.6 3.72.73.13.4 16.518.618.119.5
Educational level (%) <0.001 0.259 0.003
Primary school or less44.148.351.952.4 35.738.84140.2 54.360.463.461.9
Secondary school30.229.427.928.3 3332.832.132.6 26.825.123.524.9
High school or university25.822.320.219.3 31.428.526.927.2 18.914.513.213.2

Share and Cite

MDPI and ACS Style

Marcos-Delgado, A.; Fernández-Villa, T.; Martínez-González, M.Á.; Salas-Salvadó, J.; Corella, D.; Castañer, O.; Martínez, J.A.; Alonso-Gómez, Á.M.; Wärnberg, J.; Vioque, J.; et al. The Effect of Physical Activity and High Body Mass Index on Health-Related Quality of Life in Individuals with Metabolic Syndrome. Int. J. Environ. Res. Public Health 2020, 17, 3728. https://0-doi-org.brum.beds.ac.uk/10.3390/ijerph17103728

AMA Style

Marcos-Delgado A, Fernández-Villa T, Martínez-González MÁ, Salas-Salvadó J, Corella D, Castañer O, Martínez JA, Alonso-Gómez ÁM, Wärnberg J, Vioque J, et al. The Effect of Physical Activity and High Body Mass Index on Health-Related Quality of Life in Individuals with Metabolic Syndrome. International Journal of Environmental Research and Public Health. 2020; 17(10):3728. https://0-doi-org.brum.beds.ac.uk/10.3390/ijerph17103728

Chicago/Turabian Style

Marcos-Delgado, Alba, Tania Fernández-Villa, Miguel Ángel Martínez-González, Jordi Salas-Salvadó, Dolores Corella, Olga Castañer, J. Alfredo Martínez, Ángel M. Alonso-Gómez, Julia Wärnberg, Jesús Vioque, and et al. 2020. "The Effect of Physical Activity and High Body Mass Index on Health-Related Quality of Life in Individuals with Metabolic Syndrome" International Journal of Environmental Research and Public Health 17, no. 10: 3728. https://0-doi-org.brum.beds.ac.uk/10.3390/ijerph17103728

Note that from the first issue of 2016, this journal uses article numbers instead of page numbers. See further details here.

Article Metrics

Back to TopTop