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Volume 20 Supplement 1

Level and Determinants of Physical Activity in the V4 Countries - Part 1

  • Research
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The effect of a community-based e-health program to promote the role of physical activity among healthy adults in Hungary

国产情侣 Public Health volume听20, Article听number:听1059 (2020) Cite this article

Abstract

Background

Physically active lifestyle can prolong the years spent without chronic diseases and is strongly associated with good mental and physical health. The goal of the study was to examine the physical activity patterns of the healthy adults and the effectiveness of a community-based e-health program.

Methods

The study sample comprised of 633 participants. Analyses were based on the E-Harmony health program that was conducted in Hungary in 2014鈥2015. The longitudinal study measured the physical activity patterns of the healthy adult population, and a 12-month community-based internet and media program was evaluated for the target group to improve the physical activity level and related knowledge. We examined the effectiveness of the program by the International Physical Activity Questionnaire 鈥 Hungarian validated long version adjusting for socio-demographic parameters, also across multivariate linear regression analysis using SPSS 24.0 software. Confidence interval of 95% was used and the level of significance was p鈥&濒迟;鈥0.05.

Results

The total physical activity of the study sample was 5129.9 (SD鈥=鈥4488.1) MET min/week. Male participants scored higher in total activity but the results showed no statistical significance. Our participants were sitting 2211.6 (SD鈥=鈥1592.8) min /week on average (daily average was 315.9 (SD鈥=鈥227.6) minutes); the results showed no statistically significant difference by gender. We found weak but significant relationship between the active lifestyle and anthropometric data, especially according to leisure time activities and sedentary behaviour (p鈥&濒迟;鈥0.001). Based on the multivariate linear regression models the socio-demographic parameters significantly affected the physical activity level of participants. After the 12-month community-based e-health program, 10.34% changes occurred in the total physical activity level (p鈥&濒迟;鈥0.001).

Conclusions

To our knowledge, ours was the first community-based e-health program in Hungary to improve the physical activity level of the healthy adult population. Based on our results this web-based e-health program can be an adequate tool to promote healthy lifestyle. The study could provide appropriate information for the further health interventions and policy making. Further research is necessary to determine the special risk groups and to develop an applicable e-health program for such specific subgroups.

Background

Physically active lifestyle can prolong the years spent without chronic diseases and is strongly associated with good mental and physical health [1,2,3,4,5,6,7]. According to the World Health Organization鈥檚 (WHO) recommendation, at least 150鈥塵in of moderate physical activity per week is suggested for a healthy adult aged 18鈥64 [8]. According to the recommendation, activities aimed to improve muscle strength and endurance should be carried out 2鈥3鈥塪ays a week [8,9,10].

The Eurobarometer 2017 data showed that 53% of the Hungarian population do no physical activity at all. 14% of Hungarians rarely engage in physical activity, and only 33% do sports regularly (either at professional or amateur level). While this result showed an improvement compared to the 2009 data, values are still lower than the European average [11]. According to the National Nutrition Survey 2014 (OT脕P), the proportion of overweight and obese adults in Hungary was 65% [12]. The WHO supports the evaluation of the community-based interventions to combat physical inactivity. Furhermore it defined e-health definitions also and communication strategies for health which can be used as an additional method to reach people [13, 14].

In addition, interventions and prevention programs aim to improve the health status of the population, with many methods available. Nowadays web-based prevention programs are becoming more and more popular with the widespread availability of the Internet and the frequent use of social networking websites. Studies confirmed the fact that internet-based prevention programs are easy to organize and flexible, with the great advantages of being available 24鈥塰 a day and their lower costs [15,16,17,18,19].

According to the data of the Hungarian Central Statistical Office, 66 and 78% of the population used the Internet regularly (at least once a week on average) in Hungary in 2011 and in 2016, respectively. Based on the above, the web- and social networking sites can be suitable for reaching the healthy adult population [20].

The healthy, working-age population (18鈥64 aged) is an important target group for health promotion [21] in the developed ageing European societies, as their health status and prolonged labour force is an important element for the economy [1, 22].

Self-care behaviors have an important function in the promotion of physically active lifestyle.

Our study is based on Pender鈥檚 Health Promotion Model and Bandura鈥檚 Social Cognitive Theory, both frequently used in measuring changes in physical activity patterns. Lifestyle and health behaviour is driven by personal conditions like socioeconomic or health status [23, 24].

The aim of our study was to explore Hungarian healthy adults鈥 current physical activity patterns and to measure the effectiveness of a community-based e-health program (E-Harmony Study) in increasing self-reported physical activity levels in individuals in a 12- month timeframe.

Methods

Study design and settings

Our study was an interventional pre-post design research using purposive sampling, representative for gender and age based on country statistics of the Hungarian Central Statistical Office. The target group was selected with the aim of examining the physical activity patterns and effectiveness of a community-based e-health program among healthy adults according to socioeconomic status. Baseline data collection occurred in June to September 2014 and the follow-up data derived from June to September 2015 in Baranya County, Hungary, among healthy 18鈥64-year-old adults.

A total sample of 750 participants was recruited and 633 individuals agreed to participate in the 鈥淓-Harmony鈥 Study (response rate was 84.4%). Eligible participants reported good or very good health status and Baranya county residency, were not hampered in physical activities, and were aged 41.03鈥壜扁13.25鈥墆ears. Data were collected by trained researchers using standard tablet-assisted personal interviews, covering physical activity and socioeconomic parameters. Participating researchers were trained before the examination by a senior researcher team. All participants provided written informed consent prior to the survey. There was no incentive to participate in this examination.

Measures

The first part of the data collection tool contained a demographic questionnaire with additional queries about health status.

The second part consisted of the International Physical Activity Questionnaire (IPAQ) 鈥 long version. Its Hunagrian version (IPAQ-HL) was validated among healthy adult population. The IPAQ long version contains 31 questions; the examined 5 domains were work, active transportation, household work, leisure time activitites, and sitting time. All activities were measured over the 7鈥塪ays prior to data provision. We applied the IPAQ data truncation rule, and all activities exceeding 3鈥塰 were recoded as 180鈥塵in. Evaluation of physical activity has two different methods, using the frequency values as min/week scores or MET min/week values [25]. For summarizing physical activities, we calculated domain scores (MET min/week), and intensity scores as moderate, vigorous and MVPA values (MET min/week). The MET values are given in the study by Ainsworth et al. (2000) and the IPAQ scoring protocol. One MET is equal to energy expenditure during rest, and is approximately equal to 3.5鈥塵l O2/kg鈥塵in in healthy adults [26].

To measure antrophometric data we used the OMRON BF511 body composition monitor.

While measuring body weight (kg), participants were dressed in light clothing without shoes. Height (cm) was measured and recorded to the nearest 0.5鈥塩m, in standing position, without shoes, using an anthropometric tape measure.

Health and physical activity promotion program

E-Harmony is a community-based e-health program organized to encourage and guide active lifestyle. It is based on two popular and frequently used theoretical frameworks for health programs aimed at increasing physical activity. One is Bandura鈥檚 Social Cognitive Theory and the other is Pender鈥檚 Health Promotion Model [23, 24]. Health promotion is aimed at changing social, environmental, and economic conditions to improve the health of the target group or community (WHO, 2017). In 1973, Bandura鈥檚 experiments underpinned the theory of social learning, based on many interventions aimed at increasing physical activity today (Bandura, 1986). The theory claimed that most human behaviour is learned observationally through modelling, observing others and on later occasions this coded information serves as a guide of action. The theory explains human behaviour in terms of continuous reciprocal interaction between cognitive, behavioral, and environmental influences [27].

The Health Promotion Model was developed by Pender in 1996. It claims that health behaviour is driven by behaviour-specific conditions and affect interpersonal influences [24].

It focuses on helping people achieve higher levels of health-related quality of life and identifies background factors influencing that [28].

We evaluated our community-based e-health program based on Bandura and Pender鈥檚 theories. The first part of our research was a quantitative analysis of participants, where they completed a demographic and physical activity questionnaire. After the first data collection the research team summerized the results and evaluated the information dissemination and physical activity programs.

The program highlighted freely available outdoor, home, and work activitites and active transportation options. E-Harmony was developed by our research group and designed especially for the targeted population of healthy adults taking into account their socio-cultural specificities.

The program contained two elements as web-based video tools to increase physical activity level of the participants with 10 sessions and web-based educational contents to increase the physical literacy levels. Program elements were compiled by a research team consisting of an internal medicine specialist, physiotherapists, sport experts, and psychologists.

In the program videos we highlighted special interest groups like different age groups (middle aged and ageing adults), current sport trends for younger people and water activitites. Furthermore, we provided information on a training program applicable during healthy pregnancy and after childbirth.

In our health promotion program the physical activity videos were supplemented by training notes to increase the physical literacy of participants. Through our research website and social network sites our physiotherapist staff provided useful information on sports and physical activity topics. The purpose of the various educational contents was to draw attention to the importance of physical activity, especially on the tools and forms of exercise that are easily accessible and free of charge. Furthermore, every participant was mentored by a trained interviewer deriving from academic field of health sciences.

Statistical analysis

Descriptive analyses were conducted to characterize the sample. The frequency numbers (%, N) were described the categorical variables and mean鈥+鈥塻tandard deviation (SD) or mean鈥+鈥塩onfidence interval (CI) the continuous variables. To examine results we used normality tests (Kolmogorov-Smirnov tests), non-parametric tests, Wilcoxon test (to measure changes in physical activity level), Mann-Whitney U tests (to measure group differences), and Sperman鈥檚 rank correlation (to measure the relationship between the different continuous physical activity data and antropometric and socioeconomic variables). To compare the categorical data, chi-square test was applied. The effect of socioeconomic parameters on physical activity was measured by multivariate linear regression analyses. Confidence interval of 95% was used and the level of significance was p鈥&濒迟;鈥0.05. Analyses were performed using SPSS 24.0.

Results

Socioeconomic and anthropometric characteristics of the study population

The major socioeconomic parameters of the study population are presented in Table 1. Half of the sample was married, two third of them had a job, and only 25% of the sample had a physically demanding job. Most of them had urban residence, and their educational level was secondary. We found significant differences in gender according to the marital status, work form, and financial situations (Table 1).

Table 1 General characteristics of the sample (N鈥=鈥633)
Full size table

Key element of our study was the examination of the antrophometric properties. The results are shown in Table听2. We found significant difference by gender according to all parameters except for waist circumference (Table 2).

Table 2 Antrophometric properties of the examined sample (N鈥=鈥633)
Full size table

Descriptive analysis of physical activity patterns of the study sample

The physical activity patterns of the sample were measured by IPAQ-HL. After summarizing the scores, the main results were scored in continuous variables. These indicators were total physical activity, domain scores (as work, transportation, household activities, and leisure time actitivites), and intensity scores (moderate and vigorous physical activity and walking scores), all of them expressed in MET min/week. Respective results are presented in Table听3.

Table 3 Baseline physical activity patterns of the study sample (N鈥=鈥633)
Full size table

The total activity was 5129.9 (SD鈥=鈥4488.1) MET min/week. Male participants scored higher in total activity but the results did not show statistical significance. The total scores contained all examined domains of the IPAQ-HL as listed before. Two third of the activities were work and household activities and only one third of them were leisure time activitites and active transportation (i.e. walking and cycling).

Another indicator in examining the active lifestyle is sedentary behaviour and time spent sitting. On average, participants were sitting 2211.6 (SD鈥=鈥1592.8) min/week. The daily average time spent sitting was 315.9 (SD鈥=鈥227.6) minutes. The results did not show statistically significant difference among genders.

Physical activity patterns were described for the whole sample and for male and female participants separately. Male adults were more active in work and in leisure time activitites, while female adults spent more time on household activitites and active transportation. According to the intensity of the activitites, male participant spent more time with vigorous activitites than females (Table 3).

Comparative analysis of physical activity and anthropometric parameters

The results in Table 4 showed correlations between antrophometric properties and physical activity patterns. We found weak but significant relationship between the active lifestyle and antrophometric data, especially according to the leisure time activities and sedentary behaviour. The physically active lifestyle has a positive effect on body composition scales (Table 4).

Table 4 Spearman鈥檚 Rank Correlation between baseline IPAQ-HL measures and anthropometric data
Full size table

Multivariate analysis of physical activity level and the predicting socioeconomic parameters

In our study we examined the effect of the sociodemographic parameters on physical activity (PA) patterns with multivariate linear regression analysis. We analysed 5 regression models where the dependent variables were total PA, work PA, active transportation, household activitites, and leisure time activitites. We found significant relationship between the physical activity pattens and sociodemographic variables such as age, education, work type and financial status, results of which are shown in Table听5.

Table 5 Multivariate regression analyses on social determinants of physical activity patterns
Full size table

Effectiveness of the community-based e-health program by physical activity level

We found significant positive effect of active lifestyle on anthropometric properties and our results showed that socio-demographic parameters significantly affected the physical activity level of Hungarian healthy adults.

We examined changes after the 12-month web-based health promotion program. 10.34% changes were shown in total physical activity level. The different subdomains showed the details of changes in PA patterns: the vigorous activity values did not increase (鈭4.5%), while the highest increase was found in walking (36.5%), transportation (27.7%), and leisure time activities (16.1%). The increased level of PA and the decreased level of sitting time (23.4% weekly sitting time in total) was evaluated (Table 6).

Table 6 The examination of the effect of a 12-month community-based e-health program among healthy Hungarian adults (N鈥=鈥497)
Full size table

Discussion

In our study we measured the effect of an online community-based e-health program.

The 12-month community-based e-health program could be considered successful, as 10.34% changes were shown in total physical activity level (p鈥&濒迟;鈥0.001). Our findings support further development of additional specific interventions for different target groups.

Based on our results the community-based e-health program could be a popular and effective way to motivate healthy adults to follow a healthy and physically active lifestyle.

In the past years several studies were published to examine the effectiveness of different PA health programs and interventions [29]. Most of the research emphasized that web-based interventions are less effective than personal communication, but their important advantage is extensive availability [30]. Furthermore, web-based interventions are popular among the participants also, because more than half of the health Internet users would like to increase physical activity across online health programs [31].

The role of personal coaching is beneficial in motivation but the educational role is indispensable in health programs, when it comes to training participants on precise execution. This fact was proven in our study and several other ones in past years.

Nakamura et al. sought to increase the popularity of vegetable consumption among adult population. Their research emphasizes that Internet-based surveys nowadays have the advantage of reaching lower socio-demographic groups [32].

The active adulthood of the population can be achieved by maintaining the physical activity in age-appropriate form. In their research Braun et al. drew the attention of the target group on educational materials (videos and instructional films) during the intervention. As a result, participants could retain their physical independence longer and can continue to participate in the labour market [33].

Larsen and coworkers created a web-based physical activity intervention program for adolescents with participants who exercised less than 90鈥塵in per week. They participated in a 12-week program with online intervention. Questionnaires and accelerometers were applied to analyze the efficacy of the intervention. All in all, Larsen鈥檚 research has proven that smart phone applications and Internet-based research are appropriate and effective [34].

Larsen et al. also developed a web-based physical activity enhancement program for adults, with 205 adults aged 18鈥65, in the United States. The aim of the program was to increase physical activity by providing participants with online tutorials. Through the website, it was possible to set goals, measure activity and communicate with participants, according to the proven results of the program [35].

Degroote et al. developed a research that introduced MyPlan 1.0, to initiate behavioral change and increased physical activity with 328 participants. The program brought about significant changes in overall moderate and vigorous physical activity. However, as a disadvantage of the program, the authors indicated a high dropout rate, more than half of the respondents dropping out during the study [36]. In our study the dropout rate during 12鈥塵onths was 21.48%, which could be considered a successful result, and is probably due to the personal coaching element of the program.

In our study we evaluated physical activity levels by IPAQ-HL questionnaire using tablets by trained interviewers. We found that physical activity patterns are strongly correlated with sociodemographic and anthropometric parameters.

According to our results, the physical activity level of the healthy Hungarian adult population is strongly determined by work and household activitites, while one-fifth of the total scores were leisure time activities including walking, moderate, and vigorous activities. European data, expecially the V4 data showed similar results (total PA score of V4 countries was: 6023.95鈥壜扁5727.01), but the Hungarian scores showed lower values, thus a suitable aim could be to catch up with the European average [11, 37, 38].

Our results confirmed that the more time spent with sitting, the less favourable the anthropometric data was, and the more time spent with leisure sports, the better the anthropometric data was, which clearly shows the role and significance of physical activity in body composition data.

To define the sociodemographic predictor factors of the different physical activity domains of the study population, we calculated 5 multivariate linear regression models where total physical activity and IPAQ-HL domains (work, transportation, household and leisure time activity scores) were the dependent variables and sociodemographic parameters were the predictor variables.

The research confirmed that individuals鈥 physical activity decreases with the increasing of age. Elderly people spend less time with movement, which in some cases might be related to the lack of information on active transport options [39,40,41,42]. Besides, several studies have shown that young adults are less active than middle-aged people [43, 44].

The participants with terciary education were more active than others, which was confirmed by other studies that examined the effect of education on physical activity level. Secondary or lower education means more activitites in work time because of the type of work but the amount of physical activity in leisure time activitites were proven to be higher in case of persons with high education [21, 43, 45,46,47,48,49,50,51]. Education is tightly bound to financial status and work type. Sedentary work, unemployment, and retirement are all showing lower activity patterns [52, 53].

The physical activity studies presented different results by gender. Most of the studies reported more active lifestyle of men but the result of our regression model showed that female participants are more active in household activitites [43, 45,46,47,48,49, 54].

Compared the 2014 and the 2015 results, our study showed that although there were no major changes in case of sports, participants鈥 efforts showed that they spent less time sitting, increased activity in front of their desk, and they also walked more during work time. A more spectacular change was the increasing popularity of walking among modes of transport.

An important element for our target group was to emphasize the link between sustainable, active transport and physical activity and health, and to increase the health and physical literacy among all socioeconomic groups [55, 56].

However, when examining the relationship between socio-demographic factors and physical activity, activity levels depend on certain demographic characteristics, confirming the need to take this information into account when designing physically active lifestyle programs and to pay greater attention to specific target groups.

Limitations

The limitations of the study include the fact that the sample was not randomized and there was no control group. The measurement of the physical activity level was examined by a subjective quantitative method by IPAQ-HL questionnaire. The objectively measured physical activity level could present precise information but in our study there was no financial or technical possibility to adapt this method.

Conclusion

The online community-based e-health program could provide an appropriate way to promote health and physically active lifestyle among healthy adults in Hungary. Based on the results of our study, physical activity level strongly correlated with socioeconomic and anthropometric parameters, which should be considered in case of the development of a health and physical activity promotion program.

Availability of data and materials

The dataset supporting the conclusions of this article is available from the corresponding author on reasonable request.

Abbreviations

BMI:

Body mass index

CI:

Confidence interval

IPAQ-HL:

International physical activity questionnaire (IPAQ) 鈥 Hungarian long

KSH:

Hungarian central statistical office

MET:

Metabolic equivalent of task

翱罢脕笔:

National nutrition survey

PA:

Physical activity

SD:

Standard deviation

WHO:

World health organization

References

  1. 脕cs P, H茅cz R, Pa谩r D, Stocker M. A fitts茅g (m) 茅rt茅ke : A fizikai inaktivit谩s nemzetgazdas谩gi terhei Magyarorsz谩gon. K枚zgazdas谩gi szemle. 2011;58(7鈥8):689.

  2. Boncz I, Vajda R, Agoston I, Endrei D, Sebestyen A. Changes in the health status of the population of central and eastern European countries between 1990 and 2010. Eur J Health Econ. 2014;15:S137鈥41.

    听 听

  3. Hungarian Government. Sport XXI. National Sport Strategy (2007鈥2020). 2006. []. Accessed 05 Nov 2017.

  4. Timmermans M, Mackenbach JD, Charreire H, Bardos H, Compernolle S, De Bourdeaudhuij I, Oppert JM, Rutter H, McKee M, Lakerveld J. Exploring the mediating role of energy balance-related behaviours in the association between sleep duration and obesity in European adults. The SPOTLIGHT project. Prev Med. 2017;100:25鈥32.

    听 听

  5. V枚r枚s T. A sportol谩si hajland贸s谩g n枚vel茅s茅ben rejl艖 lehet艖s茅gek Kelet-K枚z茅p-Eur贸pa t谩rsadalmi-gazdas谩gi fejl艖d茅se t眉kr茅ben. T茅r 茅s t谩rsadalom. 2017;31(2):83.

  6. Acs P, Stocker M, Fuge K, Paar D, Olah A, Kovacs A. Economic and public health benefits: the result of increased regular physical activity. Eur J Integr Med. 2016;8:8鈥12.

  7. 脕cs P, Stocker M, Ol谩h A. The determination of economic and public health benefits achievable by increasing regular physical exercise. Apstract - App Stud Agribusiness Commerce. 2013;8(1):5鈥14.

  8. WHO. Global recommendations on physical activity for health. Switzerland: Geneva: WHO; 2010.

  9. World Health Organization Regional Office for Europe. Physical activity strategy for the WHO European Region 2016鈥2025. Copenhagen; 2016. . Accessed 06 Nov 2018.

  10. WHO. Global action plan on physical activity 2018鈥2030: more active people for a healthier world. Switzerland: World Health Organization; 2018.

  11. 脕cs P, Pr茅musz V, Morvay-Sey K, Kov谩cs A, Makai A, Elbert G. Changes of sport and physical activity indicators in Hungary and in the European Union according to the results from recent years (a sporttal, testmozg谩ssal 枚sszef眉gg茅sben l茅v艖 mutat贸k v谩ltoz谩sa Magyarorsz谩gon 茅s az Eur贸pai Uni贸ban az elm煤lt 茅vek eredm茅nyeinek nyom谩n). Sport- 茅s eg茅szs茅gtudom谩nyi f眉zetek. 2018;2(1):61鈥76.

  12. Erdei G, Kovacs VA, Bakacs M, Martos E. Hungarian Diet and Nutritional Status Survey 2014. I. Nutritional status of the Hungarian adult population. Orvosi Hetilap. 2017;158(14):533鈥40.

    听 听

  13. WHO: Global diffusion of eHealth-making universal health coverage achievable: report of the third global survey on eHealth. In: Global diffusion of eHealth-making universal health coverage achievable: report of the third global survey on eHealth. 2017.

  14. Shaw RB, Sweet SN, McBride CB, Adair WK, Martin Ginis KA. Operationalizing the reach, effectiveness, adoption, implementation, maintenance (RE-AIM) framework to evaluate the collective impact of autonomous community programs that promote health and well-being. 国产情侣 Public Health. 2019;19(1):803.

    听 听 听

  15. Cooper AJ, Dearnley K, Williams KM, Sharp SJ, van Sluijs EM, Brage S, Sutton S, Griffin SJ. Protocol for get moving: a randomised controlled trial to assess the effectiveness of three minimal contact interventions to promote fitness and physical activity in working adults. 国产情侣 Public Health. 2015;15:296.

    听 听 听

  16. Jahangiry L, Shojaeizadeh D, Najafi M, Mohammad K, Abbasalizad Farhangi M, Montazeri A. 'Red Ruby': an interactive web-based intervention for lifestyle modification on metabolic syndrome: a study protocol for a randomized controlled trial. 国产情侣 Public Health. 2014;14:748.

    听 听 听

  17. Vollum MJ. The potential for social media use in K-12 physical and health education. Comput Hum Behav. 2014;35:560鈥4.

  18. Peyman N, Rezai-Rad M, Tehrani H, Gholian-Aval M, Vahedian-Shahroodi M, Heidarian Miri H. Digital media-based health intervention on the promotion of Women's physical activity: a quasi-experimental study. 国产情侣 Public Health. 2018;18(1):134.

    听 听 听

  19. Ek A, Alexandrou C, Delisle Nystrom C, Direito A, Eriksson U, Hammar U, Henriksson P, Maddison R, Trolle Lagerros Y, Lof M. The Smart City active Mobile phone intervention (SCAMPI) study to promote physical activity through active transportation in healthy adults: a study protocol for a randomised controlled trial. 国产情侣 Public Health. 2018;18(1):880.

    听 听 听

  20. HCSO: STADAT Time series of annual data - Information, communication 2018. In. Edited by Office HCS, 08/06/2019 edn; 2018.

  21. Makai AP Vikt贸ra ; Lampek, Kinga ; 脕cs, Pongr谩c ; Simon-Ugron, 脕gnes ; Figler, M谩ria Sitting Time and Sport Participation of the Employed Population In Hungary and Europe. Studia Universitatis Babes-Bolyai Educatio Artis Gymnasticae 2018, LVIII(2):11鈥22.

  22. Proper KI, van Oostrom SH. The effectiveness of workplace health promotion interventions on physical and mental health outcomes - a systematic review of reviews. Scand J Work Environ Health. 2019;45(6):546鈥59.

  23. Bandura A. Social foundations of thought and action: a social cognitive theory. Englewood Cliffs: Prentice Hall; 1986.

  24. Pender NJ: Health promotion model manual. 2011.

  25. Craig CL, Marshall AL, Sjostrom M, Bauman AE, Booth ML, Ainsworth BE, Pratt M, Ekelund U, Yngve A, Sallis JF, et al. International physical activity questionnaire: 12-country reliability and validity. Med Sci Sports Exerc. 2003;35(8):1381鈥95.

    听 听

  26. IPAQ group. Guidelines for data processing and analysis of the International Physical Activity Questionnaire (IPAQ)鈥搒hort and long forms. 2005. . Accessed 20 Jan 2018.

  27. Cs茅pe V, Gy艖ri M, Rag贸 A: 脕ltal谩nos pszichol贸gia 1鈥3.鈥2. Tanul谩s鈥揺ml茅kez茅s鈥搕ud谩s. Osiris Kiad贸, Budapest 2007.

  28. Khoshnood Z, Rayyani M, Tirgari B. Theory analysis for Pender's health promotion model (HPM) by Barnum's criteria: a critical perspective. Int J Adolesc Med Health. 2018. .

  29. Gill DP, Blunt W, Boa Sorte Silva NC, Stiller-Moldovan C, Zou GY, Petrella RJ. The HealtheSteps lifestyle prescription program to improve physical activity and modifiable risk factors for chronic disease: a pragmatic randomized controlled trial. 国产情侣 Public Health. 2019;19(1):841.

    CAS听 听 听 听

  30. Rayward AT, Vandelanotte C, Corry K, Van Itallie A, Duncan MJ. Impact of a social media campaign on reach, uptake, and engagement with a free web- and app-based physical activity intervention: the 10,000 steps Australia program. Int J Environ Res Public Health. 2019;16(24):5076.

    听 听

  31. Bujnowska-Fedak MM, W臋gierek P. The impact of online health information on patient health Behaviours and making decisions concerning health. Int J Environ Res Public Health. 2020;17(3):E880.

    听 听

  32. Nakamura PM, Teixeira IP, Smirmaul BPC, Sebastiao E, Papini CB, Gobbi S, Kokubun E. Health related quality of life is differently associated with leisure-time physical activity intensities according to gender: a cross-sectional approach. Health Qual Life Outcomes. 2014. .

  33. Braun S, Pe帽a JJD, Egger R, K枚vesd P, Kunter C, Nagy E, San Crist贸bal A, Varga-Pint茅r B, Vestergaard N, von Kanel K, et al. Online megold谩sok az id艖sebb koroszt谩ly fitts茅gi kih铆v谩saira. Alkalmazott Multim茅dia 脷js谩g - J App Multimedia. 2012;7(1):35鈥43.

  34. Larsen B, Benitez T. Web-based physical activity intervention for Latina adolescents: feasibility, acceptability, and potential efficacy of the Ninas Saludables study. J Med Internet Res. 2018;20(5):e170.

    听 听 听

  35. Larsen B. A web-based physical activity intervention for Spanish-speaking Latinas: a costs and cost-effectiveness analysis. J Med Internet Res. 2017;19(2):e43.

    听 听 听

  36. Degroote L, Plaete J, De Bourdeaudhuij I, Verloigne M, Van Stappen V, De Meester A, Poppe L, Van der Mispel C, Crombez G. The effect of the ehealth intervention 鈥榤yplan 1.0鈥檕n physical activity in adults who visit general practice: a quasi-experimental trial. Int J Environ Res Public Health. 2018;15(2):228.

    听 听

  37. Bergier J, Acs P, Salonna F, Junger J. Differences in the level of physical activity among adolescents from various European countries. Iran J Public Health. 2018;47(4):603鈥5.

    听 听 听

  38. Cimarras-Otal C, Calderon-Larranaga A, Poblador-Plou B, Gonzalez-Rubio F, Gimeno-Feliu LA, Arjol-Serrano JL, Prados-Torres A. Association between physical activity, multimorbidity, self-rated health and functional limitation in the Spanish population. 国产情侣 Public Health. 2014;14:1170.

    听 听 听

  39. Ol谩h A, S谩ndor J, Boncz I, Betlehem J. Micro-regional disparities in home-based care in the South Transdanubian region [A kist茅rs茅gi egyenl艖tlens茅gek az otthoni szak谩pol谩s vonatkoz谩s谩ban a d茅l-dun谩nt煤li t茅rs茅gben]. N艖v茅r. 2004;17(5):17.

  40. Pr茅musz V, Makai A, F眉ge K, Boncz I, Lampek K. Comparative analysis of physical activity, sense of control and self-reported health of elderly in Cee countries. Value Health. 2015;18(7):A564.

  41. Makai A, Pr茅musz V, F眉ge K, Figler M, Lampek K. Social participation and health among ageing people in east-Central Europe. Pract Theory Syst Educ. 2015;10(2):177鈥85.

  42. Melczer C, Szab贸 J, Betlehem J, Ol谩h A, Kov谩cs A, J谩romi M, 脕cs P. NEA鈥揂 mobile application development and exercise program to improve public health. Eur J Integr Med. 2016;8:56.

  43. Ortiz-Hernandez L, Ramos-Ibanez N. Sociodemographic factors associated with physical activity in Mexican adults. Public Health Nutr. 2010;13(7):1131鈥8.

    听 听

  44. 脕cs PPV, Melczer CS, Bergier J, Salonna F, Junger J, Makai A. Physical activity of university students in V4 countries according to the gender differences, a cross-sectional study [Nemek k枚z枚tti k眉l枚nbs茅gek vizsg谩lata a fizikai aktivit谩s vonatkoz谩s谩ban a V4 orsz谩gok egyetemista popul谩ci贸j谩nak k枚r茅ben]. Magyar Sporttudom谩nyi Szemle. 2018;19(74):3鈥9.

  45. Bakrania K, Edwardson CL, Bodicoat DH, Esliger DW, Gill JM, Kazi A, Velayudhan L, Sinclair AJ, Sattar N, Biddle SJ. Associations of mutually exclusive categories of physical activity and sedentary time with markers of cardiometabolic health in English adults: a cross-sectional analysis of the health survey for England. 国产情侣 Public Health. 2015;16(1):25.

  46. Ding D, Gebel K. Built environment, physical activity, and obesity: what have we learned from reviewing the literature? Health Place. 2012;18(1):100鈥5.

    听 听

  47. Gerovasili V, Agaku IT, Vardavas CI, Filippidis FT. Levels of physical activity among adults 18-64 years old in 28 European countries. Prev Med. 2015;81:87鈥91.

    听 听

  48. Ishii K, Shibata A, Oka K. Sociodemographic and anthropometric factors associated with screen-based sedentary behavior among Japanese adults: a population-based cross-sectional study. J Epidemiol. 2013;23(5):382鈥8.

    听 听

  49. Van Domelen DR, Koster A, Caserotti P, Brychta RJ, Chen KY, McClain JJ, Troiano RP, Berrigan D, Harris TB. Employment and physical activity in the U.S. Am J Prev Med. 2011;41(2):136鈥45.

    听 听 听

  50. Makai A, F眉ge K, Breitenbach Z, Figler M. Physical activity levels of adults in two counties of Hungary in view of sociodemographic inequalities. Health Probl Civilization. 2016;10(3):38鈥46.

  51. Betlehem J, Horvath A, Jeges S, Gondocs Z, Nemeth T, Kukla A, Olah A. How healthy are ambulance personnel in Central Europe? Eval Health Prof. 2014;37(3):394鈥406.

    听 听

  52. Cleland CL, Hunter RF, Kee F, Cupples ME, Sallis JF, Tully MA. Validity of the global physical activity questionnaire (GPAQ) in assessing levels and change in moderate-vigorous physical activity and sedentary behaviour. 国产情侣 Public Health. 2014;14.

  53. Sugiyama T, Healy GN, Dunstan DW, Salmon J, Owen N. Is television viewing time a marker of a broader pattern of sedentary behavior? Ann Behav Med. 2008;35(2):245鈥50.

    听 听

  54. Pr茅musz V, Makai A, G谩cs B, Simon-Ugron 脕, Nagy 脕, 脕cs P, Lampek K, V谩rnagy 脕. Relationship between pre-treatment habitual physical activity and success of assisted reproduction. Studia Univ Babes-Bolyai, Educ Artis Gymnasticae. 2018;63(3):41鈥58.

  55. Holler P, Jaunig J, Amort FM, Tuttner S, Hofer-Fischanger K, Wallner D, Simi H, Muller A, van Poppel MNM, Moser O. Holistic physical exercise training improves physical literacy among physically inactive adults: a pilot intervention study. 国产情侣 Public Health. 2019;19(1):393.

    听 听 听

  56. Jordan S, Krug S, von der Lippe E. Participation in group-based physical activity programmes for adults in Germany and associated factors: data from a nationwide cohort study. 国产情侣 Public Health. 2018;18(1):1371.

    听 听 听

Acknowledgements

Not applicable.

About this supplement

This article has been published as part of 国产情侣 Public Health Volume 20 Supplement 1, 2020: Level and Determinants of Physical Activity in the V4 Countries - Part 1. The full contents of the supplement are available online at URL. /articles/supplements/volume-20-supplement-1

Funding

The publication costs were partially funded by the Human Resource Development Operational Programme, grant No.: HRDOP-3.6.2-16-2017-00003, Cooperative Research Network in Economy of Sport, Recreation and Health. The authors declare that the study design; collection, management, analysis, and interpretation of data; writing of the manuscript are independent of Human Resource Development Operational Programme.

Author information

Authors and Affiliations

  1. Faculty of Health Sciences, University of P茅cs, V枚r枚smarty u. 4, P茅cs, H-7621, Hungary

    Alexandra Makai,听Kata F眉ge,听Zita Breitenbach,听J贸zsef Betlehem,听Pongr谩c 脕cs,听Kinga Lampek听&听M谩ria Figler

Authors
  1. Alexandra Makai

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  2. Kata F眉ge

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  3. Zita Breitenbach

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  4. J贸zsef Betlehem

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  5. Pongr谩c 脕cs

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  6. Kinga Lampek

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  7. M谩ria Figler

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Contributions

All authors read and approved the final manuscript. AM, MF, PA, KL conceived, designed and managed the study, JBet contributed to the study conceptualization and provided critical editorial input to the interpretation of the data, ZB and KF contributed in collection of participants and data, AM contributed to the data collection and analysis, and to drafting and final editing of the manuscript.

Corresponding author

Correspondence to Alexandra Makai.

Ethics declarations

Ethics approval and consent to participate

The ethical approval was granted for the study by Ethics Committee of University of P茅cs (Nr. 6955/2017). Participants were informed about the research aim and methods before signing the informed consent form. The investigation conforms to the principles outlined in the Declaration of Helsinki.

Consent for publication

Not applicable.

Competing interests

The authors declare that they have no competing interests.

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Cite this article

Makai, A., F眉ge, K., Breitenbach, Z. et al. The effect of a community-based e-health program to promote the role of physical activity among healthy adults in Hungary. 国产情侣 Public Health 20 (Suppl 1), 1059 (2020). https://doi.org/10.1186/s12889-020-08750-1

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  • DOI: https://doi.org/10.1186/s12889-020-08750-1

Keywords

国产情侣 Public Health

ISSN: 1471-2458

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