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Determinants of Dutch general practitioners’ nutrition and physical activity guidance practices

Published online by Cambridge University Press:  31 July 2012

Sonja ME van Dillen*
Affiliation:
Communication Strategies, Sub-department of Communication Science, Wageningen University, PO Box 8130, 6700 EW Wageningen, the Netherlands
Gerrit J Hiddink
Affiliation:
Communication Strategies, Sub-department of Communication Science, Wageningen University, PO Box 8130, 6700 EW Wageningen, the Netherlands
Cees MJ van Woerkum
Affiliation:
Communication Strategies, Sub-department of Communication Science, Wageningen University, PO Box 8130, 6700 EW Wageningen, the Netherlands
*
*Corresponding author: Email sonja.vandillen@wur.nl
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Abstract

Objective

General practitioners (GP) are uniquely placed to guide their patients on nutrition and physical activity. The aims of the present study were to assess: (i) the extent to which GP guide on nutrition and physical activity; (ii) the determinants that cause GP to give guidance on nutrition and physical activity; and (iii) the extent to which these guidance practices have the same determinants.

Design

Cross-sectional study, mail questionnaire.

Setting

Dutch general practice.

Subjects

Four hundred and seventy-two GP in practice for 5–30 years.

Results

Our study showed that the majority of GP had similar practices for both nutrition and physical activity guidance. Fair associations were found between nutrition and physical activity guidance practices. More than half of the explained variance in the models of physical activity guidance practices was improved by the inclusion of nutrition guidance practices in the models. Moreover, GP reported higher frequencies of physical activity guidance practices than nutrition guidance practices. Nutrition guidance practices predicted the same physical activity guidance practices.

Conclusions

The majority of GP had similar practices for nutrition and physical activity guidance. GP were more inclined to guide their patients on physical activity than on nutrition. Self-efficacy was found to be a determinant in most models for guidance practices. Guidance practices proved to be a mix of prevention and treatment components. Consequently, we advise raising the self-efficacy of GP by training in medical school and in continuing medical education. We also recommend the combination of both nutrition and physical activity guidance in general practice.

Type
Marketing and communication
Copyright
Copyright © The Authors 2012 

Nutrition has a role in the prevention and treatment of many chronic diseases(1, 2). Several studies indicate that being physically active is beneficial for people's health and/or well-being(Reference Pate, Pratt and Blair3, 4). Promotion of nutrition and physical activity is important to slow down the increase of overweight in the population(2). In the Netherlands, the percentage of overweight people has increased from 33 % in 1981 to about 45 % today(Reference Schokker, Visscher and Nooyens5).

General practitioners (GP) are in a unique position to communicate with their patients about nutrition because of their high referral score, high perceived expertise and reach to nearly all segments of the population(Reference Hiddink, Hautvast and van Woerkum6). Several studies have shown that patients expect their GP to provide nutrition education(Reference Hiddink, Hautvast and van Woerkum6, Reference Van Dillen, Hiddink and Koelen7). Other research has shown that GP are seen as credible and preferred sources of information to make recommendations about physical activity(Reference Bull, Schipper and Jamrozik8).

Evidence-based guidelines are often not implemented effectively with the effect that best health outcomes are not achieved(Reference Grol9, Reference Michie, Johnston and Abraham10). This highlights the importance of studies assessing what GP actually do in their busy practice. Some studies have assessed the nutrition guidance practices of GP by means of self-reports(Reference Glanz, Tziraki and Albright11Reference Van Dijk, Kampen and Hiddink21). A limited number of self-report surveys about their physical activity guidance practices have also been conducted(Reference Bull, Schipper and Jamrozik8, Reference McAvoy, Kaner and Lock15Reference Guo, Gottlieb and Murphy Smith17, Reference Stevenson and McKenzie22Reference Douglas, Torrance and van Teijlingen28). Although observational measures provide more accurate indicators of actual practices than self-reports, observational studies are even scarcer(Reference Beaudoin, Lussier and Gagnon29Reference Anis, Lee and Ellerbeck32).

A high number of studies focus on perceived barriers to nutrition guidance(Reference Kushner12, Reference Hiddink, Hautvast and van Woerkum13, Reference Wynn, Trudeau and Taunton20, Reference Van Dijk, Kampen and Hiddink21, Reference Cornuz, Ghali and Di Carlantonio33Reference Dolor, Ostbye and Lyna36) and physical activity guidance(Reference Bull, Schipper and Jamrozik8, Reference Stevenson and McKenzie22, Reference Lawlor, Keen and Neal23, Reference Walsh, Swangard and Davis25Reference Douglas, Torrance and van Teijlingen28, Reference Dolor, Ostbye and Lyna36, Reference Eley and Eley37), but, increasingly, positive factors for guidance practices have also been unravelled in determinant studies, in addition to the negative factors (such as barriers). The task perception determinant is defined as the belief that it is the role of the GP to help patients change their health behaviour(Reference Wechsler, Levine and Idelson38). Task perception has been included in several studies about nutrition guidance practices(Reference Kushner12Reference Hiddink, Hautvast and van Woerkum14, Reference Van Dillen, Hiddink and Koelen18, Reference Wynn, Trudeau and Taunton20, Reference Van Dijk, Kampen and Hiddink21, Reference Hiddink, Hautvast and van Woerkum39, Reference Soltesz, Price and Johnson40), but only in a few studies about physical activity guidance practices(Reference Lawlor, Keen and Neal23, Reference Douglas, Torrance and van Teijlingen28, Reference Sims, Huang and Petsch41). Another determinant, self-efficacy, refers to one's belief in one's ability to succeed in specific situations(Reference Bandura42). Several studies have included self-efficacy of GP in relation to nutrition guidance(Reference Glanz, Tziraki and Albright11, Reference Hiddink, Hautvast and van Woerkum13, Reference Van Dillen, Hiddink and Koelen18, Reference Nicholas, Pond and Roberts19, Reference Van Dijk, Kampen and Hiddink21, Reference Talip, Stein and Visser34, Reference Dolor, Ostbye and Lyna36, Reference Moore and Adamson43), but only a few studies have looked at their self-efficacy expectations about physical activity guidance(Reference Bull, Schipper and Jamrozik8, Reference Walsh, Swangard and Davis25, Reference Kennedy and Meeuwisse27, Reference Talip, Stein and Visser34, Reference Dolor, Ostbye and Lyna36). So, only a few studies have considered determinants of nutrition as well as physical activity guidance practices.

The aims of the present study were to assess: (i) the extent to which GP guide on nutrition and physical activity; (ii) the determinants that cause GP to give guidance on nutrition and physical activity; and (iii) the extent to which these guidance practices have the same determinants. In the light of obesity prevention, it seems obvious that GP should combine both nutrition and physical activity guidance practices. To our knowledge, no study has been undertaken on the integration of both guidance practices in general practice. The findings about the extent of their coexistence are valuable for the development of medical education programmes and for governmental and non-governmental organizations that want to involve GP in obesity prevention. Furthermore, our study reveals whether GP are more likely to guide their patients on one of these practices rather than the other. Consequently, similarities and differences between nutrition and physical activity guidance practices are studied. Finally, determinants of both guidance practices are measured and compared.

Methods

Study population

Our study population consisted of Dutch GP. In 1992, a nationwide random sample of 1000 Dutch GP, with 5–15 years of practice experience, stratified by gender and type of practice, was taken from the database of the Netherlands Institute for Health Services Research (NIVEL). In 2007, all 488 eligible participants from 1992 were asked to fill in a mail questionnaire. In total, 255 GP (in practice now for 20–30 years) returned the questionnaire. The response rate was 52 %. Additionally, a new cohort of GP in practice for 5–20 years was sampled with similar criteria and asked to fill in the questionnaire, resulting in another 217 GP (response rate 37 %). Both samples were representative of the overall population with respect to gender, type of practice (solo practice, dual practice, group practice or health centre) and degree of urbanity. Four reminders were sent to GP who had not returned the questionnaire. The last reminder also included a non-response questionnaire.

Overall, the total sample of the cross-sectional 2007 study consisted of 472 GP: 343 men (73 %) and 129 women (27 %). Of this total, 164 were working in a solo practice (35 %), 155 in a dual practice (33 %) and 153 in a group practice or health centre (32 %). The sample was representative of gender and type of practice.

Questionnaire

The Wageningen GPs Nutritional Practices Questionnaire(Reference Hiddink, Hautvast and van Woerkum39) was developed on the basis of qualitative research (focus group discussions and in-depth interviews) and the tailored design method(Reference Dillman44), and has proved to be beneficial in research(Reference Hiddink, Hautvast and van Woerkum13, Reference Hiddink, Hautvast and van Woerkum14, Reference Van Dijk, Kampen and Hiddink21, Reference Hiddink, Hautvast and van Woerkum39). Self-reported nutrition and physical activity guidance practices, task perceptions, self-efficacy expectations and perceived barriers regarding these practices were assessed in the questionnaire. Our hypothesis is that the determinants of nutrition and physical activity guidance practices are partly the same.

The dependent variables about guidance practices reflect the self-reported advice behaviours of GP regarding nutrition and physical activity. These variables were operationalized by the percentage of patients who have been given nutrition or physical activity advice. Data were available for specific patients, namely overweight patients, patients at risk of CVD, patients with CVD and patients with diabetes. All items were scored on a four-point scale, ranging from 0–25 % to 76–100 %. Two factors were constructed for overall nutrition and physical activity guidance practices, with Cronbach's α = 0·86 and 0·88, respectively.

The independent variables in the study concern task perception, self-efficacy and barriers. The PRECEDE–PROCEED model was used as the framework(Reference Green and Kreuter45).

Task perception, defined as the GP's own perception of his/her role in nutrition and physical activity advice, was measured with several items. Task perception concerning both nutrition and physical activity guidance was measured using one proposition for each of them on a five-point Likert-type scale. Next, task perception on both nutrition and physical activity guidance on the curative–preventive continuum was assessed on a scale from 1 to 10. In addition, task perception for primary, secondary and tertiary prevention was measured with three items. The variable, task perception preventive nutrition guidance, was constructed on the basis of the items about secondary and tertiary prevention (α = 0·70). Inclusion of the item, primary prevention, did not improve the factor. In the same way, a variable for task perception preventive physical activity guidance was constructed (α = 0·64). Moreover, there were two items for task perception nutrition guidance for prevention and treatment of relevant illnesses, respectively, and likewise two items for task perception physical activity guidance, each using a five-point scale. Furthermore, task perception was measured with one item about interest in the influence of nutrition and physical activity, respectively, on health, using a five-point scale.

Self-efficacy, defined as the GP's own ability to provide nutrition and physical activity advice, was assessed with several items. Self-efficacy was first operationalized with an item about the perception of the role of nutrition behaviour and physical activity behaviour, respectively, on health, assessed on a ten-point scale. Another operationalization of self-efficacy concerned the perception of the GP's own model behaviour on nutrition and physical activity, respectively, assessed with one proposition each on a five-point scale. Another item relating to self-efficacy is the perception about the adoption of health behaviour and nutrition and physical activity, respectively (five-point scale); this concerns the GP's perceptions about whether patients find it easy to change their habits. Likewise, the self-efficacy factor, GP's perception of own influence on patients’ health and nutrition and physical activity behaviour, respectively, was measured with one proposition each on a five-point scale. Another four self-efficacy variables were constructed on the basis of four propositions on a five-point scale, which were operationalized as perception of own capacity to give nutrition and physical activity guidance, respectively, for prevention of relevant illnesses; and perception of own capacity to give nutrition and physical activity guidance, respectively, for treatment of relevant illnesses.

The variable barriers, defined as perceived individual obstacles to providing advice about nutrition and physical activity, was measured with four different items, namely lack of time, lack of knowledge, lack of skills and lack of training. On the basis of the last three items, two factors were constructed, called barriers to giving nutrition guidance (α = 0·65) and barriers to giving physical activity guidance (α = 0·69). In neither case did lack of time improve the factor, and therefore it was taken as a single item into analysis.

Statistical analysis

The data were analysed with the statistical software package SPSS Statistics version 19·0. Principal component analyses with varimax rotation were performed to construct scales. Scales were verified with reliability analysis. To explore the nutrition and physical activity guidance variables, descriptive statistics were used. Cross-tabulation was performed to reveal similarities in the frequency of guidance practices. Furthermore, Pearson correlation coefficients were computed for relationships between the different nutrition and physical activity guidance variables. Additionally, univariate variance tests were performed to identify similarities and differences between subgroups. Finally, multiple linear regression analysis was conducted to analyse the most important determinants of both guidance practices. Forward and backward procedures were applied, using the Bonferroni correction(Reference Hommel46).

Results

Descriptive statistics

In the present study, multiple items were used to construct comprehensive variables that all had a relatively high Cronbach's α, varying between 0·64 and 0·88. Table 1 provides descriptive data about nutrition and physical activity guidance practices. Generally, significantly higher scores were found for physical activity compared with nutrition with respect to items about guidance practices, except for patients with diabetes. In-depth analysis showed that the scores for both items about patients with diabetes appeared not to be normally distributed and showed negative skewness. Moreover, in general Table 1 reveals significantly higher scores for physical activity guidance than for nutrition guidance with respect to all items about task perception, whereas on the other hand significantly lower scores on all items about barriers were found for physical activity guidance. Mean scores for self-efficacy revealed mixed results: about half of the items showed higher scores for physical activity guidance than for nutrition guidance, but, for the other half, scores were nearly the same. Although all items about task perception, self-efficacy and barriers appeared to be normally distributed, a few items – such as task perception concerning nutrition guidance, task perception nutrition guidance for treatment of relevant illnesses and perception of role of nutrition behaviour on health – displayed positive kurtosis. The same holds for the corresponding items about physical activity.

Table 1 Mean scores and standard deviations for corresponding items about nutrition and physical activity guidance among Dutch general practitioners (n 472), 2007

†Since these are yes–no questions, percentages are presented instead of mean scores.

Cross-tabulation revealed similarities in the frequency of guidance practices: about 80 % of GP who reported the highest frequency of overall nutrition guidance practices (namely 76–100 % of patients with relevant illnesses) also reported the highest frequency of overall physical activity guidance practices. However, only about 5 % of GP who reported the lowest frequency of overall nutrition guidance practices (namely 0–25 % of patients) also reported the lowest frequency of overall physical activity guidance practices. Next, about a fifth of GP who claimed to guide 26–50 % of patients on nutrition, scored the same on physical activity, but the rest reported an even higher frequency for overall physical activity guidance practices. Of all GP who reported guiding 51–75 % of patients on nutrition, about half also guided on physical activity and about 45 % guided even more than 75 % of patients. GP guided more on physical activity than on nutrition, probably because they had higher self-efficacy expectations with respect to physical activity guidance than to nutrition guidance.

Association between nutrition and physical activity guidance

Table 2 shows the correlation coefficients between corresponding nutrition and physical activity guidance items. A high positive relationship was found between perception of own model behaviour of nutrition and physical activity. Correlations for the perception of own capacity to give nutrition and physical activity guidance were very low for both prevention and treatment.

Table 2 Correlation between items about nutrition guidance and corresponding items about physical activity guidance among Dutch general practitioners (n 472), 2007

Significant correlation: ***P < 0·001.

†That is, the correlation between nutrition guidance practices for overweight patients and physical activity guidance practices for overweight patients is 0·36.

Differences in nutrition and physical activity guidance by gender

Although male GP scored slightly higher on physical activity guidance practices than female GP, these differences were not significant. In addition, no significant differences were found in nutrition guidance practices between both sexes.

Nevertheless, significant univariate differences in determinants of nutrition and physical activity guidance were found between male and female GP (Table 3; Student's t test, df = 470, all P < 0·05). Female GP perceived nutrition guidance as their own task more often than male GP. Significantly more female GP than male GP perceived their task on nutrition guidance to be primary preventive. With respect to self-efficacy, female GP were more convinced than male GP that people with health problems could adjust their nutrition habits. Significantly more female GP than their male colleagues perceived higher capacity to give nutrition guidance for both prevention and treatment of relevant illnesses. Conversely, male GP scored higher than female GP on their own capacity to give physical activity guidance for treatment of relevant illnesses. Finally, gender differences in perceived barriers proved not to be significant.

Table 3 Differences in nutrition and physical activity guidance between male (n 343) and female (n 129) Dutch general practitioners (GP), 2007 (df = 470)

Differences in nutrition and physical activity guidance by practice experience

GP with more than 20 years of practice experience reported higher scores on nutrition guidance practices than GP with less practice experience. However, these differences were not significant. No significant differences in physical activity guidance practices were found between GP who differed in practice experience.

Our study showed that GP with 5–20 years of practice experience perceived their task on nutrition guidance to be primary preventive significantly more often than GP with more than 20 years of practice experience. They also perceived physical activity guidance as their task for prevention of relevant illnesses significantly more than GP with more experience. Furthermore, GP with more years of practice experience were more often convinced than GP with less practice experience that they could influence physical activity habits of people with health problems. GP with more practice experience also had a higher perceived capacity than GP with less experience to give physical activity guidance for prevention of relevant illnesses. Lastly, GP with less experience perceived lack of time as a barrier to giving physical activity guidance more often than GP who had worked longer in practice (Table 4; Student's t test, df = 470, all P < 0·05).

Table 4 Differences in nutrition and physical activity guidance between Dutch general practitioners (GP) with 5–20 years of practice experience (n 217) and with more than 20 years of practice experience (n 255), 2007 (df = 470)

†Since these are yes–no questions, percentages are presented instead of mean scores.

Regression models for nutrition and physical activity guidance practices

First, we analysed the models for different nutrition guidance practices on the basis of the nutrition guidance variables only (Table 5). Next, regression models were composed for different physical activity guidance practices, built with physical activity guidance variables only (Table 5). Our study showed in general that task perception, self-efficacy and barriers were better predictors for nutrition guidance practices than for physical activity guidance practices. The explained variance of the models varied between 9 and 20 %. Only 9 % of physical activity guidance in overweight patients could be explained by model 5, as against 15 % for nutrition guidance in overweight patients in model 1.

Table 5 Regression models for nutrition guidance practices and physical activity guidance practices among Dutch general practitioners (n 472), 2007

Expl. var., explained variance.

Self-efficacy, in particular perception of own capacity to give nutrition guidance for prevention of relevant illnesses, was the main determinant of all guidance practices, except for nutrition guidance for patients at risk of CVD and nutrition guidance for patients with diabetes. Task perception nutrition guidance for prevention of relevant illness and perception of own capacity to give nutrition guidance for treatment of relevant illnesses, respectively, were the main predictors in models 2 and 4.

The only similarity in the determinants of nutrition and physical activity guidance in overweight patients appeared to be perception of own capacity to give nutrition and physical activity guidance for prevention of relevant illnesses. No similarities were found in the determinants of nutrition and physical activity guidance in patients at risk of CVD (models 2 and 6), and the same was the case for patients with diabetes (models 4 and 8). Perception of own capacity to give nutrition and physical activity guidance for prevention of relevant illnesses acted as a determinant for nutrition and physical activity guidance for patients with CVD (models 3 and 7). The barrier, lack of time, was found as a determinant in only two models for nutrition guidance practices, and not at all for physical activity guidance practices. So the determinants of nutrition guidance practices were quite different from those of physical activity guidance practices.

The four different nutrition guidance practices were then included all together in the first step of the analysis for different physical activity guidance practices and the physical activity guidance practice variables in the next step (Table 6). After inclusion of the nutrition guidance practices in the model, the explained variance of physical activity guidance practices in overweight patients doubled to 18 % (model 5 v. model 9) and from 12 to 27 % in the case of physical activity guidance practices for patients with CVD (model 7 v. model 11). Total explained variances of the models in Table 6 ranged between 18 and 28 %. More than half of the variance could be explained by the nutrition guidance practices only, varying between 15 and 19 %. Similar nutrition guidance practices were predictive of their corresponding physical activity guidance practices. Remarkably, the item, nutrition guidance practices for patients with CVD, was also part of the other three models (model 9, 10 and 12). In the last model, nutrition guidance practices in patients with CVD appeared to be a better predictor for physical activity guidance practices for patients with diabetes than nutrition guidance practices for patients with diabetes (explained variance 14 % and 3 %, respectively). Again, perception of own capacity to give physical activity guidance for prevention of relevant illnesses was included in all models. Other variables concerning task perception and self-efficacy were also discovered as determinants, but again barriers were not. The predictive models contained both prevention and treatment elements.

Table 6 Regression modelsFootnote for physical activity guidance practices including four nutrition guidance practices as explaining factors among Dutch general practitioners (n 472), 2007

Expl. var., explained variance.

Four different nutrition guidance practices were included in step 1 and physical activity guidance variables in step 2.

Discussion

The major aims of the present study were to assess: (i) the extent to which GP guide on both nutrition and physical activity; (ii) the determinants that cause GP to give guidance on nutrition and physical activity; and (iii) the extent to which these guidance practices have the same determinants. To our knowledge, our study is the first one about the coexistence of nutrition and physical activity guidance in general practice. To summarize, our results revealed that 80 % of GP with the highest frequency of nutrition guidance practices showed similar practices for physical activity guidance. Reasonable associations were found between nutrition and physical activity guidance practices. Task perception, self-efficacy and barriers were better predictors for nutrition guidance practices than for physical activity guidance practices. Inclusion of nutrition guidance practices in models of physical activity guidance practices significantly improved these models.

In the discussion below, we elaborate on four main conclusions: (i) the majority of GP had similar practices for nutrition and physical activity guidance; (ii) GP were more likely to guide their patients on physical activity than on nutrition; (iii) self-efficacy was the major determinant of most guidance practices; and (iv) guidance practices proved to be a mix of prevention and treatment components.

First, we conclude that the majority of GP had similar practices for nutrition and physical activity guidance. About 80 % of GP who reported that they guided 76–100 % of patients with relevant illnesses on nutrition, almost always guided on physical activity too. These preventive-oriented GP were likely to have a preventive attitude in general. Apart from this majority, a minority could be characterized as physical activity-oriented GP and a negligible number were nutrition-oriented GP. Just like Anis et al.(Reference Anis, Lee and Ellerbeck32), we found fair associations between nutrition and physical activity guidance practices. The results of multiple regression analysis also indicated overlap between both guidance practices. Inclusion of behavioural measures, such as nutrition guidance practices, in models for physical activity guidance practices considerably improved the explained variance. So, physical activity guidance practices follow the line taken by nutrition guidance practices. We interpret these results as emanating from the preventive attitude generally prominent among GP.

Our second conclusion is that GP were more likely to guide their patients on physical activity than on nutrition. Our respondents reported higher frequencies of physical activity guidance practices than nutrition guidance practices, in line with a British study(Reference McAvoy, Kaner and Lock15). Our findings are in contrast to studies in the USA, in which the rates for nutrition guidance practices were higher(Reference Frank, Rothenberg and Lewis16, Reference Guo, Gottlieb and Murphy Smith17, Reference Anis, Lee and Ellerbeck32). Besides physical activity guidance practices, the scores of GP on task perception, barriers and self-efficacy for physical activity guidance were more favourable too. Task perceptions for physical activity guidance appeared to be more positive than for nutrition guidance. Moreover, GP perceived fewer barriers to physical activity guidance than to nutrition guidance. This was also the case in two other studies(Reference Cornuz, Ghali and Di Carlantonio33, Reference Dolor, Ostbye and Lyna36). Although other studies(Reference Guo, Gottlieb and Murphy Smith17, Reference Talip, Stein and Visser34, Reference Dolor, Ostbye and Lyna36) found higher self-efficacy expectations towards physical activity guidance than towards nutrition guidance, this finding was only partly confirmed by our study. We found that GP scored higher on three items about self-efficacy towards physical activity guidance, but on three other items their confidence in their ability to guide on physical activity seemed to be exactly the same as for nutrition guidance. Apparently, providing physical activity guidance is not always perceived as easy after getting started. A possible explanation for the overall higher scores for physical activity guidance items might be that nutrition behaviour is more complex, involving many settings and situations, and is influenced by many internal and external factors. Changes in nutrition behaviour depend on changes in specific behaviours that are practised consistently and over time(Reference Contento, Randell and Basch47). However, we are aware that physical activity behaviour is also embedded in routine.

From this, we derived our third conclusion, namely that self-efficacy was the major determinant of most guidance practices. Our finding is in agreement with Guo et al.(Reference Guo, Gottlieb and Murphy Smith17). However, it contrasts with other studies, in which task perception appeared to be the best predictor(Reference Hiddink, Hautvast and van Woerkum13, Reference Van Dillen, Hiddink and Koelen18, Reference Van Dijk, Kampen and Hiddink21). Nevertheless, task perception added to the explained variance in those other studies on prediction. The barrier, lack of time, acted as a determinant in our models for nutrition guidance practices only. Lack of time has been ranked as the most important barrier in almost all studies about nutrition guidance(Reference Kushner12, Reference Wynn, Trudeau and Taunton20, Reference Van Dijk, Kampen and Hiddink21, Reference Cornuz, Ghali and Di Carlantonio33Reference Dolor, Ostbye and Lyna36), but only in a few studies about physical activity guidance(Reference Lawlor, Keen and Neal23, Reference Walsh, Swangard and Davis25Reference Douglas, Torrance and van Teijlingen28). Our finding that self-efficacy is the most important determinant may be explained by the fact that self-efficacy is rather closely associated with behaviour.

Finally, guidance practices in our study were a mix of both prevention and treatment components. The predictive models for different guidance practices contained both prevention and treatment elements. In some models, the prevention-related task perception was discovered as determinant; in other models, the treatment-related task perception was more predictive. The same holds for the predictive value of self-efficacy. Similar nutrition guidance practices were predictive of their corresponding physical activity guidance practices. As they concern guidance for patients with relevant illnesses, they can be perceived as treatment components. The mix of prevention and treatment components reflects the recent trend among GP towards health promotion, above and beyond their responsibility for providing curative services.

The current study has some limitations. First, the data are based on self-reports. Moreover, the cross-sectional design of the study does not allow assumptions to be made about causality between determinants and guidance practices. We intend to carry out longitudinal research on this topic to clarify and further expand this exploration.

On the basis of our results, we have formulated recommendations for practice. In the first place, our findings showed that self-efficacy partly explained guidance practices. It is advisable to raise self-efficacy of GP by incorporating nutrition and physical activity guidance training in medical school and in continuing medical education. Khan et al.(Reference Khan, Weiler and Blair48) recently formulated ten practical steps to help GP to encourage patients to initiate and maintain a physically active lifestyle. Use of the 5A's (Ask, Advise, Assess, Assist and Arrange) seemed to influence patients to be more motivated to change(Reference Alexander, Cox and Boling Turer49). Because obesity requires long-term prevention, GP should have the option of referring to dietitians(Reference Hiddink, Hautvast and van Woerkum50, Reference Willaing, Ladelund and Jörgensen51). Moreover, our study showed that GP had similar practices for both nutrition and physical activity guidance. Therefore, we recommend that GP who do not yet do so should combine both nutrition and physical activity guidance in their lifestyle advices. This idea is supported in other research(Reference Tuomiletho, Lindström and Eriksson52Reference Gortmaker, Swinburn and Levy57). Nutrition and physical activity guidance can form part of multiple behavioural risk factor interventions in general practice.

Acknowledgements

This research was supported by the Dutch Dairy Association. The authors declare that they have no competing interests. Ethical approval was not required. G.J.H. and C.M.J.v.W. were involved in the design of the study. S.M.E.v.D. designed the current analysis of the data, performed the statistical analysis and wrote the manuscript. All authors have read and contributed to previous versions of the manuscript and approved the final manuscript. The authors thank the market research office GfK for their collaboration and the GP for their participation in the study.

References

1.US Department of Health and Human Services (2000) Healthy People 2010. With Understanding and Improving Health and Objectives for Improving Health. Washington, DC: US Government Printing Office.Google Scholar
2.World Health Organization (2000) Obesity: Preventing and Managing the Global Epidemic. Geneva: WHO.Google Scholar
3.Pate, RR, Pratt, M, Blair, SNet al. (1995) Physical activity and public health: a recommendation from the Centers for Disease Control and Prevention and the American College of Sports Medicine. JAMA 273, 402407.CrossRefGoogle Scholar
4.US Department of Health and Human Services (1996) Physical Activity and Health: A Report of the Surgeon General. Atlanta, GA: US DHHS.Google Scholar
5.Schokker, DF, Visscher, TLS, Nooyens, ACJet al. (2006) Prevalence of overweight and obesity in the Netherlands. Obes Rev 8, 101107.CrossRefGoogle Scholar
6.Hiddink, GJ, Hautvast, JGAJ, van Woerkum, CMJet al. (1997) Consumers’ expectations about nutrition guidance: the importance of primary care physicians. Am J Clin Nutr 65, 6 Suppl., 1974S1979S.CrossRefGoogle ScholarPubMed
7.Van Dillen, SME, Hiddink, GJ, Koelen, MAet al. (2004) Perceived relevance and information needs regarding food topics and preferred information sources among Dutch adults: results of a quantitative consumer study. Eur J Clin Nutr 58, 13061313.CrossRefGoogle ScholarPubMed
8.Bull, FCL, Schipper, ECC, Jamrozik, Ket al. (1997) How can and do Australian doctors promote physical activity? Prev Med 26, 866873.CrossRefGoogle ScholarPubMed
9.Grol, R (1992) Implementing guidelines in general practice care. Qual Health Care 1, 184191.CrossRefGoogle ScholarPubMed
10.Michie, S, Johnston, M, Abraham, Cet al. (2005) Making psychological theory useful for implementing evidence based practice: a consensus approach. Qual Saf Health Care 14, 2633.CrossRefGoogle ScholarPubMed
11.Glanz, K, Tziraki, C, Albright, CLet al. (1995) Nutrition assessment and counselling practices: attitudes and interests of primary care physicians. J Gen Intern Med 10, 8992.CrossRefGoogle ScholarPubMed
12.Kushner, RF (1995) Barriers to providing nutrition counseling by physicians: a survey of primary care physicians. Prev Med 24, 546552.CrossRefGoogle Scholar
13.Hiddink, GJ, Hautvast, JGAJ, van Woerkum, CMJet al. (1997) Driving forces for and barriers to nutrition guidance practices of Dutch primary care physicians. J Nutr Educ 29, 3641.CrossRefGoogle Scholar
14.Hiddink, GJ, Hautvast, JGAJ, van Woerkum, CMJet al. (1999) Cross-sectional and longitudinal analyses of nutrition guidance by primary care physicians. Eur J Clin Nutr 53, Suppl. 2, S35S43.CrossRefGoogle ScholarPubMed
15.McAvoy, BR, Kaner, EFS, Lock, CAet al. (1999) Our healthier nation: are general practitioners willing and able to deliver? A survey of attitudes to and involvement with health promotion and lifestyle counselling. Br J Gen Pract 49, 187190.Google ScholarPubMed
16.Frank, E, Rothenberg, R, Lewis, Cet al. (2000) Correlates of physicians’ prevention-related practices. Arch Fam Med 9, 359367.CrossRefGoogle ScholarPubMed
17.Guo, J-L, Gottlieb, NH, Murphy Smith, Met al. (2002) Nutrition and physical activity counselling practices of family practice residents. J Cancer Educ 17, 128137.Google ScholarPubMed
18.Van Dillen, SME, Hiddink, GJ, Koelen, MAet al. (2005) Nutrition communication styles of family doctors: results of quantitative research. Eur J Clin Nutr 59, Suppl. 1, S47S56.CrossRefGoogle ScholarPubMed
19.Nicholas, L, Pond, D & Roberts, DCK (2005) The effectiveness of nutrition counselling by Australian general practitioners. Eur J Clin Nutr 59, Suppl. 1, S140S146.CrossRefGoogle ScholarPubMed
20.Wynn, K, Trudeau, JD, Taunton, Ket al. (2010) Nutrition in primary care: current practices, attitudes, and barriers. Can Fam Physician 56, e109e116.Google ScholarPubMed
21.Van Dijk, E, Kampen, JK, Hiddink, GJet al. (2012) A longitudinal study of changes in noticing and treating patients’ overweight by Dutch GPs between 1997 and 2007. Fam Pract 29, Suppl. 1, i61i67.CrossRefGoogle ScholarPubMed
22.Stevenson, LM & McKenzie, DC (1992) Physicians’ exercise habits: most believe in exercise, but don't do enough. Can Fam Physician 38, 215218.Google Scholar
23.Lawlor, DA, Keen, S & Neal, RD (1999) Increasing population levels of physical activity through primary care: GPs’ knowledge, attitudes and self-reported practice. Fam Pract 16, 250254.CrossRefGoogle ScholarPubMed
24.Podl, TR, Goodwin, MA, Kikano, GEet al. (1999) Direct observation of exercise counselling in community family practice. Am J Prev Med 17, 207210.CrossRefGoogle ScholarPubMed
25.Walsh, J, Swangard, D, Davis, Tet al. (1999) Exercise counselling by primary care physicians in the era of managed care. Am J Prev Med 16, 307313.CrossRefGoogle ScholarPubMed
26.Abramson, S, Stein, J, Schaufele, Met al. (2000) Personal exercise habits and counseling practices of primary care physicians: a national survey. Clin J Sport Med 10, 4048.CrossRefGoogle ScholarPubMed
27.Kennedy, MF & Meeuwisse, WH (2003) Exercise counselling by family physicians in Canada. Prev Med 37, 226232.CrossRefGoogle ScholarPubMed
28.Douglas, F, Torrance, N, van Teijlingen, Eet al. (2006) Primary care staff's views and experiences related to routinely advising patients about physical activity. A questionnaire survey. BMC Public Health 6, 138.CrossRefGoogle ScholarPubMed
29.Beaudoin, C, Lussier, M-T, Gagnon, RJet al. (2001) Discussion of lifestyle-related issues in family practice during visits with general medical examination as the main reason for encounter: an exploratory study of content and determinants. Patient Educ Couns 45, 275284.CrossRefGoogle ScholarPubMed
30.Eaton, CB, Goodwin, MA & Stange, KC (2002) Direct observation of nutrition counselling in community family practice. Am J Prev Med 23, 174179.CrossRefGoogle ScholarPubMed
31.Flocke, SA & Stange, KC (2004) Direct observation and patient recall of health behaviour advice. Prev Med 38, 343349.CrossRefGoogle Scholar
32.Anis, NA, Lee, RE, Ellerbeck, EFet al. (2004) Direct observation of physician counseling on dietary habits and exercise: patient, physician, and office correlates. Prev Med 38, 198202.CrossRefGoogle ScholarPubMed
33.Cornuz, J, Ghali, WA, Di Carlantonio, Det al. (2000) Physicians’ attitudes towards prevention: importance of intervention-specific barriers and physicians’ health habits. Fam Pract 17, 535540.CrossRefGoogle ScholarPubMed
34.Talip, W, Stein, NO, Visser, Met al. (2003) Development and validation of a knowledge test for health professionals regarding lifestyle modification. Nutrition 19, 760766.CrossRefGoogle ScholarPubMed
35.Pavlekovic, G & Broborovic, O (2005) Empowering general practitioners in nutrition communication: individual-based nutrition communication strategies in Croatia. Eur J Clin Nutr 59, Suppl. 1, S40S46.CrossRefGoogle ScholarPubMed
36.Dolor, RJ, Ostbye, T, Lyna, Pet al. (2010) What are physicians’ and patients’ beliefs about diet, weight, exercise, and smoking cessation counselling? Prev Med 51, 440442.CrossRefGoogle Scholar
37.Eley, D & Eley, R (2009) How do rural GPs manage their inactive and overweight patients? A pilot study of rural GPs in Queensland. Aust Fam Physician 38, 747748.Google ScholarPubMed
38.Wechsler, H, Levine, S, Idelson, RKet al. (1983) The physician's role in health promotion: a survey of primary care practitioners. New Engl J Med 308, 97100.CrossRefGoogle ScholarPubMed
39.Hiddink, GJ, Hautvast, JG, van Woerkum, CMJet al. (1995) Nutrition guidance by primary care physicians: perceived barriers and low involvement. Eur J Clin Nutr 49, 842851.Google ScholarPubMed
40.Soltesz, KS, Price, JH, Johnson, LWet al. (1995) Family physicians’ views of the Preventive Services Task Force recommendations regarding nutrition communication. Arch Fam Med 4, 589593.CrossRefGoogle Scholar
41.Sims, J, Huang, N, Petsch, Jet al. (2004) The Victorian Active Script Programme: promising signs for general practitioners, population health, and the promotion of physical activity. Br J Sport Med 38, 1925.CrossRefGoogle Scholar
42.Bandura, A (1977) Self-efficacy: toward a unifying theory of behavioural change. Psychol Rev 84, 191215.CrossRefGoogle Scholar
43.Moore, H & Adamson, AJ (2002) Nutrition interventions by primary care staff: a survey of involvement, knowledge and attitude. Public Health Nutr 5, 531536.CrossRefGoogle Scholar
44.Dillman, DA (1978) Mail and Telephone Surveys: The Total Design Method. New York: Wiley.Google Scholar
45.Green, LW & Kreuter, MW (2005) Health Promotion Planning: An Educational and Ecological Approach. New York: McGraw Hill.Google Scholar
46.Hommel, GA (1988) A stagewise rejective multiple test procedure based on a modified Bonferroni test. Biometrika 75, 383386.CrossRefGoogle Scholar
47.Contento, IR, Randell, JS & Basch, CE (2002) Review and analysis of evaluation measures used in nutrition education intervention research. J Nutr Educ Behav 34, 225.CrossRefGoogle ScholarPubMed
48.Khan, KM, Weiler, R & Blair, SN (2011) Prescribing exercise in primary care. BMJ 343, d4141.CrossRefGoogle ScholarPubMed
49.Alexander, SC, Cox, ME, Boling Turer, CLet al. (2011) Do the Five A's work when physicians counsel about weight loss? Fam Med 43, 179184.Google Scholar
50.Hiddink, GJ, Hautvast, JGAJ, van Woerkum, CMJet al. (1997) Information sources and strategies of nutrition guidance used by primary care physicians. Am J Clin Nutr 65, 6 Suppl., 1996S2003S.CrossRefGoogle ScholarPubMed
51.Willaing, I, Ladelund, S, Jörgensen, Tet al. (2004) Nutrition counselling in primary health care: a randomized comparison of an intervention by general practitioners or dietician. Eur J Cardiovasc Prev Rehabil 11, 513520.CrossRefGoogle ScholarPubMed
52.Tuomiletho, J, Lindström, J, Eriksson, JGet al. (2001) Prevention of type 2 diabetes by changes in lifestyle among subjects with impaired glucose tolerance. New Engl J Med 344, 13431350.CrossRefGoogle Scholar
53.Goldstein, MG, Whitlock, EP & DePue, J (2004) Multiple behavioural risk factor interventions in primary care: summary of research evidence. Am J Prev Med 27, 6179.CrossRefGoogle ScholarPubMed
54.Helmink, JHM, Meis, JJM, de Weerdt, Iet al. (2010) Development and implementation of a lifestyle intervention to promote physical activity and healthy diet in the Dutch general practice setting: the BeweegKuur programme. Int J Behav Nutr Phys Act 7, 49.CrossRefGoogle ScholarPubMed
55.Helmink, JHM, Kremers, SPJ, van Boekel, LCet al. (2012) Factors determining the motivation of primary health care professionals to implement and continue the ‘Beweegkuur’ lifestyle intervention programme. J Eval Clin Pract 18, 682688.CrossRefGoogle ScholarPubMed
56.Helmink, JHM, Kremers, SPJ, van Boekel, LCet al. (2012) The BeweegKuur programme: a qualitative study of promoting and impeding factors for successful implementation of a primary health care lifestyle intervention for overweight and obese people. Fam Pract 29, Suppl. 1, i68i74.CrossRefGoogle ScholarPubMed
57.Gortmaker, SL, Swinburn, BA, Levy, Det al. (2011) Changing the future of obesity: science, policy, and action. Lancet 378, 838847.CrossRefGoogle ScholarPubMed
Figure 0

Table 1 Mean scores and standard deviations for corresponding items about nutrition and physical activity guidance among Dutch general practitioners (n 472), 2007

Figure 1

Table 2 Correlation between items about nutrition guidance and corresponding items about physical activity guidance among Dutch general practitioners (n 472), 2007

Figure 2

Table 3 Differences in nutrition and physical activity guidance between male (n 343) and female (n 129) Dutch general practitioners (GP), 2007 (df = 470)

Figure 3

Table 4 Differences in nutrition and physical activity guidance between Dutch general practitioners (GP) with 5–20 years of practice experience (n 217) and with more than 20 years of practice experience (n 255), 2007 (df = 470)

Figure 4

Table 5 Regression models for nutrition guidance practices and physical activity guidance practices among Dutch general practitioners (n 472), 2007

Figure 5

Table 6 Regression models† for physical activity guidance practices including four nutrition guidance practices as explaining factors among Dutch general practitioners (n 472), 2007