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Health and nutrition content claims on Australian fast-food websites

Published online by Cambridge University Press:  17 October 2016

Lyndal Wellard*
Affiliation:
Cancer Programs Division, Cancer Council NSW, 153 Dowling St, Woolloomooloo, NSW 2011, Australia
Alexandra Koukoumas
Affiliation:
Faculty of Health and Behavioural Sciences, University of Wollongong, Wollongong, NSW, Australia
Wendy L Watson
Affiliation:
Cancer Programs Division, Cancer Council NSW, 153 Dowling St, Woolloomooloo, NSW 2011, Australia
Clare Hughes
Affiliation:
Cancer Programs Division, Cancer Council NSW, 153 Dowling St, Woolloomooloo, NSW 2011, Australia
*
*Corresponding author: Email [email protected]
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Abstract

Objective

To determine the extent that Australian fast-food websites contain nutrition content and health claims, and whether these claims are compliant with the new provisions of the Australia New Zealand Food Standards Code (‘the Code’).

Design

Systematic content analysis of all web pages to identify nutrition content and health claims. Nutrition information panels were used to determine whether products with claims met Nutrient Profiling Scoring Criteria (NPSC) and qualifying criteria, and to compare them with the Code to determine compliance.

Setting

Australian websites of forty-four fast-food chains including meals, bakery, ice cream, beverage and salad chains.

Subjects

Any products marketed on the websites using health or nutrition content claims.

Results

Of the forty-four fast-food websites, twenty (45 %) had at least one claim. A total of 2094 claims were identified on 371 products, including 1515 nutrition content (72 %) and 579 health claims (28 %). Five fast-food products with health (5 %) and 157 products with nutrition content claims (43 %) did not meet the requirements of the Code to allow them to carry such claims.

Conclusions

New provisions in the Code came into effect in January 2016 after a 3-year transition. Food regulatory agencies should review fast-food websites to ensure compliance with the qualifying criteria for nutrition content and health claim regulations. This would prevent consumers from viewing unhealthy foods as healthier choices. Healthy choices could be facilitated by applying NPSC to nutrition content claims. Fast-food chains should be educated on the requirements of the Code regarding claims.

Type
Short Communication
Copyright
Copyright © The Authors 2016 

Over 63% of Australian adults are overweight or obese( 1 ). Australians are spending an increasing proportion of their budget on eating out and fast foods( 2 ). More than 50% of Australians eat at a fast-food outlet at least once each month, with the average fast-food consumer visiting four times each month; the equivalent of 11·5 million fast-food consumers each month in Australia( 3 ). An obesogenic environment encourages excess consumption of unhealthy foods and discourages physical activity( Reference Swinburn, Egger and Raza 4 ). The obesogenic environment encouraging frequent fast-food consumption contributes to population weight gain( Reference Swinburn, Egger and Raza 4 , Reference Rosenheck 5 ). Claims on food labels are one environmental aspect influencing food choices( Reference Hasler 6 ) and consumption( Reference Kozup, Creyer and Burton 7 , Reference Chan, Patch and Williams 8 ). However, food companies often use nutrition content claims (NCC) and health claims (HC) on unhealthy products( Reference Hughes, Wellard and Lin 9 , Reference Wellard, Hughes and Tsang 10 ) and as marketing tools on their websites( Reference Dragicevich, Williams and Ridges 11 ). This is potentially misleading, as consumers evaluate products with claims as healthier than those without( Reference Kozup, Creyer and Burton 7 ).

Food Standards Australia and New Zealand (FSANZ) regulates HC and NCC under the Australia New Zealand Food Standards Code (‘the Code’)( 12 ), Standard 1.2.7. The Code states that NCC highlight the presence or absence of a nutrient (e.g. ‘contains calcium’); that general-level HC state, suggest or imply that a food or food property has a health effect (e.g. ‘contains calcium for strong bones’); and that high-level HC refer to a serious disease or biomarker (e.g. ‘contains calcium to prevent osteoporosis’)( 12 ).

Previously, only high-level HC and NCC relating to fatty acids were regulated by the Code, and NCC were industry self-regulated( 13 ). After years of consultation including a 3-year transition period, claims have been regulated in a stepwise manner since January 2016. Under Standard 1.2.7, NCC must only meet qualifying criteria for the presence or absence of the claimed nutrient( 12 ). General-level HC must meet the NCC conditions; meet the Nutrient Profiling Scoring Criteria (NPSC) based on the energy, saturated fat, sugars, sodium, fibre and fruit, vegetable nut and legume (FVNL) content of the food( 14 ); and there must be significant evidence of the claimed diet–disease relationship( 12 ). Additionally, high-level HC require pre-approval by FSANZ( 12 ).

Previous research in specific grocery categories found that one-third of products with HC on labels did not meet the NPSC( Reference Hughes, Wellard and Lin 9 ) and 15% of grocery food websites contained claims( Reference Dragicevich, Williams and Ridges 11 ). Although the Code applies to all foods including fast foods( 15 ), there has been no research on the extent to which fast-food chains use claims or the healthiness of fast-food products with claims, and it is unknown whether they are eligible to carry claims. The present study investigated Australian fast-food chain websites to determine the extent that chains use NCC and HC, and whether the claims comply with the Code.

Methods

Under New South Wales state menu labelling legislation, all fast-food chains with more than twenty stores in New South Wales or fifty in Australia must display the energy (kilojoule) content of products on menu boards along with an average adult daily energy intake anchor statement( 16 ). Due to this requirement, these chains were the most likely to have nutrition information available to allow nutrient profiling of products. During data collection, forty-four chains were covered by the legislation and included in the present study. These reflect the largest chains in Australia. This included meal (burger, Mexican and Asian chains), bakery, ice cream, beverage and salad chains.

In May 2015, every page of each chain’s Australian website was systematically viewed by one author, by clicking on every page in the sitemap of each website. The URL of the pages containing products with associated claims were recorded and claims were cross-checked by a second author independently to ensure all were captured. Any discrepancies (n 11) were discussed until consensus was reached. A product associated with a claim was any menu item that was shown in conjunction with a NCC or HC. Data were collected on the types of claims found and nutrition information necessary to apply the NPSC( 14 ) (Table 1). Any missing data, such as nutrition information or FVNL content, were obtained by contacting the chains. When FVNL content could not be obtained (n 17), values were estimated based on ingredients lists and imagery from the chain’s website. The FVNL content must be more than 40% before it affects the NPSC( 17 ). Of these, twelve products (71%) met the NPSC regardless of FVNL content, and the other five were unlikely to have 40% FVNL content (e.g. raisin toast, tuna, egg and lettuce wrap). When fibre was missing (n 30), it was omitted from the NPSC calculation; however, twelve products (40%) met the NPSC without fibre and the other eighteen (60%) did not include fibre-containing ingredients (e.g. flavoured milk drink, ice cream).

Table 1 Data collected from fast-food chain websites

FVNL, fruit, vegetable, nut and legume.

Each product with an associated claim was assessed to determine compliance with Standard 1.2.7( 12 ). This included comparing the product’s nutrient composition with the specific nutrient levels required to allow it to have a claim, called the ‘qualifying criteria’, and the NPSC( 14 ) to assess eligibility for HC. Claims about ingredients (e.g. falafels from a kebab) and blanket claims on entire menus or product groups were analysed separately, as many of these did not have nutrition information available to determine the NPSC.

Proportions of NCC and HC that met the NPSC and the qualifying criteria were calculated. The total number of claims assessed as non-compliant was also calculated.

Results

Of the forty-four fast-food chain websites included, twenty (45%) contained at least one claim. The additional twenty-four chains were excluded from the following analysis. Overall, 401 products (n 371, 92%), ingredients (n 27, 7%) and menus (n 3, 1%) carried claims.

Claims on products

A total of 2094 claims were identified on the 371 products, of which 1515 (72%) were NCC and 579 (28%) were HC. Of the HC, forty-five (8%) were high level, relating to fibre and maintaining steady cholesterol levels.

As seen in Table 2, the largest proportion of products with claims and the majority of claims were in bakery chains. Bakers Delight had the most products with claims (n 91) and the most claims (n 1325). Products had up to thirty-five claims per product (e.g. one bread product had eighteen NCC (B-vitamins, n 1; fibre, n 6; folate, n 1, glycaemic index (GI), n 3, iron, n 1; kilojoules, n 1; magnesium, n 1; protein, n 1; saturated fat, n 2; and sugar, n 1) and seventeen HC (‘antioxidants and good health’, n 1; ‘fibre and maintenance of steady blood sugar levels’, n 1; ‘fibre and good health’, n 1; ‘fibre for a healthy heart’, n 2; ‘low GI and sustained energy’, n 1; ‘low GI and satiety’, n 1; ‘low GI and slower digestion’, n 1; ‘saturated fat for a healthy heart’, n 2; ‘saturated fat and weight maintenance’, n 1; ‘sugars and weight maintenance’, n 1; ‘lower kilojoules and weight maintenance’, n 1; ‘vitamins and minerals and good health’, n 1; ‘low sodium for a healthy heart’, n 2; ‘fibre for maintaining steady cholesterol levels’, n 1)). The average number of NCC on products with NCC was four, and the average number of HC on products with HC was five.

Table 2 The number and proportion of products with claims and the number and proportion of claims, by chain type and chain, in a systematic content analysis of all web pages on forty-four Australian fast-food websites, May 2015

* Some products had both nutrition content claims and health claims; therefore the total is not the sum of these columns.

May not add to 100 % due to rounding.

Table 3 shows the proportion of products with an associated claim that did not meet either the NPSC and/or the qualifying criteria for each claim. Although NCC do not have to meet the NPSC( 12 ), of the products with associated HC, five (5%) did not meet the NPSC and 157 (42%) did not meet the qualifying criteria. Of the 371 products with claims, 147 (39%) could not be compared against the Code due to missing nutrition information that was unable to be obtained from chains, as they either refused to provide it or stated they did not have this information. These products had 679 NCC (45%) and 308 HC (53%) associated with them.

Table 3 Number and proportion of products with each type of claim compared with the provisions of the Australia New Zealand Food Standards Code, and the proportion of products that could not be assessed against the Code, in a systematic content analysis of all web pages on forty-four Australian fast-food websites, May 2015

* Under the Code, nutrition content claims are not required to meet the Nutrient Profiling Scoring Criteria (NPSC).

Some products were associated with both nutrition content and health claims; therefore the total is not the sum of the products with nutrition claims and health claims.

Indicates the products that may be non-compliant with the Code.

There were forty-one different types of NCC; the most common were ‘contains/high fibre’ (n 365), ‘low/reduced fat’ (n 207) and ‘contains/high protein’ (n 172). There were sixty-four different HC; the most common were ‘antioxidants for wellbeing’ (n 55), ‘fibre for health’ (n 52), and ‘fibre to maintain blood sugar levels’ and ‘vitamins and minerals for health’ (both n 47).

Claims about ingredients

Of the twenty-seven ingredient claims, eleven (41%) were primary produce, such as vegetables, eggs or meat. The remaining were other ingredients that are added to products, such as different types of tea, falafels added to doner kebabs and ingredient ‘boosters’ (e.g. powdered wheatgrass) that are added to beverages. While nineteen products (70%) did not have nutrition information available, of the eight that did, three (11% of ingredient claims) did not meet the NPSC and one low-fat claim was considered non-compliant due to excessive levels of fat.

Claims on menus or groups of products

There were three blanket claims relating to either a whole menu or a group of products. Although these claims, such as ‘enriched with nutrients’, ‘low GI’ or ‘bursting with protein’, are likely to apply to some products, they were not applicable to the entire menu or product range. The claim on the group of products was for a milkshake range, claiming to be ‘great for topping up calcium levels’. These products had no nutrition information available to enable comparison with the Code.

Other observations

Most HC (n 531, 87%) were not on the list of pre-approved general-level HC. Some claims related to a food rather than a nutrient, for example ‘superfruit for immunity’. Many chains provided general information on healthy eating and nutrition separate to the claims on products, and these are not covered by the Code.

Discussion

Our study showed that 5% of fast-food products with HC and 43% of products with NCC did not meet the requirements of the Code to allow them to carry these claims. This may be due to errors in the online nutrition information or misinterpretation of the Code by the chains. As all advertising for food products, including websites, is covered by the Code( 15 ), the products associated with these claims may be considered non-compliant with the Code.

Claims on fast-food products can lead to more favourable customer attitudes( Reference Kozup, Creyer and Burton 7 ) and unhealthier product selections( Reference Chandon and Wansink 18 ). Australian fast foods can be high in energy, saturated fat, sugars and/or sodium( Reference Dunford, Webster and Barzi 19 Reference Watson, Piazza and Wellard 21 ); therefore claims about such products may increase the consumption of these nutrients of public health concern, negatively influencing the population’s diet. This is important considering the chains with more claims that also had potentially non-compliant claims were those that are often marketed as healthier, such as bakery, salad and juice chains.

Food manufacturers use NCC to highlight only the positive aspects of products that have negative attributes, such as marketing a high-sugar product as low-fat( Reference Harris, Thompson and Schwartz 22 ). Our results show this is occurring in fast foods also. To prevent this, the Code should be amended to require products with associated claims to meet the NPSC. This will ensure that only healthier products can carry NCC and reduce the potential for people to be misled by claims on unhealthy products.

Food manufacturers may make general-level HC without FSANZ pre-approval, but the company must have sufficient evidence substantiating the claim and notify FSANZ of the food–health relationship intended to be the subject of a claim( 12 ). These notified claims are listed on the FSANZ website( 23 ). None of the fast food HC had been listed; therefore it is unclear whether there is evidence for the food–health relationships claimed. These should be investigated by enforcement agencies.

Although the results indicate potential non-compliance with the Code, 45% of NCC and 53% of HC could not be assessed due to missing information. While the Code states that grocery foods carrying NCC must have nutrient values listed in the nutrition information panel, this does not apply for food for catering purposes, where the information must be provided to purchasers on request( 24 ). As the products in the present study were not purchased, researchers were unable to obtain nutrition information to assess all claims and it is unknown if the chains have this information available in-store. However, should the chain be unable to provide this on purchase, these claims may be non-compliant.

Nutrient values for some products, such as fibre content, were missing from the online nutrition information and not provided by the chains. This resulted in fibre being excluded from the NPSC calculations for these products. However, this did not affect the NPSC of these products. Similarly, chains did not list product ingredient proportions; the FVNL contents were often estimated. This is likely to have been inaccurate in some instances. However, as a food must have at least 40% FVNL content to affect the NPSC score, this did not affect the majority of these products.

Our study highlights ambiguity in the Code. Ingredients and menus could not be compared due to missing nutrition information. However, even with nutrition information available, it is unclear how groups of products are assessed in the Code. Further, general healthy eating and nutrition information was excluded as it did not refer to specific products, even though this information sometimes referred to health benefits of consuming certain nutrients or ingredients. Claims that imply health effects are considered HC( 12 ); however, it is unclear how, and if, this applies to ingredients or general information.

As the present study considered websites, it is unknown whether chains are using claims in-store. Given that fast-food customers rarely access online nutrition information prior to purchasing( Reference Bassett, Dumanovsky and Huang 25 , Reference Roberto, Agnew and Brownell 26 ), it is unknown how influential online claims are at the point of purchase. However, online information is influential when choosing which chain to visit( Reference Bennett, Steinberg and Lanpher 27 ); therefore ensuring these claims are accurate should be required of the fast-food industry.

A limitation is that the study relied on nutrition information provided by the chains and was not independently verified. However, the Australian Competition and Consumer Act 2010 prevents incorrect labelling( 28 ) and therefore we assumed that all nutrition information provided by the chains was correct. Further, only websites of forty-four fast-food chains were included; therefore other chains may be making claims.

Finally, the study was conducted just before the end of the 3-year phase-in period. Therefore the study should be repeated now that the Standard is mandated, to determine compliance. Should chains continue to use marketing claims that do not meet the requirements of the Code, enforcement should be stronger.

Conclusion

The present study aimed to determine the extent that fast-food chain websites contain NCC and HC, and whether these claims are compliant with the Code. Almost half of the websites investigated had at least one claim. Of the NCC on fast-food websites, 42% could be considered non-compliant with the Code. Although this advertising avenue has not been scrutinised previously, it should be reviewed by Australian food regulators. The Code should be enforced to ensure that fast-food chains are not making claims on websites if the nutrient composition of those foods does not meet the qualifying criteria. Given that many fast foods are unhealthy, such claims potentially mislead consumers to believe the foods are healthy. Fast-food chains should be educated on the requirements for making claims and action should be taken by Australian food agencies to ensure that chains are aware of, and compliant with, the requirements for making NCC and HC. Further improvements to the Code should require that products with NCC meet NPSC.

Acknowledgements

Financial support: This research received no specific grant from any funding agency in the public, commercial or not-for-profit sectors. Conflict of interest: None. Author contributions: A.K. was a student at the University of Wollongong when the study was conducted. L.W. conceived the study, supervised the data collection, checked the data, conducted the final analyses, interpreted the results and prepared the manuscript. A.K. collected, entered and cleaned the data, conducted the initial analysis and contributed substantially to the manuscript. W.L.W. supervised the data collection, contributed to the interpretation of the results and contributed substantially to the manuscript. C.H. contributed to the interpretation of the results and contributed substantially to the manuscript. Ethics of human subject participation: As this was an observational study with no human subjects, no ethical approval was necessary.

References

1. Australian Bureau of Statistics (2015) 4364.0.55.001 – National Health Survey: First Results, 2014–15. Canberra: ABS; available at http://www.abs.gov.au/ausstats/[email protected]/mf/4364.0.55.001?OpenDocument Google Scholar
2. Australian Bureau of Statistics (2011) 6530.0 – Household Expenditure Survey Australia: Summary of Results 2009–10. Canberra: ABS; available at http://www.abs.gov.au/ausstats/[email protected]/mf/6530.0/ Google Scholar
3. Enhanced Media Metrics Australia (2014) EMMA Industry Report: Out of Home Dining. North Sydney, NSW: Ipsos Australia.Google Scholar
4. Swinburn, B, Egger, G & Raza, F (1999) Dissecting obesogenic environments: the development and application of a framework for identifying and prioritizing environmental interventions for obesity. Prev Med 29, 563570.Google Scholar
5. Rosenheck, R (2008) Fast food consumption and increased caloric intake: a systematic review of a trajectory towards weight gain and obesity risk. Obes Rev 9, 535547.Google Scholar
6. Hasler, CM (2008) Health claims in the United States: an aid to the public or a source of confusion? J Nutr 138, issue 6, 1216S1220S.Google Scholar
7. Kozup, JC, Creyer, EH & Burton, S (2003) Making healthful food choices: the influence of health claims and nutrition information on consumers’ evaluations of packaged food products and restaurant menu items. J Mark 67, 1934.CrossRefGoogle Scholar
8. Chan, C, Patch, C & Williams, P (2005) Australian consumers are sceptical about but influenced by claims about fat on food labels. Eur J Clin Nutr 59, 148151.CrossRefGoogle ScholarPubMed
9. Hughes, C, Wellard, L, Lin, J et al. (2013) Regulating health claims on food labels using nutrient profiling: what will the proposed standard mean in the Australian supermarket? Public Health Nutr 16, 21542161.Google Scholar
10. Wellard, L, Hughes, C, Tsang, YW et al. (2015) Investigating fruit and vegetable claims on Australian food packages. Public Health Nutr 18, 27292735.CrossRefGoogle ScholarPubMed
11. Dragicevich, H, Williams, P & Ridges, L (2006) Survey of health claims for Australian foods made on Internet sites. Nutr Diet 63, 139147.Google Scholar
12. Australian Government (2016) Australia New Zealand Food Standards Code – Standard 1.2.7 – Nutrition, Health and Related Claims. Canberra: Australian Government; available at http://www.legislation.gov.au/Details/F2016C00161 Google Scholar
13. Food Standards Australia New Zealand (2004) Initial Assessment Report Proposal P293 Nutrition, Health and Related Claims. Canberra: FSANZ; available at http://www.foodstandards.gov.au/code/proposals/pages/proposalp293nutritionhealthandrelatedclaims/p293initialassessmen3500.aspx Google Scholar
14. Food Standards Australia New Zealand (2015) Nutrient Profiling and Nutrient Profiling Scoring Criterion (NPSC). Canberra: FSANZ; available at http://www.foodstandards.gov.au/industry/labelling/pages/nutrientprofilingcalculator/Default.aspx Google Scholar
15. Australian Government (2016) Australia New Zealand Food Standards Code – Standard 1.1.1 – Preliminary Provisions – Application, Interpretation and General Prohibitions. Canberra: FSANZ; available at http://www.legislation.gov.au/Details/F2016C00157 Google Scholar
16. New South Wales Government (2014) Food Act 2003, 43, Division 4 Requirements relating to display of nutritional information for food. Sydney: NSW Government.Google Scholar
17. Food Standards Australia New Zealand (2013) Short guide for industry to the Nutrient Profiling Scoring Criterion (NPSC) in Standard 1.2.7 – Nutrition, Health and Related Claims. Canberra: FSANZ.Google Scholar
18. Chandon, P & Wansink, B (2007) The biasing health halos of fast-food restaurant health claims: lower calories estimates and higher side-dish consumption intentions. J Consum Res 34, 301314.Google Scholar
19. Dunford, E, Webster, J, Barzi, F et al. (2010) Nutrient content of products served by leading Australian fast food chains. Appetite 55, 484489.Google Scholar
20. Wellard, L, Glasson, C & Chapman, K (2012) Fries or a fruit bag? Investigating the nutritional composition of fast food children’s meals. Appetite 58, 105110.CrossRefGoogle ScholarPubMed
21. Watson, WL, Piazza, S, Wellard, L et al. (2016) Energy and nutrient composition of menu items at Australian coffee chains. Nutr Diet 73, 8187.Google Scholar
22. Harris, JL, Thompson, JM, Schwartz, MB et al. (2011) Nutrition-related claims on children’s cereals: what do they mean to parents and do they influence willingness to buy? Public Health Nutr 14, 22072212.Google Scholar
23. Food Standards Australia New Zealand (2016) Notified Food–Health Relationships. Canberra: FSANZ; available at http://www.foodstandards.gov.au/industry/labelling/fhr/Pages/default.aspx Google Scholar
24. Australian Government (2016) Australia New Zealand Food Standards Code – Standard 1.2.8 – Nutrition Information Requirements. Canberra: FSANZ; available at http://www.legislation.gov.au/Details/F2016C00162 Google Scholar
25. Bassett, MT, Dumanovsky, T, Huang, C et al. (2008) Purchasing behaviour and calorie information at fast food chains in New York City. Am J Public Health 98, 14571459.Google Scholar
26. Roberto, C, Agnew, H & Brownell, K (2009) An observational study on consumers’ accessing of nutrition information in chain restaurants. Am J Public Health 99, 820821.Google Scholar
27. Bennett, GG, Steinberg, DM, Lanpher, MG et al. (2013) Availability of and ease of access to calorie information on restaurant websites. PLoS ONE 8, e72009.Google Scholar
28. Australian Government (2015) Competition and Consumer Act 2010. Canberra: Australian Government; available at http://www.comlaw.gov.au/Details/C2012C00198/Html/Volume_3#_Toc316291776 Google Scholar
Figure 0

Table 1 Data collected from fast-food chain websites

Figure 1

Table 2 The number and proportion of products with claims and the number and proportion of claims, by chain type and chain, in a systematic content analysis of all web pages on forty-four Australian fast-food websites, May 2015

Figure 2

Table 3 Number and proportion of products with each type of claim compared with the provisions of the Australia New Zealand Food Standards Code, and the proportion of products that could not be assessed against the Code, in a systematic content analysis of all web pages on forty-four Australian fast-food websites, May 2015