Approximately 12 % of children globally have excess weight or obesity, putting them at increased risk of developing nutrition-related chronic diseases in adulthood( Reference Ng, Fleming and Robinson 1 ). In Canada, obesity among children has tripled since the 1980s( Reference Janssen 2 ). Food and beverage marketing (hereafter referred to as ‘food marketing’ only) has been identified as a significant contributor to childhood obesity( Reference McGinnis, Gootman and Kraak 3 – Reference Sadeghira, Duhaney and Motaghipisheh 6 ). As such, the WHO has recommended that countries develop policies limiting children’s exposure to food marketing that is high in fat, sugar and Na( 7 ).
Marketing to children in Canada is mostly self-regulated by industry. In 2007, sixteen food and beverage manufacturers established the Canadian Children’s Food and Beverage Advertising Initiative (CAI); currently, seventeen large food and beverage companies and one fast-food restaurant chain participate. Under this initiative, eleven companies pledged to abstain from advertising to children under 12 years old while the remainder pledged to advertise only products considered ‘healthier dietary choices’ in schools, print media, television, the Internet and other media( 8 , 9 ). Each company defined what constituted advertising to children and set child audience thresholds that range from 25 to 35 % (i.e. the percentage of the audience that must consist of children under 12 years old before the pledges apply)( 9 ). In December 2015, the CAI implemented uniform nutrition criteria for eight food categories( 9 ).
To date, most research in Canada has examined food marketing to children on television. On average, Canadian children (outside Quebec) view between four and seven food ads per hour per station( Reference Potvin Kent, Dubois and Wanless 10 , Reference Kelly, Halford and Boyland 11 ), and the majority of products advertised are unhealthy and high in sugar, fat and Na( Reference Potvin Kent, Dubois and Wanless 12 ). Evaluations of the CAI have shown that children’s exposure to food and beverage advertising on television increased after its implementation and the healthfulness of foods advertised did not improve( Reference Potvin Kent, Martin and Kent 13 , Reference Potvin Kent and Wanless 14 ). This outcome was partly attributed to the voluntary nature of the CAI and its lax nutrition criteria( Reference Potvin Kent, Martin and Kent 13 , Reference Potvin Kent and Wanless 14 ).
Although television remains the dominant medium by which food companies target children in terms of spending( Reference Powell, Harris and Fox 15 ), the food industry has increased its spending on digital marketing and children are being increasingly targeted online( Reference Powell, Harris and Fox 15 , Reference Cai and Zhao 16 ). On the Internet, food companies can create ‘branded environments’ for their products that incorporate interactive components such as advergames (video games with embedded advertising), membership opportunities, contests and videos that solicit the attention of children( Reference Weber, Story and Harnack 17 ). They also place banner advertisements on third-party websites that appeal to children( Reference Alvy and Clavert 18 , Reference Kelly, Bochynska and Korman 19 ).
The potential for marketers to reach Canadian children online is great given that 99 % of children have access to the Internet outside school( Reference Steeves 20 ). According to recent research, 30 % of children in grades 6–12 are spending more than 2 h of their daily leisure time playing games or surfing the Internet on computers( Reference Leatherdale and Ahmed 21 ). Little research in Canada has examined food marketing online, although some research has indicated that advergames, viral marketing and contests are frequently featured on child-directed websites hosted by Canadian companies participating in the CAI( Reference Brady, Mendelson and Farrell 22 ). Other research has shown that almost 30 % of foods advertised to children during their preferred television viewing have websites with child-directed content and a plethora of marketing techniques to keep children engaged on these sites( Reference Potvin Kent, Dubois and Kent 23 ).
No research has examined the effectiveness of the CAI in protecting Canadian children from unhealthy food advertising in digital media including display advertising (i.e. non-video banner and pop-up ads) on children’s preferred websites in Canada. To fill this gap, the objectives of the current study were to examine the frequency and healthfulness of food advertising on children’s preferred websites and to compare the frequency and nutritional quality of these food ads between companies participating in the CAI and those not participating (i.e. non-CAI companies). It was hypothesized that the CAI is not sufficiently protecting children online, that children are exposed to a large number of food ads on their preferred websites and that the healthfulness of advertised products is poor.
Methods
Identifying children’s preferred websites
Syndicated Internet advertising exposure data for June 2015 through May 2016 were licensed from comScore. This company maintains a large Internet audience measurement panel and captures the online behaviour of 40 000 Canadians, including the websites they visit, their engagement with web content and their exposure to display advertising. The data on panellists’ online activity are weighted and extrapolated to estimate the online behaviour of the entire Canadian population, which can be segmented by age, gender, household income and geographic location, among other characteristics. The most popular ten websites with advertising for March–May 2016 were determined using comScore’s Media Metrix Key Measures Report for children aged 2–11 years from Canada (excluding Quebec). The most popular sites were those that had a minimum of 50 000 unique child visitors and those whose composition of child visitors (i.e. the percentage of visitors who are children) reached a minimum of 15 %. This audience threshold was selected because it is the one applied by the Consumer Protection Act in Quebec, which prohibits all commercial advertising to children under 13 years of age in that province( 24 ). A total of thirty-seven websites for children aged 2–11 years met these criteria and the ten with the highest number of unique child visitors that contained advertising were selected for the current study (Table 1).
† Percentage of unique website visitors who are children aged 2–11 years.
Frequency of display advertising
comScore’s Ad Metrix Advertiser Report was used to identify the frequency of food display advertising (i.e. pop-up ads and non-video banner ads) viewed on each website from June 2015 to May 2016. This report provides the number of display ads viewed at the company and product level if these ads were viewed by at least fifteen panel members per month. It should be noted, however, that comScore’s Ad Metrix module captures all display ads that were seen by Canadian panellists, including advertisements originating from food and beverage companies located outside Canada. Six Ad Metrix Reports per website were generated which encompassed six food and beverage advertiser categories as classified by comScore including: food and grocery, frozen food, alcoholic beverages, restaurants, dairy and beverages. Ad creative reports were generated for each advertiser on every website and the number of ads viewed in Canada on these websites and their content (i.e. name of products or brand logos advertised) were documented. Ads that did not feature food products or brand logos, including those that strictly advertised kitchen appliances, stores or nutritional supplements, were not included in the study.
Classifying display ads
Each ad was classified by food category, ad type (product or brand), food company and whether it belonged to a company participating in the CAI (CAI/non-CAI) as defined in Canada. A very similar voluntary initiative exists in the USA; however, some participating companies, commitments and products approved for advertising vary( 25 , 26 ). Ads were considered brand ads if they did not feature a specific product. Ad impressions that were reported by comScore as food ads but whose content could not be seen in ad creative reports due to technical glitches were included in the study and categorized as unspecified (neither brand or product). Ads were coded into fifteen food categories: restaurants (fast food and dine-in); cakes, cookies and ice cream; cold cereal; snacks; sugar-sweetened beverages; tea or coffee; candy and chocolate; cheese; bread and pasta; 100 % juice; yoghurt (including yoghurt beverages); water; alcohol; mixed category (i.e. featuring products from multiple food categories); and other. Products grouped in the other category were those that appeared infrequently, including frozen pizza, oil, condiments, other grain products, milk and butter, frozen vegetables, dried fruit and baby food.
Nutritional analysis
A nutritional analysis of all advertised foods was completed using the Pan American Health Organization Nutrient Profile Model (PAHO NPM)( 27 ) and the UK Nutrient Profile Model (UK NPM)( 28 ). The former was selected as it considers only negative nutrients (i.e. nutrients of public health concern such as sugar and Na whose consumption in excess is linked with adverse health outcomes), while the latter was selected because it has been validated( Reference Arambepola, Scarborough and Rayner 29 , Reference Scarborough, Boxer and Rayner 30 ) and considers both positive (i.e. components such as fruit and vegetable content that are compatible with a healthy diet) and negative nutritional components.
Nutritional information was collected for each advertised product and was drawn, in order of priority, from the Canadian company website, the Nutrition Facts table found in store, the US company website or the Canadian Nutrient File. Information collected included energy (kcal), total fat (g), saturated fat (g), trans-fat (g), Na (mg), carbohydrates (g), fibre (g), sugar (g) and protein (g) per stated serving. This information was standardized and expressed based on servings of 100 g for both foods and beverages. The specific density (g/ml) of beverages was used to convert millilitres into grams( 31 ). Average nutrient content per 100 g was calculated for ads featuring multiple products. Beverages were excluded from these calculations if the ad featured both foods and beverages because the UK NPM (described below) classifies them according to different cut-off scores.
Both researchers coded each product and brand ad as unprocessed, processed or ultra-processed according to PAHO definitions( 27 ). Brand ads were categorized as ultra-processed if all products within their portfolio met this criterion, whereas those that encompassed products of various levels of processing were not coded at all. All fast-food restaurant product or brand ads were categorized as ultra-processed unless they featured a processed or unprocessed product exclusively. The inter-rater reliability for this classification was 88·3 % and was calculated as follows: 1−(51 disagreements/437). Discrepancies were discussed and consensus on the final categorization was reached. However, due to this discrepancy, the PAHO NPM was applied to all advertised foods rather than solely to processed or ultra-processed products as suggested in the PAHO NPM guidelines( 27 ). Ads were classified according to whether they were excessive in fat (≥30 % of total energy), saturated fat (≥10 % of total energy), trans-fat (≥1 % of total energy), Na (≥1 mg per 1 kcal) and free sugars (≥10 % of total energy) as per the PAHO NPM( 27 ). They were also classified as excessive or not in at least one of these nutrients. The products’ content of free sugars was estimated using formulas suggested by the PAHO( 27 ).
Product ads were also classified using the UK NPM. Based on 100 g servings, each product was scored according to its content of energy, saturated fat, total sugar, Na, fruit/vegetables/nuts, fibre and protein, and its overall score was calculated as per the methodology( 28 ). Foods that scored 4 points or more and beverages that scored 1 point or more were categorized as ‘less healthy’. A quarter (24·6 %) of display ads could not be classified using the PAHO and UK NPM because they featured either a brand name or a logo (14·2 %) or were categorized as unspecified (10·4 %). Alcoholic beverages were also excluded from the nutritional analysis.
Statistical analysis
Statistical analyses were conducted using the statistical software package IBM SPSS Statistics for Windows version 24 in January 2016. The number and frequency of ads appearing on all ten child-preferred websites in Canada from June 2015 to May 2016 were determined by company and food category. The nutritional information of advertised products and their classification by the PAHO and the UK NPM were weighted by the total number of ad impressions (i.e. the total number of times the ad appeared across all ten websites). The nutritional quality of products advertised during the examined year as classified by the NPM was described for the total sample, by CAI membership and for individual CAI companies using frequencies. The level of processing (unprocessed and processed v. ultra-processed) and the nutritional quality of CAI and non-CAI ads as classified by the PAHO NPM (excessive v. not excessive) and the UK NPM (healthier v. less healthy) were compared using Pearson χ 2 tests. When differences were statistically significant, logistic regressions were conducted and OR were reported to describe the effect size (i.e. the magnitude of the difference between CAI and non-CAI companies). In addition, the nutrient content per 100 g serving of food product advertised by CAI and non-CAI companies was compared using independent t tests. When differences were statistically significant, correlation coefficients (r) were calculated to determine the effect size using the following formula( Reference Fields 32 ): $r\, {\equals}\,\sqrt {t^{2} \,/\,t^{2} {\plus}df} ,$ where t=t statistic and df=degrees of freedom.
The nutritional comparisons between CAI and non-CAI companies described above was carried out for ads appearing on all ten websites and those appearing on the six websites on which the CAI voluntary pledges apply (i.e. those with a child composition share of 35 % or more). The significance level was set at α=0·01 for all analyses.
Results
Frequency of food/beverage display ads
A total of 54 003 425 food ads appeared on children’s preferred websites from June 2015 to May 2016 in Canada. CAI companies were responsible for 35 449 136 display ads (65·6 %), whereas non-CAI companies were responsible for 18 554 289 (34·4 %) ads. In other words, CAI companies were responsible for nearly twice as many display ads as non-CAI companies. roblox.com accounted for the majority (80·4 %) of ads viewed on all websites followed by coolmath-games.com (9·3 %) and kizi.com (7·7 %; data not shown).
As shown in Table 2, the food categories most frequently advertised overall were restaurants (32·0 %), cakes, cookies and ice cream (25·6 %), and cold cereal (11·4 %). Among CAI-company ads, the most frequently advertised food categories in descending order were cakes, cookies and ice cream (38·5 %), cold cereal (17·1 %) and restaurants (16·6 %). Among non-CAI company ads, more than half of the ads were for restaurants (62·4 %), followed by sugar-sweetened beverages (13·4 %) and alcohol (7·1 %). Overall, the most frequently advertised products in order of importance were Kellogg’s Pop Tarts (23·6 % of total ads), Kellogg’s Frosted Flakes (9·3 %), McDonald’s Happy Meal (6·8 %), Red Bull Energy Drink (2·8 %) and Kraft Lunchables (2·6 %). The ad creatives for these five products are available in the online supplementary material.
In the total sample, Kellogg’s was responsible for more than a third (37·0 %) of all ads viewed on children’s preferred websites from June 2015 to May 2016, followed by McDonalds (10·6 %) and Restaurant Brand International (7·9 %; Table 3). Of CAI-company ads, Kellogg’s accounted for more than half (56·4 %) followed by McDonald’s (16·2 %) and Kraft (10·7 %). Among non-CAI ads, companies who advertised the most were Restaurant Brand International (23·1 %), Red Bull (9·4 %) and St. Hubert BBQ (9·2 %).
Nutritional quality of display ads on all ten children’s preferred websites
Overall, 92·7 % (n 32 493 191) of food products advertised on the children’s preferred websites were ultra-processed, while 0·8 and 6·5 % were processed or unprocessed, respectively. CAI-company ads were 2·5 times more likely to be ultra-processed (v. unprocessed or processed) compared with non-CAI ads (94·9 v. 88·2 %; $\chi _{{(1)}}^{2} $ =7·4×105, P<0·001, OR=2·5, 99 % CI 2·5, 2·5; data not shown). According to independent t tests, there were statistically significant differences between the average nutrient content of CAI and non-CAI products advertised (Table 4). Among differences of larger magnitude, CAI products advertised contained more energy (mean difference (MD)=141, 99 % CI 141·1, 141·4 kcal, P<0·001, r=0·55), carbohydrates (MD=39·2, 99 % CI 39·2, 39·3 g, P<0·001, r=0·71), sugar (MD=18·2, 99 % CI 18·2, 18·2 g, P<0·001, r=0·68) and Na (MD=70·0, 99 % CI 69·7, 70·2 mg, P<0·001, r=0·23) per 100 g serving than products advertised by non-CAI companies.
MD, mean difference.
***P<0.001.
† To convert to kJ, multiply kcal value by 4·184.
The vast majority of ads (93·4 %) were categorized as excessive in fat, Na or free sugars according to the PAHO NPM and 73·8 % of ads were categorized as ‘less healthy’ according to the UK NPM (Table 5). Products advertised by CAI companies were less likely to be excessive in total fat (10·7 v. 52·7 %; P<0·001; OR=0·11), saturated fat (16·8 v. 45·5 %; P<0·001; OR=0·24), trans-fat (4·1 v. 7·1 %; P<0·001; OR=0·56) and Na (39·7 v. 56·2 %; P<0·001; OR=0·51) compared with those advertised by non-CAI companies. On the other hand, CAI product ads were more likely to be excessive in free sugars (89·0 v. 40·5 %; P<0·001, OR=11·9) or in at least one nutrient (94·7 v. 89·3 %; P<0·001; OR=2·15) as well as to be categorized as ‘less healthy’ (78·4 v. 59·0 %; P<0·001; OR=2·53) compared with non-CAI product ads.
UK NPM, UK Nutrient Profile Model.
***P<0.001.
† Reference group: non-CAI companies.
As shown in Table 6, all (100 %) Campbell, Coca-Cola, Danone, Ferrero, General Mills, Kellogg’s, McDonald’s, Nestlé, Parmalat and PepsiCo ads on children’s preferred websites were for products classified as excessive in total fat, saturated fat, trans-fat, Na or free sugars. More than 90 % of Campbell, Coca-Cola, Danone, Ferrero, Kellogg’s, McDonald’s and PepsiCo products advertised were classified as excessive in free sugars, while 99 % of McDonald’s and 100 % of Parmalat’s advertised products were classified as excessive in Na. Furthermore, all (100 %) Campbell, Ferrero, Parmalat and PepsiCo products advertised were categorized as ‘less healthy’.
UK NPM, UK Nutrient Profile Model.
Nutritional quality of display ads on the six websites on which the Canadian Children’s Food and Beverage Advertising Initiative commitments apply
Most ads (93·8 %) on the six websites on which the CAI applies were categorized as excessive in fat, Na or free sugars according to the PAHO NPM and 72·9 % of ads were categorized as ‘less healthy’ according to the UK NPM (data not shown). Products advertised by CAI companies were significantly less likely to be excessive in total fat (10·8 v. 53·5 %; P<0·001; OR=0·10, 99 % CI 0·10, 0·11), saturated fat (17·7 v. 46·0 %; P<0·001; OR=0·25, 99 % CI 0·25, 0·25), trans-fat (4·2 v. 6·4 %; P<0·001; OR=0·64, 99 % CI 0·63, 0·64) and Na (43·5 v. 56·8 %; P<0·001; OR=0·59, 99 % CI 0·58, 0·59) compared with those advertised by non-CAI companies. Conversely, CAI product ads were significantly more likely to be excessive in free sugars (90·0 v. 41·0 %; P<0·001; OR=13·0, 99 % CI 13·0, 13·1) or in at least one nutrient (95·2 v. 89·8; P<0·001; OR=2·3, 99 % CI 2·2, 2·3) as well as categorized as ‘less healthy’ (77·5 v. 59·3 %; P<0·001; OR=2·4, 99 % CI 2·4, 2·4) compared with non-CAI product ads. In addition, CAI product ads on these six websites also contained more energy (MD=139, 99 % CI 138·7, 139·0 kcal, P<0·001, r=0·53), carbohydrates (MD=39·8, 99 % CI 39·7, 39·8 g, P<0·001, r=0·70), sugar (MD=18·5, 99 % CI 18·5, 18·5 g, P<0·001, r=0·68) and Na (MD=72, 99 % CI 71·7, 72·1 mg, P<0·001, r=0·23) per 100 g serving than products advertised by non-CAI companies (data not shown).
Discussion
In summary, there were approximately 54 million food display ads on children’s top ten preferred websites in Canada between June 2015 and May 2016. More than nine out of ten products advertised were ultra-processed with the most frequently advertised food categories being restaurants, cakes, cookies and ice cream, and cold cereal. Overall, the nutritional quality of advertised foods was poor, as over 90 % of ads were found to be excessive in fat, Na or free sugars according to the PAHO NPM and about 74 % were deemed ‘less healthy’ according to the UK NPM. These results mirror what has been seen on television advertising in Canada( Reference Potvin Kent, Dubois and Wanless 12 ). This high frequency of unhealthy food pop-up and banner ads also points to the failure of self-regulation in limiting food advertising that is high in fat, Na and sugar on children’s preferred websites in Canada.
Although the present study did not systematically analyse the marketing techniques used in these digital ads, it is interesting to note that a large proportion of the five most advertised products, accounting for 45 % of total ads on all ten websites, featured advertising techniques that expressly appeal to children, including, among others: the use of branded or licenced characters (e.g. Frosted Flakes and McDonald’s Happy Meal), the promotion of a prize giveaway (e.g. Pop Tarts) and the use of cartoons and animation (e.g. Red Bull energy drink and Lunchables).
Advertising behaviour of companies participating in the Canadian Children’s Food and Beverage Advertising Initiative
CAI companies were responsible for nearly twice as many displays ads as non-CAI companies and the nutritional quality of their advertised products was also arguably worse. Indeed, even though products advertised by CAI companies were less likely to be excessive in fat and Na, their ads overall were more than two times more likely to be excessive in fat, Na or free sugars or deemed ‘less healthy’ compared with non-CAI ads. These results are largely driven by the fact that CAI ads more often featured products that were energy-dense and excessive in free sugars. These findings were similar when we exclusively examined the six of the ten websites on which the CAI commitments are supposed to apply (i.e. those with a child composition share of ≥35 %). Such results are consistent with research on food advertising on television in Canada( Reference Potvin Kent, Martin and Kent 13 , Reference Potvin Kent, Dubois and Wanless 33 ) and on children’s preferred websites in the USA( Reference Ustjanauskas, Harris and Schwartz 34 ), whereby companies who are voluntarily pledging to limit unhealthy food advertising to children are in fact among the worst offenders.
It should be noted, however, that the behaviour of individual CAI companies on children’s preferred websites varied greatly. For example, three companies alone including Kellogg’s, McDonald’s and Kraft were collectively responsible for 83 % of all CAI ads featured on all websites while other companies advertised very little in comparison. Three CAI companies including Maple Leaf Foods, Post Foods and Weston Bakeries did not advertise at all.
Although we categorized ads according to the Canadian CAI membership, it should be noted that we could not necessarily attribute these ads to Canadian companies as this information was not always specified in the ad creatives (i.e. the actual advertisement). In some cases, we could directly credit some advertisements to Canadian CAI companies such as Kellogg’s (e.g. Froot Loops, Frosted Flakes), McDonald’s (e.g. Happy Meal, Chicken Bacon Onion burger, Big Mac), Danone (e.g. Danette pudding), Parmalat (e.g. Black Diamond cheese spread), Ferrero (e.g. Tic Tac Mixers), Nestlé (e.g. Smarties) and Mars (e.g. Uncle Ben’s brand) as ads were either bilingual (English and French, the official languages of Canada) or specifically mentioned Canada (see online supplementary material). Although in most instances we could not make the distinction between Canadian and American company ads, it should be noted that fifteen of the eighteen companies participating in the CAI in Canada are also participating in the initiative in the USA and significant similarities exists between pledges made by companies on either side of the border( 25 , 26 ). Our inability to clearly identify ads by country of origin highlights one of the challenges faced by countries attempting to regulate digital food and beverage marketing to children. To ensure the success of digital food and beverage marketing restrictions online, international cooperation and treaties such as that developed in the tobacco prevention field (e.g. the WHO Framework Convention on Tobacco Control) will likely be essential( 35 ).
Nutrient profiling
We assessed the nutritional quality of products advertised using two nutrient profile models. In some instances, there were great disparities in how these models characterized the healthfulness of products. The difference is particularly evident when examining the overall healthfulness of products advertised by three CAI companies, namely Coca-Cola, Danone and McDonald’s. This discrepancy is partly due to the fact the UK NPM considers positive nutrients, allowing some foods containing moderate or high amounts of fibre, vegetables, fruit and nuts, and/or protein to be deemed healthier even though they are high in one or more ‘negative’ nutrients such as Na, saturated fat or sugar. For instance, this was the case for sweetened yoghurt and pudding advertised by Danone for which free sugars accounted for about 20 and 40 % of total energy, respectively. McDonald’s Happy Meal was also deemed ‘healthier’ by the UK NPM despite containing excessive amounts of Na.
Nutrient profiling using negative nutrients may be a better approach for determining which products should not be advertised to children as the content in positive nutrients (such as protein) does not cancel out the effect of negative ones (e.g. Na, sugar and saturated fat). The UK NPM is in fact currently being revised as some nutrient limits, such as for sugar, do not meet current dietary guidelines( 36 ).
Alcohol and caffeinated energy drink advertising
In many Canadian provinces, advertising of alcohol is prohibited on websites or any mediums that specifically target minors( 37 , 38 ). Many alcohol producers also have internal advertising codes and/or participate in voluntarily pledges to abstain from advertising on websites where minors make up 30 % or more of their visitors, unless the website features a screening process requiring visitors to provide their age (also known as age-gating)( 39 – 41 ). In our study, two companies, namely Bacardi Limited and Pernod Ricard, advertised on coolmath-games.com even though it does not have an age-gating feature and minors (2–17 years) make up more than 65 % of its visitors (comScore Media Metrix report, Males and females aged 2–18 years old (All regions excluding Quebec), March–May 2016). These two companies in addition to five others also advertised on roblox.com although this website requires users to provide their age when creating an account. Our results suggest that children may be exposed to alcohol advertising on their preferred websites despite provincial regulations/rules prohibiting such marketing. Other studies have documented the exposure of youth to alcohol advertising online( Reference Noel, Babor and Robaina 42 ) and have questioned the effectiveness of age-gating in protecting children from the marketing of alcoholic beverages( Reference Jones, Thom and Davoren 43 , Reference Madden, Lenhart and Cortesi 44 ). This is concerning given that several longitudinal studies have found that youth exposure to such advertising is associated with underage drinking( Reference Jernigan, Noel and Landon 45 , Reference Anderson, de Bruijn and Angus 46 ). Another finding of interest was that, despite rules against the promotion of caffeinated energy drinks to children in Canada( 47 ), Red Bull, one of the most advertised products on children’s preferred websites, was also advertised on roblox.com and coolmath-games.com. This is equally worrisome given that the consumption of energy drinks by children is not recommended because many adverse physical and behavioural side-effects have been reported among youth as a result of consuming these beverages( Reference Harris and Munsell 48 , Reference Seifert, Schaechter and Hershorin 49 ). Obviously, systematic monitoring of both alcohol and caffeinated energy drinks advertising online is clearly needed in Canada to protect children.
Policy implications
A bill restricting unhealthy food and beverage marketing to children under the age of 17 years has recently been passed by the Senate of Canada and is currently under review by the House of Commons( 50 ). This bill will likely be passed in early 2018 and afterwards Health Canada is expected to propose regulations to accompany the bill( 51 ). Contrary to the approach endorsed by more than fifty health organizations including The Heart and Stroke Foundation, the Canadian Medical Association and Dietitians of Canada, the government is leaning towards restricting the marketing of products that are high in saturated fat, Na or sugar rather than apply the ban to all foods( 52 , 53 ). This approach could potentially create a loophole allowing companies to promote brands that are largely associated with unhealthy products rather than advertise specific products. In our study, for instance, about 7·6 million display ads promoted brands of which 78 % were for fast-food restaurants or ultra-processed foods (data not shown). It is thus essential when governments develop policy in this area that brands that frequently target children be included in the definition of unhealthy food marketing.
The limited number of websites that met our selection criteria also highlights the limitation of using the composition of child visitors as the sole criterion to identify child-targeted websites. Indeed, our study identified only thirty-seven websites where children made up at least 15 % of visitors and who reached a minimum of 50 000 children aged 2–11 years (which is equivalent to only 1·7 % of Internet users of this age group; comScore Media Metrix report, 2–11 age group (Canada), March–May 2016). Websites that appeal to a broader audience (e.g. children, teens and adults) may reach a greater number of children but may fall short of child visitor composition thresholds as high as 25–35 %. This is the case with social media websites on which youth are exposed to various forms of marketing, including video and display advertising and user-generated and viral/word-of-mouth marketing( Reference Montgomery and Chester 54 ). Furthermore, digital marketing restrictions based on child composition thresholds alone fail to acknowledge the sophistication with which marketers can target their desired demographic online (i.e. by using behavioural targeting) given the mass quantity of metadata being collected on the behaviours of Internet users, including children( 55 , 56 ).
To date, it is unclear if and how Canada’s future legislation will address cross-border digital food and beverage marketing. Given the borderless nature of the Internet, a recent WHO report highlighted the need for coordinated regulations across multiple countries to effectively limit children’s exposure to digital food and beverage marketing( 55 ). Our findings add to the growing body of evidence exposing how food and beverage companies market to children and youth online( Reference Weber, Story and Harnack 17 – Reference Kelly, Bochynska and Korman 19 , Reference Brady, Mendelson and Farrell 22 , Reference Potvin Kent, Dubois and Kent 23 , Reference Montgomery and Chester 54 ), further justifying the calls to coordinate globally at the highest level to protect children from such marketing( 55 ).
Strengths and limitations
The present study is the first to examine the frequency and nutritional quality of food ads on child-targeted third-party websites in Canada. The study used data from comScore, which has the largest panel of Internet users in the country and constitutes the best available information on the use of digital media and the frequency of display advertising. Although the accuracy of comScore’s data is unknown, these data are used by large food and beverage companies to make advertising decisions. Other strengths include the examination of ads over an entire year, which avoids any biases related to seasonal variation in ad spending, and the use of two nutrient profile models to assess the healthfulness of advertised products. In terms of limitations, the study examined only the display advertising on ten websites and did not include video ads. Consequently, results may under-represent the total frequency of food advertising on all child-targeted websites. Due to behavioural targeting, it is also difficult to determine children’s individual exposure to food advertising on these websites. Even though comScore offers a service allowing advertisers, including food and beverage companies, to measure the success of their live online advertising campaigns in reaching their desired demographic( 57 ), segmented advertising exposure data are not otherwise available. Despite not having access to such data, which constitutes a great challenge globally for public health researchers examining digital food and beverage marketing( 55 ), it should be noted that the ad creatives of the five most advertised products alone reveal the explicit intent of some companies to target children.
Conclusion
The current study adds to the overwhelming evidence that self-regulation in Canada has not been effective in protecting children against the advertising of unhealthy foods, including in digital media on their preferred websites. Mandatory regulations adapted to the modern digital environment are needed to protect children’s health.
Acknowledgements
Financial support: This research was funded by The Heart and Stroke Foundation and Toronto Public Health. These organizations had no role in the design, analysis or writing of this article. Conflict of interest: None to declare. Authorship: M.P.K. designed the study and oversaw the data collection and analysis. E.P. collected and analysed the data and wrote the first draft of the manuscript. Both authors reviewed and approved the final manuscript. Ethics of human subject participation: Not applicable.
Supplementary material
To view supplementary material for this article, please visit https://doi.org/10.1017/S1368980017004177