Hostname: page-component-8448b6f56d-mp689 Total loading time: 0 Render date: 2024-04-23T18:39:14.269Z Has data issue: false hasContentIssue false
  • English
  • Français

Packaged food supply in Fiji: nutrient levels, compliance with sodium targets and adherence to labelling regulations

Published online by Cambridge University Press:  19 May 2021

Maria Shahid ,
Gade Waqa Open the ORCID record for Gade Waqa [Opens in a new window] ,
Arti Pillay ,
Ateca Kama ,
Isimeli N Tukana ,
Briar L McKenzie Open the ORCID record for Briar L McKenzie [Opens in a new window] ,
Jacqui Webster  and
Claire Johnson Open the ORCID record for Claire Johnson [Opens in a new window]
Maria Shahid*
Affiliation:
The George Institute for Global Health, University of New South Wales, Sydney, NSW 2042, Australia
Gade Waqa
Affiliation:
Pacific Research Centre for the Prevention of Obesity and Non-Communicable Diseases, Fiji National University, Suva, Fiji Islands
Arti Pillay
Affiliation:
School of Applied Sciences, Fiji National University, Suva, Fiji Islands
Ateca Kama
Affiliation:
National Food and Nutrition Centre, Ministry of Health and Medical Services, Suva, Fiji Islands
Isimeli N Tukana
Affiliation:
Wellness Division, Ministry of Health and Medical Services, Suva, Fiji Islands
Briar L McKenzie
Affiliation:
The George Institute for Global Health, University of New South Wales, Sydney, NSW 2042, Australia
Jacqui Webster
Affiliation:
The George Institute for Global Health, University of New South Wales, Sydney, NSW 2042, Australia
Claire Johnson
Affiliation:
The George Institute for Global Health, University of New South Wales, Sydney, NSW 2042, Australia
*
* Corresponding author: Email mshahid@georgeinstitute.org.au
Rights & Permissions [Opens in a new window]

Abstract

Objective:

To estimate the proportion of products meeting Fiji government labelling regulations, assess compliance with national Na reformulation targets and examine the Na and total sugar levels in packaged foods sold in selected major supermarkets.

Design:

We selected five major supermarkets in 2018 and collected the product information and nutritional content from the labels of all packaged foods sold. We organised 4278 foods into fourteen major food categories and thirty-six sub-categories and recorded the proportion of products labelled in accordance with the Fiji labelling regulations. We looked at the levels of Na and total sugar in each food category and assessed how many products complied with the Fiji reformulation targets set for Na. We also listed the companies responsible for each product.

Setting:

Suva, Fiji.

Results:

Fourteen percentage of packaged foods in fourteen major categories met Fiji national labelling regulations. Na was labelled on 95·4 % products, and total sugar labelled on 92·4 %. The convenience foods category had the highest Na levels (1699 mg/100 g), while confectionery had the highest content of total sugar (52·6 g/100 g). Forty percentage of eligible products did not meet the proposed voluntary Na reformulation targets.

Conclusions:

Our findings indicate significant room for improvement in nutrient labelling, as well as a need for further enforcement of reformulation targets and monitoring of changes in food composition. Through enacting these measures and establishing additional regulations such as mandatory front-of-pack labelling, government and food industry can drive consumers towards healthier food choices and improve the nutritional quality of packaged foods in Fiji.

Keywords

Packaged foodSodiumSugarFood labellingFijiNon-communicable disease
Type
Research paper
Information
Public Health Nutrition , Volume 24 , Issue 13 , September 2021 , pp. 4358 - 4368
Copyright
© The Author(s), 2021. Published by Cambridge University Press on behalf of The Nutrition Society

Pacific Island countries are facing a non-communicable disease (NCD) crisis, and unhealthy diets are the biggest contributors to the increasing rates of obesity, hypertension and diabetes(Reference Chand, Singh and Kumar13). NCD account for about 80 % of all deaths and 50 % of all premature mortality in the Pacific Islands(2,3) . In Fiji, where approximately 70 % of adult men and 75 % of adult women are overweight or obese(4), CVD account for one-third of all deaths and one-quarter of deaths is from diabetes(3). A key reason for high rates of NCD in Fiji is the transition away from traditional diets, which consisted mainly of fresh fruit, vegetables and fish(Reference Snowdon and Thow5) towards more readily available(6,7) and nutrient-poor processed, packaged foods that are high in Na, free sugars and saturated fat(Reference Charlton, Russell and Gorman8,Reference Thow, Heywood and Schultz9) .

The WHO recommends limiting foods high in Na, free sugars and saturated fat and ensuring that consumers can access and afford healthy food(10). Pacific Island leaders have been proactive in adopting a range of food policies and regulations to tackle unhealthy diets by addressing the increasing consumption of processed foods(11Reference Webster, Pillay and Suku13). This includes taxes on sugar, regulations for Na levels in processed foods and programmes to improve food environments in specific settings such as schools and hospitals(Reference Reeve, Thow and Bell12,Reference Thow, Downs and Jan14) . In Fiji, the National Food and Nutrition Centre was established by the Government in 1982 to coordinate the multi-sectoral efforts needed to address the country’s diet-related disease burden including informing policies on food regulation.

Information provided on nutrition labels for processed, packaged food allows consumers to assess the nutritional quality of their food and make healthier food purchases. In Fiji, all food products sold are regulated through the Food Safety Act 2003 (15) and the Food Safety Regulations 2009 (16). Regulations around the labelling of processed, packaged food products require all pre-packaged food produced, processed, packed, distributed or imported to be labelled in English with the following required nutritional information per 100 g (or per 100 ml for liquids) for: energy, protein, fat and carbohydrate. In 2014, an amendment of the Food and Safety (Amendment) Regulations 2014 (17) was passed which stipulates mandatory reporting of additional nutrients including trans fatty acids, Na, total sugar, fat, saturated and unsaturated fats to be labelled per 100 g (or 100 ml for liquids). Officers authorised by the Government of Fiji are responsible for periodic monitoring of compliance with the labelling regulations, with fines and/or imprisonment incurred for noncompliance(16). However, to date, compliance with Fiji nutrient labelling regulations across the entire Fijian packaged food supply has not been assessed.

In 2010, the Minister for Health and Medical Services in Fiji convened a consultation with key stakeholders from the food industry, government and research groups who agreed on a coordinated strategy to reduce salt intake to 5 g/d by 2020. The Fiji Salt Action Challenge Strategy was endorsed by way of a Cabinet Submission in 2010, and the National Food and Nutrition Centre formed a secretariat to provide oversight and momentum. Na reduction has been highlighted as key to improving diet-related disease burden region-wide, and setting targets for Na levels in foods is a key component of effective salt (Na) reduction strategies(Reference Downs, Christoforou and Snowdon18Reference He, Brown and Tan20). Based on the contribution of different processed foods to Na in the diet in the Pacific, the proposed maximum acceptable regional targets for Na levels in eight selected food categories were developed and agreed by representatives at the Pacific Islands NCD Forum in September 2013(Reference Downs, Christoforou and Snowdon18). These were adopted from the Pacific Island targets established the year prior and developed by the Food Taskforce Technical Advisory Group in 2014(21). The Na reformulation targets were modified to apply specifically to Fiji and finalised through a series of stakeholder and food industry consultations between 2012 and 2014. However, these targets remain voluntary and have not been formally ratified by the Government of Fiji.

This research aimed to identify opportunities to improve the nutritional quality of the food supply in Fiji. Our objective was to conduct a cross-sectional survey of the packaged food supply in Fiji and quantify the nutritional composition of the main food categories using three criteria: adherence to national nutrition labelling regulations, levels of Na and total sugar in packaged food and compliance of packaged food products with proposed Na reformulation targets. The findings can be used to guide policy decisions related to reformulation activities, front-of-pack food labelling, import controls, sales taxes and subsidies for healthier products, which can help guide consumers towards healthier food choices.

Methods

This research encompassed a systematic survey of packaged foods for sale in five major supermarket chain stores in Suva, Fiji. Data were collected between November 2018 and January 2019.

Retail outlets surveyed

The stores were purposively selected to ensure that the majority of packaged products in Fiji were included. A total of seven supermarkets were approached and invited, two declined and the remaining five agreed to participate. Supermarkets with more than two branches were selected to ensure more than 70 % of the market was captured. Written permission to collect data was obtained from each store manager prior to commencement of data collection.

Packaged foods surveyed

Packaged food products for human consumption that were available for sale in each store during the period of data collection were surveyed. Where products were available in multiple stores, only one instance of the product was surveyed. During each product survey, data collection staff captured the barcode and photographed the front of the pack, nutrition label, manufacturer details, ingredients list and product weight for every packaged food item on every shelf in each store surveyed. This was done using a smartphone application developed by The George Institute for Global Health(Reference Dunford, Trevena and Goodsell22) and according to a protocol devised by an international collaborative project designed to document the nutritional composition of packaged foods globally(Reference Dunford, Webster and Metzler23). The images collected were transmitted to a data management centre in India for processing. Data were uploaded daily into a database which was quality-checked, and data were recollected where required.

Data extraction

The data management centre used an in-house technology system that enables the systematic, standardised and replicable collection and collation of data describing packaged foods and beverages. Images of food packaging are captured, stored and processed with key data extracted from food labels. The key variables used for the current analysis were the brand name, product name, manufacturer name, serving size and presence of nutritional information per 100 g (or per 100 ml for liquids) for energy, protein, carbohydrate, Na, total sugar, total fat, saturated fat and unsaturated fat. Where data were absent from food labels, it was recorded as missing. Different package sizes of the same product were recorded as duplicate items in the database, but each product was included only once in the primary analyses.

Categorisation of foods

Foods were categorised using the system developed by the Global Food Monitoring Group(Reference Dunford, Webster and Metzler23) into fifteen major food groups and fifty-eight selected sub-categories: (1) bread and bakery products; (2) cereal and grain products; (3) confectionery; (4) convenience foods; (5) dairy and dairy alternatives; (6) edible oils and oil emulsions; (7) eggs; (8) fish and fish products; (9) fruit and vegetables; (10) meat and meat products; (11) non-alcoholic beverages; (12) sauces and spreads; (13) snack foods; (14) sugars, honey and related products and (15) special foods. Excluded categories were alcoholic beverages, baking powders, chewing gum, cough lollies, eggs, herbs and spices, meal kits, plain teas and coffees, plain waters, sports/protein powders, sugar, sweeteners, vitamins and supplements, yeasts and gelatines since they do not contribute significantly to nutrient intake, nor are manufacturers required to display a Nutritional Information Panel for many of these products. The special foods category encompasses baby food and protein and diet bars. This left data for 4278 food products categorised under fourteen major categories and thirty-six sub-categories.

Manufactures

Manufacturer information for each product was recorded based on the manufacturer name listed on the pack and includes companies local to Fiji as well as multinational companies licenced to manufacture or sell products in Fiji. Overall, data for the top thirty-four manufacturers selling products in Fiji were reported with manufacturers chosen based on the number of products collected during the survey, representing 39 % of all products surveyed. Of these, seven were Fiji local manufacturers, identified using in-country expertise. The remaining manufacturers were classified as ‘other’, comprising manufacturers with smaller numbers of packaged foods and beverages under their portfolio.

Statistical analysis

Analyses were conducted across all products and for individual food categories. There were three main sets of analyses: (i) the proportions of packaged foods compliant with Fiji nutrient labelling regulations for all nutrients (i.e. displaying energy, protein, carbohydrates, Na, total sugar, saturated fat, trans-fat, monounsaturated fat and polyunsaturated fat), as well as separate proportions for products complying with labelling across each of the required nutrients; (ii) the average levels of Na and total sugar in packaged foods for which data were available, with both mean and median reported to allow ease of cross comparison against future years of data and against the packaged food supply in similar regions and (iii) the proportion of packaged foods meeting maximum Na content targets for the thirty-nine food sub-categories for which the targets have been developed. Foods were defined as ‘known to meet’ the target if the label reported a Na content that was at or below the specified target.

All analyses were done using the statistical software package Stata/IC version 15.1 and figures generated in Microsoft Excel.

Results

Nutrition labelling

Of the 4278 products analysed, 602 (14·1 %) products were fully compliant with Fiji nutrient labelling regulations (Table 1). Na was labelled on 4083 (95·4 %) products, and total sugar labelled on 3955 (92·4 %) (Table 2). Protein, energy, saturated fat and carbohydrates were also labelled on the majority of products and across most of the food categories; however, trans-fat, monounsaturated fat and polyunsaturated fat were only labelled on a minority of products.

Table 1 Proportion of 4278 packaged food products in 2018 meeting Fiji regulation for nutrition labelling, across categories

Table 2 Proportion of 4278 packaged food products in 2018 meeting Fiji regulation for nutrition labelling and proportion labelled with energy, protein, carbohydrate, sodium, total sugar, saturated fat, trans-fat, monounsaturated fat and polyunsaturated fat, across categories

The majority of manufacturers did well on labelling Na and total sugar across their products. Of the thirty-four top manufacturers selected for analyses, twenty-one complied with Na labelling across their products and nineteen complied with total sugar labelling (Table 3). The manufacturer with the lowest compliance to both Na and sugar labelling was Carpenters Fiji PTE Limited (79·5 % and 74·4 %, respectively). PepsiCo had the highest proportion of products meeting Fiji nutrient labelling regulations (33 (64·7 %)).

Table 3 Proportion of 4278 packaged food products in 2018 meeting Fiji regulation for nutrition labelling and proportion labelled with sodium and total sugar, across manufacturers

Sodium and total sugar content

There was significant variability across all categories and sub-categories for both Na and total sugar content (Table 4). Food categories with the highest mean Na content were ‘convenience foods’ (1699 mg/100 g) and ‘sauces, dressings, spreads and dips’ (1422 mg/100 g). Unsurprisingly, categories with the lowest mean Na content were ‘sugars, honey and related products’ (36 mg/100 g) and ‘non-alcoholic beverages’ (49 mg/100 g). There was significant variability across all categories and sub-categories.

Table 4 Mean sodium and total sugar content of food products, surveyed in Fiji in 2018

* ‘< 1’ Na values refer to non-zero Na content for the lowest range to distinguish from actual zero values listed on pack.

Food categories with the highest mean total sugar content were ‘confectionery’ (52·6 g/100 g) and ‘sugars, honey and related products’ (44·2 g/100 g). Categories with the lowest mean total sugar content were ‘edible oils and oil emulsions’ (0·3 g/100 g) and ‘meat and meat products’ (0·7 g/100 g). The lowest range values for both nutrients demonstrated that there were multiple instances where a content of 0 for Na or total sugar was listed on the label.

Assessing against reformulation targets

Of the 1188 products with proposed Na reformulation targets, 707 (59·5 %) met the relevant target (Table 5). The highest compliance was observed for ‘bacon’ (100 %) and ‘sweet, filled biscuits’ (90·4 %), which had reformulation targets of 1210 mg/100 g and 450 mg/100 g, respectively. The categories of ‘canned meat’, ‘meat-free products’, ‘shrimps/prawns peeled cooked/crumbed’ and ‘squid/calamari’ did not have any products meeting Na reformulation targets.

Table 5 Compliance of targeted food categories with voluntary Fijian sodium reformulation targets

* Plant-based products sold as meat substitutes.

Amongst manufacturers with at least three products eligible for proposed Na reformulation targets, Food Processors (Fiji) had the highest proportion of products meeting the targets (n (%) = 7 (100 %)) (Fig. 1). None of the six Desai Brothers products, which were all in the sauces and spreads category, met the proposed Na targets.

Fig. 1 Compliance of International and National manufacturers producing eligible products with voluntary Fijian sodium reformulation targets

Discussion

This research found that most packaged foods in Fiji do not comply with national nutrition labelling regulations, although labelling of Na and total sugar was present on almost all foods surveyed. Packaged foods in Fiji were found to have a high degree of variability in their Na and total sugar content across all food categories examined, creating an opportunity to drive consumers towards healthier choices within any given food category. The proposed voluntary Na reformulation targets are already being met by the majority of products surveyed, suggesting that more stringent targets are needed to improve the nutritional quality of packaged foods in Fiji.

Only 14·1 % of all packaged foods available for sale in Fiji met national nutrient labelling regulations, whereby manufacturers are required to list certain nutrients on their packaged food product labels. In accordance with the national regulations, most packaged foods surveyed labelled Na, total sugar, energy, protein, carbohydrates and saturated fats. However, the majority of products did not comply with the requirement to report trans, monounsaturated and polyunsaturated fats. Lack of capacity for ongoing monitoring and accountability means that labelling incompleteness of nutrients is likely to persist, as the last amendment to nutrient labelling was made in 2014 providing ample time for the industry to comply. For consumers to make fully informed choices about the healthiness of products to purchase, packaged foods need to display all relevant nutrition information. The Fijian government needs to establish ongoing monitoring of nutrient labelling in order to enforce and assess compliance with these regulations.

In addition to implementing nutrient labelling completeness, the Fijian government has also been considering introducing Front-of-Pack (FoP) Labelling, which informs consumer choice by summarising the nutritional quality of a food with a summary indicator or warning label indicating high levels of nutrients to limit. A growing body of evidence suggests that FoP labelling may aid consumer understanding of nutritional quality, encourage selection and purchase of healthier foods and promote reformulation by industry(Reference Shangguan, Afshin and Shulkin24,Reference Neal, Crino and Dunford25) . Implementation of a FoP label is feasible in Fiji given the presence of imported food products from Australia and New Zealand. Some of these imported products already carry FoP labels known as the Health Star Rating(26,27) . In 2019, the WHO Fiji commissioned research to further elucidate stakeholder perceptions of FoP label implementation, focusing on investigating challenges and potential benefits of the different approaches. However, the fact that nutrient labelling is so low in Fiji means that governments and researchers would have to rely on supplementary, proxy nutrient information using alternate data sources in order to verify and monitor industry compliance and accuracy of FoP labelling. Research has shown that when a voluntary label such as the Health Star Rating is implemented, industry chooses to only label healthier products(Reference Jones, Shahid and Neal28,Reference Shahid, Neal and Jones29) , defeating the purpose of a FoP label as a tool for consumers to assess the nutritional quality of their food purchases, and emphasising the need for mandatory implementation of such policy across all products. Key to the implementation of a FoP label would therefore be industry compliance to label all required nutrients in accordance with the Fijian regulations.

In this research, Na and total sugar content varied significantly both within and across food categories. High levels of Na were found in pre-packaged ready meals and sauces such as soya sauce, as well as in snack foods and meat products. Unsurprisingly, the highest levels of total sugar were found not only in confectionery but also in bread and bakery products such as cakes, muffins and pastries. These are all packaged, processed foods that are increasingly being consumed in Fiji as the traditional diet moves towards a more Western-style diet(Reference Thow, Heywood and Schultz9). However, the high degree of variability found between the Na and total sugar content of similar product categories presents an opportunity for directing consumers towards the low Na and sugar options that are available in the Fijian food supply. Even as diet transitions towards processed, packaged foods, nutrient labelling completeness or FoP labels can drive consumers towards healthier food choices in any given food category. The wide variability of Na and total sugar is also encouraging as it suggests room for reformulation towards healthier products within any given category or product discontinuation. Building on the baseline data that our research has provided, ongoing monitoring of nutritional content is key to monitoring policy interventions to improve the nutritional quality of packaged foods in Fiji.

To reduce NCD, Member States of WHO are being urged to reduce salt intake(Reference Charlton, Webster and Kowal30). Many countries are doing this by setting targets to reduce Na (salt) levels in processed foods(Reference He, Pombo-Rodrigues and MacGregor31). Compliance with proposed voluntary Na reformulation targets in Fiji varied, with large differences found between manufacturers and in some food categories. The fact that over half of the products surveyed met the proposed targets also suggests the need for revised, more stringent targets to achieve widespread Na reduction through reformulation(Reference Rosewarne, Huang and Farrand32). The breadth of the proposed targets is encouraging as food categories with the highest Na content have a proposed reformulation target in line with recommendations(Reference Downs, Christoforou and Snowdon18), with the exception of convenience foods. Increasing stringency in the reformulation targets would therefore require lowering the Na targets in categories where the majority of products are already meeting the proposed Na levels. Ongoing monitoring of Na content is essential if targets are to be met so that manufacturers can transparently be assessed for compliance, and the efficacy of a reformulation policy for the Fijian packaged food supply can be assessed over time(Reference Charlton, Webster and Kowal30).

A key strength of this research is the highly standardised approach to the collection, processing and evaluation of the data and the extensive range of products captured in line with global protocols(33). Additionally, this research has conducted the largest survey of packaged food products available for sale in Fiji to date, providing baseline data required to improve the nutritional quality of the Fijian food supply. The results, however, must be interpreted in view of some limitations. While the data are representative of what was on the shelves of the sampled stores during the survey period, they do not represent every food and beverage available in every store throughout the year. In addition, the data illustrate what is available for sale in stores but not what is purchased or consumed, meaning that this research cannot allude to the actual consumption of harmful nutrients and their direct effect on ill-health. That said, the manufacturers included are the major suppliers nationally, and it is likely that the products included in the study would comprise the majority of packaged food available in the country. In the absence of time- and resource-intensive food monitoring such as individual diet surveys or population purchase and consumption data, our survey provides a good indication of the range of packaged food products available in supermarkets. Last, we acknowledge that this study does not necessarily represent what people in Fiji eat daily; however, given evidence of the nutrition transition in Fiji, we hypothesise that assessing and improving the nutritional content of processed packaged foods in Fiji will have beneficial impacts on diets generally.

Conclusions

There is a great need for the Fijian government to urgently address the healthiness of the packaged food supply in Fiji as diets continue to shift towards more processed, ready-made foods and burgeoning rates of diet-related NCD pose an enormous threat to the economy and health care system in Fiji. There are key opportunities for driving consumers towards healthier food choices and improving the nutritional quality of packaged foods in Fiji by improving nutrient labelling, further enforcing reformulation targets and monitoring changes in food composition, as well as introducing mandatory FoP labels. With strong government support and open transparent monitoring to ensure industry compliance, these measures have the potential to curb the escalating burden of disease associated with poor diets in Fiji.

Acknowledgements

Acknowledgements: N/A. Financial Support: The data collection for this work was supported by a DFAT Food Innovation Grant. This project is further supported by an NHMRC Project Grant (no. 1169322) as part of the Global Alliance for Chronic Disease Program on scaling up interventions to reduce hypertension and diabetes. C.J. is supported by a National Heart Foundation Postdoctoral Fellowship (HF101945); J.W. is supported by a National Heart Foundation Career Development Fellowship (no. 1082924), and through an NHMRC Centre of Research Excellence on food policy interventions to reduce salt (no. 1117300). The funders had no role in the design, analysis or writing of this article. Conflict of interest: There are no conflicts of interest. Authorship: C.J. designed the study and supervised data collection and writing up of the manuscript. A.P. supervised data collection. M.S. carried out data analysis with input from C.J. J.W. and G.W. helped interpret the results. M.S. and G.W. co-wrote the first draft of this research paper. All authors reviewed drafts and agreed the final draft. Ethics of human subject participation: N/A.

Footnotes

Maria Shahid and Gade Waqa are joint first authors.

References

Chand, SS, Singh, B, Kumar, S (2020) The economic burden of non-communicable disease mortality in the South Pacific: evidence from Fiji. PLoS One 15, e0236068.10.1371/journal.pone.0236068CrossRefGoogle ScholarPubMed
Ministry of Health and Medical Services (2018) Health Status Report 2017. http://www.health.gov.fj/wp-content/uploads/2020/01/Health-Status-Report-2017.pdf (accessed October 2020).Google Scholar
World Health Organization (2018) Non-communicable Disease (NCD) Country Profile. https://www.who.int/nmh/countries/fji_en.pdf?ua=] (accessed December 2020).Google Scholar
World Health Organization (2017) Overweight and Obesity in the Western Pacific Region: An Equity Perspective. Manila: WHO Regional Office for the Western Pacific.Google Scholar
Snowdon, W & Thow, AM (2013) Trade policy and obesity prevention: challenges and innovation in the Pacific Islands. Obes Rev 2, 150158.10.1111/obr.12090CrossRefGoogle Scholar
Ministry of Health and Medical Services National Food and Nutrition Centre (2018) Fiji National Nutrition Survey 2015. https://www.ifpri.org/publication/2015-nutrition-country-profile-fiji (accessed November 2020).Google Scholar
The George Institute for Global Health (2019) State of the Food Supply Fiji. The Pacific Research Centre for the Prevention of Obesity and Noncommunicable Diseases and Fiji National University, editor.Google Scholar
Charlton, K, Russell, J, Gorman, E et al. (2016) Fish, food security and health in Pacific Island countries and territories: a systematic literature review. BMC Public Health 16, 285.10.1186/s12889-016-2953-9CrossRefGoogle ScholarPubMed
Thow, AM, Heywood, P, Schultz, J et al. (2011) Trade and the nutrition transition: strengthening policy for health in the Pacific. Ecol Food Nutr 50, 1842.10.1080/03670244.2010.524104CrossRefGoogle ScholarPubMed
World Health Organization (2013) Global Action Plan for the Prevention and Control of Noncommunicable Diseases 2013–2020. Geneva: World Health Organization.Google Scholar
World Health Organization (2014) Western Pacific Regional Action Plan for the Prevention and Control of Noncommunicable Diseases (2014–2020). Manila: WHO Regional Office for the Western Pacific.Google Scholar
Reeve, E, Thow, A, Bell, C et al. (2019) Identifying opportunities to strengthen school food environments in the Pacific: a case study in Samoa. BMC Public Health 3, 445447.Google Scholar
Webster, J, Pillay, A, Suku, A et al. (2018) Process evaluation and costing of a multifaceted population-wide intervention to reduce salt consumption in Fiji. Nutrients 10, 155.10.3390/nu10020155CrossRefGoogle ScholarPubMed
Thow, AM, Downs, S & Jan, S (2014) A systematic review of the effectiveness of food taxes and subsidies to improve diets: understanding the recent evidence. Nutr Rev 72, 551565.10.1111/nure.12123CrossRefGoogle ScholarPubMed
Parliament of the Fiji Islands (2003) Food Safety Act 2003. http://extwprlegs1.fao.org/docs/pdf/fij50969.pdf (accessed October 2020).Google Scholar
Parliament of the Fiji Islands (2009) Food Safety Regulations 2009. http://www.health.gov.fj/wp-content/uploads/2017/06/Food-Safety-Regulations-2009.pdf (accessed October 2020).Google Scholar
Parliament of the Fiji Islands (2014) Food and Safety (Amendment) Regulations In: Ministry of Health and Medical Services, editor.: Government of Fiji. http://extwprlegs1.fao.org/docs/pdf/fij152491.pdf (accessed October 2020).Google Scholar
Downs, SM, Christoforou, A, Snowdon, W et al. (2015) Setting targets for salt levels in foods: A five-step approach for low-and middle-income countries. Food Policy 55, 101108.10.1016/j.foodpol.2015.06.003CrossRefGoogle Scholar
He, FJ, Brinsden, HC & MacGregor, GA (2014) Salt reduction in the United Kingdom: a successful experiment in public health. J Hum Hypertens 28, 345352.10.1038/jhh.2013.105CrossRefGoogle ScholarPubMed
He, FJ, Brown, M, Tan, M et al. (2019) Reducing population salt intake-An update on latest evidence and global action. J Clin Hypertens 21, 15961601.10.1111/jch.13664CrossRefGoogle ScholarPubMed
National Food and Nutrition Centre (2010) Health Minister Calls on the Food Industry to Reduce Salt Levels in Processed Foods in Fiji. Fiji: Food Industry Salt Action Consultation.Google Scholar
Dunford, E, Trevena, H, Goodsell, C et al. (2014) FoodSwitch: a mobile phone app to enable consumers to make healthier food choices and crowdsourcing of National Food Composition Data. JMIR Mhealth Uhealth 2, e37.10.2196/mhealth.3230CrossRefGoogle ScholarPubMed
Dunford, E, Webster, J, Metzler, AB et al. (2012) International collaborative project to compare and monitor the nutritional composition of processed foods. Eur J Prev Cardiol 19, 13261332.10.1177/1741826711425777CrossRefGoogle ScholarPubMed
Shangguan, S, Afshin, A, Shulkin, M et al. (2019) A meta-analysis of food labeling effects on consumer diet behaviors and industry practices. Am J Prev Med 56, 300314.10.1016/j.amepre.2018.09.024CrossRefGoogle ScholarPubMed
Neal, B, Crino, M, Dunford, E et al. (2017) Effects of different types of front-of-pack labelling information on the healthiness of food purchases – a randomised controlled trial. Nutrients 9, 1284.10.3390/nu9121284CrossRefGoogle ScholarPubMed
Department of Health (2020) About Health Star Ratings. http://healthstarrating.gov.au/internet/healthstarrating/publishing.nsf/content/About-health-stars (accessed October 2020).Google Scholar
HSR (2020) Formal review of the system after 5 years. http://healthstarrating.gov.au/internet/healthstarrating/publishing.nsf/Content/formal-review-of-the-system-after-five-years (accessed October 2020).Google Scholar
Jones, A, Shahid, M & Neal, B (2018) Uptake of Australia’s Health Star Rating System. Nutrients 10, 997.10.3390/nu10080997CrossRefGoogle ScholarPubMed
Shahid, M, Neal, B & Jones, A (2020) Uptake of Australia’s Health Star Rating System 2014–2019. Nutrients 12, 1791.10.3390/nu12061791CrossRefGoogle ScholarPubMed
Charlton, K, Webster, J & Kowal, P (2014) To legislate or not to legislate? A comparison of the UK and South African approaches to development and implementation of salt reduction programs. Nutrients 6, 36723695.10.3390/nu6093672CrossRefGoogle ScholarPubMed
He, F, Pombo-Rodrigues, S & MacGregor, G (2014) Salt reduction in England from 2003 to 2011: its relationship to blood pressure, stroke and ischaemic heart disease mortality. BMJ Open 4, e004549.10.1136/bmjopen-2013-004549CrossRefGoogle ScholarPubMed
Rosewarne, E, Huang, L, Farrand, C et al. (2020) Assessing the healthy food partnership’s proposed nutrient reformulation targets for foods and beverages in Australia. Nutrients 12, 1346.10.3390/nu12051346CrossRefGoogle ScholarPubMed
Food Monitoring Group (2012) International collaborative project to compare and track the nutritional composition of fast foods. BMC Public Health 12, 559.10.1186/1471-2458-12-559CrossRefGoogle Scholar
Figure 0

Table 1 Proportion of 4278 packaged food products in 2018 meeting Fiji regulation for nutrition labelling, across categories

Figure 1

Table 2 Proportion of 4278 packaged food products in 2018 meeting Fiji regulation for nutrition labelling and proportion labelled with energy, protein, carbohydrate, sodium, total sugar, saturated fat, trans-fat, monounsaturated fat and polyunsaturated fat, across categories

Figure 2

Table 3 Proportion of 4278 packaged food products in 2018 meeting Fiji regulation for nutrition labelling and proportion labelled with sodium and total sugar, across manufacturers

Figure 3

Table 4 Mean sodium and total sugar content of food products, surveyed in Fiji in 2018

Figure 4

Table 5 Compliance of targeted food categories with voluntary Fijian sodium reformulation targets

Figure 5

Fig. 1 Compliance of International and National manufacturers producing eligible products with voluntary Fijian sodium reformulation targets