36 research outputs found
Sodium levels in packaged foods 2017-2018 : an analysis of four Latin American countries
The report provides a country breakdown of sodium content per 100g/ml of packaged foods in Argentina, Costa Rica, Paraguay and Peru, as well as the proportion of packaged foods that meet Pan American Health Organization (PAHO) regional and lower targets. The Food Labeling Information Program for Latin America (FLIP-LAC) was used for data collection and registration. FLIPLAC is a smartphone-based technology and methodology developed by the University of Toronto, Canada. Foods were classified into eighteen commonly consumed packaged food categories established by PAHO and endorsed by the multi-sectorial Salt Smart Consortium
Protocol for FLIP pilot study
This protocol includes a training guide to assist researchers in cataloguing food ingredients through use of the Food Label Information Program (FLIP) interface and database. It includes steps for downloading the âFood Collector Appâ which can scan information (including both text and image) on food labels. A step by step process is outlined for entering the data for compilation and analysis. Examples are provided for tinned food such as fruit and vegetables, and dry food packaging such as cereals
Protocol for FLIP study of project IDRC 108167 scaling-up and evaluating salt reduction policies and programs in Latin American countries
This guide assists researchers in cataloguing food ingredients by using the Food Label Information Program (FLIP) interface and database. It includes steps for downloading the âFood Collector Appâ which can scan information (including both text and image) on food labels. A step by step process is outlined for entering the data for compilation and analysis. Examples are provided for tinned food such as fruit and vegetables, and dry food packaging such as cereals
FLIP-LAC user guide
This is version 6.4 of the FLIP-LAC manual. The Food Labeling Information Program for Latin America (FLIP-LAC) for data collection and registration is a smartphone-based technology developed by the University of Toronto, Canada. The FLIP iPhone app is meant for quickly capturing a limited amount of information about a food product - most importantly the product barcode and photos of product. Once this information is captured, the data and the photos are later uploaded to the FLIP website where the rest of the data entry can be completed based on photos of the product
Canadian Initiatives to Prevent Hypertension by Reducing Dietary Sodium
Hypertension is the leading risk for premature death in the world. High dietary sodium is an important contributor to increased blood pressure and is strongly associated with other important diseases (e.g., gastric cancer, calcium containing kidney stones, osteoporosis, asthma and obesity). The average dietary sodium intake in Canada is approximately 3400 mg/day. It is estimated that 30% of hypertension, more than 10% of cardiovascular events and 1.4 billion dollars/year in health care expenses are caused by this high level of intake in Canada. Since 2006, Canada has had a focused and evolving effort to reduce dietary sodium based on actions from Non Governmental Organizations (NGO), and Federal and Provincial/Territorial Government actions. NGOs initiated Canadian sodium reduction programs by developing a policy statement outlining the health issue and calling for governmental, NGO and industry action, developing and disseminating an extensive health care professional education program including resources for patient education, developing a public awareness campaign through extensive media releases and publications in the lay press. The Federal Government responded by striking a Intersectoral Sodium Work Group to develop recommendations on how to implement Canadaâs dietary reference intake values for dietary sodium and by developing timelines and targets for foods to be reduced in sodium, assessing key research gaps with funding for targeted dietary sodium based research, developing plans for public education and for conducting evaluation of the program to reduce dietary sodium. While food regulation is a Federal Government responsibility Provincial and Territorial governments indicated reducing dietary sodium needed to be a priority. Federal and Provincial Ministers of Health have endorsed a target to reduce the average consumption of sodium to 2300 mg/day by 2016 and the Deputy Ministers of Health have tasked a joint committee to review the recommendations of the Sodium Work Group and report back to them
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Gaps and priorities in assessment of food environments for children and adolescents in low- and middle-income countries
School-aged children and adolescents have complex interactions with their food environmentsâthe point of engagement of individuals with the food systemâand are influenced by a diversity of individual, household and organizational factors. Although a wide range of methods have been proposed to define, monitor and evaluate food environments, few are tailored to school-aged children and adolescents. Here, we interrogate published literature on food metrics and methodologies for the characterization of food environments for school-aged children and adolescents living in low- and middle-income counties. We identify key priority actions and potential indicators for better monitoring and evaluation to galvanize policymaking to improve the healthiness of these interactions, which are so crucial to future adult well-being
International collaborative project to compare and track the nutritional composition of fast foods
Background: Chronic diseases are the leading cause of premature death and disability in the world with
over-nutrition a primary cause of diet-related ill health. Excess quantities of energy, saturated fat, sugar and salt
derived from fast foods contribute importantly to this disease burden. Our objective is to collate and compare
nutrient composition data for fast foods as a means of supporting improvements in product formulation.
METHODS/DESIGN: Surveys of fast foods will be done in each participating country each year. Information on the
nutrient composition for each product will be sought either through direct chemical analysis, from fast food
companies, in-store materials or from company websites. Foods will be categorized into major groups for the
primary analyses which will compare mean levels of saturated fat, sugar, sodium, energy and serving size at
baseline and over time. Countries currently involved include Australia, New Zealand, France, UK, USA, India, Spain,
China and Canada, with more anticipated to follow.
DISCUSSION: This collaborative approach to the collation and sharing of data will enable low-cost tracking of fast
food composition around the world. This project represents a significant step forward in the objective and
transparent monitoring of industry and government commitments to improve the quality of fast foods.E Dunford is supported by a Sydney Medical School Foundation scholarship
and B Neal by an Australian Research Council Future Fellowship.http://www.biomedcentral.com/1471-2458/12/559am201
Examining the Prevalence, Nutritional Quality and Marketing of Foods with Voluntary Nutrient Additions in the Canadian Food Supply
Foods with voluntary nutritional additions are a fast-growing sector of the global food industry. In Canada, while the addition of nutrients to foods has been regulated through fortification regulations, parallel policies which aim to encourage product innovation have also allowed for the voluntary addition of nutrients and other novel ingredients to âsupplementedâ and âfunctionalâ foods. Concerns have been raised that the consumption of these products may have negative repercussions on population health, such as high nutrient intakes inappropriate for certain population subgroups (e.g., children) and the shifting of dietary patterns to include more unhealthy foods. The aim of this study was to evaluate the prevalence, nutritional quality, and marketing characteristics of foods with added nutrients in the Canadian market. We found many nutritionally-enhanced foods contained high levels of nutrients beyond recommended intakes, despite these nutrients having no evidence of inadequacy in the Canadian population. Additionally, a large proportion of foods with added nutrients had poor nutrient profiles (were deemed âless healthyâ than their non-enhanced counterparts) and carried heavy marketing on their labels, regardless of their nutritional quality. Taken together these findings raise concerns about foods with voluntary nutrient additions and suggest the need to further investigate consumer attitudes and decision-making towards these foods