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A novel web-based 24-h dietary recall tool in line with the Nova food processing classification: description and evaluation

Published online by Cambridge University Press:  07 August 2023

Daniela Neri
Affiliation:
Center for Epidemiological Studies in Health and Nutrition, University of Sao Paulo (Nupens/USP), Sao Paulo, Brazil
Kamila Tiemann Gabe
Affiliation:
Center for Epidemiological Studies in Health and Nutrition, University of Sao Paulo (Nupens/USP), Sao Paulo, Brazil
Caroline Dos Santos Costa
Affiliation:
Center for Epidemiological Studies in Health and Nutrition, University of Sao Paulo (Nupens/USP), Sao Paulo, Brazil
Euridice Martinez Steele
Affiliation:
Center for Epidemiological Studies in Health and Nutrition, University of Sao Paulo (Nupens/USP), Sao Paulo, Brazil
Fernanda Rauber
Affiliation:
Center for Epidemiological Studies in Health and Nutrition, University of Sao Paulo (Nupens/USP), Sao Paulo, Brazil
Dirce Maria Marchioni
Affiliation:
Department of Nutrition, School of Public Health, University of São Paulo, Sao Paulo, Brazil
Maria Laura da Costa Louzada
Affiliation:
Center for Epidemiological Studies in Health and Nutrition, University of Sao Paulo (Nupens/USP), Sao Paulo, Brazil Department of Nutrition, School of Public Health, University of São Paulo, Sao Paulo, Brazil
Renata Bertazzi Levy
Affiliation:
Center for Epidemiological Studies in Health and Nutrition, University of Sao Paulo (Nupens/USP), Sao Paulo, Brazil Department of Preventive Medicine, School of Medicine, University of Sao Paulo, Sao Paulo, Brazil
Carlos Augusto Monteiro*
Affiliation:
Center for Epidemiological Studies in Health and Nutrition, University of Sao Paulo (Nupens/USP), Sao Paulo, Brazil Department of Nutrition, School of Public Health, University of São Paulo, Sao Paulo, Brazil
*
*Corresponding author: Email carlosam@usp.br
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Abstract

Objective:

This paper describes the first web-based self-completed 24-h recall designed to categorise food intake according to Nova groups – Nova24h – and its agreement with a reference tool in estimating the dietary relative contribution of the four Nova food groups (% of total energy intake).

Design:

Comparisons of estimates of dietary relative contributions of Nova groups obtained by Nova24h and one standard interviewer-led 24-h recall.

Setting:

Nationwide adult cohort study in Brazil.

Participants:

The subjects were 186 participants of the NutriNet Brasil Cohort Study (n 186).

Results:

No statistically significant differences were observed between the Nova24h and the reference tool mean contributions of unprocessed or minimally processed foods (52·3 % v. 52·6 %), processed culinary ingredients (11·6 % v. 11·9 %), processed foods (17·1 % v. 14·7 %) and ultra-processed foods (19·0 % v. 20·9 %). Intraclass correlation coefficients between individual estimates obtained for each Nova group showed moderate to good agreement (0·54–0·78). Substantial or almost perfect agreement between the tools was seen regarding the ability to rank participants according to quintiles of contribution of each Nova group (PABAK 0·69–0·81).

Conclusions:

Nova24h is a suitable tool for estimating the dietary relative energy contribution of Nova food groups in the NutriNet Brasil cohort. New studies are necessary to verify its adequacy in other populations.

Type
Research Paper
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2023. Published by Cambridge University Press on behalf of The Nutrition Society

The Nova food classification is a system that categorises foods based on the extent and purpose of food processing they undergo(Reference Monteiro, Cannon and Moubarac1). Many studies worldwide have used the Nova system to assess diet and health relationships(Reference Hall, Ayuketah and Brychta2Reference Srour, Kordahi and Bonazzi7) nurturing its further use as a framework for national dietary guidelines and dietary guidance from national and international health associations(Reference Monteiro and Astrup8). This growing interest in food processing has prompted researchers to explore methods for measuring the extent of processing of dietary data.

Some strategies have been proposed to determine the level of processing of foods in large studies and national surveys collected through widely used standard dietary assessment tools, such as interviewer-led 24-recall and FFQ(Reference Khandpur, Rossato and Drouin-Chartier9), often lacking details about food processing. Additionally, new tools for collecting dietary data specifically designed to discriminate foods according to the level of food processing have been developed(Reference Dinu, Bonaccio and Martini10,Reference Sarbagili-Shabat, Zelber-Sagi and Fliss Isakov11) .

The 24-h multiple-pass dietary recall applied by trained dietitians is considered a reference method among dietary assessment tools for collecting quantitative data regarding both absolute and relative food group or nutrient dietary intakes(12). It captures detailed dietary information, as interviewers ask individuals to recall and inform in detail all foods and drinks they consumed over the last 24 h(Reference Moshfegh, Rhodes and Baer13). However, this tool is often expensive and labour intensive for researchers and time consuming for study participants(Reference Park, Dodd and Kipnis14).

Recently developed, validated, and available in a few countries, web-based self-completed 24-h dietary recall tools offer a low-burden and cost-effective alternative for collecting dietary data. These include the INTAKE24(Reference Bradley, Simpson and Poliakov15) and the Oxford WebQ(Reference Liu, Young and Crowe16) in the UK, the Automated Self-Administered 24-H Dietary Assessment Tool (ASA24)(Reference Thompson, Dixit-Joshi and Potischman17), available in Australia, Canada and the US, and the tool used by the NutriNet Santé Cohort Study in France(Reference Touvier, Kesse-Guyot and Mejean18). These tools can be used in substitution to the 24-h multiple-pass dietary recall to obtain dietary intake data and estimate energy and nutrients intakes.

The Nova 24-h dietary recall (Nova24h) is the first web-based self-completed tool that collects 24-h food intake data in line with the Nova system. It automatically classifies every food item into one of the four Nova groups: unprocessed or minimally processed foods, processed culinary ingredients, processed foods and ultra-processed foods. This tool was developed to be used in the NutriNet Brasil Cohort Study launched in January 2020 to investigate prospective associations between dietary patterns and chronic non-communicable diseases(Reference Steele, Rauber and Costa19).

The objective of the present study is to describe the development of the Nova24h tool and to evaluate its agreement with a standard interviewer-led multiple-pass 24-h dietary recall in estimating the dietary relative energy contribution of each of the four groups as defined by the Nova classification system among participants of the NutriNet Brasil cohort.

Methods

Development of Nova24h

Nova24h web-based self-completed tool was designed by a team of nutrition epidemiologists from the same research center at the University of Sao Paulo that developed the Nova food classification system. It consists of a series of 395 concatenated close-ended questions about all foods and drinks consumed during the previous day, and two questions about whether the overall amount of food consumed during the previous day was about usual, less than usual or more than usual – as described in Fig. 1. The food list incorporated into the Nova24h was developed based on foods reported by participants of one nationally representative dietary survey conducted in Brazil in 2008–2009(20).

Fig. 1 Structure of the Nova24h tool. An illustration of the types of questions asked in the Nova24h tool, their description, and examples with hypothetical answers

All questions are answered with touches on the mobile screen or clicks on the computer. To enhance the usability of the program, large radio buttons and simple scrolling fields were included. The format of the questionnaire and the structure of the questions were based on feedback from extensive piloting of the tool by researchers from the Center for Epidemiological Research in Health and Nutrition at the University of Sao Paulo. The Nova24h estimated completion time is about 15 min.

Before initiating the recall, participants are provided with brief instructions on how to complete the Nova24h questionnaire. They are then asked a question related to food restrictions or special diet (e.g. lactose-, gluten- and/or red meat-free, vegetarian or vegan) and redirected to the questions about food items consumed in the previous day. Participants are presented with 57 ‘yes/no’ key questions about commonly consumed foods and drinks (e.g. ‘Did you eat fish yesterday?’). For positive answers, subsequent questions are prompted to specify the type (e.g. fresh fishes such as salmon, tuna, sardine, hake and tilapia and salted fishes, such as cod or canned fish) and amount consumed of each selected food item (e.g. number of fish filets consumed) (n 190).

The questions were designed to reduce respondent burden by optimising the number of food items covered by each question. In this sense, each question may refer to one (e.g. cereal bar) or more than one related individual items/culinary preparations (e.g. 1. fruit compote, guava paste, pumpkin jam or marmalade; 2. pudding, manjar or mousse and 3. coxinha, pie, sfiha and kebab). Amounts are reported using standardised categories, including portions of commonly used household measures (e.g. bowls and spoons) and standard units (e.g. an apple, a can)(20).

Certain ‘type and amount’ answers also prompt questions about added items (e.g. sugar added to coffee) (n 47), preparation method in the case of home-made dishes (e.g. raw/marinated, cooked, sautéed or stewed, roasted, grilled, barbecued, fried, breaded, in case of fish) (n 19) and further details to refine the information about the food consumed (e.g. homemade or purchased ready-to-eat, in case of cakes) (n 82).

To avoid the problem of respondents recording the same food item more than once under different questions, warning messages were added throughout the recall process. For instance, the question ‘Did you drink milk yesterday?’ is followed by the warning: Attention! DO NOT include milk added to porridge or breakfast cereal here so as not to duplicate what you ate. If that’s the case, change your answer above to ‘no’. After reporting all foods and drinks consumed during the previous day, participants are asked two questions to determine whether the previous day’s total intake represents his/her’s typical daily intake. After completing the recall, participants are asked an additional question regarding use of vitamin or mineral supplements.

A description of the food items and all their possible variations within each of the fifty-seven key questions is presented in the online Supplementary Table S1. A total of 526 food items capture all possible combinations of responses to questions within each of the fifty-seven key questions, including 347 individual or grouped items (e.g. ‘whole milk’ or ‘squash, zucchini or eggplant’) and 179 culinary preparations, which are subsequently disaggregated into underlying ingredients (e.g. ‘cooked rice’ is disaggregated into: rice, oil, onion, garlic and salt). Standardised recipes from the Tabela Brasileira de Composição de Alimentos 7·0(21) (TBCA – Brazilian Table of Food Composition) were the primary source used for the disaggregation. When a standardised recipe for some specific dish was not available in the TBCA (n 10), an adapted TBCA recipe was used to attribute ingredients and their respective proportions.

The nutritional composition of each individual or grouped food items and ingredients from the culinary preparations was estimated using food codes from the TBCA. Food codes from the United States Department of Agriculture(22) National Nutrient Database were used to code foods with no match with the TBCA (11 out of 526). For grouped food items, the food code representing the most consumed food (according to the national survey(20)) was used (e.g. ‘zucchini’ food code was used for coding ‘squash, zucchini or egg-plant’).

A three-stage process was undertaken to classify the 347 food items and ingredients of 179 culinary preparations according to the extent and purpose of industrial food processing as established by the Nova food classification system. First, two researchers working independently (E.M.S and C.S.C) assigned food items and ingredients to one of four mutually exclusive Nova groups and subgroups (online Supplementary Table S2). Second, Nova food groups and subgroups data were reviewed independently by two separate researchers (D.N and K.G). Food items and ingredients for which there was consensus in the categorisation among all researchers were assigned to their Nova group and subgroup. Food items with disagreement in categorisation between any two researchers were shortlisted and flagged for further scrutiny. At stage three, an expert panel of two nutrition epidemiologists (R.B.L and M.L.L) with substantial experience working with the dietary intake in the national dietary survey was convened to review, discuss and reach an agreement about the categorisation of the short-listed products.

A data set in a long format including the 526 food items and the underlying ingredients of culinary recipes, as well as their NOVA classification, food codes and nutritional composition, was built into the system. Using this matrix, Nova24h automatically generates an output informing all the foods and amounts consumed by the respondents with their respective nutritional content and classification according to Nova. Though the Nova24h was designed to estimate the energy and nutrient contents of the diet, its ability to do so in comparison to a standard tool has not yet been tested.

Evaluation of the agreement between Nova24h and the standard method

Study sample

All participants of the NutriNet Brasil Cohort Study who completed the Nova24h tool between 18 September and 16 October 2020 were consulted in the online platform about whether they would accept to participate in the agreement study. Among those who agreed to participate (nearly 3/4 of participants), a sample of 186 participants, selected to mimic the demographic distribution (age, sex and region of residence) of the total adult Brazilian population, was studied. A sample size of at least 152 is required for reaching 80 % power in detecting even weak agreements (intraclass correlation coefficient = 0·2) between two observations per subject(Reference Bujang and Baharum23).

Data collection

Following completion of the Nova24h recall, the selected sample was contacted over the phone on the same day to respond to the reference method – the interviewer-led multiple-pass 24-h dietary recall(Reference Moshfegh, Rhodes and Baer13). Eighty-five percent of participants completed the two recalls on weekdays and 15 % on weekend days.

The multiple-pass interviews were carried out using the Brazilian version of the GloboDiet software(Reference Steluti, Crispim and Araujo24) by two dietitians skilled in the use of this tool. The dietitians were trained to pay particular attention to food intake information needed to capture the level of processing of food items. This included specific information on the preparation or processing of certain food items (e.g. home-made from scratch or ready-to-eat products), brand names of packaged products (for branded breakfast cereal and breads, for instance), the place of preparation (at restaurant, street-food, take-away places), as well as the method of preparation of mixed dishes and the types of ingredients used (e.g. from scratch with fresh ingredients or pre-made and frozen). The dietitians were blinded to what the participants had entered in the Nova24h. All food items from the GloboDiet database were coded into food codes and subsequently classified according to Nova by the same researchers (E.M.S and C.S.C) using the same procedures used in Nova24h. The same TBCA food composition table used in Nova 24h was used to calculate nutrient intakes in the GloboDiet.

Data analysis

Standardised procedures were taken to impute or logically calculate estimations. When individuals selected a food item and its amount but did not complete data fields relating to food type (e.g. plain or skimmed), source (e.g. homemade, or packed) or preparation (e.g. roasted, or fried) (n 23 participants), the amount informed was distributed among all options available for each food, following the distributions observed in the first 27, 927 participants of the NutriNet Brasil Cohort Study who had completed one Nova24h. In the current analysis, for example, if a participant did not inform the origin of honey bread, 20·4 % of the reported amount was considered ‘homemade’, 28 % ‘bought at a bakery’ and 51·6 % ‘branded packed’, as these were the proportions reported by the 27, 927 participants. Quality control procedures were implemented to verify that appropriate data selection, calculation methods and data entry were used.

Descriptive statistics including mean values (and standard deviations) and frequency distribution were used to describe sample characteristics. The mean dietary contribution of each Nova group expressed in percentage of total energy intake, with 95 % confidence intervals, obtained with Nova24h was compared with the same estimates obtained with the reference method.

Intraclass correlation coefficients (ICC), derived from two-way mixed-effects models, were used to assess the strength of agreement between the methods in the overall sample. ICC across socio-demographic and weight status categories were assessed as secondary analysis. Values less than 0·50 were interpreted as indicative of poor agreement, between 0·50 and 0·75 as moderate agreement, between 0·75 and 0·90 as good agreement, and values greater than 0·90 as indicative of excellent agreement(Reference Koo and Li25).

Finally, to assess whether the methods agree in ranking individuals into the same or adjacent quintiles of consumption of each Nova food group, we divided participants into quintiles of the dietary contribution of each Nova group (% of total energy intake) as estimated by each method. The percentage classified into the same quintile by both methods was calculated and prevalence-adjusted and bias-adjusted kappa (PABAK) was used to evaluate the level of agreement. Values of PABAK were interpreted as follows: ≤ 0 no agreement, less than 0·20 none to slight, 0·21–0·40 fair, 0·41–0·60 moderate, 0·61–0·80 substantial and 0·81–1·00 indicating almost perfect (Reference Landis and Koch26).

Comparison between the two methods regarding the dietary energy contribution of subgroups within each Nova group was also performed as secondary analyses. All analyses were conducted using the STATA statistical software package version 15·0.

Results

Socio-demographic characteristics of the study participants are shown in Table 1. Mean age was 41·3 years, 55 % were women, 61 % were from the most populous Brazilian regions (Southeast and Northeast) and 95·1 % had completed secondary school (46·2 %) or college/university (48·9 %). The mean BMI of study participants was 26·8 kg/m2; 30 % of participants were overweight and 24 % obese.

Table 1 Socio-demographic and anthropometric characteristics of study participants (n 186)

The contribution of Nova food groups to the total energy intake estimated with Nova24h or with the reference tool (24-h multiple-pass dietary recall) is shown in Table 2. No statistically significant differences were observed between the Nova24h and the reference tool mean contributions of unprocessed or minimally processed foods (52·3 % v. 52·6 %), processed culinary ingredients (11·6 % v. 11·9 %), processed foods (17·1 % v. 14·7 %) and ultra-processed foods (19·0 % v. 20·9 %).

Table 2 Dietary contribution (% of total energy intake) of nova food groups using the Nova24h tool or the interviewer-led 24-h dietary recall (reference method) (n 186)

ICC, Intraclass correlation coefficients.

ICC between individual estimates obtained with each tool showed moderate agreement for both processed culinary ingredients (0·54; 95 % CI 0·38, 0·65) and processed foods (0·72; 95 % CI 0·62, 0·79) and good agreement for both unprocessed or minimally processed foods (0·78; 95 % CI 0·71, 0·84) and ultra-processed foods (0·75; 95 % CI 0·66, 0·81). ICC did not substantially change across socio-demographic or weight status categories (online Supplementary Tables S3S6).

The mean dietary contribution of food subgroups within each Nova group estimated with Nova24h or with the reference tool and the corresponding ICC are presented in online Supplementary Table S2. Moderate or good agreement was seen for most subgroups of unprocessed or minimally processed foods, processed culinary ingredients, processed foods and ultra-processed foods.

Table 3 assesses whether the two tools agree in ranking individuals into the same or adjacent quintiles of consumption of each Nova food group and inform the corresponding PABAK. Substantial agreement was seen for unprocessed or minimally processed foods, processed culinary ingredients and ultra-processed foods (PABAK of 0·78, 0·69 and 0·77, respectively) and almost perfect agreement for processed foods (PABAK of 0·81).

Table 3 Agreement between participants classification according to quintiles of the dietary energy contribution of each Nova group estimated using the Nova24h and the interviewer-led 24-h dietary recall (reference tool) (n 186)

PABAK, Prevalence-adjusted bias-adjusted kappa; Q, quintiles.

* Ranges for the dietary contribution (%) of unprocessed or minimally processed: Q1 = 1·2–36·7; Q2 = 37·0–46·1; Q3 = 46·2–58·3; Q4 = 58·3–68·2; Q5 = 68·6–98·1; of processed culinary ingredients: Q1 = 0·3–4·0; Q2 = 4·1–7·8; Q3 = 8·0–11·9; Q4 = 12·1–19·7; Q5 = 19·7–48·4; of processed foods: Q1 = 0–1·7; Q2 = 2·2–8·4; Q3 = 8·4–15·6; Q4 = 15·9–24·8; Q5 = 25·4–65·9; of ultra-processed foods: Q1 = 0–6·0; Q2 = 6·2–12·8; Q3 = 13·1–23·1; Q4 = 23·2–34·5; Q5 = 35·3–63·6.

Ranges for the dietary contribution (%) of unprocessed or minimally processed foods: Q1 = 4·2–37·8; Q2 = 37·9–47·7; Q3 = 48·0–56·7; Q4 = 57·2–65·3; Q5 = 65·4–96·9; of processed culinary ingredients: Q1 = 0·1–4·3; Q2 = 4·4–7·9; Q3 = 8·1–11·8; Q4 = 12·0–18·0; Q5 = 18·1–37·4; of processed foods: Q1 = 0–5·7; Q2 = 5·8–12·5; Q3 = 12·7–17·6; 4 = 18·1–26·9; Q5 = 27·3–73·1; of ultra-processed foods: Q1 = 0–6·4; Q2 = 6·5–12·6; Q3 = 13·0–19·8; Q4 = 19·9–30·5; Q5 = 30·5–63·8.

Discussion

The present study described the first web-based self-completed 24-h dietary recall tool designed to assess dietary intake in line with the Nova food classification system and evaluated the agreement between this new tool and a reference tool in estimating the dietary contribution of each of the four Nova groups in a sample of participants of the NutriNet Brasil Cohort Study.

We found that the mean dietary energy contribution of each Nova group was almost identical or very close when estimated by the Nova24h or the interviewer-led multiple-pass 24-h dietary recall tool. The agreement between the two tools in estimating participants’ individual dietary contribution of Nova groups was moderate for processed culinary ingredients and processed foods and good for unprocessed or minimally processed foods and ultra-processed foods. The agreement to rank participants according to quintiles of each Nova food group consumption was substantial for unprocessed or minimally processed foods, processed culinary ingredients and ultra-processed foods and almost perfect for processed foods.

The lower agreement between the two tools for processed culinary ingredients (ICC of 0·54 against > 0·70 for the other three Nova groups) is probably explained by the fact that, contrary to the reference tool, Nova24h does not ask participants about oils added to each preparation after they were cooked. This is confirmed by the low ICC regarding vegetable oils shown in online Supplementary Table S2 (0·31). The initial decision to not include oils added at the table was made to reduce participants’ burden, but a new updated version of Nova24h will include this question.

As other web-based self-completed dietary recall tools(Reference Park, Dodd and Kipnis14Reference Touvier, Kesse-Guyot and Mejean18), Nova24h has many advantages over interviewer-led recalls. It allows considerable logistic simplification and cost savings; it provides greater flexibility, allowing the subject to complete the recall at any time via a user-friendly interface. Importantly, such advantages may increase participation and retention rates in epidemiological studies. Its main limitation, also shared with similar tools, is the requirement of participants’ literacy and minimum computer skills.

Different from existing web-based self-completed dietary recall tools(Reference Park, Dodd and Kipnis14Reference Touvier, Kesse-Guyot and Mejean18), Nova24h was developed to address the need for accurately assessing dietary intake according to food processing levels as defined by the Nova food classification system.

Some study limitations should be noted. Although a sample size of 186 is considered enough for detecting even weak agreements(Reference Bujang and Baharum23), it was not calculated to examine differences according to socio-demographic characteristics or weight status. Though weekend days were underrepresented in this comparative study sample, this will unlikely change the agreement between the tools, since any deviations from true values would probably affect both tools. Also, due to the high schooling levels of the NutriNet Brasil Cohort(Reference Steele, Rauber and Costa19), 95 % of the study participants had at least completed high-school education, a condition found only in nearly half of the Brazilian adult population(27). Thus, caution is required when extrapolating the present results to the general Brazilian population or to other Brazilian populations with lower education. Adaptations to the original Nova24h recall are probably necessary for its application in populations with differing dietary patterns from those found in Brazil.

In terms of study strengths, the study design ensured that both tools collected dietary intake data for the same 24 h and analysed them using the same food composition table. In addition, the same researchers applied the Nova classification to both sets of data.

Our findings suggest that the low-cost Nova24h may be a suitable method for assessing dietary data according to food processing. Further work will include the evaluation of the performance of this new tool for estimating energy and nutrient intakes.

Conclusion

This study indicates that Nova24h is a suitable tool for assessing dietary relative energy contribution in line with the Nova food system classification among participants of the NutriNet Brasil Cohort Study. New studies are necessary to verify the potential application of Nova24h in other populations.

Acknowledgements

The authors wish to acknowledge each of the participants who took part in the study. The authors also gratefully acknowledge the assistance of researchers from the Center for Epidemiological Research in Nutrition and Health for piloting of the Nova24h dietary recall tool.

Financial support

The NutriNet-Brasil cohort study is funded by the Brazilian Ministry of Health through CNPq, The Brazilian National Council for Scientific and Technological Development (grant number 404211/2020-8), FAPESP, The Sao Paulo Research Foundation (grant number 2022/05636-0), and from UMANE.

Conflict of interest

There are no conflicts interest.

Authorship

D. N. designed the tool, trained data collectors, managed the data collection, analysed and interpreted the data and prepared the first draft of the manuscript. K.T.G., C.S.C., E.M.S. and F.R. designed the tool, contributed to the analysis and interpretation of the data and assisted in writing the paper. D.M.M. trained data collectors, managed the data collection and reviewed the manuscript. R.B.L. and M.L.L designed the tool and critically reviewed the manuscript. C.A.M. conceived, designed and supervised the study, interpreted the data and had primary responsibility for the final content. All the authors approved the manuscript.

Ethics of human subject participation

This study was conducted according to the guidelines laid down in the Declaration of Helsinki, and all procedures involving research study participants were approved by the Human Subjects Research Office at the University of Sao Paulo (USP no. 2·728·201). Written informed consent was obtained from all subjects/patients.

Supplementary material

For supplementary material accompanying this paper visit https://doi.org/10.1017/S1368980023001623

References

Monteiro, CA, Cannon, G, Moubarac, JC et al. (2018) The UN Decade of Nutrition, the NOVA food classification and the trouble with ultra-processing. Public Health Nutr 21, 517.Google Scholar
Hall, KD, Ayuketah, A, Brychta, R et al. (2020) Ultra-processed diets cause excess calorie intake and weight gain: an inpatient randomized controlled trial of ad libitum food intake. Cell Metab 32, 690.Google Scholar
Delpino, FM, Figueiredo, LM, Bielemann, RM et al. (2022) Ultra-processed food and risk of type 2 diabetes: a systematic review and meta-analysis of longitudinal studies. Int J Epidemiol 51, 11201141.Google Scholar
Pagliai, G, Dinu, M, Madarena, MP et al. (2021) Consumption of ultra-processed foods and health status: a systematic review and meta-analysis. Br J Nutr 125, 308318.Google Scholar
Suksatan, W, Moradi, S, Naeini, F et al. (2021) Ultra-processed food consumption and adult mortality risk: a systematic review and dose-response meta-analysis of 207 291 participants. Nutrients 14, 174.Google Scholar
Wang, M, Du, X, Huang, W et al. (2022) Ultra-processed foods consumption increases the risk of hypertension in adults: a systematic review and meta-analysis. Am J Hypertens 35, 892901.Google Scholar
Srour, B, Kordahi, MC, Bonazzi, E et al. (2022) Ultra-processed foods and human health: from epidemiological evidence to mechanistic insights. Lancet Gastroenterol Hepatol 7, 11281140.Google Scholar
Monteiro, CA & Astrup, A (2022) Does the concept of ‘ultra-processed foods’ help inform dietary guidelines, beyond conventional classification systems? YES. Am J Clin Nutr 116, 14891491.Google Scholar
Khandpur, N, Rossato, S, Drouin-Chartier, JP et al. (2021) Categorising ultra-processed foods in large-scale cohort studies: evidence from the Nurses’ Health Studies, the Health Professionals Follow-up Study, and the Growing Up Today Study. J Nutr Sci 10, e77.Google Scholar
Dinu, M, Bonaccio, M, Martini, D et al. (2021) Reproducibility and validity of a food-frequency questionnaire (NFFQ) to assess food consumption based on the NOVA classification in adults. Int J Food Sci Nutr 72, 861869.Google Scholar
Sarbagili-Shabat, C, Zelber-Sagi, S, Fliss Isakov, N et al. (2020) Development and validation of processed foods questionnaire (PFQ) in adult inflammatory bowel diseases patients. Eur J Clin Nutr 74, 16531660.Google Scholar
Dietary Assessment Primer Principles Underlying Recommendations (Internet). National Institutes of Health, National Cancer Institute. Available at https://dietassessmentprimer.cancer.gov/ (accessed February 2022).Google Scholar
Moshfegh, AJ, Rhodes, DG, Baer, DJ et al. (2008) The US Department of Agriculture Automated Multiple-Pass Method reduces bias in the collection of energy intakes. Am J Clin Nutr 88, 324332.Google Scholar
Park, Y, Dodd, KW, Kipnis, V et al. (2018) Comparison of self-reported dietary intakes from the automated self-administered 24-h recall, 4-d food records, and food-frequency questionnaires against recovery biomarkers. Am J Clin Nutr 107, 8093.Google Scholar
Bradley, J, Simpson, E, Poliakov, I et al. (2016) Comparison of INTAKE24 (an online 24-h dietary recall tool) with interviewer-led 24-h recall in 11–24 year-old. Nutrients 8, 358.Google Scholar
Liu, B, Young, H, Crowe, FL et al. (2011) Development and evaluation of the Oxford WebQ, a low-cost, web-based method for assessment of previous 24 h dietary intakes in large-scale prospective studies. Public Health Nutr 14, 19982005.Google Scholar
Thompson, FE, Dixit-Joshi, S, Potischman, N et al. (2015) Comparison of interviewer-administered and automated self-administered 24-hour dietary recalls in 3 diverse integrated health systems. Am J Epidemiol 181, 970978.Google Scholar
Touvier, M, Kesse-Guyot, E, Mejean, C et al. (2011) Comparison between an interactive web-based self-administered 24 h dietary record and an interview by a dietitian for large-scale epidemiological studies. Br J Nutr 105, 10551064.Google Scholar
Steele, EM, Rauber, F, Costa, CDS et al. (2020) Dietary changes in the NutriNet Brasil cohort during the covid-19 pandemic. Rev Saude Publica 54, 91.Google Scholar
Brazilian National Institute of Geography and Statistics (2011) Household Budgets Survey 2008–2009. Analysis of Personal Food Consumption in Brazil. https://biblioteca.ibge.gov.br/visualizacao/livros/liv50063.pdf (accessed February 2019).Google Scholar
Brazilian Table of Food Composition (TBCA) (2020) University of Sao Paulo (USP). Food Research Center (FoRC). Versão 7.1. São Paulo. http://www.fcf.usp.br/tbca (accessed October 2020).Google Scholar
US Department of Agriculture Agriculture Research Services. (2004) The USDA Food and Nutrient Databases for Dietary Studies, 4.1-Documentation and Users Guide. http://www.ars.usda.gov/SP2UserFiles/Place/12355000/pdf/fndds_doc.pdf (accessed October 2020).Google Scholar
Bujang, MA & Baharum, N (2017) A simplified guide to determination of sample size requirements for estimating the value of intraclass correlation coefficient: a review. Arch Orofac Sci 12, 111.Google Scholar
Steluti, J, Crispim, SP, Araujo, MC et al. (2020) Technology in Health: Brazilian version of the GloboDiet program for dietary intake assessment in epidemiological studies. Rev Bras Epidemiol 23, e200013.Google Scholar
Koo, TK & Li, MY (2016) A guideline of selecting and reporting intraclass correlation coefficients for reliability research. J Chiropr Med 15, 155163.Google Scholar
Landis, JR & Koch, GG (1977) The measurement of observer agreement for categorical data. Biom 33, 159174.Google Scholar
Brazilian National Institute of Geography and Statistics (2019) Coordination of Employment and wage. Continuous National Household Sample Survey: Education. https://biblioteca.ibge.gov.br/visualizacao/livros/liv101736_informativo.pdf (accessed July 2022).Google Scholar
Figure 0

Fig. 1 Structure of the Nova24h tool. An illustration of the types of questions asked in the Nova24h tool, their description, and examples with hypothetical answers

Figure 1

Table 1 Socio-demographic and anthropometric characteristics of study participants (n 186)

Figure 2

Table 2 Dietary contribution (% of total energy intake) of nova food groups using the Nova24h tool or the interviewer-led 24-h dietary recall (reference method) (n 186)

Figure 3

Table 3 Agreement between participants classification according to quintiles of the dietary energy contribution of each Nova group estimated using the Nova24h and the interviewer-led 24-h dietary recall (reference tool) (n 186)

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Tables S3-S6

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