Hostname: page-component-cd9895bd7-hc48f Total loading time: 0 Render date: 2024-12-27T05:29:05.742Z Has data issue: false hasContentIssue false

Evaluation of photographs supporting an FFQ developed for adolescents

Published online by Cambridge University Press:  20 November 2012

Alessandra Page Brito
Affiliation:
Departamento de Nutrição Social e Aplicada, Universidade Federal do Rio de Janeiro, Av. Carlos Chagas Filho 373, Edifício do Centro de Ciências da Saúde, Bloco J, 2° andar, Rio de Janeiro, RJ 21941-902, Brazil
Celso Pereira Guimarães
Affiliation:
Departamento de Comunicação Visual, Universidade Federal do Rio de Janeiro, Rio de Janeiro, RJ, Brazil
Rosangela Alves Pereira*
Affiliation:
Departamento de Nutrição Social e Aplicada, Universidade Federal do Rio de Janeiro, Av. Carlos Chagas Filho 373, Edifício do Centro de Ciências da Saúde, Bloco J, 2° andar, Rio de Janeiro, RJ 21941-902, Brazil
Rights & Permissions [Opens in a new window]

Abstract

Objective

To evaluate the validity of food photographs used to support the reporting of food intake with an FFQ designed for adolescents from Rio de Janeiro, Brazil.

Design

A set of ninety-five food photographs was elaborated. The photographs’ evaluation process included the acknowledgement of foods and portions in the pictures. In the identification of foods (ninety-five photographs) and typical portions (twelve photographs), the adolescents were requested to answer a structured questionnaire related to the food photographs. The identification of the portion size of amorphous foods (forty-three photographs) was performed using three different portion sizes of actual preparations. The proportions (and 95 % confidence intervals) of adolescents who correctly identified foods and portion size in each photograph were estimated.

Setting

A public school in Niterói, Rio de Janeiro State, Brazil.

Subjects

Sixty-two adolescents between 11·0 and 18·9 years old, randomly selected.

Results

At least 90 % of adolescents correctly identified the food in ninety-two photographs and the food in the three remaining photographs was recognized by 80–89 % of the adolescents. At least 98 % of the adolescents correctly identified eleven typical or natural portions in the food photographs. For amorphous foods, at least 70 % of teenagers correctly identified the portion size in the photograph of thirty-one foods; for the other photographs, the portion size was correctly recognized by 50–69 % of the adolescents for eight foods and by less than 50 % of adolescents for four foods.

Conclusions

The analysed photographs are appropriate visual aids to the reporting of food consumption by adolescents.

Type
Assessment and methodology
Copyright
Copyright © The Authors 2012 

The FFQ is a dietary intake assessment tool frequently used in epidemiological studies, as it enables categorization of individuals according to their food or energy and nutrient intake levels and estimation of the association between dietary factors and disease occurrence. Nevertheless this method shows limitations that can compromise its validity, such as the low level of accuracy in the estimation of portion size consumed( Reference Cade, Thompson and Burley 1 ). Several alternatives have been applied to overcome this limitation of the FFQ, such as the use of food models and images to help individuals to report the amounts of food consumed( Reference Araujo, Yokoo and Pereira 2 Reference Haraldsdóttir, Tjønneland and Overvad 5 ).

Food photographs are a low-cost option and they can be easily reproduced, transported and adapted to different working conditions( Reference Huybregts, Roberfroid and Lachat 6 ). The validity of photographs used in food intake assessment has been assessed among adolescents with acceptable results( Reference Vereecken, Dohogne and Covents 7 Reference Frobisher and Maxwell 11 ).

In Brazil, food images have been used with the purpose of improving portion size estimates in food surveys( Reference Zabotto, Vianna and Gil 12 Reference Monteiro, Pfrimer and Tremeschin 14 ) and a study investigating the ability of adults to estimate food portions in photographs by comparing them with real foods obtained satisfactory results( Reference Lopez and Botelho 15 ). Nevertheless, there are no studies carried out with Brazilian adolescents that assess the validity of food images used to support dietary intake assessment. The present study aimed to evaluate food photographs supporting an FFQ designed for adolescents living in the metropolitan area of Rio de Janeiro, Brazil.

Methods

Study design and population

The study design included the identification of foods and portion sizes in a set of food photographs elaborated to support an FFQ designed for adolescents of Rio de Janeiro, Brazil. First, in order to acknowledge the foods depicted in ninety-five photographs and the natural portions in twelve food photographs, the adolescents were requested to answer a structured questionnaire associated with the pictures. Additionally, to evaluate the ability to identify the portion size displayed in photographs of forty-three amorphous foods, three different portion sizes of actual foods and dishes were prepared that corresponded with the photographs and shown to the adolescents. Then, the participants were asked to point out among the actual food portions which one was depicted in the photograph. Adolescents’ weight and height were measured. Data were collected between 2008 and 2009. Interviewers were nutritionists and nutrition undergraduate students who were specifically trained for this purpose.

Considering a recommendation of including at least twenty-five individuals of each sex in studies designed to validate food images( Reference Nelson and Haraldsdóttir 16 ) and anticipating a non-response rate of 40 %, a sex- and age-balanced sample of seventy-two adolescents was randomly selected among students of a public school in the city of Niterói, Rio de Janeiro State, Brazil. To select the participants, a list of all students between 11 and 18 years old categorized according to gender and age was elaborated. From this list, thirty-six boys and thirty-six girls were drawn randomly, being thirty-six between 11 and 14 years of age and thirty-six between 15 and 18 years of age.

The present study was approved by the Research Ethics Committee from the Institute de Medicina Social, Universidade do Estado do Rio de Janeiro, in 2005. Participation in the research was dependent on the Informed Consent Form being signed by the responsible adult or individual aged 18 years or older.

FFQ design

A detailed description of the FFQ design is published elsewhere( Reference Araujo, Veiga and Sichieri 17 ). Briefly, the FFQ was designed according to data obtained from the 3 d food records of 430 adolescents aged between 12 and 18 years who were students in public schools in the city of Niterói, Rio de Janeiro State, Brazil. A total of 308 food items were mentioned in the records analysed, of which 250 were mentioned at least fifteen times and included in the FFQ, comprising an initial list of ninety items. Some of these items were composed by the assembling of similar foods; for instance, fried, roasted or stewed beef were combined in the item ‘beef’. Additionally, the methodology proposed by Block et al. ( Reference Block, Hartman and Dresser 18 ) was applied to corroborate the consistency of the food list established for the FFQ. To achieve this, the percentage contribution of each food to the intake of energy, macronutrients, cholesterol, vitamins A and C, Fe and Ca was estimated. It was observed that 95 % of the energy and nutrient intake was provided by the foods already included in the FFQ. Five food items mentioned less than fifteen times in the records remained in the FFQ – canned fish, beer, wine, distilled beverages and low-calorie sodas – because it was believed that they can discriminate food intake or point out trends in food habits. The food portion sizes that were most frequently reported in the records were considered to determine the reference portion size for items such as rice, beans, meats and vegetables. ‘Natural’ or ‘typical portions’ were used for items like oranges and tangerines, bananas, French bread, eggs, hot dogs, crackers and cookies( Reference Araujo, Veiga and Sichieri 17 ).

The reproducibility and validity of the FFQ were assessed before photographs were included. Reliability was acceptable and relative validity was moderate to estimate the intakes of foods, energy and nutrients of adolescents in the metropolitan area of Rio de Janeiro( Reference Araujo, Yokoo and Pereira 2 , Reference Araujo, Ferreira and Pereira 19 ). These analyses indicated that the food list should be reviewed; so four items were excluded – processed soups, ketchup sauce, other processed sauces and heavy cream – and nine foods were included – grated cheese, açaí, guaraná syrup beverage, potato salad, soup, sweet potato, beef stroganoff, meat stew with vegetables, and toasts. At the end, ninety-three items comprised the FFQ list.

Food photograph design

All food items included in the FFQ developed for adolescents from the metropolitan area of Rio de Janeiro were photographed. The food photographs were developed by the Laboratório Design e Comunicação, Escola de Belas Artes, Universidade Federal do Rio de Janeiro (Design and Communication Lab, School of Fine Arts, Federal University of Rio de Janeiro). Nutritionists were responsible for the acquisition, preparation and portioning of the items photographed. The following issues were observed in the photographs’ design: neutral background, lighting giving a soft contrast, focal point accuracy, perspective correction and a reference scale. The camera used was a digital Canon EOS Rebel XT with EFS 18–55 mm lens (Lake Success, NY, USA) mounted on a tripod. Foods and beverages were always photographed from the same angle and distance, using a light grey background and adopting a dinner fork and knife as reference, according to the recommendations by Nelson and Haraldsdóttir( Reference Nelson and Haraldsdóttir 20 ).

Identification of foods and typical or natural portions in photographs

Students were exposed to ninety-five photographs of foods listed in the FFQ, so that their ability to identify the foods shown in the images could be assessed. Photographs were associated with a questionnaire including objective questions. For each photograph there was a multiple-choice question with three options naming similar foods and the students were asked to indicate the alternative that correctly described the item displayed in the image (see example in Fig. 1). For items with natural or typical portions (crackers, for instance), students were also asked to describe the amounts shown in the photographs.

Fig. 1 Example of a question applied in the evaluation of food photographs designed to support an FFQ elaborated for adolescents

Identification of portion size in photographs

Sets of three different actual portions were shown alongside photographs of forty-three amorphous foods to evaluate the ability of students to identify the portion sizes in these photographs. The actual portions were displayed on the same plates and with the same silverware used in the photographs, on tables covered with fabric of the same colour used in the background of photographs. The portions were labelled as A, B and C and in each set, only one portion was the same size as that shown in the photograph; also, the different portion sizes were randomly arranged, so there was no pattern in the correct answers. In addition, each set was visualized separately (Fig. 2). Using a specific form, participants were asked to identify which actual portion was identical to the portion size displayed in the corresponding picture.

Fig. 2 Example of the display used to evaluate the recognition of portions in food photographs designed to support an FFQ elaborated for adolescents

Weight status assessment

Weight status was evaluated based on BMI (BMI = weight/height2). Weight was measured with a digital scale with 150 kg capacity and 100 g variation (Plenna Sport, São Paulo, SP, Brazil). Height was measured in duplicate using a portable stadiometer with 0·1 cm variation (Alturaexata, Belo Horizonte, MG, Brazil), admitting a maximum variation of 0·5 cm between both measures and using the mean between two measurements. Adolescents remained barefoot, wore light clothing and were in orthostatic position( Reference Gordon, Chumlea and Roche 21 ). Weight status was classified according to the BMI-for-age-and-sex percentile, following the criteria recommended by the WHO( Reference de Onis, Onyango and Borghi 22 ).

Statistical analysis

The proportion (and 95 % confidence interval) of correct identification of food and portion size in each photograph was calculated. The differences in the correct identification of foods and portion sizes in photographs were estimated according to sex, age group (11–14 years; 15–18 years) and weight status (overweight; not overweight).

Results

Of the seventy-two adolescents selected, fifty-eight (81 %) participated in the identification of foods and natural or typical portions in the photographs and sixty-two (86 %) participated in identification of the portion sizes of amorphous foods in the photographs.

The adolescents who participated in the identification of foods and natural or typical portions in the photographs (n 58) had a mean age of 14·5 (sd 1·6) years; 48 % were aged 11–14 years, 48 % were boys and 21 % were overweight.

All fifty-eight adolescents correctly identified sixty-seven (71 %) of the ninety-five foods in the photographs. For the other photographs, between 90 % and 99 % of the adolescents correctly identified twenty-five foods, and between 80 % and 89 % of the adolescents accurately identified three foods (broccoli, chicken and powdered nutritional supplement; Table 1). There were no statistically significant differences in the identification of foods in the photographs according to sex and weight status (data not shown). However, there was a statistically significant difference between age groups, as the proportion of adolescents who correctly identified all foods was higher in adolescents aged 15–18 years compared with those aged 11–14 years (22 % v. 9 %; χ 2 test: P = 0·02).

Table 1 Proportion (and 95 % confidence interval) of accurate recognition of foods in food photographs by adolescents (n 58), Niterói, Rio de Janeiro State, Brazil, 2008–2009

Of the twelve photographs showing foods in typical or natural portions, ten (lettuce, cookies, filled cookies, crackers, salty snacks, wafer, chicken nuggets, bun, cheese rolls, and toast) were accurately identified by all fifty-eight adolescents (95 % CI 94, 100 %, for all estimates). The portion of strawberries was correctly identified by 98 % (95 % CI 91, 100 %) of the adolescents and the apple size (medium) was identified by 81 % of them (95 % CI 69, 90 %). There were no statistically significant differences in the identification of the number of natural or typical portions in the food photographs according to sex, weight status and age group (data not shown).

The adolescents who participated in the identification of portion size of amorphous foods (n 62) had a mean age of 14·4 (sd 1·9) years; 55 % were aged 11–14 years, 47 % were boys and 21 % were overweight. At least 80 % of adolescents correctly identified the portion size in twenty-one (49 %) of forty-three food photographs selected for the portion recognition study. Seventeen food portion sizes in the photographs were correctly identified by between 60 % and 79 % of adolescents; four were accurately identified by between 40 % and 59 % of adolescents; and the portion size of tomatoes was correctly identified by 29 % of adolescents (Table 2). There were no statistically significant differences in the number of portion sizes correctly identified in the photographs according to sex, weight status and age group (data not shown).

Table 2 Proportion (and 95 % confidence interval) of accurate recognition of portion size in photographs of amorphous foods by adolescents (n 62), Niterói, Rio de Janeiro State, Brazil, 2008–2009

*Polenta is a typical Brazilian dish made of cornmeal boiled in water with salt.

Farofa is a typical Brazilian dish made of toasted cassava flour, usually mixed with salt and spices.

Discussion

Brazilian adolescents in the present study satisfactorily identified foods and their portions from photographs: about 80 % of these foods were correctly recognized from the photographs by all adolescents, 83 % of the natural and typical portions shown in the photographs were correctly identified by all participants, and 89 % of the amorphous food portion sizes shown in the photographs were identified by at least 60 % of participants. There were no statistically significant differences in the identification of portions according to sex, age group and weight status.

Comparing the results with other studies validating food photographs is not simple due to variability in the foods analysed and differences in the methods applied. Turconi et al. ( Reference Turconi, Guarcello and Gigli Berzolari 23 ) assessed the validity of food photographs in the estimation of food intake by children, adolescents and adults and also observed that there were no statistically significant differences in the identification of portion size in food photographs according to sex, age and weight status. Lillegaard et al. ( Reference Lillegaard, Overby and Andersen 9 ) and Frobisher and Maxwell( Reference Frobisher and Maxwell 11 ) also found that there were no statistically significant differences in the identification of portion size in food photographs according to age.

In the present study, the adolescents’ ability to identify food portion size in the photographs was independent of food characteristics, as the identification of food portions in the photographs was similar for foods with natural portions and for amorphous foods. Venter et al. ( Reference Venter, Macintyre and Vorster 24 ) developed food photographs to help adult individuals to describe the portions consumed in a cross-sectional study conducted in Africa. These authors observed that portion sizes of solid foods were more accurately estimated from photographs than those of amorphous foods such as porridge, beans, rice and pumpkin.

Vereecken et al. ( Reference Vereecken, Dohogne and Covents 7 ) conducted a study in Belgium to evaluate the precision in estimating the portion size of amorphous foods in photographs among adolescents. The convenience sample was composed of 128 adolescents, 58 % male, aged between 11 and 17 years. The authors observed that, on average, 28 % of the adolescents accurately recognized amorphous food portion sizes in photographs, a proportion lower than that observed in the present study (77 %). However, Vereecken et al. ( Reference Vereecken, Dohogne and Covents 7 ) provided nine or more photographs for each food item, while in the present study one food photograph was compared with three different portions of real food.

Lillegaard et al.( Reference Lillegaard, Overby and Andersen 9 ) also investigated if children and adolescents could accurately estimate food portion size based on food pictures. The authors found that, on average, 60 % of sixty-three adolescents aged 9–19 years appropriately recognized the food portions in photographs. Lillegaard et al.( Reference Lillegaard, Overby and Andersen 9 ) observed results similar to those in the present study for potato chips and rice. On the other hand, those authors observed a lower rate of precise recognition for fat spread on bread and fish than obtained in our study; while the proportion of correct identification in the images of spaghetti with tomato sauce and porridge observed by Lillegaard et al.( Reference Lillegaard, Overby and Andersen 9 ) was higher than that found in the present analysis.

In Brazil, food photographs have been used to assist the estimation of the amount of food intake( Reference Zabotto, Vianna and Gil 12 Reference Monteiro, Pfrimer and Tremeschin 14 ). However, only Lopez and Botelho( Reference Lopez and Botelho 15 ) investigated the ability of 120 adults to estimate food portion size in thirty-one photographs displaying foods in small, medium and large portions by comparing them with real foods. These authors obtained less positive results than those observed in the present study for pumpkin, French fries, ground meat, grated carrot, corn flakes, pasta, farofa (a typical Brazilian dish made of toasted cassava flour, usually mixed with salt and spices), beans and papaya. Results for rice and milk were similar in both studies, and the portion sizes of chicken breast, tomato and cake were more successfully identified in the study of Lopes and Botelho( Reference Lopez and Botelho 15 ).

The present study sought to reduce the possibility of bias when evaluating food photographs: participants received detailed instructions about the procedures applied in data collection, which was carried out individually in a quiet environment. Also, since Lillegaard et al.( Reference Lillegaard, Overby and Andersen 9 ) pointed out that the proportion of accurate recognition was higher for foods that had precisely the same appearance shown in the pictures, we were careful in arranging the actual portions that were compared with the photographs. To prevent differences between the appearance of real foods and those in photographs, preparations were cooked on the day of data collection and the portions were arranged in the dishes identically as they were in photographs. Additionally, plates, forks and knives were the same as used in the pictures.

The lowest frequencies of correct identification of portion size were observed for apple and tomato, probably due to the fact that these pictures, although including a fork and a knife as a size reference, did not enable an average apple or tomato to be distinguished without a large and a small apple or tomato as reference.

The studied sample size met the recommendation of Nelson and Haraldsdóttir( Reference Nelson and Haraldsdóttir 16 ) regarding the number of participants in studies on the validation of food images. Additionally, the photographs were designed according to the advice of experts in this subject( Reference Nelson and Haraldsdóttir 20 ). Moreover, the serving sizes adopted were derived from the food intake survey conducted among adolescents from the same region, and therefore were appropriate for the target group. According to Foster et al. ( Reference Foster, Matthews and Nelson 25 ), the appropriateness of foods serving sizes enables more accurate reporting of food portions consumed.

The present study is a novel one conducted in Brazilian adolescents and the photographs analysed are appropriate to assist the obtainment of data in studies on food intake applying the FFQ developed for adolescents. These tools will be useful in the assessment and monitoring of food intake of adolescents in Brazil, which is central to establish health and nutrition policies and programmes targeting adolescents, as this group is particularly vulnerable to changes in food habits.

Acknowledgements

Sources of funding: This work received financial support from the Brazilian National Scientific and Technological Research Council (506336/2004-2). Conflicts of interest: The authors declare no conflict of interest. Authors’ contributions: A.P.B. participated in the photograph elaboration, data collection, analysis and interpretation, manuscript drafting and final editing. C.P.G. was responsible for the photograph elaboration, study design and data interpretation. R.A.P. was responsible for the research conception and supervision, data analysis and interpretation, manuscript conception, writing and final editing. Acknowledgements: The authors acknowledge the work of Marco Cadena, Carolina Cadaval, Barbara Carreira and Juliana Carneiro Novaes from the School of Fine Arts, Federal University of Rio de Janeiro in the design and technical treatment of the photographs. The authors are also grateful to the Professor Ronir Raggio Luiz, from the Institute of Studies on Collective Health, Federal University of Rio de Janeiro, for his guidance in the statistical analysis.

References

1. Cade, J, Thompson, R, Burley, V et al. (2002) Development, validation and utilization of food-frequency questionnaires – a review. Public Health Nutr 5, 567587.CrossRefGoogle ScholarPubMed
2. Araujo, MC, Yokoo, EM & Pereira, RA (2010) Validation and calibration of a semiquantitative food frequency questionnaire designed for adolescents. J Am Diet Assoc 110, 11701177.CrossRefGoogle ScholarPubMed
3. Ngo, J, Engelen, A, Molag, M et al. (2009) A review of the use of information and communication technologies for dietary assessment. Br J Nutr 101, Suppl. 2, S102S112.Google Scholar
4. Navarro, A, Cristaldo, PE, Díaz, MP et al. (2000) Food photography atlas: its suitability for quantifying food and nutrient consumption in nutritional epidemiological research in Córdoba, Argentina. Rev Fac Cien Med Univ Nac Cordoba 57, 6774.Google Scholar
5. Haraldsdóttir, J, Tjønneland, A & Overvad, K (1994) Validity of individual portion size estimates in a food frequency questionnaire. Int J Epidemiol 23, 786796.CrossRefGoogle Scholar
6. Huybregts, L, Roberfroid, D, Lachat, C et al. (2008) Validity of photographs for food portion estimation in a rural West African setting. Public Health Nutr 11, 581587.CrossRefGoogle Scholar
7. Vereecken, C, Dohogne, S, Covents, M et al. (2010) How accurate are adolescents in portion-size estimation using the computer tool Young Adolescents’ Nutrition Assessment on Computer (YANA-C)? Br J Nutr 103, 18441850.CrossRefGoogle ScholarPubMed
8. Higgins, JA, LaSalle, AL, Zhaoxing, P et al. (2009) Validation of photographic food records in children: are pictures really worth a thousand words? Eur J Clin Nutr 63, 10251033.CrossRefGoogle Scholar
9. Lillegaard, IT, Overby, NC & Andersen, LF (2005) Can children and adolescents use photographs of food to estimate portion sizes? Eur J Clin Nutr 59, 611617.Google Scholar
10. Beasley, LJ, Hackett, AF, Maxwell, SM et al. (2004) The effect of a dietary preload on estimation of usual food portion size by photograph in female volunteers. J Hum Nutr Diet 17, 219225.Google Scholar
11. Frobisher, C & Maxwell, SM (2003) The estimation of food portion sizes: a comparison between using descriptions of portion sizes and a photographic food atlas by children and adults. J Hum Nutr Diet 16, 181188.Google Scholar
12. Zabotto, CB, Vianna, RPT & Gil, MF (1996) Registro Fotográfico para Inquéritos Dietéticos. Goiânia: RTN.Google Scholar
13. Sales, RL, Silva, MMS & Costa, NMB (2004) Avaliando o consumo alimentar por fotos (software). Viçosa: Federal University of Viçosa.Google Scholar
14. Monteiro, JP, Pfrimer, K, Tremeschin, MH et al. (2007) Consumo Alimentar: Visualizando Porções. Rio de Janeiro: Editora Guanabara Koogan.Google Scholar
15. Lopez, RPS & Botelho, RBA (2010) Identificação de porções alimentares em fotografias. Rev Soc Bras Alim Nutr 35, 114.Google Scholar
16. Nelson, M & Haraldsdóttir, J (1998) Food photographs: practical guidelines I. Design and analysis of studies to validate portion size estimates. Public Health Nutr 1, 219230.CrossRefGoogle ScholarPubMed
17. Araujo, MC, Veiga, GV, Sichieri, R et al. (2010) Elaboração de questionário semiquantitativo de freqüência alimentar para adolescentes da Região Metropolitana do Rio de Janeiro, Brasil. Rev Nutr 23, 179189.Google Scholar
18. Block, G, Hartman, AM, Dresser, CM et al. (1986) A data-based approach to diet questionnaire design and testing. Am J Epidemiol 124, 453469.Google Scholar
19. Araujo, MC, Ferreira, DM & Pereira, RA (2008) Reprodutibilidade de questionário semiquantitativo de freqüência de consumo de alimentos elaborado para adolescentes da região metropolitana do Rio de Janeiro, Brasil. Cad Saude Publica 24, 27752786.Google Scholar
20. Nelson, M & Haraldsdóttir, J (1998) Food photographs: practical guidelines II. Development and use of photographic atlases for assessing food portion size. Public Health Nutr 1, 231237.CrossRefGoogle ScholarPubMed
21. Gordon, CC, Chumlea, WC and Roche, AF (1988) Stature, recumbent length, and weight. In Anthropometric Standardization Reference Manual, pp. 3–8 [TG Lohman, AF Roche and R Martorell, editors]. Champaign, IL: Human Kinetics Books.Google Scholar
22. de Onis, M, Onyango, AW, Borghi, E et al. (2007) Development of a WHO growth reference for school-aged children and adolescents. Bull World Health Organ 85, 660667.Google Scholar
23. Turconi, G, Guarcello, M, Gigli Berzolari, F et al. (2005) Valuation of a colour food photography atlas as a tool for quantifying food portion size in epidemiological dietary surveys. Eur J Clin Nutr 59, 923931.CrossRefGoogle Scholar
24. Venter, CS, Macintyre, UE & Vorster, HH (2000) The development and testing of a food portion photograph book for use in an African population. J Hum Nutr Diet 13, 205218.Google Scholar
25. Foster, E, Matthews, JNS, Nelson, M et al. (2006) Accuracy of estimates of food portion size using food photographs – the importance of using age-appropriate tools. Public Health Nutr 9, 509514.CrossRefGoogle ScholarPubMed
Figure 0

Fig. 1 Example of a question applied in the evaluation of food photographs designed to support an FFQ elaborated for adolescents

Figure 1

Fig. 2 Example of the display used to evaluate the recognition of portions in food photographs designed to support an FFQ elaborated for adolescents

Figure 2

Table 1 Proportion (and 95 % confidence interval) of accurate recognition of foods in food photographs by adolescents (n 58), Niterói, Rio de Janeiro State, Brazil, 2008–2009

Figure 3

Table 2 Proportion (and 95 % confidence interval) of accurate recognition of portion size in photographs of amorphous foods by adolescents (n 62), Niterói, Rio de Janeiro State, Brazil, 2008–2009