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Consumption of ultra- and non-ultra-processed foods of individuals with normal-weight obesity.

Acsa de Castro SantosAnna Flavia Ferreira PassosLuciana Bronzi de SouzaAlexandre Siqueira Guedes CoelhoCristiane Cominetti
Published in: Journal of nutritional science (2023)
The normal-weight obesity (NWO) is highly associated with an increased risk for chronic non-communicable diseases and intricately linked to diet quality. Therefore, we assessed the consumption of ultra-processed and non-ultraprocessed foods of 224 Brazilian adults with NWO ( n 159) and without NWO ( n 65, non-NWO) in a cross-sectional study. For that, three dietary recalls were applied and categorised according to the NOVA classification. Individuals with NWO showed lower energy intake from the 'fresh or minimally processed food' group, specifically for rice ( P = 0⋅037), beans ( P = 0⋅002) and fruits ( P = 0⋅026), as well as lower consumption of dietary fibre ( P < 0⋅05) compared with non-NWO subjects. Total consumption of ultra-processed foods did not differ between groups; however, individuals with NWO had a higher energy intake from processed meats compared with the non-NWO group (54⋅1 ± 73⋅5 × 32⋅5 ± 50⋅8 kcal; P = 0⋅023). Energy and added sugar from ultra-processed foods (OR 1⋅02, CI 95 % 1⋅00-1⋅04, P = 0⋅0100) and total fat from non-ultra-processed foods (OR 1⋅09, CI 95 % 1⋅01-1⋅18; P = 0⋅0100) were associated with the presence of NWO. In conclusion, non-NWO individuals consumed more non-ultra-processed foods compared with the NWO group. Overall, there were no differences in the consumption of ultra-processed foods between the two groups. Important associations between food compounds and the presence of NWO were observed, emphasising the importance of fresh and minimally processed foods as the basis of the diet.
Keyphrases
  • high resolution
  • weight loss
  • physical activity
  • weight gain
  • type diabetes
  • metabolic syndrome
  • insulin resistance
  • body mass index
  • adipose tissue
  • deep learning
  • risk factors
  • skeletal muscle
  • fatty acid