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TOPLINE:
and factors other than poor nutritional content may be to blame.
METHODOLOGY:
- Previous studies have reported an association between high consumption of UPFs and some measures of early biological aging, such as shorter telomere length, cognitive decline, and frailty, but the relationship is largely unexplored so far, including exactly how UPFs may harm health.
- To examine the association between UPF consumption and biological aging, researchers conducted a cross-sectional analysis of 22,495 participants (mean chronological age, 55.6 years; 52% women) from the Moli-sani Study in Italy, who were recruited between 2005 and 2010.
- Food intake was assessed with a food frequency questionnaire that covered 188 different food items, each of which was categorized into one of four groups based on the extent of processing, ranging from minimally processed foods, such as fruits, vegetables, meat and fish, to UPFs.
- UPF intake was determined by weight, using the ratio of UPFs to the total weight of food and beverages (g/d), and participants were categorized into sex-specific fifths according to the proportion of UPFs in their total food intake. Diet quality was also evaluated using the Mediterranean Diet Score.
- Biological age was computed using a deep neural network approach based on 36 circulating blood biomarkers, and the mean difference between the mean biological and chronological ages was analyzed.
TAKEAWAY:
- The mean difference between biological and chronological ages of the participants was –0.70 years.
- Higher intake of UPFs was associated with accelerated biological aging compared with the lowest intake (regression coefficient, 0.34; 95% CI, 0.08-0.61), with a mean difference between the biological and chronological ages of −4.1 years and 1.6 years in those with the lowest and highest intakes, respectively.
- The association between UPF consumption and biological aging was nonlinear (P = .049 for nonlinearity). The association tended to be stronger in men than in women, but this was not statistically significant.
- Including the Mediterranean Diet Score in the model slightly attenuated the association by 9.1%, indicating that poor nutritional content was likely to explain a small part of the underlying mechanism.
IN PRACTICE:
“Our results showed that the UPFs–biological aging association was weakly explained by the poor nutritional composition of these highly processed foods, suggesting that biological aging could be mainly influenced by non-nutrient food characteristics, which include altered food matrix, contact materials and neo-formed compounds,” the authors wrote.
SOURCE:
The study was led by Simona Esposito, Research Unit of Epidemiology and Prevention, IRCCS Neuromed, Isernia, Italy. It was published online in The American Journal of Clinical Nutrition.
LIMITATIONS:
The cross-sectional design of the study limited the ability to determine the temporal directionality of the association, and the observational nature of the study limited the ability to establish the causality between UPF consumption and biological aging. The use of self-reported dietary data may have introduced recall bias. The study population was limited to adults from Central-Southern Italy, which may affect the generalizability of the findings.
DISCLOSURES:
The study was developed within the project funded by the Next Generation European Union “Age-It — Ageing well in an ageing society” project, National Recovery and Resilience Plan. The analyses were partially supported by the Italian Ministry of Health. The authors declared no conflicts of interest.
This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.
TOPLINE:
and factors other than poor nutritional content may be to blame.
METHODOLOGY:
- Previous studies have reported an association between high consumption of UPFs and some measures of early biological aging, such as shorter telomere length, cognitive decline, and frailty, but the relationship is largely unexplored so far, including exactly how UPFs may harm health.
- To examine the association between UPF consumption and biological aging, researchers conducted a cross-sectional analysis of 22,495 participants (mean chronological age, 55.6 years; 52% women) from the Moli-sani Study in Italy, who were recruited between 2005 and 2010.
- Food intake was assessed with a food frequency questionnaire that covered 188 different food items, each of which was categorized into one of four groups based on the extent of processing, ranging from minimally processed foods, such as fruits, vegetables, meat and fish, to UPFs.
- UPF intake was determined by weight, using the ratio of UPFs to the total weight of food and beverages (g/d), and participants were categorized into sex-specific fifths according to the proportion of UPFs in their total food intake. Diet quality was also evaluated using the Mediterranean Diet Score.
- Biological age was computed using a deep neural network approach based on 36 circulating blood biomarkers, and the mean difference between the mean biological and chronological ages was analyzed.
TAKEAWAY:
- The mean difference between biological and chronological ages of the participants was –0.70 years.
- Higher intake of UPFs was associated with accelerated biological aging compared with the lowest intake (regression coefficient, 0.34; 95% CI, 0.08-0.61), with a mean difference between the biological and chronological ages of −4.1 years and 1.6 years in those with the lowest and highest intakes, respectively.
- The association between UPF consumption and biological aging was nonlinear (P = .049 for nonlinearity). The association tended to be stronger in men than in women, but this was not statistically significant.
- Including the Mediterranean Diet Score in the model slightly attenuated the association by 9.1%, indicating that poor nutritional content was likely to explain a small part of the underlying mechanism.
IN PRACTICE:
“Our results showed that the UPFs–biological aging association was weakly explained by the poor nutritional composition of these highly processed foods, suggesting that biological aging could be mainly influenced by non-nutrient food characteristics, which include altered food matrix, contact materials and neo-formed compounds,” the authors wrote.
SOURCE:
The study was led by Simona Esposito, Research Unit of Epidemiology and Prevention, IRCCS Neuromed, Isernia, Italy. It was published online in The American Journal of Clinical Nutrition.
LIMITATIONS:
The cross-sectional design of the study limited the ability to determine the temporal directionality of the association, and the observational nature of the study limited the ability to establish the causality between UPF consumption and biological aging. The use of self-reported dietary data may have introduced recall bias. The study population was limited to adults from Central-Southern Italy, which may affect the generalizability of the findings.
DISCLOSURES:
The study was developed within the project funded by the Next Generation European Union “Age-It — Ageing well in an ageing society” project, National Recovery and Resilience Plan. The analyses were partially supported by the Italian Ministry of Health. The authors declared no conflicts of interest.
This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.
TOPLINE:
and factors other than poor nutritional content may be to blame.
METHODOLOGY:
- Previous studies have reported an association between high consumption of UPFs and some measures of early biological aging, such as shorter telomere length, cognitive decline, and frailty, but the relationship is largely unexplored so far, including exactly how UPFs may harm health.
- To examine the association between UPF consumption and biological aging, researchers conducted a cross-sectional analysis of 22,495 participants (mean chronological age, 55.6 years; 52% women) from the Moli-sani Study in Italy, who were recruited between 2005 and 2010.
- Food intake was assessed with a food frequency questionnaire that covered 188 different food items, each of which was categorized into one of four groups based on the extent of processing, ranging from minimally processed foods, such as fruits, vegetables, meat and fish, to UPFs.
- UPF intake was determined by weight, using the ratio of UPFs to the total weight of food and beverages (g/d), and participants were categorized into sex-specific fifths according to the proportion of UPFs in their total food intake. Diet quality was also evaluated using the Mediterranean Diet Score.
- Biological age was computed using a deep neural network approach based on 36 circulating blood biomarkers, and the mean difference between the mean biological and chronological ages was analyzed.
TAKEAWAY:
- The mean difference between biological and chronological ages of the participants was –0.70 years.
- Higher intake of UPFs was associated with accelerated biological aging compared with the lowest intake (regression coefficient, 0.34; 95% CI, 0.08-0.61), with a mean difference between the biological and chronological ages of −4.1 years and 1.6 years in those with the lowest and highest intakes, respectively.
- The association between UPF consumption and biological aging was nonlinear (P = .049 for nonlinearity). The association tended to be stronger in men than in women, but this was not statistically significant.
- Including the Mediterranean Diet Score in the model slightly attenuated the association by 9.1%, indicating that poor nutritional content was likely to explain a small part of the underlying mechanism.
IN PRACTICE:
“Our results showed that the UPFs–biological aging association was weakly explained by the poor nutritional composition of these highly processed foods, suggesting that biological aging could be mainly influenced by non-nutrient food characteristics, which include altered food matrix, contact materials and neo-formed compounds,” the authors wrote.
SOURCE:
The study was led by Simona Esposito, Research Unit of Epidemiology and Prevention, IRCCS Neuromed, Isernia, Italy. It was published online in The American Journal of Clinical Nutrition.
LIMITATIONS:
The cross-sectional design of the study limited the ability to determine the temporal directionality of the association, and the observational nature of the study limited the ability to establish the causality between UPF consumption and biological aging. The use of self-reported dietary data may have introduced recall bias. The study population was limited to adults from Central-Southern Italy, which may affect the generalizability of the findings.
DISCLOSURES:
The study was developed within the project funded by the Next Generation European Union “Age-It — Ageing well in an ageing society” project, National Recovery and Resilience Plan. The analyses were partially supported by the Italian Ministry of Health. The authors declared no conflicts of interest.
This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.