Hypocaloric diet beneficial to patients with age-associated memory loss

Written By :  Dr. Kamal Kant Kohli
Published On 2023-06-19 03:30 GMT   |   Update On 2023-06-19 06:30 GMT
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Spain: A calorie-restricted diet may improve cognition via reduction in the levels of inflammation and neuronal loss in the hippocampus, a recent study published in Nutrients has revealed. 

The results show that the group that followed a hypocaloric diet had better results in the spatial object recognition test, a memory test that allows you to evaluate, among others, the functioning of the hippocampus. In addition, the data obtained suggest that this improvement is linked to a reduction in both age-related neuronal loss and inflammatory activity in this structure.

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The study coordinated by the Institute of Neurosciences of the UAB (INc-UAB) analyzes in old rats the effects of a calorie-restricted diet on the hippocampus. This brain structure is critical in learning and memory processes. 

Advances in the scientific, technological, and health sectors have led to an increase in life expectancy in our society and, consequently, to a greater incidence of neurodegenerative diseases associated with age. This improvement in life expectancy, therefore also requires research into strategies that can delay brain ageing.

In this regard, it has been described that some of the brain alterations observed during aging, which may include an increase in oxidative stress and neuroinflammation, alterations in gene expression, a reduction in neurogenesis, and a dysregulation of mechanisms involved in synaptic plasticity, are related to the cognitive dysfunction that manifests naturally as we age. These processes, which depend on both genetic and environmental factors, are particularly important in the hippocampus.

Calorie-restricted diets have been shown to extend life expectancy and improve cognitive status, both in humans and in animal models, but many of the cellular processes associated with these benefits are still unknown. In this study, coordinated by Professor Gemma Guillazo from the INc-UAB and the Department of Psychobiology and Methodology, and Professor Carlos Barcia from the INc-UAB and the Department of Biochemistry and Molecular Biology, researchers confirm the ability to memorize and learn in rats on calorie-restricted diets compared to rats fed a constant supply of food, and analyzed the effects on the hippocampus.

The results show that the group that followed a hypocaloric diet had better results in the spatial object recognition test, a memory test that allows you to evaluate, among others, the functioning of the hippocampus. In addition, the data obtained suggest that this improvement is linked to a reduction in both age-related neuronal loss and inflammatory activity in this structure.

"This article evidences the effects of the hypocaloric diet in the preservation of hippocampal functions and in the reduction of neuroinflammation associated with aging, and supports interventions at this level to improve the quality of life of elderly people," explains Dr. Guillazo

The study highlights the potential of changes in habits, such as dietary modifications, to promote healthy aging of the brain and prevent age-related cognitive deficits. A study coordinated by the Institute of Neurosciences of the UAB (INc-UAB) analyzes in old rats the effects of a calorie-restricted diet on the hippocampus, a brain structure that is critical in learning and memory processes. The results corroborate that there is a cognitive improvement derived from diet, linked to a reduction in the levels of inflammation and neuronal loss in the hippocampus.

Advances in the scientific, technological, and health sectors has led to an increase in life expectancy in our society and consequently, to a greater incidence of neurodegenerative diseases associated with age. This improvement in life expectancy therefore also requires research into strategies that can delay brain aging.

In this regard, it has been described that some of the brain alterations observed during aging, which may include an increase in oxidative stress and neuroinflammation, alterations in gene expression, a reduction in neurogenesis, and a dysregulation of mechanisms involved in synaptic plasticity, are related to the cognitive dysfunction that manifests naturally as we age. These processes, which depend on both genetic and environmental factors, are particularly important in the hippocampus.

Calorie-restricted diets have been shown to extend life expectancy and improve cognitive status, both in humans and in animal models, but many of the cellular processes associated with these benefits are still unknown. In this study, coordinated by Professor Gemma Guillazo from the INc-UAB and the Department of Psychobiology and Methodology, and Professor Carlos Barcia from the INc-UAB and the Department of Biochemistry and Molecular Biology, researchers confirm the ability to memorize and learn in rats on calorie-restricted diets compared to rats fed a constant supply of food, and analyzed the effects on the hippocampus.

"This article evidences the effects of the hypocaloric diet in the preservation of hippocampal functions and in the reduction of neuroinflammation associated with aging, and supports interventions at this level to improve the quality of life of elderly people," explains Dr. Guillazo

The study highlights the potential of changes in habits, such as dietary modifications, to promote healthy aging of the brain and prevent age-related cognitive deficits.

Reference:

Portero-Tresserra, M.; Galofré-López, N.; Pallares, E.; Gimenez-Montes, C.; Barcia, C.; Granero, R.; Rojic-Becker, D.; Vale-Martínez, A.; Martí-Nicolovius, M.; Guillazo-Blanch, G. Effects of Caloric Restriction on Spatial Object Recognition Memory, Hippocampal Neuron Loss and Neuroinflammation in Aged Rats. Nutrients 2023, 15, 1572. https://doi.org/10.3390/nu15071572.

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Article Source : Nutrients

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