Effects of Diet on Brain Plasticity in Animal and Human Studies: Mind the Gap

Murphy, Tytus; Dias, Gisele Pereira; Thuret, Sandrine

doi:10.1155/2014/563160

Cited by 165 publications

(146 citation statements)

References 256 publications

(369 reference statements)

Supporting

Mentioning

140

Contrasting

Unclassified

Order By: Relevance

“…Additionally, food restriction has recently been suggested to affect learning and performance in memory and discrimination tasks (Makowiecki et al 2012;Kuhla et al 2013;Talhati et al 2014). On a more general level, direct effects of food restriction on brain plasticity have been reported (Murphy et al 2014). Caloric restriction leads to changes in synapse number and structure (Mattson 2012), increased NMDA receptor expression (Yilmaz et al 2011), and up-regulation of BDNF (Mattson and Wan 2005;Kishi and Sunagawa 2012).…”

Section: Discussionmentioning

confidence: 99%

Motivational state, reward value, and Pavlovian cues differentially affect skilled forelimb grasping in rats

2016

View full text Add to dashboard Cite

Motor skills represent high-precision movements performed at optimal speed and accuracy. Such motor skills are learned with practice over time. Besides practice, effects of motivation have also been shown to influence speed and accuracy of movements, suggesting that fast movements are performed to maximize gained reward over time as noted in previous studies. In rodents, skilled motor performance has been successfully modeled with the skilled grasping task, in which animals use their forepaw to grasp for sugar pellet rewards through a narrow window. Using sugar pellets, the skilled grasping task is inherently tied to motivation processes. In the present study, we performed three experiments modulating animals' motivation during skilled grasping by changing the motivational state, presenting different reward value ratios, and displaying Pavlovian stimuli. We found in all three studies that motivation affected the speed of skilled grasping movements, with the strongest effects seen due to motivational state and reward value. Furthermore, accuracy of the movement, measured in success rate, showed a strong dependence on motivational state as well. Pavlovian cues had only minor effects on skilled grasping, but results indicate an inverse Pavlovian-instrumental transfer effect on movement speed. These findings have broad implications considering the increasing use of skilled grasping in studies of motor system structure, function, and recovery after injuries.

show abstract

Section: Discussionmentioning

confidence: 99%

Motivational state, reward value, and Pavlovian cues differentially affect skilled forelimb grasping in rats

2016

View full text Add to dashboard Cite

show abstract

“…In light of its crucial roles in pre-and postnatal development of the brain, particularly during the critical windows of rapid brain growth, differentiation and lipid accumulation, interest has grown for gangliosides as a dietary component [3]. Exogenous administration of sialic acid, either bound or free, in animal model studies, has been shown to increase sialic acid concentrations in gangliosides and glycoproteins of the animal brain leading to improved learning [4][5][6][7].…”

Section: Introductionmentioning

confidence: 99%

Correlation between dietary intake and serum ganglioside concentrations: a cross-sectional study among Malaysian toddlers

et al. 2016

View full text Add to dashboard Cite

Background: Gangliosides are a group of sialylglycosphingolipids, widely distributed in body tissues, mainly as components of plasma membranes. They play crucial roles in neurodevelopment, gut maturation, and immune system. Dietary gangliosides have been shown to bring about benefits including cognition and immune support for breastfed infants. There is dearth of studies on dietary gangliosides intake or plasma ganglioside levels for toddlers. Given toddlers are still growing rapidly, a good understanding of ganglioside intake during this early childhood period is important for future dietary recommendations. The aim of this study was to provide information on dietary ganglioside intake in Malaysian toddlers and correlations with serum ganglioside levels. Methods: Toddlers who fulfilled the inclusion criteria were recruited from the Federal Territory of Putrajaya and neighboring urban suburbs. Background characteristics and food intake using food frequency questionnaire were collected for the entire sample (n = 153). As for ganglioside correlation determination, a 2 day weighed food record was conducted on a sub-group who provided blood (n = 74). Ganglioside levels in the food and blood were determined using modern high performance liquid chromatography mass spectrometry method. Results: The average dietary intake of total gangliosides for the Malaysian toddlers (aged 12-24.5 months) was 5.86 ± 0.56 mg/day. Growing up milks had a wide ganglioside concentration range (0.03 11.4 mg/100 g), and were the major contributor to dietary ganglioside intake (85%). The remaining dietary gangliosides were provided by other dairy products, meat, fish, bakery and biscuits. Serum levels varied from 5.05 μg/mL to 16.15 μg/mL. While no significant correlation was observed between dietary ganglioside intake from growing up milks and serum ganglioside levels in the toddlers, there was a significant but weak correlation between dietary ganglioside intake from dairy products (r = 0.241; p = 0.038) and meat (r = 0.294; p = 0.010) with serum ganglioside levels Conclusions: Gangliosides are a component of the Malaysian toddlers' diet (5.68 ± 0.56 mg/day), and were measured in their plasma at levels ranging from 5.05 to 16.15 μg/mL. Growing up milk contributed to 85% of the total dietary gangliosides intake, with remaining contributions from chicken meat and fish. More studies should be undertaken on the contributions of dietary gangliosides, including breast milk, in bringing about health benefits to young children.

show abstract

“…Calorie restriction, intermittent fasting and dietary content and their effects on neural plasticity, including AHN, in animal and human studies have been reviewed [6], with it concluded that these dietary factors have been demonstrated to promote neural plasticity. However, the mechanisms underlying these perceived effects remain to be elucidated, but in the meantime, placing importance on dietary content, frequency and amount could be a cost-effective way of preventing and ameliorating cognitive decline and mood disorders [6,24]. Conversely, negative regulators of AHN include stress, chronic sleep deprivation, ageing, inflammation and depression [25][26][27][28].…”

Section: Modulation Of Ahnmentioning

confidence: 99%

“…Several environmental stimuli are in fact thought to enhance AHN, such as physical exercise and diet [6,7]. Interestingly, not only diet content can modulate AHN, but also meal frequency, calorie intake and texture [8].…”

Section: Introductionmentioning

confidence: 99%

The impact of mastication on cognition: Evidence for intervention and the role of adult hippocampal neurogenesis

Smith

Miquel-Kergoat²,

Thuret

2016

NUA

Self Cite

View full text Add to dashboard Cite

Abstract. Adult hippocampal neurogenesis (AHN) in the dentate gyrus of the hippocampus has been shown to affect mood, cognition, learning ability and memory. A growing area of interest is whether mastication or chewing also affects AHN. This article aims to collect the evidence from animal and human studies to ascertain whether mastication is an oral environment enrichment capable of having a modulatory effect on AHN and associated behaviors.Current data point toward a causal relationship between masticatory ability and cognitive function. Experimental studies on mice and rats have consistently shown that impairing masticatory function results in physical and behavioral changes. A recurring theme of decreased neural stem cells proliferation in the hippocampus was seen in most of the studies found. Human population study has shown that tooth loss and masticatory difficulty are positively correlated with having greater odds of cognitive impairment. However, no causal mechanism has yet been found to explain the effects of mastication on AHN.Further studies, especially in humans, are warranted to ascertain whether mastication could be used as a potential health intervention to slowdown cognitive decline in the aging population or delay the onset of diseases such as dementia.

show abstract

Effects of Diet on Brain Plasticity in Animal and Human Studies: Mind the Gap

Cited by 165 publications

References 256 publications

Motivational state, reward value, and Pavlovian cues differentially affect skilled forelimb grasping in rats

Motivational state, reward value, and Pavlovian cues differentially affect skilled forelimb grasping in rats

Correlation between dietary intake and serum ganglioside concentrations: a cross-sectional study among Malaysian toddlers

The impact of mastication on cognition: Evidence for intervention and the role of adult hippocampal neurogenesis

Contact Info

Product

Resources

About