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1.
Online Cognitive Training: An Adaptation of the Memory, Attention, and Problem Solving Skills for Persons With Diabetes Intervention.
Cuevas, H, Carter, S
Computers, informatics, nursing : CIN. 2020;(3):162-169
Abstract
Research shows the risk for cognitive impairment and the rate of cognitive decline double after type 2 diabetes mellitus is diagnosed and can make self-management more difficult. Cognitive training has been found to be one way to improve self-management and cognitive function, and this article reports the adaptation of one such intervention to an online format. Ten adults with diabetes participated in an 8-week intervention that combined webinar classes with online computer game training. Perceived memory ability, executive function, self-management, and self-efficacy were measured. Evaluation of recruitment, data collection, and implementation demonstrated good feasibility and reduced barriers to engagement. Although the intervention did not result in significant changes in cognitive function, scores on all surveys improved. Adherence to diet, exercise, and foot care recommendations also improved. Most participants stated they preferred the intervention's online format to "traditional" in-person formats. Online technology in this 8-week intervention helped improve recruitment, retention, participant engagement, and use of cognitive strategies in people with type 2 diabetes mellitus. Overall, participants found the intervention helpful and said it reduced the time and travel burden associated with educational interventions. A larger randomized controlled trial is needed to further explore the intervention's potential impact over a longer period.
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A Narrative Review of Handgrip Strength and Cognitive Functioning: Bringing a New Characteristic to Muscle Memory.
Shaughnessy, KA, Hackney, KJ, Clark, BC, Kraemer, WJ, Terbizan, DJ, Bailey, RR, McGrath, R
Journal of Alzheimer's disease : JAD. 2020;(4):1265-1278
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Abstract
BACKGROUND Measures of handgrip strength have not only emerged as a clinically viable screening tool for determining risk for morbidity, functional disability, and early mortality, but also for helping to identify cognitive deficits. However, the phenomena that links low handgrip strength with cognitive decline remains unclear. The role of the muscular and neural systems, and their adaptations to muscle strengthening activities over the life course, may provide important information for how age-related changes to muscle mass, strength, and neural capacity influence cognition. Moreover, disentangling how handgrip strength and cognitive function are associated may help to inform healthcare providers working with aging adults and guide targeted interventions aiming to preserve muscle and cognitive functioning. OBJECTIVE To 1) highlight and summarize evidence examining the associations of handgrip strength and cognitive functioning, and 2) provide directions for future research in this area. METHODS Articles from the PubMed database were searched from November 2018-May 2019. The search term algorithm, inclusion and exclusion criteria were pre-specified by investigators. RESULTS Several cross-sectional and longitudinal studies have revealed that measures of handgrip strength were associated with cognitive declines regardless of age demographics and the presence of comorbidities. CONCLUSION Handgrip strength can be used in clinical and epidemiological settings for helping to determine the onset and progression of cognitive impairment. Future research should continue to examine how handgrip strength and cognitive function are linked.
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Effects of soy isoflavones on cognitive function: a systematic review and meta-analysis of randomized controlled trials.
Cui, C, Birru, RL, Snitz, BE, Ihara, M, Kakuta, C, Lopresti, BJ, Aizenstein, HJ, Lopez, OL, Mathis, CA, Miyamoto, Y, et al
Nutrition reviews. 2020;(2):134-144
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Abstract
CONTEXT The results of preclinical and observational studies support the beneficial effect of soy isoflavones on cognition. OBJECTIVE This review aimed to evaluate the effects of soy isoflavones on cognition in adults. DATA SOURCES The PUBMED, EMBASE, Ovid Medline, Cochrane Library, and clinicaltrials.gov databases were searched. STUDY SELECTION Two researchers independently screened 1955 records, using the PICOS criteria: participants were adults; intervention was dietary sources with soy isoflavones or isolated soy isoflavones; comparator was any comparator; outcome was cognitive function; study type was randomized controlled trials (RCTs). A third researcher was consulted to resolve any discrepancies. Sixteen RCTs were included and their quality assessed. DATA EXTRACTION Information on study design, characteristics of participants, and outcomes was extracted. PRISMA guidelines were followed. DATA ANALYSIS A random-effects meta-analysis was used to pool estimates across studies. In the 16 RCTs (1386 participants, mean age = 60 y), soy isoflavones were found to improve overall cognitive function (standardized mean difference [SMD], 0.19; 95% confidence interval [CI], 0.07-0.32) and memory (SMD, 0.15; 95%CI, 0.03-0.26). CONCLUSION The results showed that soy isoflavones may improve cognitive function in adults. SYSTEMATIC REVIEW REGISTRATION PROSPERO registration no. CRD42018082070.
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Encoding Membrane-Potential-Based Memory within a Microbial Community.
Yang, CY, Bialecka-Fornal, M, Weatherwax, C, Larkin, JW, Prindle, A, Liu, J, Garcia-Ojalvo, J, Süel, GM
Cell systems. 2020;(5):417-423.e3
Abstract
Cellular membrane potential plays a key role in the formation and retrieval of memories in the metazoan brain, but it remains unclear whether such memory can also be encoded in simpler organisms like bacteria. Here, we show that single-cell-level memory patterns can be imprinted in bacterial biofilms by light-induced changes in the membrane potential. We demonstrate that transient optical perturbations generate a persistent and robust potassium-channel-mediated change in the membrane potential of bacteria within the biofilm. The light-exposed cells respond in an anti-phase manner, relative to unexposed cells, to both natural and induced oscillations in extracellular ion concentrations. This anti-phase response, which persists for hours following the transient optical stimulus, enables a direct single-cell resolution visualization of spatial memory patterns within the biofilm. The ability to encode robust and persistent membrane-potential-based memory patterns could enable computations within prokaryotic communities and suggests a parallel between neurons and bacteria.
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Omega-3 and its domain-specific effects on cognitive test performance in youths: A meta-analysis.
Emery, S, Häberling, I, Berger, G, Walitza, S, Schmeck, K, Albert, T, Baumgartner, N, Strumberger, M, Albermann, M, Drechsler, R
Neuroscience and biobehavioral reviews. 2020;:420-436
Abstract
Omega-3 fatty acids are vital for brain development. The aim of this meta-analysis was to broaden current knowledge of the effects of omega-3 supplementation on cognitive test performance in youths. Randomized controlled trials (RCTs) meeting selection criteria were identified through two independent literature searches on PubMed, Cochrane Library, PsycARTICLES and PsycINFO (last search June 2019). Twenty-nine out of 1126 studies assessing 4247 participants met all selection criteria. A meta-analysis using random-effects model was performed for eight different cognitive domains. This first analysis revealed no main effect of omega-3 fatty acid supplementation on domain-specific cognitive test performance in youths. Subgroup analyses identified beneficial effects of eicosapentaenoic acid (EPA)-rich but not docosahexaenoic acid (DHA)-rich formulations in the domains of long-term memory, working memory and problem solving and a tendency towards beneficial effects in clinical rather than non-clinical populations. Future research should investigate differential effects of EPA and DHA and consider their baseline levels, other nutritional components and interactions with gene variations as potential predictors of response.
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The cognitive effects of an acute wild blueberry intervention on 7- to 10-year-olds using extended memory and executive function task batteries.
Whyte, AR, Lamport, DJ, Schafer, G, Williams, CM
Food & function. 2020;(5):4793-4801
Abstract
Evidence for the health benefits of blueberries is well documented. In particular, memory and executive function benefits have both been found for children aged 7-10 in the 6 hours period following acute blueberry consumption. Previous research has utilised a limited number of tasks when considering these domains. Therefore, in two separate experiments, we employed extended memory and executive function task batteries to further understand the extent of blueberry benefits. Following blueberry intervention, children aged 7-10 were tested on a memory battery at 75 minutes and an executive function battery at 3 hours. Shorter memory reaction times were observed on the visuo-spatial grid task and shorter executive function reaction times were observed on the congruent trials of the attention network task. Whilst providing further evidence for the cognitive benefits of blueberry consumption in school age children, these findings contrast with previous research where improved accuracy and reaction time benefits have most commonly been found on more cognitively demanding trials. Further research targeted to consider the areas of the brain related to each cognitive domain and how they coincide with mechanisms of action, such as increases in cerebral blood flow following blueberry intervention, is therefore recommended.
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Assessment of Factors Contributing to the Enhancement of Memory and Cognitive Abilities in the Context of Neurosciences.
Ktenas, S
Advances in experimental medicine and biology. 2020;:43-47
Abstract
The purpose of this paper is to present a brief on the evaluation of factors which contribute to cognitive ability enhancement under the spectrum of neuroscience, through the bibliographical research of scientific literature. The human brain has many possibilities, but it remains a largely uncharted area, which we just begin to understand in detail. One of its potentials, as concluded by the research, is its ability to adapt and improve its functioning by itself. Based on this physiological function, we can improve our ability to learn and remember, but we currently have limited resources to do so. After studying and evaluating relevant studies, it seems that the combination of physical exercise and nutrition has a more positive effect on molecular systems associated with synaptic plasticity, than more sophisticated methods, such as pharmaceutical drugs. Brain training using computer applications is also an area under heavy research but with mixed results at the moment. While brain training with scientific techniques can improve performance in specific areas, appropriate physical exercises, as well as proper nutrition, have additional benefits for the body. Supplementary studies will be useful in order to further specify the benefits and the ways of using both exercise and nutrition to design therapeutic interventions.
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A systematic review of research investigating the physiological and psychological effects of combining Ginkgo biloba and Panax ginseng into a single treatment in humans: Implications for research design and analysis.
Reay, JL, van Schaik, P, Wilson, CJ
Brain and behavior. 2019;(3):e01217
Abstract
BACKGROUND AND PURPOSE The traditional herbal supplements Panax ginseng and Ginkgo biloba are self-medicated by members of the general public and prescribed by healthcare professionals in some EU countries for numerous health complaints. Clinical evidence is mixed and mechanisms of action are not fully understood. There is clinical interest into the synergistic effects of combining both herbs. METHODS We systematically review the literature investigating the effects of combination treatments on physiological and psychological outcomes in humans. We identified all studies meeting inclusion criteria: (a) written in English; (b) peer-reviewed; (c) conducted in humans; (d) including either a proprietary Panax ginseng/Ginkgo biloba treatment or a study preparation containing both; (e) placebo-controlled; (f) utilizing standardized extracts. We critically discuss each trial; calculate standardized effect sizes where possible and provide recommendations for research design and analysis. RESULTS Eight studies were identified and all investigated a proprietary combination treatment, Gincosan® . Studies are of high quality and robust; however, practice effects, choice of statistical model, and reliance upon null-hypothesis significance testing hinder generalized estimates of effect. The most consistent results are benefits to aspects of the circulatory/cardiovascular system in patient populations and "secondary memory" performance in patient and healthy populations. Two studies demonstrate synergy in healthy populations following a single dose; however, synergy in patient populations and following repeated dosing has not yet been directly tested. CONCLUSIONS A Panax ginseng and Ginkgo biloba combination treatment can improve aspects of physiological and cognitive function in humans; however, evidence for synergy requires further investigation and future research should directly investigate synergy following repeated dosing.
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Can Slow-Wave Sleep Enhancement Improve Memory? A Review of Current Approaches and Cognitive Outcomes.
Zhang, Y, Gruber, R
The Yale journal of biology and medicine. 2019;(1):63-80
Abstract
Slow-wave sleep (SWS) is involved in the overnight consolidation of declarative memories. Recent efforts using auditory stimulation, slow-oscillatory transcranial direct current stimulation (so-tDCS), and pharmacological agents have targeted sleep slow-waves as a method for enhancing cognitive performance. However, no studies thus far have integrated current evidence to provide a preliminary review of the effects of SWS enhancement on memory and other cognitive outcomes. The objective of this review was to synthesize the results of recent experimental studies that have used auditory stimulation, electrical, and pharmacological methods to boost both SWS and cognitive performance. A systematic review was done to identify and consolidate all currently existing empirical studies in this area. We found that each stimulation method could enhance slow-wave power and/or SWS duration in human subjects. Closed-loop, in-phase auditory stimulation enhanced verbal declarative memory in healthy adults. Electrical stimulation using so-tDCS showed some efficacy in promoting verbal declarative memory, picture recognition memory, and location memory. Interleukin-6 and sodium oxybate enhanced declarative verbal memory, while tiagabine and sodium oxybate improved some non-memory measures of cognitive performance. There is some evidence that so-tDCS can also improve certain cognitive outcomes in clinical populations. Overall, future studies should recruit larger sample sizes drawn from more diverse populations, and determine clinical significance and effect sizes of each enhancement methodology.
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Higher CSF Tau Levels Are Related to Hippocampal Hyperactivity and Object Mnemonic Discrimination in Older Adults.
Berron, D, Cardenas-Blanco, A, Bittner, D, Metzger, CD, Spottke, A, Heneka, MT, Fliessbach, K, Schneider, A, Teipel, SJ, Wagner, M, et al
The Journal of neuroscience : the official journal of the Society for Neuroscience. 2019;(44):8788-8797
Abstract
Mnemonic discrimination, the ability to distinguish similar events in memory, relies on subregions in the human medial temporal lobes (MTLs). Tau pathology is frequently found within the MTL of older adults and therefore likely to affect mnemonic discrimination, even in healthy older individuals. The MTL subregions that are known to be affected early by tau pathology, the perirhinal-transentorhinal region (area 35) and the anterior-lateral entorhinal cortex (alEC), have recently been implicated in the mnemonic discrimination of objects rather than scenes. Here we used an object-scene mnemonic discrimination task in combination with fMRI recordings and analyzed the relationship between subregional MTL activity, memory performance, and levels of total and phosphorylated tau as well as Aβ42/40 ratio in CSF. We show that activity in alEC was associated with mnemonic discrimination of similar objects but not scenes in male and female cognitively unimpaired older adults. Importantly, CSF tau levels were associated with increased fMRI activity in the hippocampus, and both increased hippocampal activity as well as tau levels were associated with mnemonic discrimination of objects, but again not scenes. This suggests that dysfunction of the alEC-hippocampus object mnemonic discrimination network might be a marker for tau-related cognitive decline.SIGNIFICANCE STATEMENT Subregions in the human medial temporal lobe are critically involved in episodic memory and, at the same time, affected by tau pathology. Impaired object mnemonic discrimination performance as well as aberrant activity within the entorhinal-hippocampal circuitry have been reported in earlier studies involving older individuals, but it has thus far remained elusive whether and how tau pathology is implicated in this specific impairment. Using task-related fMRI in combination with measures of tau pathology in CSF, we show that measures of tau pathology are associated with increased hippocampal activity and reduced mnemonic discrimination of similar objects but not scenes. This suggests that object mnemonic discrimination tasks could be promising markers for tau-related cognitive decline.