0
selected
-
1.
Alzheimer's Disease: Physical Activities as an Effective Intervention Tool - A Mini-Review.
Klimova, B, Maresova, P, Kuca, K
Current Alzheimer research. 2019;(2):166-171
Abstract
BACKGROUND There are a few risk factors which definitely have an impact on the development of Alzheimer's disease (AD). Those include genetics, gender, age, diabetes, head injuries, and lifestyle. Physical activity together with a healthy diet is part of people's lifestyle. At present, there exist several research studies showing that the physical activities can be a good intervention tool in the delay of cognitive decline in AD. OBJECTIVE The aim of this study is to discuss a relationship between the physical activities and the delay and/or maintenance of cognitive decline in AD and the types of physical activities which are especially suitable for this delay. METHODS The method of this review study consists of a method of literature review analysing the data contained in the world's prestigious scientific databases: PubMed, Springer, Web of Science and Scopus in the period of 2010 - 2015. In addition, a method of comparison of different research studies discussing various aspects and factors of the correlation of physical activities and AD is used. RESULTS The findings of this review confirm that in most cases, physical activities have a positive effect on the improvement of cognitive decline in AD. CONCLUSION Although physical activities seem to be beneficial for people with AD, more convincing results, particularly in the area of specific types of exercises and their impact on slowing down the cognitive decline, respectively AD, are needed.
-
2.
Homocysteine: A modifiable culprit of cognitive impairment for us to conquer?
Ji, Y, Lyu, P, Jin, W, Li, X, Li, X, Dong, Y
Journal of the neurological sciences. 2019;:128-136
Abstract
BACKGROUND Cognitive impairment, including mild cognitive impairment and its progressive deterioration to dementia, results in great hazards to the patient and the surrounding society. While some of the risk factors are unmodifiable, such as age, lower educational attainment, and genetic factors, another proposed one-homocysteine, an amino acid produced in the methylation cycle of protein metabolism is modifiable by cheap and easily accessible B-vitamins treatments in medical practice. OBJECTIVE AND METHODS To investigate the relationship between homocysteine and cognitive impairment, elucidate the underlying pathophysiological mechanisms and exploit any potential therapeutic values of homocysteine-lowering treatments in prevention and/or treatment in cognitive decline, we searched on the PUBMED databases surrounding around the physiological homocysteine metabolism, detrimental effects of abnormal homocysteine concentrations on the brain, and review observational and interventional experiments to date estimating the relationship between homocysteine and cognitive impairment with relatively powerful evidence. RESULTS Intrinsic and environmental factors help maintain the normal homocysteine concentrations, and pathological homocysteine concentrations exert adverse effects mediated by cellular and vascular pathways. Although many observational studies have suggested a causal link between hyperhomocysteinemia and cognitive impairment, the majority of randomized controlled trials failed to observe marked benefits on cognition by homocysteine-lowering treatments using B-vitamins, partly arising from some design limitations including: not identifying individuals at earlier stages of cognitive impairment who are most likely to benefit, overlooking any latent safety hazards of multiple vitamin supplementation, lack of sensitive and domain-specific cognitive tests, and interference of other underappreciated factors. CONCLUSION More studies are required to better explain the related pathophysiological mechanisms, improve experimental methods, and investigate the preventive or/and therapeutic effects of homocysteine-lowering strategies on cognitive impairment.
-
3.
Tailoring Assessments and Prescription in Cardiac Rehabilitation for Older Adults: The Relevance of Geriatric Domains.
Fiatarone Singh, MA
Clinics in geriatric medicine. 2019;(4):423-443
Abstract
Older adults have distinctive health challenges that are relevant to the prevention and treatment of cardiovascular diseases and are potentially modifiable by cardiac rehabilitation. Cardiac rehabilitation in older adults provides opportunity to assess sarcopenia, obesity, osteoporosis, frailty, falls risk, arthritis, cognition, special senses, self-efficacy, depression, social support, polypharmacy, and nutritional adequacy. Therefore, broadening standard assessments to include these domains can help detect modifiable vulnerabilities and inform therapeutic priorities.
-
4.
Dietary interventions in mild cognitive impairment and dementia.
Vlachos, GS, Scarmeas, N
Dialogues in clinical neuroscience. 2019;(1):69-82
Abstract
Dietary intervention is an enticing approach in the fight against cognitive impairment. Nutritional supplements and dietetic counseling are relatively easy and benign interventions, but research has not yet yielded irrefutable evidence as to their clinical utility. Heterogeneity in the results of available clinical studies, as well as methodological and practical issues, does not allow replication and generalization of findings. The paper at hand reviews only randomized clinical trials of single nutrients, multi-nutrient formulations and dietary counseling in mild cognitive impairment and dementia of the Alzheimer's type focusing on both cognitive and functional outcomes. Thus far, folate, vitamin E, Ω-3 fatty acids, and certain multi-nutrient formulations have shown some preliminary promising results; larger, well-designed trials are needed to confirm these findings before nutritional elements can be incorporated in recommended clinical guidelines.
-
5.
Copper in Glucose Intolerance, Cognitive Decline, and Alzheimer Disease.
Squitti, R, Mendez, A, Ricordi, C, Siotto, M, Goldberg, R
Alzheimer disease and associated disorders. 2019;(1):77-85
Abstract
Trace metal dyshomeostasis has been linked to loss of cognitive performance. In particular, a disturbance in the regulation of copper (Cu), characterized by an increase in circulating Cu not bound to ceruloplasmin (non-Cp Cu), is thought to play a role in the development of Alzheimer disease (AD) and other neurodegenerative diseases in the aging population. Non-Cp Cu is redox active and its toxicity is thought to result from its ability to accelerate oxidative stress and advanced glycation endproduct (AGE) formation, leading to extracellular matrix damage in tissues including the brain. Cognitive loss is increasingly recognized to be a feature of type 2 diabetes and the increased AGE formation characteristic of diabetes may play a role in the development of this complication. There also is evidence for copper dyshomeostasis in type 2 diabetes, and therefore this could contribute to the cognitive deterioration associated with this disease. Demonstrating that disturbances of copper homeostasis correlate with an increased rate of cognitive decline in type 2 diabetes patients, and that they correlate with an increased rate of conversion from prediabetes to diabetes would bring almost immediate benefits in the clinical community in terms of treatment efficacy, AD prevention, and cost savings.
-
6.
Examining the relationship between nutrition and cerebral structural integrity in older adults without dementia.
Reddan, JM, Macpherson, H, White, DJ, Scholey, A, Pipingas, A
Nutrition research reviews. 2019;(1):79-98
Abstract
The proportion of adults aged 60 years and over is expected to increase over the coming decades. This ageing of the population represents an important health issue, given that marked reductions to cerebral macro- and microstructural integrity are apparent with increasing age. Reduced cerebral structural integrity in older adults appears to predict poorer cognitive performance, even in the absence of clinical disorders such as dementia. As such, it is becoming increasingly important to identify those factors predicting cerebral structural integrity, especially factors that are modifiable. One such factor is nutritional intake. While the literature is limited, data from available cross-sectional studies indicate that increased intake of nutrients such as B vitamins (for example, B6, B12 and folate), choline, n-3 fatty acids and vitamin D, or increased adherence to prudent whole diets (for example, the Mediterranean diet) predicts greater cerebral structural integrity in older adults. There is even greater scarcity of randomised clinical trials investigating the effects of nutritional supplementation on cerebral structure, though it appears that supplementation with B vitamins (B6, B12 and folic acid) or n-3 fatty acids (DHA or EPA) may be beneficial. The current review presents an overview of available research examining the relationship between key nutrients or adherence to select diets and cerebral structural integrity in dementia-free older adults.
-
7.
A contemporary review of obstructive sleep apnea.
Ralls, F, Cutchen, L
Current opinion in pulmonary medicine. 2019;(6):578-593
Abstract
PURPOSE OF REVIEW This review provides a contemporary review of sleep apnea with emphasis on definitions, epidemiology, and consequences. RECENT FINDINGS Amyloid β-42 is one of the main peptides forming amyloid plaques in the brains of Alzheimer patients. Poorer sleep quality and shorter sleep duration have been associated with a higher amyloid burden. Decreased sleep time in the elderly is a precipitating factor in amyloid retention. Studies have shown that the dysregulation of the homeostatic balance of the major inhibitory and excitatory amino acid neurotransmitter systems of gamma-aminobutyric acid (GABA) and glutamate play a role in sleep disordered breathing (SDB). SUMMARY Untreated sleep disordered breathing (obstructive sleep apnea and/or central sleep apnea) are an important cause of medical mortality and morbidity. OSA is characterized by recurrent episodes of partial or complete collapse of the upper airway during sleep followed by hypoxia and sympathetic activation. Apneic events are terminated by arousal, followed by increases in pulse and blood pressure, and re-oxygenation and the release of inflammatory factors. Individuals with OSA have an increased risk of developing atrial fibrillation. Hypoxemia and poor sleep quality because of OSA increase the risk of cognitive decline in the elderly.
-
8.
Potential Cognitive Benefits From Playing Music Among Cognitively Intact Older Adults: A Scoping Review.
Schneider, CE, Hunter, EG, Bardach, SH
Journal of applied gerontology : the official journal of the Southern Gerontological Society. 2019;(12):1763-1783
Abstract
The aging population is growing rapidly, raising rates of cognitive impairment, which makes strategies for protection against cognitive impairment increasingly important. There is little evidence indicating highly effective interventions preventing or slowing onset of cognitive impairment. Music playing influences brain and cognitive function, activating multiple brain areas and using cognitive and motor functions as well as multiple sensory systems, simultaneously. The purpose of this study was to review the current evidence related to playing a musical instrument being a potentially protective mechanism against cognitive decline among older adults. Using scoping review procedures, four databases were searched. Paired reviewers analyzed articles for content, design, and bias. Eleven studies met study criteria and were included in the review. All studies showed that music playing was correlated with positive outcomes on cognitive ability; more high-quality research is needed in this area to understand mechanisms behind potential cognitive protection of music.
-
9.
Dietary Protein and Amino Acid Intake: Links to the Maintenance of Cognitive Health.
Glenn, JM, Madero, EN, Bott, NT
Nutrients. 2019;(6)
Abstract
With the rapid growth in the aging population, there has been a subsequent increase in the rates of Alzheimer's disease and related dementias (ADRD). To combat these increases in ADRD, scientists and clinicians have begun to place an increased emphasis on preventative methods to ameliorate disease rates, with a primary focus area on dietary intake. Protein/amino acid intake is a burgeoning area of research as it relates to the prevention of ADRD, and consumption is directly related to a number of disease-related risk factors as such low-muscle mass, sleep, stress, depression, and anxiety. As a result, the role that protein/amino acid intake plays in affecting modifiable risk factors for cognitive decline has provided a robust area for scientific exploration; however, this research is still speculative and specific mechanisms have to be proven. The purpose of this review is to describe the current understanding of protein and amino acids and the preventative roles they play with regard to ADRD, while providing future recommendations for this body of research. Additionally, we will discuss the current recommendations for protein intake and how much protein older adults should consume in order to properly manage their long-term risk for cognitive decline.
-
10.
The specific impact of uremic toxins upon cognitive domains: a review.
Franco, ÁO, Starosta, RT, Roriz-Cruz, M
Jornal brasileiro de nefrologia. 2019;(1):103-111
Abstract
One of the mechanisms proposed for chronic kidney disease (CKD)-related cognitive impairment is the accumulation of uremic toxins due to the deterioration of the renal clearance function. Cognition can be categorized into five major domains according to its information processing functions: memory, attention, language, visual-spatial, and executive. We performed a review using the terms 'uric acid', 'indoxyl sulfate', 'p-cresyl sulfate', 'homocysteine', 'interleukins' and 'parathyroid hormone'. These are the compounds that were found to be strongly associated with cognitive impairment in CKD in the literature. The 26 selected articles point towards an association between higher levels of uric acid, homocysteine, and interleukin 6 with lower cognitive performance in executive, attentional, and memory domains. We also reviewed the hemodialysis effects on cognition. Hemodialysis seems to contribute to an amelioration of CKD-related encephalopathic dysfunction, although this improvement occurs more in some cognitive domains than in others.