TORONTO, July 24, 2016 /PRNewswire-USNewswire/ -- Researchers from the Wisconsin Alzheimer's Disease Research Center and Wisconsin Alzheimer's Institute today presented new data that suggests that people whose work requires complex thinking and/or activities are better able to withstand the onset of Alzheimer's disease. Results reported at the 2016 Alzheimer's Association International Conference (AAIC) in Toronto suggest that working with people, rather than data or physical things, contributed the most to the protective effect.
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Four additional studies also presented at AAIC 2016 add to the current body of evidence that modifiable risk factors can help build resilience to age-related cognitive decline. According to these reports, formal education, complex work and newly-identified genes may increase resilience to cognitive decline and dementia, even in people at high risk for the disease because of unhealthful diet or blood vessel problems in the brain. Additionally, resilience factors may vary between men and women at high genetic risk of Alzheimer's. Finally, a scientifically tailored cognitive training program led to a reduction in risk of developing cognitive decline or dementia over the 10-year course of a research study.
"These new data add to a growing body of research that suggests more stimulating lifestyles, including more complex work environments with other people, are associated with better cognitive outcomes in later life," said Maria C. Carrillo, PhD, Alzheimer's Association chief science officer.
"As each new study emerges, we further understand just how powerful cognitive reserve can be in protecting the brain from disease. As we've heard at AAIC this year, formal education and complex occupation could potentially do more than just slow cognitive decline they may actually help compensate for the cognitive damage done by bad diet and small vessel disease in the brain. In metaphorical terms, we can see how cognitive reserve is taking on super power status," Carrillo said. "It is becoming increasingly clear that in addition to searching for pharmacological treatments, we need to address lifestyle factors to better treat and ultimately prevent Alzheimer's and other dementias."
Note: "Cognitive reserve" describes the ability of the brain to withstand damage and maintain function. Resilience is generally evaluated behaviorally, while damage is evaluated through microscopic examination of cells and tissue. Childhood cognition, educational attainment, and adult occupation all contribute to cognitive reserve.
Cognitive Reserve May Moderate the Adverse Effects of Poor Diet on Cognition
The role of nutrition as a determinant of successful aging is a growing area of scientific exploration. Although the quality of one's diet and indicators of cognitive reserve have been associated with cognitive function in previous studies, there is little understanding of how the combination of these factors may influence cognitive function. In light of that, this study sought to understand whether indicators of cognitive reserve protected cognitive function against the impact of poor diet.
As reported at AAIC 2016, Matthew Parrott, PhD, of Baycrest Health Sciences, Toronto, Ontario, and colleagues measured adherence to a traditional "Western" dietary pattern (characterized by consumption of red and processed meats, white bread, potatoes, pre-packaged foods and sweets) in 351 independently living older adults. Alongside each participant's educational attainment, occupational complexity and social engagement, responses to a questionnaire on food consumption were analyzed and considered.
Over a three-year period, the researchers found that a "Western" diet is associated with more cognitive decline in older adults. However, individuals in the study eating a "Western" diet who also had a mentally stimulating lifestyle were protected from cognitive decline.
"Our results show the role higher educational attainment, mentally stimulating work and social engagement can play in protecting your brain from cognitive decline, counteracting some negative effects of an unhealthy diet," said Parrott. "This adds to the growing body of evidence showing how various lifestyle factors may combine to increase or protect against vulnerability to Alzheimer's disease."
Occupational Complexity, Cognitive Reserve, and White Matter Hyperintensities
It is well-established that white matter hyperintensities (WMHs) white spots that appear on brain scans and indicate cerebrovascular disease are commonly associated with Alzheimer's and may confer increased risk for cognitive decline.
Elizabeth Boots, research specialist, and colleagues at the Wisconsin Alzheimer's Disease Research Center and Wisconsin Alzheimer's Institute, evaluated WMHs in brain scans of 284 late-middle-aged healthy individuals at risk for Alzheimer's and then compared that data with the participants' cognitive function and the types of work they do. They explored three different kinds of complex work situations work with data, people and things to determine which are most effective at building cognitive reserve in people at risk for Alzheimer's.
The scientists, led by Ozioma Okonkwo, PhD, found that people with increased white matter injury who worked primarily with other people, rather than things or data, were able to tolerate brain damage indicated by WMHs better than their peers, and better maintain cognitive function.
"These findings indicate that participants with higher occupational complexity are able to withstand pathology associated with Alzheimer's and cerebrovascular disease and perform at a similar cognitive level as their peers. This association is primarily driven by work with people, rather than data or things," said Boots. "These analyses underscore the importance of social engagement in the work setting for building resilience to Alzheimer's disease."
Memory Resilience in Carriers of Alzheimer's Genetic Risk Varies in Women and Men
At AAIC 2016, Kirstie McDermott and colleagues from the University of Alberta, Edmonton, reported results from the Victoria Longitudinal Study, a long-term, large-scale, and multi-faceted investigation of human aging in western Canada. They looked at how memory resilience varies in men and women who are genetically susceptible to Alzheimer's disease.
The researchers investigated whether memory resilience to established genetic risk factors Apolipoprotein E (APOE) 4 and Clusterin (CLU) C alleles is predicted by modifiable factors that are sex-specific and genetically robust. They followed 642 non-demented older adult participants aged 53-95 for up to nine years and assessed their individual episodic memory performance and trajectory.
Researchers classified participants as resilient if they sustained higher levels of memory over time despite their Alzheimer's genetic risk. They examined predictors of resilience from four Alzheimer's risk domains: (1) demographic (e.g., education), (2) functional (e.g., pulse pressure), (3) health (e.g., mobility), and (4) lifestyle (e.g., cognitive activity). All analyses were stratified by sex.
They found that, over the course of the study, memory level and stability was maintained in 67.6 percent of female participants vs. 52.8 percent of male participants. Memory resilience was reliably predicted by younger age, higher educational level, greater muscle tone, and participation in challenging, everyday cognitive activity (such as playing bridge or doing taxes) across sex for both genetic variants.
However, selectively for women, memory resilience was also predicted by:
- Force of expiration (a measure of lung function).
- Pulse pressure (a measure of cardiovascular health).
- Mobility factors, such as walking speed.
- Social activities, such as volunteering and visiting family and friends.
For men, one additional functional factor less depressive symptoms was an important predictor.
"Our results broadly show that while some predictors of memory resilience to Alzheimer's genetic risk are the same for men and women, there are also a number of modifiable predictors unique to gender," McDermott said. "The more we know about both common and gender-specific factors that may protect against Alzheimer's risk, the better we can create tailored and appropriate interventions that promote functional maintenance and delay cognitive decline."
Linkage and Whole Genome Sequence Analysis of AD Resilience and Risk
At AAIC 2016, researchers from Brigham Young University, Utah State University, the University of Utah and the Washington University School of Medicine presented an approach that incorporated linkage analysis, whole genome sequencing (WGS), validation and biological follow-up to identify candidate protective gene variants for Alzheimer's. Gene variants that cause a loss of function, and those that protect from disease, may be drug targets.
The study examined people over the age 75 who have been able to remain cognitively normal even in the face of genetic risk for Alzheimer's disease. Using data from the Cache County Study on Memory Health and Aging and the Utah Population Database, this study identified families with several individuals that fit this definition and looked for shared genetic factors that may explain their resilience against Alzheimer's symptoms.
Findings detected suggestive linkage in two pedigrees. Significant association in the protective direction was found for variants rs142787485 (p=0.018, OR=0.58) and rs7653 (p=0.0049, OR=0.35). RAB10 overexpression resulted in a significant increase in the A42/A40 ratio (p=0.017) and RAB10 silencing resulted in a significant decrease in the A42/A40 ratio (p=0.048).
Note: Plasma levels of amyloid protein (A40 and A42), and the ratio between them, may be useful for identifying people at increased risk for mild cognitive impairment and Alzheimer's disease.
"These findings implicate RAB10 as a potential Alzheimer's resilience gene and suggest that reduced expression of RAB10 may result in resilience to Alzheimer's via reduced A42 throughout life," said Keoni Kauwe, PhD, of Brigham Young University. "RAB10 plays a role in regulating the production of amyloid beta, and RAB10 is less active in people resistant to Alzheimer's, therefore we see RAB10 as a potential therapeutic target for the prevention of Alzheimer's."
Brain Training May Protect Against Cognitive Impairment and Dementia: the ACTIVE Study
Cognitive training for the maintenance of brain health is a growing area of interest, particularly as it may offer a complement or alternative to drug therapies in delaying the onset of cognitive decline. At AAIC 2016, researchers presented 10-year results from the Advanced Cognitive Training for Independent and Vital Elderly (ACTIVE) study, which examined the impact of several types of brain training on cognitively healthy older adults (average age 73.6).
The study examined the effects of cognitive training programs on 2,785 participants at six trial sites in the U.S., who were divided into three intervention groups classroom-based memory strategies, classroom-based reasoning strategies, and computerized speed-of-processing training and a control group. The participants had 10 60-minute training sessions conducted over five weeks; some participants received "booster" sessions (an additional four sessions about one year after the original training, and four more sessions about three years after the original training). The researchers measured cognitive and functional changes immediately following the training sessions and at one, two, three, five and 10 years after the training.
After 10 years, only the speed-of-processing training group showed a statistically significant impact on cognition. The researchers detected a 33 percent reduction (p=0.012) in new cases of cognitive impairment or dementia in those assigned to the speed training group. Participants who did the booster sessions those who participated in 11 or more sessions of the computerized training showed a 48 percent reduction in news cases of cognitive decline or dementia. There was no significant difference in the other two training groups.
Participants in the speed-of-processing group were trained on a specific task designed to improve the speed and accuracy of visual attention. The user identifies an object (i.e., a truck) at the center of his/her gaze while at the same time identifying a target in the periphery (i.e., a car). As the user gets the answers correct, the speed of presentation becomes progressively briefer, while the targets become more similar. In the more difficult training tasks, the target in the periphery is obscured by distracting objects.
"We believe this is the first time a cognitive training intervention has been shown to protect against cognitive impairment or dementia in a large, randomized, controlled trial," said University of South Florida associate professor Jerri Edwards, PhD, first author of the AAIC 2016 scientific abstract. "Next, we'd like to get a better grasp on what exactly is the right amount of cognitive training to get the optimal benefits."
"The Alzheimer's Association believes there is sufficiently strong evidence to conclude that lifelong learning and certain types of cognitive training may reduce the risk of cognitive decline," Carrillo said. "These new 10-year findings are evidence that it may hold true for dementia as well as cognitive decline."
Baumgart, et al. Summary of the evidence on modifiable risk factors for cognitive decline and dementia: A population-based perspective. Alzheimer's & Dementia, Volume 11, Issue 6, June 2015, Pages 718726.
About Alzheimer's Association International Conference (AAIC)
The Alzheimer's Association International Conference (AAIC) is the world's largest gathering of researchers from around the world focused on Alzheimer's and other dementias. As a part of the Alzheimer's Association's research program, AAIC serves as a catalyst for generating new knowledge about dementia and fostering a vital, collegial research community.
AAIC 2016 home page: www.alz.org/aaic/
AAIC 2016 newsroom: www.alz.org/aaic/press.asp
About the Alzheimer's Association
The Alzheimer's Association is the leading voluntary health organization in Alzheimer's care, support and research. Our mission is to eliminate Alzheimer's disease through the advancement of research, to provide and enhance care and support for all affected, and to reduce the risk of dementia through the promotion of brain health. Our vision is a world without Alzheimer's. Visit alz.org or call 800.272.3900.
- Matthew Parrott, PhD, et al. Indicators of Cognitive Reserve Moderate the Adverse Relationship Between Poor Diet Quality and Cognitive Decline in Independent Older Adults: The Nuage Study. (Funders: Canadian Consortium on Neurodegeneration in Aging; Canadian Institutes of Health Research; Fonds de recherche de Québec-Santé)
- Elizabeth Boots, BS, and Ozioma Okonkwo, PhD, et al. Occupational Complexity, Cognitive Reserve, and White Matter Hyperintensities: Findings from the Wisconsin Registry for Alzheimer's Prevention. (Funders: National Institutes of Health; Alzheimer's Association)
- Kirstie McDermott, BSc, et al. Memory Resilience in Carriers of Alzheimer's Genetic Risk: Predictors Vary for Female and Male Older Adults. (Funders: National Institutes of Health; Canadian Consortium on Neurodegeneration in Aging (CNNA))
- Keoni Kauwe, PhD, et al. Linkage and Whole Genome Sequence Analysis of AD Resilience and Risk. (Funders: National Institutes of Health; Brigham Young University; Donors Cure Foundation - Charleston Conference on Alzheimer's Disease)
- Jerri Edwards, PhD, et al. The ACTIVE Study: What We Have Learned and What Is Next? (Funders: National Institute of Nursing Research; National Institute on Aging; Indiana Alzheimer Disease Center; Cognitive and Aerobic Resilience for the Brain Trial)
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SOURCE Alzheimer's Association