July 6, 2021

Science Daily/Massachusetts General Hospital

'Superagers' who performed a challenging memory task in an MRI scanner were able to learn and recall new information as well as 25-year-old participants. Neurons in the visual cortex of brains of superaging older adults retain their selective and efficient ability to process visual stimuli and create a distinct memory of the images. In the future, interventions to train specific areas of the brain to be more efficient may enable normal aging adults to enhance memory and other cognitive functions.

As we age, our brains typically undergo a slow process of atrophy, causing less robust communication between various brain regions, which leads to declining memory and other cognitive functions. But a rare group of older individuals called "superagers" have been shown to learn and recall novel information as well as a 25-year-old. Investigators from Massachusetts General Hospital (MGH) have now identified the brain activity that underlies superagers' superior memory. "This is the first time we have images of the function of superagers' brains as they actively learn and remember new information," says Alexandra Touroutoglou, PhD, director of Imaging Operations at MGH's Frontotemporal Disorders Unit and senior author of the paper published in Cerebral Cortex.

In 2016, Touroutoglou and her fellow researchers identified a group of adults older than 65 with remarkable performance on memory tests. The superagers are participants in an ongoing longitudinal study of aging at MGH led by Bradford Dickerson, MD, director of the Frontotemporal Disorders Unit at MGH, and Lisa Feldman Barrett, PhD, a research scientist in Psychiatry at MGH. "Using MRI, we found that the structure of superagers' brains and the connectivity of their neural networks more closely resemble the brains of young adults; superagers had avoided the brain atrophy typically seen in older adults," says Touroutoglou.

In the new study, the investigators gave 40 adults with a mean age of 67 a very challenging memory test while their brains were imaged using functional magnetic resonance imaging (fMRI), which, unlike typical MRI, shows the activity of different brain areas during tasks. Forty-one young adults (mean age of 25) also took the same memory test while their brains were imaged. The participants first viewed 80 pictures of faces or scenes that were each paired with an adjective, such as a cityscape paired with the word "industrial" or a male face paired with the word "average." Their first task was to determine whether the word matched the image, a process called encoding. After 10 minutes, participants were presented with the 80 image-word pairs they had just learned, an additional 40 pairs of new words and images, and 40 rearranged pairs consisting of words and images they had previously seen. Their second task was to recall whether they had previously seen each specific word-picture pair, or whether they were looking at a new or rearranged pair.

While the participants were in the scanner, the researchers paid close attention to the visual cortex, which is the area of the brain that processes what you see and is particularly sensitive to aging. "In the visual cortex, there are populations of neurons that are selectively involved in processing different categories of images, such as faces, houses or scenes," says lead author Yuta Katsumi, PhD, a postdoctoral fellow in Psychiatry at MGH. "This selective function of each group of neurons makes them more efficient at processing what you see and creating a distinct memory of those images, which can then easily be retrieved."

During aging, this selectivity, called neural differentiation, diminishes and the group of neurons that once responded primarily to faces now activates for other images. The brain now has difficulty creating unique neural activation patterns for different types of images, which means it is making less distinctive mental representations of what the person is seeing. That's one reason older individuals have trouble remembering when they may have seen a television show, read an article, or eaten a specific meal.

But in the fMRI study, the superagers' memory performance was indistinguishable from the 25-year-olds', and their brains' visual cortex maintained youthful activity patterns. "The superagers had maintained the same high level of neural differentiation, or selectivity, as a young adult," says Katsumi. "Their brains enabled them to create distinct representations of the different categories of visual information so that they could accurately remember the image-word pairs."

An important question that researchers still must answer is whether "superagers' brains were always more efficient than their peers, or whether, over time, they developed mechanisms to compensate for the decline of the aging brain," says Touroutoglou.

Previous studies have shown that training can increase the selectivity of brain regions, which may be a potential intervention to delay or prevent the decline in neural differentiation in normal aging adults and make their brains more like those of superagers. Currently the researchers are conducting a clinical trial to evaluate whether noninvasive electromagnetic stimulation, which delivers an electrical current to targeted areas of the brain, can improve memory in older adults. The researchers also plan to study different brain regions to further understand how superagers learn and remember, and they will examine lifestyle and other factors that might contribute to superagers' amazing memory.

Major funding for this study was provided by the National Institute on Aging.

Touroutoglou is an assistant professor of Neurology at Harvard Medical School (HMS). Dickerson is professor of Neurology at HMS. Barrett is distinguished professor of Psychology at Northeastern University. The other co-author is Joseph Andreano, PhD, an investigator in the Department of Psychiatry at MGH and an instructor of Psychiatry at HMS.

https://www.sciencedaily.com/releases/2021/07/210706133136.htm

July 29, 2021

Science Daily/University of Texas at Austin

The old saying, "Home is where the heart is," has some new science to back it up. A study has found photos of a person's living space can accurately point at personality traits and the mood of the people who live there, especially as a person gets older.

For the study, scientists at The University of Texas at Austin studied 286 people over the age of 65. They took photographs of the rooms where the subjects spent the most time (typically the living room) and found that certain characteristics of a person's personality were reflected in core elements of room décor. Applying the findings could help lead to happier lives, including for older adults with frailty or cognitive impairment that has led them to be transferred from their homes to long-term care facilities.

"People who have a match between personality and living space report better well-being, and they feel better about their life and have a better mood," said Karen Fingerman, professor of human development and family sciences at The University of Texas at Austin and director of the Texas Aging and Longevity Center. "Home is where we can express ourselves."

The researchers analyzed participants' personalities and took photos of the room where each person spent the most time. As part of a first-of-its-kind study, independent examiners looked at the photos and rated characteristics of the room, such as brightness, cleanliness and newness. The results were published online in the journal The Gerontologist earlier this month.

Extraversion was expressed in room décor with newness of items in the room and cheerfulness of décor. This may come from a desire to make the room appealing to visiting friends and family, researchers said.

Conscientiousness was associated with newness and comfort. Because orderliness and organization are key components of that personality trait, that may explain the association.

Agreeableness, openness and neuroticism were not associated with room décor for everyone, scientists found. But openness was evident in the décor for older adults who live alone, suggesting that people who live with others may not have as much latitude to express their personalities in their room décor.

Importantly, when a living space matches the personality and preferences of the person who lives there, older adults reported enhanced well-being.

The goal for many older adults is to grow older in their own homes, but as they encountered functional limitations, such as not being able to walk or climb stairs, their homes became out-of-date, uncomfortable, dim and cluttered. Scientists said this may be because those adults have less energy to maintain their spaces.

Surprisingly, for adults with functional limitations, clutter was associated with fewer symptoms of depression.

"Clutter may represent an effort to exert control over the environment," Fingerman said. "They may also wish to keep items close at hand to compensate for mobility issues."

Researchers said this study suggests that older adults with functional limitations may benefit from a little help around the house, but cleaning and maintenance should be done in collaboration. What looks like clutter to one person may be an arrangement that makes an older adult more comfortable.

Long-term care facilities that allow for greater latitude in room décor to improve the mood of residents also may see benefits.

"There is no one ideal way to create a living space," Fingerman said. "It has to match the person."

https://www.sciencedaily.com/releases/2021/07/210729143431.htm

New study suggests importance of maintaining healthy lifestyle even after age 80

June 1, 2021

Science Daily/PLOS

A new analysis of adults aged 80 years and older shows that a healthier lifestyle is associated with a lower risk of cognitive impairment, and that this link does not depend on whether a person carries a particular form of the gene APOE. Xurui Jin of Duke Kunshan University in Jiangsu, China, and colleagues present these findings in the open-access journal PLOS Medicine.

The APOE gene comes in several different forms, and people with a form known as APOE ε4 have an increased risk of cognitive impairment and Alzheimer's disease. Previous research has also linked cognitive function to lifestyle factors, such as smoking, exercise, and diet. However, it has been unclear whether the benefits of a healthy lifestyle are affected by APOE ε4, particularly for adults over 80 years of age.

To clarify the relationship between APOE ε4 and lifestyle, Jin and colleagues examined data from 6,160 adults aged 80 or older who had participated in a larger, ongoing study known as the Chinese Longitudinal Healthy Longevity Survey. The researchers statistically analyzed the data to investigate links between APOE ε4, lifestyle, and cognition. They also accounted for sociodemographics and other factors that could impact cognition.

The analysis confirmed that participants with healthy lifestyles or intermediately healthy lifestyles were significantly less likely to have cognitive impairment than those with an unhealthy lifestyle, by 55 and 28 percent, respectively. In addition, participants with APOE ε4 were 17 percent more likely to have cognitive impairment than those with other forms of APOE.

A previous study suggested that in individuals at low and intermediate genetic risk, favorable lifestyle profiles are related to a lower risk of dementia compared to unfavorable profiles. But these protective associations were not found in those at high genetic risk. However, the investigation showed the link between lifestyle and cognitive impairment did not vary significantly based on APOE ε4 status which represented the genetic dementia risk. This suggests that maintaining a healthier lifestyle could be important for maintaining cognitive function in adults over 80 years of age, regardless of genetic risk.

This cross-sectional study emphasized the importance of a healthy lifestyle on cognitive health. While further research will be needed to validate these findings among different population, this study could help inform efforts to boost cognitive function for the oldest of adults.

In the next step, the team will explore this association using the AD polygenetic risk score (AD-PRS) and explore the interactive relationship between AD-PRS and lifestyle on cognition with the longitudinal data.

https://www.sciencedaily.com/releases/2021/06/210601152005.htm

May 11, 2021

Science Daily/IOS Press

It is projected that up to 152 million people worldwide will be living with Alzheimer's disease (AD) by 2050. To date there are no drugs that have a substantial positive impact on either the prevention or reversal of cognitive decline. A growing body of evidence finds that targeting lifestyle and vascular risk factors have a beneficial effect on overall cognitive performance. A new review in the Journal of Alzheimer's Disease, published by IOS Press, examines research that finds spiritual fitness, a new concept in medicine that centers on psychological and spiritual wellbeing, and Kirtan Kriya, a simple 12-minute meditative practice, may reduce multiple risk factors for AD.

"The key point of this review is that making a commitment to a brain longevity lifestyle, including spiritual fitness, is a critically important way for aging Alzheimer's disease free," explain authors Dharma Singh Khalsa, MD, Alzheimer's Research and Prevention Foundation, Tucson, AZ, USA, and Andrew B. Newberg, MD, Department of Integrative Medicine and Nutritional Sciences, Department of Radiology, Marcus Institute of Integrative Health, Thomas Jefferson University, Philadelphia, PA, USA. "We hope this article will inspire scientists, clinicians, and patients to embrace this new concept of spiritual fitness and make it a part of every multidomain program for the prevention of cognitive disability."

Research reveals that religious and spiritual involvement can preserve cognitive function as we age. The authors observe that today, spirituality is often experienced outside the context of an organized religion and may be part of every religion or separate to it. Spiritual fitness is a new dimension in AD prevention, interweaving basic, psychological and spiritual wellbeing. The authors discuss the research on how these factors affect brain function and cognition. For example, psychological wellbeing may reduce inflammation, cardiovascular disease, and disability. Significantly, individuals who have a high score on a "purpose in life" (PIL) measure, a component of psychological wellbeing, were 2.4 times more likely to remain free of AD than individuals with low PIL. In another study, participants who reported higher levels of PIL exhibited better cognitive function, and further, PIL protected those with already existing pathological conditions, thus slowing their decline.

Stress and stress management are under-discussed topics in AD prevention, yet the authors point out that there is ample evidence that physical, psychological, and emotional effects of stress may elevate AD risk. Kirtan Kriya (KK) is a 12-minute singing meditation that involves four sounds, breathing, and repetitive finger movements. It has multiple documented effects on stress, such as improving sleep, decreasing depression, and increasing wellbeing. It has also been found to increase blood flow to areas of the brain involved in cognition and emotional regulation and increases grey matter volume and decreases ventricular size in long-term practitioners, which may slow brain aging. Research in healthy individuals, caregivers, and those with cognitive decline found that the practice improves cognition, slows memory loss, and improves mood.

The overall relationship between spiritual fitness and a person's complete physical and mental health is a topic of investigation in the emerging field of study called neurotheology. Early work has focused on the development of models regarding which brain areas are affected through spiritual practices such as meditation or prayer. Over the last 20 years, there has been an extensive growth in neuroimaging and other physiological studies evaluating the effect of meditation, spiritual practices, and mystical experiences. A neuroimaging study of KK found long term brain effects, during meditation and afterwards. Neurotheological studies can help understanding of how a practice such as KK can lead to more permanent effects in brain function that support spiritual fitness, according to Dr. Khalsa and Dr. Newberg.

"Mitigating the extensive negative biochemical effects of stress with meditation practices, in tandem with the creation of heightened levels of spiritual fitness, may help lower the risk of AD. Small shifts in one's daily routine can make all the difference in AD prevention," Dr. Khalsa and Dr. Newberg conclude. "We are optimistic this article will inspire future research on the topic of spiritual fitness and AD."

https://www.sciencedaily.com/releases/2021/05/210511123727.htm

May 6, 2021

Science Daily/American Psychological Association

People who feel younger have a greater sense of well-being, better cognitive functioning, less inflammation, lower risk of hospitalization and even live longer than their older-feeling peers. A study published by the American Psychological Association suggests one potential reason for the link between subjective age and health: Feeling younger could help buffer middle-aged and older adults against the damaging effects of stress.

In the study, published in Psychology and Aging, researchers from the German Centre of Gerontology analyzed three years of data from 5,039 participants in the German Ageing Survey, a longitudinal survey of residents of Germany age 40 and older. The survey included questions about the amount of perceived stress in peoples' lives and their functional health -- how much they were limited in daily activities such as walking, dressing and bathing. Participants also indicated their subjective age by answering the question, "How old do you feel?"

The researchers found, on average, participants who reported more stress in their lives experienced a steeper decline in functional health over three years, and that link between stress and functional health decline was stronger for chronologically older participants.

However, subjective age seemed to provide a protective buffer. Among people who felt younger than their chronological age, the link between stress and declines in functional health was weaker. That protective effect was strongest among the oldest participants.

"Generally, we know that functional health declines with advancing age, but we also know that these age-related functional health trajectories are remarkably varied. As a result, some individuals enter old age and very old age with quite good and intact health resources, whereas others experience a pronounced decline in functional health, which might even result in need for long-term care," said study lead author Markus Wettstein, PhD, who is now at University of Heidelberg. "Our findings support the role of stress as a risk factor for functional health decline, particularly among older individuals, as well as the health-supporting and stress-buffering role of a younger subjective age."

The results suggest that interventions that aim to help people feel younger could reduce the harm caused by stress and improve health among older adults, according to the researchers -- though further study is needed to help determine what kind of interventions would work best. For example, Wettstein said, messaging campaigns to counteract ageism and negative age stereotypes and to promote positive views on aging could help people feel younger. In addition, more general stress-reduction interventions and stress management training could prevent functional health loss among older adults, according to Wettstein.

Finally, more research is needed to figure out the ideal gap between subjective and chronological age, according to Wettstein, as previous research has suggested that it's helpful to feel younger up to a point but that benefits decrease as the gap between subjective and chronological age increases. "Feeling younger to some extent might be adaptive for functional health outcomes, whereas 'feeling too young' might be less adaptive or even maladaptive," he said.

https://www.sciencedaily.com/releases/2021/05/210506163628.htm

May 4, 2021

Science Daily/eLife

Researchers have found that people who live beyond 105 years tend to have a unique genetic background that makes their bodies more efficient at repairing DNA, according to a study published today in eLife.

This is the first time that people with 'extreme longevity' have had their genomes decoded in such detail, providing clues as to why they live so long and manage to avoid age-related diseases.

"Aging is a common risk factor for several chronic diseases and conditions," explains Paolo Garagnani, Associate Professor at the Department of Experimental, Diagnostic and Specialty Medicine, University of Bologna, Italy, and a first author of the study. "We chose to study the genetics of a group of people who lived beyond 105 years old and compare them with a group of younger adults from the same area in Italy, as people in this younger age group tend to avoid many age-related diseases and therefore represent the best example of healthy aging."

Garagnani and colleagues, in collaboration with several research groups in Italy and a research team led by Patrick Descombes at Nestlé Research in Lausanne, Switzerland, recruited 81 semi-supercentenarians (those aged 105 years or older) and supercentenarians (those aged 110 years or older) from across the Italian peninsula. They compared these with 36 healthy people matched from the same region who were an average age of 68 years old.

They took blood samples from all the participants and conducted whole-genome sequencing to look for differences in the genes between the older and younger group. They then cross-checked their new results with genetic data from another previously published study which analysed 333 Italian people aged over 100 years old and 358 people aged around 60 years old.

They identified five common genetic changes that were more frequent in the 105+/110+ age groups, between two genes called COA1 and STK17A. When they cross-checked this against the published data, they found the same variants in the people aged over 100. Data acquired from computational analyses predicted that this genetic variability likely modulates the expression of three different genes.

The most frequently seen genetic changes were linked to increased activity of the STK17A gene in some tissues. This gene is involved in three areas important to the health of cells: coordinating the cell's response to DNA damage, encouraging damaged cells to undergo programmed cell death and managing the amount of dangerous reactive oxygen species within a cell. These are important processes involved in the initiation and growth of many diseases such as cancer.

The most frequent genetic changes are also linked to reduced activity of the COA1 gene in some tissues. This gene is known to be important for the proper crosstalk between the cell nucleus and mitochondria -- the energy-production factories in our cells whose dysfunction is a key factor in aging.

Additionally, the same region of the genome is linked to an increased expression of BLVRA in some tissues -- a gene that is important to the health of cells due to its role in eliminating dangerous reactive oxygen species.

"Previous studies showed that DNA repair is one of the mechanisms allowing an extended lifespan across species," says Cristina Giuliani, Senior Assistant Professor at the Laboratory of Molecular Anthropology, Department of Biological, Geological and Environmental Sciences, University of Bologna, and a senior author of the study. "We showed that this is true also within humans, and data suggest that the natural diversity in people reaching the last decades of life are, in part, linked to genetic variability that gives semi-supercentenarians the peculiar capability of efficiently managing cellular damage during their life course."

The team also measured the number of naturally occurring mutations that people in each age group had accumulated throughout their life. They found that people aged 105+ or 110+ had a much lower burden of mutations in six out of seven genes tested. These individuals appeared to avoid the age-related increase in disruptive mutations, and this may have contributed in protecting them against diseases such as heart disease.

"This study constitutes the first whole-genome sequencing of extreme longevity at high coverage that allowed us to look at both inherited and naturally occurring genetic changes in older people," says Massimo Delledonne, Full Professor at the University of Verona and a first author of the study.

"Our results suggest that DNA repair mechanisms and a low burden of mutations in specific genes are two central mechanisms that have protected people who have reached extreme longevity from age-related diseases," concludes senior author Claudio Franceschi, Professor Emeritus of Immunology at the University of Bologna.

https://www.sciencedaily.com/releases/2021/05/210504112619.htm

Exhibit better cognitive performance at baseline and show slower decline in processing speed

May 4, 2021

Science Daily/Boston University School of Medicine

If you come from a family where people routinely live well into old age, you will likely have better cognitive function (the ability to clearly think, learn and remember) than peers from families where people die younger. Researchers affiliated with the Long Life Family Study (LLFS) recently broadened that finding in a paper published in Gerontology, suggesting that people who belong to long-lived families also show slower cognitive decline over time.

The Long Life Family Study has enrolled over 5,000 participants from almost 600 families and has been following them for the past 15 years. The study is unique in that it enrolls individuals belonging to families with clusters of long-lived relatives. Since 2006, the LLFS has recruited participants belonging to two groups: the long-lived siblings (also called the proband generation) and their children. Since they share lifestyle and environmental factors, the spouses of these two groups have also been enrolled in the LLFS as a referent group.

To assess cognitive performance, the researchers administered a series of assessments to the study participants meant to test different domains of thinking, such as attention, executive function and memory, over two visits approximately eight years apart. This allowed researchers to ask whether individuals from families with longevity have better baseline cognitive performance than their spouses do and whether their cognition declines more slowly than does that of their spouses.

To study this question, LLFS researchers used a model to determine the change in score on several neuropsychological tests from one visit to the next. "This model allows us to assess both the cross-sectional effect of familial longevity at baseline visit and the longitudinal effect over follow-up time," says co-lead author Mengtian Du, a doctoral student in biostatistics at Boston University School of Public Health.

They showed that individuals from long-lived families performed better than their spouses on two tests: a symbol coding test, which has participants match symbols to their corresponding numbers and provides insight into psychomotor processing speed, attention, and working memory, and a paragraph recall test, which asks participants to remember a short story and assesses episodic memory. The researchers from the LLFS also found that individuals in the younger generation (participants born after 1935) exhibited a slower rate of cognitive decline on the symbol coding test than did their spouses.

"This finding of a slower decline in processing speed is particularly remarkable because the younger generation is relatively young at an average age of 60 years and therefore these differences are unlikely to be due to neurodegenerative disease," explains corresponding author Stacy Andersen, PhD, assistant professor of medicine at Boston University School of Medicine. "Rather we are detecting differences in normal cognitive aging."

According to Andersen this suggests that people with familial longevity demonstrate resilience to cognitive aging. "By studying the LLFS families we can learn about the genetics, environmental factors, and lifestyle habits that are essential in optimizing cognitive health throughout the lifespan."

https://www.sciencedaily.com/releases/2021/05/210504112437.htm

March 31, 2021

Science Daily/American Heart Association

Following a routine of regular physical activity combined with a diet including fruits, vegetables and other healthy foods may be key to middle-aged adults achieving optimal cardiometabolic health later in life, according to new research using data from the Framingham Heart Study published today in the Journal of the American Heart Association, an open access journal of the American Heart Association.

Cardiometabolic health risk factors include the metabolic syndrome, a cluster of disorders such as excess fat around the waist, insulin resistance and high blood pressure. Presence of the metabolic syndrome may increase the risk of developing heart disease, stroke and Type 2 diabetes.

Researchers noted it has been unclear whether adherence to both the U.S. Department of Health and Human Services' 2018 Physical Activity Guidelines for Americans and their 2015-2020 Dietary Guidelines for Americans -- as opposed to only one of the two -- in midlife confers the most favorable cardiometabolic health outcomes later in life. The physical activity guidelines recommend that adults achieve at least 150 minutes of moderate or 75 minutes of vigorous physical activity per week, such as walking or swimming. The dietary guidelines, which were updated in January 2021, offer suggestions for healthy eating patterns, nutritional targets and dietary limits.

In an analysis of data from participants of the Framingham Heart Study, which began more than 70 years ago in Framingham, Massachusetts, investigators examined data from 2,379 adults ages 18 and older and their adherence to the two guidelines. They observed that meeting a combination of the two recommendations during midlife was associated with lower odds of metabolic syndrome and developing serious health conditions as participants aged in their senior years in 2016-2019 examinations.

"Health care professionals could use these findings to further promote and emphasize to their patients the benefits of a healthy diet and a regular exercise schedule to avoid the development of numerous chronic health conditions in the present and in later life," said corresponding author Vanessa Xanthakis, Ph.D., FAHA, assistant professor of medicine and biostatistics in the Section of Preventive Medicine and Epidemiology at Boston University School of Medicine in Boston. "The earlier people make these lifestyle changes, the more likely they will be to lower their risk of cardiovascular-associated diseases later in life."

Study participants were selected from the third generation of the Framingham Heart Study. Participants (average age 47, 54% women) were examined between 2008 and 2011. Researchers evaluated physical activity using a specialized device known as an omnidirectional accelerometer. The device, which tracks sedentary and physical activity, was worn on the participant's hip for eight days. Researchers also collected dietary information from food frequency questionnaires to measure the kinds and levels of food and nutrients consumed.

In this investigation, researchers observed that among all participants, 28% met recommendations of both the physical activity and dietary guidelines, while 47% achieved the recommendations in only one of the guidelines. Researchers also observed that:

• participants who followed the physical activity recommendations alone had 51% lower odds of metabolic syndrome;

• participants who adhered to the dietary guidelines alone had 33% lower odds; and

• participants who followed both guidelines had 65% lower odds of developing metabolic syndrome.

"It is noteworthy that we observed a dose-response association of adherence to diet and physical activity guidelines with risk of cardiometabolic disease later in life," Xanthakis said. "Participants who met the physical activity guidelines had progressively lower risk of cardiometabolic disease as they increased adherence to the dietary guidelines."

All study participants were white adults, therefore, the findings cannot be generalized to people in other racial or ethnic groups. Additional studies with a multiethnic participant sample are needed, researchers said.

https://www.sciencedaily.com/releases/2021/03/210331085852.htm

March 30, 2021

Science Daily/University of Exeter

Drinking beetroot juice promotes a mix of mouth bacteria associated with healthier blood vessels and brain function, according to a new study of people aged 70-80.

Beetroot -- and other foods including lettuce, spinach and celery -- are rich in inorganic nitrate, and many oral bacteria play a role in turning nitrate to nitric oxide, which helps to regulate blood vessels and neurotransmission (chemical messages in the brain).

Older people tend to have lower nitric oxide production, and this is associated with poorer vascular (blood vessel) and cognitive (brain) health.

In the new study, by the University of Exeter, 26 healthy older people took part in two ten-day supplementation periods: one with nitrate-rich beetroot juice and another with nitrate-free placebo juice, which they drank twice a day.

The results showed higher levels of bacteria associated with good vascular and cognitive health, and lower levels of bacteria linked to disease and inflammation.

Systolic blood pressure dropped on average by five points (mmHg) after drinking the beetroot juice.

"We are really excited about these findings, which have important implications for healthy ageing," said lead author Professor Anni Vanhatalo, of the University of Exeter.

"Previous studies have compared the oral bacteria of young and older people, and healthy people compared to those with diseases, but ours is the first to test nitrate-rich diet in this way.

"Our findings suggest that adding nitrate-rich foods to the diet -- in this case via beetroot juice -- for just ten days can substantially alter the oral microbiome (mix of bacteria) for the better.

"Maintaining this healthy oral microbiome in the long term might slow down the negative vascular and cognitive changes associated with ageing."

The researchers ran tests to identify clusters (or "modules") of oral bacteria that tend to thrive together in similar conditions.

A module (Prevotella-Veillonella) that has been associated with inflammation was reduced after nitrate supplementation, including a decrease of Clostridium difficile (which can infect the bowel and cause diarrhea).

Professor Vanhatalo stressed that more research is needed to confirm the findings and see whether similar effects are found in other groups.

"Our participants were healthy, active older people with generally good blood pressure," she said. "Dietary nitrate reduced their blood pressure on average, and we are keen to find out whether the same would happen in other age groups and among people in poorer health.

"We are working with colleagues in the University of Exeter Medical School to investigate interactions between the oral bacteria and cognition to better understand the how diet could be used to delay cognitive decline in older age."

Much research has been conducted into the benefits of a healthy gut microbiome, but far less is known about the oral microbial community, which plays a crucial role in "activating" the nitrate from a vegetable-rich diet.

https://www.sciencedaily.com/releases/2021/03/210330121231.htm

February 2, 2021

Science Daily/eLife

Parasitic worms could hold the key to living longer and free of chronic disease, according to a review article published today in the open-access eLifejournal.

The review looks at the growing evidence to suggest that losing our 'old friend' helminth parasites, which used to live relatively harmlessly in our bodies, can cause ageing-associated inflammation. It raises the possibility that carefully controlled, restorative helminth treatments could prevent ageing and protect against diseases such as heart disease and dementia.

"A decline in exposure to commensal microbes and gut helminths in developed countries has been linked to increased prevalence of allergic and autoimmune inflammatory disorders -- the so-called 'old friends hypothesis'," explains author Bruce Zhang, Undergraduate Assistant at the UCL Institute of Healthy Ageing, London, UK. "A further possibility is that this loss of 'old friend' microbes and helminths increases the sterile, ageing-associated inflammation known as inflammageing."

Inflammageing is increasingly thought to be a contributory factor to the major diseases of later life, including heart disease, dementia, cancer, chronic obstructive pulmonary disease, osteoporosis, age-related eye disease and -- more recently -- symptom severity during SARS-CoV-2 (COVID-19) infections.

One theory is that changes in the gut microbiome might cause inflammageing, but until now little consideration has been given to the role of organisms comprising the macrobiome -- the ecosystem of macro-organisms -- including helminth parasites such as flukes, tapeworms and nematodes.

Helminths have infected humans throughout our evolutionary history, and as a result have become master manipulators of our immune response. Humans, in turn, have evolved levels of tolerance to their presence.

In their article, Zhang and co-author David Gems, Professor of Biogerontology and Research Director at the UCL Institute of Healthy Ageing, review the evidence for helminth therapy in two areas: treating known inflammatory disorders, such as coeliac disease, and stopping or reversing inflammageing as part of the ageing process.

They reveal how the loss of helminths has so far been linked to a range of inflammatory diseases, including asthma, atopic eczema, inflammatory bowel disease, multiple sclerosis, rheumatoid arthritis and diabetes. Some studies have shown that natural infection with helminths can alleviate disease symptoms, for example in multiple sclerosis and eczema, while other studies in animal models suggest that intentional infection with helminths could have benefits against disease.

The safer, and perhaps more palatable, option is the concept of using helminth-derived proteins to achieve the same therapeutic benefits. This was tested recently in mice and shown to prevent the age-related decline in gut barrier integrity usually seen with a high-calorie diet. It also had beneficial effects on fat tissue, which is known to be a major source of inflammageing.

The authors speculate that if helminths have anti-inflammageing properties, you would expect to see lower rates of inflammageing-related disease in areas where helminth infection is more common. There is some evidence to support this. For example, in a region in Eastern India endemic for lymphatic filariasis caused by filarial worms, not a single person with rheumatoid arthritis (RA) tested positive for circulating filarial antigens, whereas a much higher proportion (40%) of people without RA tested positive for the nematode. Other epidemiological studies have shown protection from helminths against type 2 diabetes and blocked arteries.

"It goes without saying that improvements in hygiene and elimination of helminth parasites have been of incalculable benefit to humanity, but a cost coupled to this benefit is abnormalities of immune function," Gems concludes. "In the wake of successes during the last century in eliminating the evil of helminths, the time now seems right to further explore their possible benefits, particularly for our ageing population -- strange as this may sound."

https://www.sciencedaily.com/releases/2021/02/210202113730.htm

January 21, 2021

Science Daily/University of Exeter

Older people in Japan have an "attitude of gratitude" which keeps them feeling hopeful despite the challenges of aging, a new study says.

Feeling thankful and grateful for the care and support they have had during their life helps pensioners in the country to be more optimistic, even when they experienced difficulties and were anxious about getting older, an expert found.

Dr Iza Kavedzija, from the University of Exeter, observed people in their 80s and 90s in the course of long-term ethnographic fieldwork in a merchant neighbourhood in the city of Osaka. Her research is published in the journal Anthropology and Aging.

Dr Kavedzija found many members of the older community cultivated a "quiet hope," even though they had concerns for the future, such as getting dementia like their parents or becoming a burden to their children. They said they believed things would work out "somehow" (nantonaku). They accepted the uncertainty ahead, but remained actively engaged in their wider community. This gave them a sense of security, and offered them some confidence for the future.

Dr Kavedzija said: "As people move through life, through their later years, many experience a sense of loss. But this time for them also offers opportunities to reflect more on life, with a heightened realisation of their interconnections with others. If one habitually invokes the involvement of others and their role in one's life, one is reminded how much other people have helped them, in countless small and more substantive ways. The same events seem different when one focuses on how others have helped."

"An attitude of gratitude was embedded in older peoples' recollections of the past, but also allowed them to think about the present in a hopeful way. A world in which one has received much good will from others is a different place than one in which one has experienced loss, even if the facts of life are the same."

"Gratitude in Japan can be seen to a large extent as a recognition of how much one relies on others as one moves through life. Gratitude highlights feelings of interdependence in the social world."

Many people said they wouldn't be the person they were without others who played a significant part in their life. A phrase they liked to use was arigatai, "I am grateful," and sometimes kansha, "gratitude." This gratitude might exist for having been able to lead a full life, for having had a good husband who supported the family, for having understanding in-laws, or simply for an opportunity to work.

Dr Kavedzija said: "While people in Japan might hesitate to say they are happy, gratitude is mentioned frequently. Through appreciation, dependence on others is not seen as simply a burden or a potential source of embarrassment, but also as moving and deeply meaningful. Meaningful relationships and encounters with others comprise a valuable foundation for what Japanese people call ikigai, or that which makes life worth living."

https://www.sciencedaily.com/releases/2021/01/210121131633.htm

January 20, 2021

Science Daily/Ecole Polytechnique Fédérale de Lausanne

Scientists have discovered that Alzheimer's-like protein aggregates underly the muscle deterioration seen in aging. But the aggregates can be reversed by boosting the levels of nicotinamide adenine dinucleotide (NAD+), which turns on the defense systems of mitochondria in cells and restores muscle function.

The older we grow, the weaker our muscles get, riddling old age with frailty and physical disability. But this doesn't only affect the individual, it also creates a significant burden on public healthcare. And yet, research efforts into the biological processes and biomarkers that define muscle aging have not yet defined the underlying causes.

Now, a team of scientists from lab of Johan Auwerx at EPFL's School of Life Sciences looked at the issue through a different angle: the similarities between muscle aging and degenerative muscle diseases. They have discovered protein aggregates that deposit in skeletal muscles during natural aging, and that blocking this can prevent the detrimental features of muscle aging. The study is published in Cell Reports.

"During age-associated muscle diseases, such as inclusion body myositis (IBM), our cells struggle to maintain correct protein folding, leading these misfolded proteins to precipitate and forming toxic protein aggregates within the muscles," explains Auwerx. "The most prominent component of these protein aggregates is beta-amyloid, just like in the amyloid plaques in the brains of patients with Alzheimer's disease."

In the study, the scientists identify amyloid-like protein aggregates in aged muscles from different species, from the nematode C. elegans all the way to humans. In addition, they also found that these aggregates also impair mitochondrial function. Although aggregated proteins have been suggested to contribute to brain aging, this is the first time that they have been shown to contribute to muscle aging and to directly damage mitochondria. "These abnormal proteotoxic aggregates could serve as novel biomarkers for the aging process, beyond the brain and muscle," says Auwerx.

But can the formation of the protein aggregates be reversed? To answer this, the researchers fed worms the vitamin nicotinamide riboside and the antitumor agent Olaparib, both of which boost the levels of nicotinamide adenine dinucleotide (NAD+), a biomolecule that is essential for maintaining mitochondrial function, and whose levels decline during aging.

In the worms, the two compounds turned on the defense systems of the mitochondria, even when provided at advanced age. Turning on the so-called "mitochondrial quality control system" reduced the age-related amyloid protein aggregates and improved the worms' fitness and lifespan.

The scientists then moved on to human muscle tissue, taken from aged subjects and IBM patients. Turning on the same mitochondrial quality control systems produced similar improvements in protein and mitochondrial homeostasis. The encouraging results led the researchers to test nicotinamide riboside in aged mice. The treatment also activated the mitochondrial defense systems and reduced the number and size of amyloid aggregates in different skeletal muscle tissues.

"Drugs that boost mitochondrial quality control could therefore be tested in the clinic to reverse these age-related proteotoxic aggregates and rejuvenate tissues," says Mario Romani, the first author of the study.

https://www.sciencedaily.com/releases/2021/01/210119114405.htm

January 21, 2021

Science Daily/Oregon State University

If you believe you are capable of becoming the healthy, engaged person you want to be in old age, you are much more likely to experience that outcome, a recent Oregon State University study shows.

"How we think about who we're going to be in old age is very predictive of exactly how we will be," said Shelbie Turner, a doctoral student in OSU's College of Public Health and Human Sciences and co-author on the study.

Previous studies on aging have found that how people thought about themselves at age 50 predicted a wide range of future health outcomes up to 40 years later -- cardiovascular events, memory, balance, will to live, hospitalizations; even mortality.

"Previous research has shown that people who have positive views of aging at 50 live 7.5 years longer, on average, than people who don't," said Karen Hooker, co-author of the study and the Jo Anne Leonard Petersen Endowed Chair in Gerontology and Family Studies at OSU.

Because self-perceptions of aging are linked to so many major health outcomes, Hooker and Turner wanted to understand what influences those perceptions. Their study looked specifically at the influence of two factors: self-efficacy associated with possible selves, meaning a person's perceived ability to become the person they want to be in the future; and optimism as a general personality trait.

The researchers measured self-perception of aging by having respondents say how strongly they agreed or disagreed with statements such as, "Things keep getting worse as I get older," "I have as much pep as I had last year," "As you get older, you are less useful." They measured optimism in a similar way, with respondents ranking their agreement with statements like "In uncertain times I usually expect the best."

To measure self-efficacy, the study used a dataset that compiled survey responses from older adults where they listed two "hoped-for" future selves and two "feared" future selves, and ranked how capable they felt of becoming the person they hoped to be and avoiding becoming the person they feared to be.

Among the "hoped for" selves were things like "A social person with a strong network of friends" and "A healthy, active person." Examples of "feared" selves were "Chronically sick and in pain," "Being dependent on others for my day-to-day needs" and "A cranky, angry old woman."

Results showed that, as predicted, higher optimism was associated with more positive self-perception of aging. Both "hoped-for" self-efficacy and "feared" self-efficacy were also significantly associated with self-perception of aging, above and beyond optimism as a trait.

A major factor in how people see their own aging selves is internalizing ageist stereotypes, the researchers said. Examples of such stereotypes include assumptions that older adults are bad drivers, or suffer memory problems, or are unable to engage in physical activity anymore.

"Kids as young as 4 years old already have negative stereotypes about old people," Hooker said. "Then, of course, if you're lucky enough to live to old age, they eventually apply to you."

Those stereotypes get reinforced every time an older adult forgets something and jokes, "Another senior moment!" But the researchers say these thought patterns can do real harm.

"People need to realize that some of the negative health consequences in later life might not be biologically driven. The mind and the body are all interwoven," Hooker said. "If you believe these bad things are going to happen, over time that can erode people's willingness or maybe even eventually their ability to engage in those health behaviors that are going to keep them as healthy as they can be."

A way to mitigate those negative stereotypes about aging is to promote intergenerational relationships, so younger people can see older adults enjoying happy, healthy lives.

"The more you're around older people, the more you realize that it's not all bad," Turner said. "Older people can do some things better than young people do. Increasing opportunities for intergenerational relationships is one way we can make people more optimistic about aging."

https://www.sciencedaily.com/releases/2021/01/210121150929.htm

December 1, 2020

Science Daily/Columbia University's Mailman School of Public Health

A new global study finds older people in wealthy countries consume more alcohol than their counterparts in middle-income countries, on average, although a higher cost of alcohol is associated with less frequent drinking. Across counties, people drink less as they get older, but at different rates and starting points. The study was led by researchers at Columbia University Mailman School of Public Health and the Robert N. Butler Columbia Aging Center. Findings are published in the journal Addiction.

Alcohol consumption among older adults is trending higher across numerous countries, and alcohol use disorders among adults 65 and older have more than doubled in the last ten years. Moreover, there are signs that alcohol consumption is further increasing during the pandemic. Age-related changes that slow metabolism and increase the odds of medication interactions make alcohol consumption likely more harmful among older than younger adults.

The researchers analyzed survey data collected from 100,000 individuals age 50 and older in 17 countries in Europe, as well as China, Mexico, Israel, South Korea, and the United States. Average weekly alcohol consumption ranged from 0.59 units in Mexico to 6.85 units in the Netherlands. In the United States, older adults consumed 2.07 standard units per week. One standard unit is equivalent to a small shot glass of vodka or a 12oz glass of 5 percent beer.

The price of alcohol -- measured by the cost of a bottle of red label Smirnoff vodka -- varied from a low of $7.92 in Mexico to $38.06 in Ireland (4.96 standard units/week).

In most countries drinking decreased with age (U.S., China, Chile), but some countries had sharper age-related decreases (England, Ireland, Czech Republic) and others were fairly stable and had brief increases in drinking after age 50 (Denmark, France). This variation across age and countries is explained both by the health and socioeconomic status of older adults living in each country and country-level factors like economic development and alcohol prices.

Heavy drinking among older adults was highest in the Czech Republic and lowest in Israel, with levels of heavy drinking in most countries declining by age or slightly increasing then declining by older ages. Economic development and the cost of alcohol did not influence levels of heavy drinking, which may be driven by factors such as gender and cultural norms. Heavy drinking is defined for men as having more than three drinks per day or binging more than five drinks in a single occasion, and for women as having more than two drinks per day or binging more than four drinks in a single occasion.

"Public concern over drinking largely focuses on young people, but alcohol is also a serious threat to the health of older adults. In fact, the majority of alcohol-related deaths occur among older people," says first author Esteban Calvo, PhD, assistant professor of epidemiology in the Robert N. Butler Columbia Aging Center. "While some studies purport to show a benefit to drinking in old age, these findings are likely distorted by the fact that older drinkers tend to remain drinking if they are healthy, while recent abstainers (as opposed to lifetime abstainers) may only quit when they are sick."

"As countries develop economically and older people living there can afford to drink more, these countries should consider policies to regulate alcohol consumption, potentially combining minimum alcohol prices, taxation, sale and marketing regulations, and cessation programs," adds senior author Katherine M. Keyes, PhD, associate professor of epidemiology at Columbia Mailman School.

https://www.sciencedaily.com/releases/2020/12/201201091834.htm

November 25, 2020

Science Daily/European Society of Cardiology

Higher than normal blood pressure is linked to more extensive brain damage in the elderly, according to a new study published today (Thursday) in the European Heart Journal.

In particular, the study found that there was a strong association between diastolic blood pressure (the blood pressure between heart beats) before the age of 50 and brain damage in later life, even if the diastolic blood pressure was within what is normally considered to be a healthy range.

The findings come from a study of 37,041 participants enrolled in UK Biobank, a large group of people recruited from the general population aged between 40 and 69 years, and for whom medical information, including MRI brain scans was available.

The research, carried out by Dr Karolina Wartolowska, a clinical research fellow at the Centre for Prevention of Stroke and Dementia, University of Oxford, UK, looked for damage in the brain called "white matter hyperintensities" (WMH). These show up on MRI brain scans as brighter regions and they indicate damage to the small blood vessels in the brain that increases with age and blood pressure. WMH are associated with an increased risk of stroke, dementia, physical disabilities, depression and a decline in thinking abilities.

Dr Wartolowska said: "Not all people develop these changes as they age, but they are present in more than 50% of patients over the age of 65 and most people over the age of 80 even without high blood pressure, but it is more likely to develop with higher blood pressure and more likely to become severe."

Information on the participants was collected when they enrolled in UK Biobank between March 2006 and October 2010, and follow-up data, including MRI scans, were acquired between August 2014 and October 2019. The researchers adjusted the information to take account of factors such as age, sex, risk factors such as smoking and diabetes, and diastolic as well as systolic blood pressure. Systolic blood pressure is the maximum blood pressure reached each time the heart beats and is the top number in blood pressure measurements.

"To compare the volume of white matter hyperintensities between people and to adjust the analysis for the fact that people's brains vary slightly in size, we divided the volume of WMH by the total volume of white matter in the brain. In that way, we could analyse the WMH load, which is the proportion of the WMH volume to the total volume of white matter," said Dr Wartolowska.

The researchers found that a higher load of WMH was strongly associated with current systolic blood pressure, but the strongest association was for past diastolic blood pressure, particularly when under the age of 50. Any increase in blood pressure, even below the usual treatment threshold of 140 mmHg for systolic and below 90 mmHg for diastolic, was linked to increased WMH, especially when people were taking medication to treat high blood pressure.*

For every 10mmHg increase in systolic blood pressure above the normal range, the proportion of WMH load increased by an average (median) of 1.126-fold and by 1.106-fold for every 5mmHg increase in diastolic blood pressure. Among the top 10% of people with the greatest WMH load, 24% of the load could be attributed to having a systolic blood pressure above 120mmHg, and 7% could be attributed to having diastolic blood pressure above 70mmHg, which reflects the fact that there is a greater incidence of elevated systolic rather than diastolic blood pressure in older patients.

Dr Wartolowska said: "We made two important findings. Firstly, the study showed that diastolic blood pressure in people in their 40s and 50s is associated with more extensive brain damage years later. This means that it is not just the systolic blood pressure, the first, higher number, but the diastolic blood pressure, the second, lower number, that is important to prevent brain tissue damage. Many people may think of hypertension and stroke as diseases of older people, but our results suggest that if we would like to keep a healthy brain well into our 60s and 70s, we may have to make sure our blood pressure, including the diastolic blood pressure, stays within a healthy range when we are in our 40s and 50s.

"The second important finding is that any increase in blood pressure beyond the normal range is associated with a higher amount of white matter hyperintensities. This suggests that even slightly elevated blood pressure before it meets the criteria for treating hypertension has a damaging effect on brain tissue.

"Our results suggest that to ensure the best prevention of white matter hyperintensities in later life, control of diastolic blood pressure, in particular, may be required in early midlife, even for diastolic blood pressure below 90mmHg, whilst control of systolic blood pressure may be more important in late life. The long time interval between the effects of blood pressure in midlife and the harms in late life emphasises how important it is to control blood pressure long-term, and that research has to adapt to consider the very long-term effects of often asymptomatic problems in midlife."

Potential mechanisms for the development of WMH include damage to the delicate blood vessels in the brain through sustained elevated pressures over time that directly cause damage to the blood vessels; this leads to the lining of the vessels becoming leaky and results in WMH. Alternatively, diastolic pressure might cause large blood vessels to become stiffer with time, which increases pulsations of blood pressure to the brain; this causes high blood pressure with each heart beat, rapid changes in blood pressure, and blood flow that is too low between heart beats, resulting in damage to white matter.

As MRI scans were only available at one time point, the researchers could not quantify the progression of WMH directly. Other limitations include that further analysis is needed to identify differences in different regions of white matter, and that although the researchers showed associations with smoking and diabetes, the potential complex interaction between risk factors, which also include high cholesterol levels, obesity and kidney problems, require further investigation.

Notes: 

* Patients with a 'low normal' blood pressure of 120/70mmHg were used as the 'reference group' with whom the researchers compared the other groups of patient in this analysis. Consistent with most guidelines, the researchers referred to people with blood pressure over 140/90 mmHg as 'hypertensive' and requiring treatment, and those between 140/90 and 130/80 mmHg as 'pre-hypertensive'. People with blood pressure below the pre-hypertensive values were referred to as 'high normotensive' and those with values below 120/70 as 'low normotensive'.

https://www.sciencedaily.com/releases/2020/11/201125190737.htm

November 18, 2020

Science Daily/Wiley

In a study of women aged 80 years and older, living in locations with higher exposures to air pollution was associated with increased depressive symptoms. The findings are published in the Journal of the American Geriatrics Society.

When looking at individual air pollutants, a team led by investigators from of the University of Southern California found that long-term exposure to nitrogen dioxide or fine particulate air pollution was associated with increased depressive symptoms, but with only a small effect. Results also suggested that depressive symptoms might play a role in linking long-term air pollution exposure to memory decline more than 10 years after the exposure.

"This is the first study showing how air pollution exposures affect depressive symptoms as well as the interrelationship between the symptoms and subsequent memory decline that had not been found in older people aged less than 80 years," said lead author Andrew Petkus, PhD.

Senior author Jiu-Chiuan Chen, MD, ScD, added, "We know late-life exposures to ambient air pollutants accelerate brain aging and increase the dementia risk, but our new findings suggest the oldest-old populations may respond to air pollution neurotoxicity in a different way that needs to be investigated further."

https://www.sciencedaily.com/releases/2020/11/201118080750.htm

November 17, 2020

Science Daily/University of Central Florid

The number of Americans age 65 and older continues to increase as the baby boom generation ages and people are living longer. At the same time, many seniors plan to "age in place," or continue living in their current homes, despite needing more assistance as they get older.

One strategy for aging in place is an emerging idea known as aging in community, in which older adults depend on a community support group or program for assistance. This can consist of situations like older adults or family and friends living in the same house or close by each other in communities where they can easily assist each other.

To find out just how well the aging-in-community strategy is working, a University of Central Florida health management and informatics researcher examined three aging-in-community programs in Florida. Her study, which is among the first to examine some key variables for these programs, was recently published in the journal Gerontology and Geriatric Medicine.

"Given the fast approaching 'super-aged society' in the U.S., there is a critical need to identify and assess the impact of aging-in-community programs aimed at helping older adults remain independent at home while also having a sense of belonging to their community," says Su-I Hou, professor and interim chair of UCF's Department of Health Management and Informatics and author of the study.

Hou examined two important factors for successful aging in community -- people's perceived ability to live independently and their perceived neighborhood social cohesiveness -- in three types of aging-in-community programs in Central Florida.

These were two village programs, Thriving-in-Place, in Celebration, and Neighbors Network, in Winter Park; the Seniors First Meals on Wheels Program in Orlando, which is a county neighborhood lunch program; and a university-based lifelong learning program, LIFE at UCF.

In a village program, older residents band together to help each other out with drives to the doctor, help with errands and to vet any outside services or assistance.

Countywide neighborhood lunch programs provide meals and nutritional services to older adults in a group setting.

The university-based lifelong learning program provides education for older adults and ways to connect with other people and engage in campus services and programs.

The researcher found that for the nearly 300 total older people she surveyed in the aging-in-community programs, the higher a person's education level was, the less likely they were to perceive themselves as having the ability to live independently.

She also found that people who were married had greater perceptions of social cohesiveness, or that they lived in a neighborhood where people helped each other out.

When comparing the three programs, study data showed that older adults participating in the neighborhood lunch program perceived a higher level of confidence that they can live independently at their own home, yet a lower level of neighborhood social cohesiveness, compared with older adults participating in the village or lifelong learning programs.

"The findings suggest 'remain independent at home' and 'having a sense of belonging to their community' may impact older adults with different characteristics or community-support systems differently," Hou says. "It calls attention to examine how these key factors operate in different programs promoting aging in community, as well as a need to promote confidence in living independently at home among higher-educated older adults, and to facilitate a sense of belonging to their own community for single, older adults."

https://www.sciencedaily.com/releases/2020/11/201117120725.htm

November 12, 2020

Science Daily/Cedars-Sinai Medical Center

Seniors who joined group exercise classes experienced decreased loneliness and social isolation, according to a new study conducted before the COVID-19 pandemic. The classes have continued virtually since March, and early results suggest the online versions are also effective.

Older adults who joined group exercise classes experienced decreased loneliness and social isolation, according to a new Cedars-Sinai study conducted before the COVID-19 pandemic. The classes have continued virtually since March, and early results suggest the online versions are also effective.

Seniors face increased risk for developing serious health issues or even death if they lack social connections or feel alone. Loneliness is connected to higher rates of depression, anxiety and suicide. Experts say social isolation can have the same impact on an older person's health as smoking 15 cigarettes a day.

Both loneliness and social isolation are widespread issues in the U.S., where more than a third of adults 45 and older feel lonely and nearly a quarter of those 65 and older are socially isolated, according to the National Academies of Sciences, Engineering, and Medicine. But few studies have examined the most effective ways to improve social connectedness among seniors.

"As the demographics of our country shift, more people are living alone than ever before," said the study's lead author, Allison Moser Mays, MD, a Cedars-Sinai geriatrician. "The number of adults over the age of 65 in the U.S. is expected to reach more than 70 million by 2030 -- double what it is now. We need sustainable ways to help this burgeoning population thrive as they age, or there will be widespread consequences."

Mays and her co-investigators partnered with local community groups to enroll participants in evidence-based exercise and health management classes for people over 50 at nine sites in Los Angeles neighborhoods with a known concentration of low-income older adults. All locations -- which included libraries, senior centers and recreation centers -- were accessible for those with mobility limitations and had access to parking and public transit.

The study tracked 382 participants ages 52 to 104 from July 2018 through March 2020, when the pandemic forced the classes to move online. Some people were referred by their Cedars-Sinai physician during an office visit. Others found the program through community outreach.

All participants met with a health coach who assessed their needs and helped them select one of four courses, which research has shown improve other aspects of health: Arthritis Exercise, EnhancedFitness, Tai Chi for Arthritis, and Chronic Disease Self-Management. The three exercise classes proved the most popular, and individuals had to attend at least one session to be included in the study.

Participants completed questionnaires about their social connections and loneliness prior to starting their course and after six months. At the end of that period, investigators found a 6.9% decrease in loneliness and a 3.3% improvement in social connectedness, after adjusting for age, gender and other characteristics. The study was published in the American Journal of Geriatric Psychiatry.

"These classes had already been shown to reduce the risk of falls in seniors, and this was the first demonstration that they also reduce social isolation, to the best of our knowledge," Mays said.

The Leveraging Exercise to Age in Place (LEAP) classes have been supported by a three-year grant from the AARP Foundation. Cedars-Sinai has adopted the successful programming under the Community Engagement Department.

"The results of this study are very exciting because we've provided a model that other health systems can easily replicate by integrating evidence-based programs in the community with their organizations. They don't need to reinvent the wheel," said senior study author Sonja Rosen, MD, chief of Geriatric Medicine at Cedars-Sinai. "The health coach is the key ingredient because they make sure that nobody falls through the cracks."

The health coach has been especially crucial since the pandemic began when classes moved online and participants sometimes have needed help figuring out how to log on to the platform. That effort has been paying off.

Of the 59 participants who continued with the virtual workouts, there has not been a statistically significant change in loneliness or social isolation one month after stay at home orders began, according to data Mays presented over the weekend at the Gerontological Society of America's annual meeting. The investigators will analyze further data as the classes continue. They're also piloting another program that pairs older adults with younger participants for one-on-one workout sessions online.

"Cedars-Sinai treats more patients over the age of 80 than any other academic health system in the country," Rosen said. "We're really at the epicenter of this growing population of older adults and figuring out the best ways to care for them so they can successfully age in place."

Rosen said efforts like the LEAP program helped Cedars-Sinai earn its designation as an Age-Friendly Health System Committed to Care Excellence earlier this year. The distinction, which highlights care tailored to older adults, is part of a national initiative of The John A. Hartford Foundation and the Institute for Healthcare Improvement, in partnership with the American Hospital Association and the Catholic Health Association of the United States.

https://www.sciencedaily.com/releases/2020/11/201112155830.htm

November 9, 2020

Science Daily/University of Stirling

Social distancing introduced in response to COVID-19 is increasing feelings of loneliness in Scotland's older population and impacting their wellbeing, according to a new University of Stirling study.

The research has identified a link between increases in loneliness in over 60s and the worsening of wellbeing and health. Increasing loneliness due to social distancing was associated with a smaller social network, lower perceived social support and a decrease in wellbeing, the study found.

The findings emerge from research launched under the Scottish Government's Chief Scientist Office Rapid Research in COVID-19 programme in May. Professor Anna Whittaker, of the University's Faculty of Health Sciences and Sport, led the work and hopes it will help to inform decision-making on the virus and support post-pandemic recovery strategies.

Professor Whittaker said: "Previous studies have demonstrated the negative impacts of social isolation and loneliness. This is a key issue for older adults who may be more likely to have few social contacts. We know that social distancing guidelines introduced in response to COVID-19 have restricted social activity engagement and impacted vulnerable groups, including older adults.

"Our study, which involved a survey of more than 1,400 older people, examined the impact of social distancing during the pandemic on social activity, loneliness and wellbeing. The majority of survey participants reported that social distancing has made them experience more loneliness, social contact with fewer people, and less social contact overall.

"We found that a larger social network and better perceived social support seems to be protective against loneliness and poorer health and wellbeing, due to social distancing. This underlines the importance of addressing loneliness and social contact in older adults, but particularly during pandemics or situations where the risk of isolation is high."

Of the 1,429 survey participants, 84 percent were aged 60 or over and had an average social network of five people. On average, the participants socialised five days per week, for more than 6.6 hours per week. Fifty-six percent reported that social distancing regulations made them experience more loneliness -- with scores that were significantly higher than reported norms; the same quality of perceived support; but social contact with fewer people and less social contact overall.

Greater loneliness was significantly associated with a smaller social network, lower perceived social support, and a decrease in social support frequency, quality, and amount -- and a worsening of wellbeing and health.

Physical activity

Using the same survey data, the research also considered the impact of social distancing on physical activity. The majority of participants reported continuing to meet physical activity guidelines during lockdown -- with 35 percent moderately active and 41 percent highly active. Walking was the greatest contributor to total physical activity, with just over a quarter (26.4%) walking more than before lockdown. Those living in rural areas reported greater volumes of physical activity.

Forty percent of people said they were walking less, compared to before lockdown, and a similar proportion were engaging in less moderate physical activity. Those who reported in engaging in lower physical activity had poorer wellbeing.

Individuals who reported no change in moderate physical activity were the most active pre-lockdown and those who reported no change in walking had significantly higher levels of total physical activity pre-lockdown.

Professor Whittaker said: "Physical activity engagement during lockdown varied and this study indicates a positive link with wellbeing -- supporting the notion that physical activity should be considered an important contributor in recovery strategies targeted at older adults as we emerge from the pandemic.

"There appears to be a relationship between pre-lockdown physical activity and physical activity changes due to lockdown. This may be of significance in the context of trying to get older adults to maintain or increase physical activity, where appropriate, as we emerge from this pandemic, given our understanding of the benefits of physical activity in this age group.

"Additionally, irrespective of pre-lockdown physical activity, older adults should continue to be encouraged to be active, and particularly to engage in some sort of strength and balance training -- such as tai chi, yoga, or weights -- which was very low in the sample but is vital for maintaining balance and physical function. Just 12 percent of the sample met the physical activity guidelines, which indicate strength training should be undertaken at least twice per week."

https://www.sciencedaily.com/releases/2020/11/201109110230.htm