Olive oil to prevent and treat Alzheimer’s disease

(inhibits the ability of ADDL’s to attach to the synapses in the brain)

PleaseHelpSupport Alzheimer's Research Today!
Your Alzheimer's donation will help billionslive without it. Donate online now

A naturally occurring compound in extra virgin olive oil has been found to limit the effect of toxic beta amyloid proteins that contribute to cognitive decline associated with Alzheimer’s disease. The substance, oleocanthal, restricts the ability of the toxic proteins to destroy brain cells. Oleocanthal is also a natural anti-inflammatory agent that works much the same as ibuprofen, shown in past studies, and could be developed to prevent and treat Alzheimer’s disease.

Small proteins, known as ADDL’s, bind to receptors in the brain, known as synapses, and alter brain function in Alzheimer’s patients. Oleocanthal, found in olive oil, inhibits the ability of ADDL’s to attach to the synapses in the brain. The compound also makes ADDL’s more susceptible to antibodies.

Paul A.S. Breslin, PhD, a sensory psychobiologist at the Monell Science Center says, "If antibody treatment of Alzheimer's is enhanced by oleocanthal, the collective anti-toxic and immunological effects of this compound may lead to a successful treatment for an incurable disease. Only clinical trials will tell for sure."

Dr. Breslin explains how ADDL binding in synapses is one of the most important first steps in the development of Alzheimer’s disease. Synapses are needed to send information from specialized cells that relay information to the next. Without intact synapses brain cells die and memory loss occurs. The olive oil compound, oleocanthal could help prevent and treat Alzheimer’s disease if future studies support the current findings.

ADDL’s have been a focus in the study of Alzheimer’s disease. Ibuprofen has also been linked to lower risk of Alzheimer’s disease, much like oleocanthal that also has anti-inflammatory properties. The new research shows that oleocanthal, found in extra virgin olive oil, impedes the ability of toxic amyloid beta- proteins to destroy brain cells that leads to Alzheimer’s disease and dementia. ...http://www.emaxhealth.com

Omega-3 may protect diabetics from heart failure

Increased intakes of omega-3 fatty acids may protect diabetics from heart failure, according to a new study from the Netherlands. ...http://www.nutraingredients.com

Беларусь ТВ

Posted YVN

The link between kidney function and the brain

(impaired kidney function is a risk factor for cognitive decline)

PleaseHelpSupport Alzheimer's Research Today!
Your Alzheimer's donation will help billionslive without it. Donate online now

A new study published in the medical journal Neurology suggests that impaired kidney function is a risk factor for cognitive decline in old age.

The study, conducted by researchers at Rush University Medical Center, found that poor kidney function was linked specifically with cognition related to memory functions. Damage to one of these functions, episodic memory, which retrieves memories of time, place, associated emotions and other contextual knowledge, is often the earliest sign of Alzheimer's disease.

"Given the dearth of modifiable risk factors for age-related cognitive decline, these results have important public health implications," said Dr. Aron Buchman, a neuroscientist in the Rush Alzheimer's Disease Center. "Further work to understand the link between kidney function and the brain may provide new strategies for preventing memory loss in elders."

Buchman said the findings suggest that there are common disease processes that affect both the brain and the kidneys in the elderly, and hypothesized that underlying vascular problems, such as diabetes and hypertension, may account for the association between kidney problems and cognitive decline.

The study analyzed data for 886 older adults who participated in the Rush Memory and Aging Project, a group of community-dwelling seniors with a mean age of 81, all of them initially free of dementia. The participants were examined annually for up to six years to track changes in cognition over time. Cognitive assessments included multiple tests that were summarized as a composite measure of overall cognition and of five individual cognitive abilities.

The individual cognitive systems assessed were visuospatial ability; perceptual speed, or the ability to quickly and accurately compare letters, numbers, objects, pictures or patterns; semantic memory, related to meaning, understanding and other concept-based knowledge; working memory, which temporarily stores and manipulates information; and episodic memory.

Ruling out the influence of factors like aging and medications, which can affect cognition, the researchers found that poor kidney function, assessed at the beginning of the study, was linked with a more rapid rate of decline in cognition over the next several years -- not in visuospatial ability or perceptual speed, but in three specific areas: episodic, semantic and working memory.

The rate of decline in cognition was equivalent to that of a person seven years older at baseline, Buchman said. ...http://www.scienceblog.com

Prebiotics may protect against travellers’ diarrhoea

Supplements of a prebiotic galactooligosaccharide mixture may reduce the incidence of travellers’ diarrhoea by about 34 per cent, says a new study from the UK. ...http://www.scientificamerican.com

Беларусь ТВ

Posted YVN

Inhale or Don't?

(Marijuana is not the ‘soft drug’ people like to think it is)

PleaseHelpSupport Alzheimer's Research Today!
Your Alzheimer's donation will help billionslive without it. Donate online now

Clinton didn’t inhale, Obama did—and maybe Reagan should have. New research suggests that THC, the chemical that gives marijuana its mind-bending properties, kills developing neurons, yet oddly, the same chemical saves neurons in adults with Alzheimer’s disease.

“Marijuana is not the ‘soft drug’ people like to think it is,” says neuro pharmacologist Veronica Campbell of Trinity College in Dublin, whose latest study uncovered the harmful effects of THC on young neurons. When Campbell and her co-workers treated brain cells from newborn or adolescent rats with THC, the neurons died, but THC did not have such deadly effects on neurons taken from adult rats. In fact, work from other labs shows that THC benefits adult neurons. “We don’t know why,” Campbell says. Several possi bilities are being investigated for this “Jekyll and Hyde” effect.

Marijuana, like tobacco and opium, has powerful effects on the brain because certain compounds in the plant happen to have a chemical resemblance to naturally occurring substances in the body. Called endocannabinoids, these natural chemicals regulate important brain functions by controlling synapses in neural circuits that process thought and perception. According to several recent studies, these chemicals have many other functions in the brain and immune system, too—including regulating development and aiding survival of young neurons, as well as controlling the wiring of neurons into circuits for learning and memory. Smoking marijuana during the period of life when the brain is still developing obscures these critical chemical signals, Campbell suspects.

The slaughter of young neurons by THC could explain the developmental cognitive impairment seen in children born to women who smoked marijuana during pregnancy. In addition, some research on adolescent marijuana abusers shows brain damage in neural circuits that are still developing at that age.

In older brains, however, THC seems to have a protective effect. Campbell’s findings indicate that the biochemistry of neurons changes as the cells mature. The role of endocannabi noids shifts to regulate different functions—most important, assisting in the survival of aged neurons. In patients with Alzheimer’s disease, THC protects neurons from death in several ways. THC boosts depleted levels of the neurotransmitter acetylcholine, which, when diminished, contributes to the weakened mental function in Alzheimer’s patients. THC also suppresses the toxic effects of the so-called a-beta protein that may kill neurons in Alzheimer’s disease. It stimulates secretion of neuron growth by promoting substances such as brain-derived neurotrophic factor, and it dampens release of the excitatory neurotransmitter glutamate, which kills neurons by overstimulation. THC and other cannabinoids also have powerful anti-inflammatory and antioxidant actions that protect neurons from immune system attack.

Despite these benefits, THC and other compounds in marijuana also have many undesirable side effects on the brain. The trick for scientists will be to isolate the active ingredients in marijuana that are beneficial and develop drugs that can be applied in the proper dose for the specific age of the patient. Campbell finds that the beneficial effects of THC are seen in much lower concen trations of the chemical than are found in the plants people use to get high. “It’s a matter of trying to balance that low concentration within a nice safety margin,” she explains. Synthetic THC-like drugs are already available, as is a naturally derived drug called Sativex that contains THC and other cannabinoids, approved in Canada for treating pain from multiple sclerosis and cancer.

In contrast to these well-controlled drugs, the weed itself is a complex witches’ brew of many brain-altering chemicals. The cannabis plant contains about 60 different cannabinoids, so the challenge lies in trying to tease out which are the important ones for protecting neurons, Campbell explains, echoing the views of other marijuana researchers. “Depending on how the plant is cultivated, the relative proportion of the different types of cannabinoids changes,” she says. “The ‘joints’ that are available now are much stronger in terms of their THC content than those that would have been around when people were thinking of cannabis as being quite a soft drug.” ...Neurobiol Aging. 2009 Sep 21

The benefits of a probiotic witch hunt

Get your pitchforks ready! There are evil-doers out there! We’ve been conned: Probiotics don’t work. Dannon’s settling out of court, EFSA’s rejecting health claims, and the media is starting a witch hunt. ...http://www.scientificamerican.com

Беларусь ТВ

Posted YVN

Human brain “Alzheimerization”

(the myelin model and Internet analogy of the human brain)

PleaseHelpSupport Alzheimer's Research Today!
Your Alzheimer's donation will help billionslive without it. Donate online now

The amyloid hypothesis (AH) of Alzheimer's disease (AD) posits that the fundamental cause of AD is the accumulation of the peptide amyloid beta (Abeta) in the brain. This hypothesis has been supported by observations that genetic defects in amyloid precursor protein (APP) and presenilin increase Abeta production and cause familial AD (FAD). The AH is widely accepted but does not account for important phenomena including recent failures of clinical trials to impact dementia in humans even after successfully reducing Abeta deposits. Herein, the AH is viewed from the broader overarching perspective of the myelin model of the human brain that focuses on functioning brain circuits and encompasses white matter and myelin in addition to neurons and synapses. The model proposes that the recently evolved and extensive myelination of the human brain underlies both our unique abilities and susceptibility to highly prevalent age-related neuropsychiatric disorders such as late onset AD (LOAD). It regards oligodendrocytes and the myelin they produce as being both critical for circuit function and uniquely vulnerable to damage. This perspective reframes key observations such as axonal transport disruptions, formation of axonal swellings/sphenoids and neuritic plaques, and proteinaceous deposits such as Abeta and tau as by-products of homeostatic myelin repair processes. It delineates empirically testable mechanisms of action for genes underlying FAD and LOAD and provides "upstream" treatment targets. Such interventions could potentially treat multiple degenerative brain disorders by mitigating the effects of aging and associated changes in iron, cholesterol, and free radicals on oligodendrocytes and their myelin. ...Neurobiol Aging. 2009 Sep 21

Fish oil supplements (sans liver) are ok

The UK professor who found himself at the heart of an industry storm after his remarks on the value of food supplements were misquoted in the national press has spoken out to clarify his position. ...http://www.nutraingredients.com

Беларусь ТВ

Posted YVN

Increased amyloid beta during wakefulness

(chronic sleep deprivation accelerated amyloid plaque deposition in the brain)

PleaseHelpSupport Alzheimer's Research Today!
Your Alzheimer's donation will help billionslive without it. Donate online now

Chronic sleep deprivation in a mouse model of Alzheimer's disease makes Alzheimer's brain plaques appear earlier and more often, researchers at Washington University School of Medicine in St. Louis report online this week in Science Express. They also found that orexin, a protein that helps regulate the sleep cycle, appears to be directly involved in the increase.

Neurodegenerative disorders like Alzheimer's disease and Parkinson's disease often disrupt sleep. The new findings are some of the first indications that sleep loss could play a role in the genesis of such disorders. "Orexin or compounds it interacts with may become new drug targets for treatment of Alzheimer's disease," says senior author David M. Holtzman, M.D., the Andrew and Gretchen Jones Professor and chair of the Department of Neurology at the School of Medicine and neurologist-in-chief at Barnes-Jewish Hospital. "The results also suggest that we may need to prioritize treating sleep disorders not only for their many acute effects but also for potential long-term impacts on brain health."

Holtzman's laboratory uses a technique called in vivo microdialysis to monitor levels of amyloid beta in the brains of mice genetically engineered as a model of Alzheimer's disease. Amyloid beta is a protein fragment that is the principal component of Alzheimer's plaques. Jae-Eun Kang, Ph.D., a post-doctoral fellow in Holtzman's lab, noticed that brain amyloid beta levels in mice rose and fell in association with sleep and wakefulness, increasing in the night, when mice are mostly awake, and decreasing during the day, when they are mostly asleep.

A separate study of amyloid beta levels in human cerebrospinal fluid led by Randall Bateman, M.D., assistant professor of neurology and a neurologist at Barnes-Jewish Hospital, also showed that amyloid beta levels were generally higher when subjects were awake and lower when they slept. To confirm the link, Kang learned to use electroencephalography (EEG) on the mice at the Sleep and Circadian Neurobiology Laboratory at Stanford University with researchers Seiji Nishino, M.D., Ph.D., and Nobuhiro Fujiki, M.D., Ph.D. The EEG readings let researchers more definitively determine when mice were asleep or awake and validated the connection: Mice that stayed awake longer had higher amyloid beta levels. "This makes sense in light of an earlier study in our lab where John Cirrito, Ph.D., showed that increases in synaptic activity resulted in increased levels of amyloid beta," Holtzman notes. "The brain's synapses may generally be more active when we're awake."

Depriving the mice of sleep caused a 25 percent increase in amyloid beta levels. Levels were lower when mice were allowed to sleep. Blocking a hormone previously linked to stress and amyloid beta production had no effect on these changes, suggesting that they weren't caused by the stress of sleep deprivation, according to Holtzman.

Researchers elsewhere had linked mutations in orexin to narcolepsy, a disorder that is characterized by excessive daytime sleepiness. The brain has two kinds of receptors for orexin, which is also associated with regulation of feeding behavior. When Holtzman's group injected orexin into the brains of the mice, mice stayed awake longer, and amyloid beta levels increased. When researchers used a drug called almorexant to block both orexin receptors, amyloid beta levels were significantly lower and animals were awake less.

Miranda M. Lim, M.D., Ph.D., a neurology resident and post-doctoral researcher in Holtzman's lab, performed long-term behavioral experiments with the mice. She found that three weeks of chronic sleep deprivation accelerated amyloid plaque deposition in the brain. In contrast, when mice were given almorexant for two months, plaque deposition significantly decreased, dropping by more than 80 percent in some brain regions. "This suggests the possibility that a treatment like this could be tested to see if it could delay the onset of Alzheimer's disease," says Holtzman.

Holtzman notes that not only does the risk of Alzheimer's increase with age, the sleep/wake cycle also starts to break down, with older adults progressively getting less and less sleep. Investigators are considering epidemiological studies of whether chronic sleep loss in young and middle-aged adults increases risk of Alzheimer's disease later in life. Holtzman also plans to learn more of the molecular details of how orexin affects amyloid beta. "We would like to know if there are ways to alter orexin signaling and its effects on amyloid beta without necessarily modifying sleep," he says. ...http://www.medicalnewstoday.com

National Starch creates animal free emulsifier for instant foods

National Starch has developed a new fat encapsulation system for instant desserts or other dried products that replaces animal derived ingredients like sodium caseinate. ...http://www.nutraingredients.com

Беларусь ТВ

Posted YVN

New approach to slow down the progression of Alzheimer's

(naturally occurring human anti-amyloid antibodies)

PleaseHelpSupport Alzheimer's Research Today!
Your Alzheimer's donation will help billionslive without it. Donate online now

Researchers from the Memory and Cognition Center at University Hospitals Case Medical Center will begin testing an intriguing new approach to slowing down the progression of Alzheimer's Disease (AD) using Intravenous Immune Globulin (IGIV), also known as gammaglobulin. IGIV is traditionally used to treat primary immunodeficiency disorders, but is not currently approved for treating AD, which is one of the leading causes of dementia in the elderly.

Initial research in experimental models and patients suggests that immunotherapy targeting beta amyloid (the protein that forms the core of plaques in the brain) may provide a more effective way to treat AD. Antibodies that bind to beta amyloid are present in IGIV, which is made from the blood of several thousand healthy adults.

One of the hallmarks of AD pathology is an abundance of beta-amyloid deposits in the brain. While it is not yet known if beta amyloid plaques cause AD or are a byproduct of the disease, scientists are interested in finding ways to reduce the toxic effects of beta amyloid on the brain. Antibodies against beta amyloid may do so by binding to toxic forms of beta amyloid, thereby neutralizing them and/or promoting their elimination. "We are investigating whether IGIV, which contains naturally occurring human anti-amyloid antibodies, will defend the brain of AD patients against the damaging effects of beta amyloid. If it does, giving IGIV to patients with mild to moderate Alzheimer's may potentially slow the rate of progression of the disease," says Alan Lerner, M.D., principal investigator for the study in Cleveland and director of the Memory and Cognition Center.

"In our initial studies in AD patients, IGIV provided significant cognitive benefits, improved brain metabolism and reduced beta amyloid levels in the spinal fluid," says Norman Relkin, M.D., project director and director of the Weill Cornell Alzheimer's Disease and Memory Disorders Program. In a Phase II trial at Weill Cornell, Dr. Relkin reported that participants undergoing several months of continuous IGIV therapy also demonstrated improvement in their activities of daily living. He added, "These findings, as well as IGIV's long established record of safe use for treating other diseases, provide a strong rationale for further study in AD patients on a larger scale."

The GAP (Gammaglobulin Alzheimer's Partnership) Study will examine the safety, effectiveness and tolerability of IGIV in patients with mild to moderate AD. GAP is recruiting 360 participants at 36 sites nationwide. This large Phase III clinical trial expands on earlier testing, is one of two Phase III trials and is part of the final phase in studying IGIV as a potential treatment for AD before seeking regulatory approval. The trial is being conducted by the Alzheimer's Disease Cooperative Study (ADCS), a nationwide consortium of research centers and clinics coordinated by the University of California at San Diego and directed by Paul Aisen, M.D. "As many as five million Americans may be afflicted now and with the numbers growing rapidly, ADCS clinical trials such as the GAP study are essential to finding new and more effective treatments for Alzheimer's disease," Aisen commented. ...http://www.scienceblog.com

Doctors debate vitamin D levels

The Standing Committee of European Doctors (CPME) is preparing a vitamin D policy paper it hopes can influence European national associations considering vitamin D medical recommendations. ...http://www.nutraingredients.com

Беларусь ТВ

Posted YVN