Experimental Drugs on Alzheimer's patients

• FDA "black box" not associated with changes in atypical antipsychotic prescribing rates
  
  
• Non-drug therapy improves brain blood flow
  
• Homocysteine may predict decline in Alzheimer's

Large scale, systematic reviews of published research show that the currently approved Alzheimer's drugs are effective in providing modest but noticeable improvements to people in the mild to moderate stage of the disease, and also found mixed results regarding safety in some of these products, according to new research reported today in Madrid at the 10th International Conference on Alzheimer's Disease and Related Disorders (ICAD), presented by the Alzheimer's Association.

Also among the "Late Submissions" presentations on the last day of ICAD 2006 were:

• A review of atypical antipsychotic prescribing in Alzheimer's in a large managed care database found that an FDA "black box" warning was not associated with a substantial change in prescribing patterns for up to 10 months after the warning was issued.
  
• In people 65 and older, a nondrug therapy for mild cognitive impairment (MCI) including occupational therapy and aerobic exercise improved blood flow in areas of the brain normally affected in Alzheimer's, and also improved memory test scores.
  
• Homocysteine levels in the blood may predict the rate of cognitive decline in Alzheimer's.

"The diversity of research in this session is a wonderful indicator of the vigor of Alzheimer's research," said Ralph Nixon, MD, PhD, a member of the Alzheimer's Association's Medical & Scientific Advisory Council. "And we will continue to move the field forward as fast as we are given money to move it with. While the current drugs provide some noticeable benefits for a period of time, with the aging of the Baby Boomers, we desperately need better therapies that slow, stop and even prevent Alzheimer's disease."

Nixon is Professor of Psychiatry and Cell Biology at NYU School of Medicine, and Director of the Center for Dementia Research at NYU's Nathan Kline Institute.

Systematic Review of the Evidence for Cholinesterase Inhibitors for Alzheimer's

Since the introduction of the first cholinesterase inhibitor (ChEI) as treatment for Alzheimer's, many clinicians have used the approved cholinergic drugs - donepezil, galantamine and rivastigmine - as first line therapies for mild to moderate Alzheimer's. (Tacrine, the first FDA approved ChEI for Alzheimer's, is no longer recommended because of side effects.) Yet, a debate on whether ChEIs are effective continues. For example, in 2005, the National Institute for Health and Clinical Excellence (NICE), which is the independent treatment advisory agency of the United Kingdom's government-funded National Health Service, reviewed its previous recommendation that the ChEIs be used for mild to moderate Alzheimer's. The draft revision indicated that the ChEIs would no longer be recommended as they were not cost effective.

"Due to widespread protests from the public and the medical profession, NICE is reconsidering and will recommend the ChEIs for moderate Alzheimer's only," said Jacqueline Birks, MA, MSc, CStat, of the Cochrane Dementia and Cognitive Improvement Group, Division of Geratology, Department of Clinical Medicine, University of Oxford.

To help inform this debate, Birks conducted a systematic review for the Cochrane Library of all blinded, randomized trials in which treatment for five months or longer with a ChEI was compared with placebo or another ChEI. The main outcomes were cognitive function, global function assessed by a clinician, mood and behavior, activities of daily living and reports of adverse events. She sought to evaluate the efficacy, tolerability and cost effectiveness of the three drugs at the recommended optimal doses in people with Alzheimer's of any severity.

The review included 9,200 patients from 18 trials. The results showed that treatment for periods of six months and one year with donepezil, galantamine or rivastigmine produced modest improvements in cognitive function (on average 2.5 points of the 70 point ADAS-Cog scale), activities of daily living and behavior compared to placebo. The Alzheimer's Disease Assessment Scale Cognitive Subscale (ADAS-Cog) is the most generally accepted scale for measuring cognitive function in Alzheimer's. In addition, clinicians rated overall performance more positively in ChEI treated patients than the placebo group. According to Birks, none of the treatment effects are large.

The review also found that more patients in ChEI treatment groups (29 percent) drop out of research studies because of side effects than those who received placebo (18 percent). There also was evidence of more adverse events in patients treated with a ChEI than with placebo. Nausea, vomiting and diarrhea, were significantly more frequent in the ChEI groups than in placebo. There was some evidence that the use of donepezil is neither more nor less expensive that placebo when assessing total health care costs.

"We conclude that the cholinesterase inhibitors, donepezil, galantamine and rivastigmine, are efficacious for mild to moderate Alzheimer's, and that they show similar treatment effects," Birks said. "There is some evidence that the results are similar for severe dementia. It would be inappropriate to base a decision regarding the availability of ChEIs on their cost effectiveness, for which there is no good evidence."

Cholinesterase Inhibitors and Risk of Death in Vascular Dementia

Some concerns have been raised about the safety of drugs for Alzheimer's and dementia. Galantamine has been associated with an unexpected increased risk for death in trials of patients with mild cognitive impairment (MCI) but not in Alzheimer's. Galantamine is not currently approved for treatment of MCI. Also, a study of donepezil in vascular dementia resulted in increased deaths among patients taking the drug compared with placebo. Though donepezil is not approved in North America and Europe for treating vascular dementia, it is commonly used for this purpose and is approved in several other countries, mainly in Asia.

In light of these concerns, Lon S. Schneider, MD, professor of psychiatry, neurology, and gerontology at the University of Southern California, Keck School of Medicine, and colleagues from the Cochrane Dementia and Cognitive Improvement Group systematically reviewed the available double-blind placebo- controlled trials of cholinesterase inhibitors (ChEls) and memantine, a drug that is approved in the U.S. and E.U. for treatment of moderate to severe Alzheimer's, and statistically analyzed the studies to assess the risk of death. They identified 42 published and unpublished trials of ChEIs and 12 memantine trials. Most were of 6 months duration, totaling more than 20,000 patients in ChEI trials and about 3,600 in memantine trials. Ten trials were not included because the sponsors declined to provide required data.

Overall, when all the cholinesterase inhibitor studies were analyzed together or when the memantine trials were analyzed, the researchers found no evidence for increased risk of death with these drugs. Looking more carefully, they also found no evidence for increased risks in patients with mild to moderate Alzheimer's, the level of illness for with the ChEIs drugs are approved.

Unexpectedly, the researchers found decreased risk of death for those taking donepezil in four trials in moderate to severe Alzheimer's. They found approximately a 50 percent decrease in risk - a drop from about five percent in the placebo group to 2.5 percent in the donepezil group.

"This effect implies a substantial potential public health impact," Schneider said, "in that, for every 41 patients with moderate to severe Alzheimer's treated with donepezil, statistically one death could be prevented over the course of about six months." Donepezil is not approved for treatment of severe Alzheimer's, and only recently have trials of cholinesterase inhibitors in severe Alzheimer's been done.

With respect to risks for donepezil in vascular dementia, the researchers found only three studies, which had great statistical variability among them - two showing increased risk and one showing decreased risk.

"This is concerning," Schneider said. "More studies are needed as a potential increased risk for death could be as high as three times that of people who are not treated. Our study shows why careful examination of all clinical trials together is required to better assess medications' efficacy and safety implications, and also why results from all clinical trials with drugs for Alzheimer's should be made public."

FDA Warning Not Associated with Substantial Decline in Use of Atypical Antipsychotics in Alzheimer's Population

In April 2005, the U.S. Food and Drug Administration (FDA) requested that drug manufacturers add a "black box" warning to prescribing information for atypical antipsychotic drugs because they were determined to be associated with increased mortality in elderly people with dementia with a rate of death estimated at 1.6 to 1.7 times greater than that of placebo. Most deaths were either heart-related or from infections.

Atypical antipsychotics are regularly prescribed to treat a group of very common and very debilitating symptoms often referred to as "behavioral and psychiatric symptoms of dementia," though they are not approved for that purpose. These symptoms include anxiety, depressed mood, hallucinations, delusions, aggression, agitation, wandering, culturally inappropriate behaviors, and sleep disturbances. According to the International Psychogeriatric Association, approximately 83 percent of patients with dementia demonstrate some type of behavioral disturbance.

According to the Alzheimer's Association, people with Alzheimer's and their families often report that these behavioral and psychiatric symptoms are more difficult to manage and cause greater distress than the more well known cognitive symptoms of memory loss, language problems, and reasoning impairment. Behavioral symptoms are often a determining factor in a family's decision to place a loved one in residential care. After placement, these symptoms can have an enormous impact on care and quality of life for individuals living in long-term care facilities.

To examine the number and types of prescriptions being used by clinicians to treat these symptoms in patients with dementia, Henry J. Riordan, Ph.D., of i3 Research, Basking Ridge, NJ, and colleagues examined prescribing trends of atypical antipsychotic agents in the elderly demented patient population by examining the claims database of a large U.S. health plan for a 10-month time period both before and after the FDA warnings were issued. Keeping patient identity anonymous, they included data for all those over 65 years of age with a diagnosis of dementia of any type, including Alzheimer's, who received a prescription for an atypical antipsychotic during this time period.

There were approximately 900,000 people aged 65 and over included in the database. The researchers found that of these, 4,715 had a diagnosis of dementia and were taking an atypical antipsychotic before the black-box warning was issued. Following the warning, 4,545 people with dementia had a prescription claim for an antipsychotic medication, a 3.6 percent decrease.

Data indicate that the FDA black-box warning was not associated with a substantial decrease in the use of atypical antipsychotics in this elderly population with dementia. One interpretation suggested by Riordan is that the benefits of these atypical antipsychotic agents are perceived by prescribers to outweigh their associated risks or the risks associated with no treatment at all.

Riordan further noted that, "As other therapies may not be considered as effective in treating these symptoms, or cause undesirable side effects, clinicians are left with few choices. This suggests an unmet need for new, safe and effective therapies for the behavioral and psychiatric symptoms in Alzheimer's."

Non-Drug Treatment (Exercise & Occupational Therapy) Improves Brain Blood Flow in MCI

A team led by Seigo Nakano, MD, PhD, at the Fifth Department of Internal Medicine, School of Medicine, Fukuoka University, Fukuoka, Japan evaluated the effects of a non-drug therapy on regional cerebral blood flow in amnestic MCI (MCI with memory loss only) among seniors living in the community.

"I was particularly motivated to examine nondrug therapy to prevent further increases in medical expenses as Japanese society is aging at an extremely rapid pace," Nakano said.

The scientists evaluated 32 amnestic MCI subjects aged 65 years or above in Ajimu, Japan. Eighteen participants received nonpharmacological interventions, and 14 control subjects did not. The intervention included occupational therapy, which was planning and doing simple tasks, and aerobic exercise of climbing up and down a step. Specifically, those in the intervention group helped with the renovation of an old building. During the course of the project, they did planning and were assigned to simple tasks. They also decided the menu for lunch, did shopping and cooked the meal. The seniors in the intervention group did these tasks once a week from November 2004 to November 2005.

All participants were given tests of memory, attention, verbal fluency, and other measures of mental functioning before and after the intervention; regional cerebral blood flow was measured using SPECT. On the baseline SPECT study, there was no significance between intervention and control groups. After one year of follow-up, the cognitive functions and regional cerebral blood flow were revaluated.

The researchers found that in the participants with MCI who received the therapy, the memory score and verbal fluency score after the therapy were significantly better compared to those who did not receive the therapy. According to the researchers, the cerebral blood flow of all participants before the intervention showed a pattern typically seen in early Alzheimer's; the blood flow in areas called the posterior cingulate gyri, precuneus and parietal lobules was low. One year later, the researchers observed that, in those who received the therapy, the overall area with low blood flow became smaller and the blood flow in areas usually low in Alzheimer's was improved.

"In people with amnestic MCI, our nondrug therapy may improve cerebral blood flow in areas that usually decrease in Alzheimer's," Nakano said. "This suggests possible effectiveness in preventing them from progressing to Alzheimer's, which deserves further study."

Homocysteine Levels May Predict Rate of Decline in Alzheimer's

In Alzheimer's, the decline in memory and other cognitive skills over time occurs at different rates in different people. For some, the decline is rapid so that in a few years they cannot cope with living on their own, no longer recognize friends or family and require full-time care. In others, the decline is slower and it may be 10 years or more before the final stage is reached. Little is known about why these rates of decline differ so much between individuals.

A team from the University of Oxford led by Professor David Smith, using statistical methods devised by Dr. Abderrahim Oulhaj, believes that the level of homocysteine in the blood may be one factor that predicts the rate of decline. Homocysteine is an amino acid that is involved in metabolism in cells of the body and which passes out into the blood. Elevated blood levels of homocysteine have been linked to increased risk of premature coronary artery disease, stroke, and venous blood clots, even among people with normal cholesterol levels.

In this new study, the researchers examined the association between the level of homocysteine measured when a person with Alzheimer's first visited the clinic and the subsequent rate of decline in cognitive skills. 102 people with a clinical diagnosis of Alzheimer's were evaluated every six months using CAMCOG (the cognitive and self-contained part of the Cambridge Examination for Mental Disorders of the Elderly) for a minimum of 18 months (three bi-annual visits) up to a maximum of 11 years. The CAMCOG is a brief neuropsychological battery designed to assess cognitive functions, and to detect mild degrees of cognitive impairment.

The scientists found that the higher the homocysteine level at the first measurement, the more rapid the subsequent decline.

"A model that best fitted the results was not a straight line but a curved rate of decline," Smith said. "The decline starts slowly, accelerates and then occurs rapidly, finally slowing again."

The researchers also observed a strong relationship between the concentration of homocysteine and the rate of decline; patients with twice as much homocysteine as other study participants declined twice as rapidly and reached the mid-point of their decline two years earlier. The relationship varied according to the age of the patient, and was strongest in patients younger than 75 at the start of the study.

"Because homocysteine can be lowered by taking high doses of folic acid and vitamin B12, the next step is to see whether B vitamin treatment will slow the rate of decline in Alzheimer's, giving people with the disease more time with higher levels of functioning," Smith said.

Mary Joseph Foundation a non-profit international organization.

Helping people who have Alzheimer's disease and children who are hungry especially in the third world countries,

Drugs Looks Promising for Alzheimer's disease

More than 6 million Americans have Alzheimer's disease and well over 10 million baby boomers are expected to develop it in the coming years, which is why there's so much excitement about research being presented this week at a major conference of Alzheimer's experts.

New pill may restore memory loss in less than four weeks.
Dr. Marie Savard, boiled down some of the new developments that will be discussed at the conference.

Alzheimer's can be caused by the build-up of plaque in the brain and by fibrous tangles which wrap around nerve cells in the brain and kill the cells. Previous drugs have attacked the plaque, not very successfully.

A study was published recently that showed a drug called AL 108, which is actually a new type of nasal spray, attacks those fibrous tangles. Patients given AL 108 showed significant improvement in short-term memory after just four weeks and exhibited no side effects.

Testing of the drug is in early phase 2 trials, so a cure is not around the corner and there is no cure right now, but many researchers are excited about the findings.

Researchers at the conference will also present information about a powerful new test to detect Alzheimer's using PET scans.

PET scans have been very useful in detecting early-stage cancer, and researchers hope this new test could detect Alzheimer's as early as 10 years before people show symptoms of the disease, allowing them to begin treatment earlier.

The PET scan tests for Alzheimer's could be approved by the Food and Drug Administration in the next three or four years. PET scans are already widely used in hospitals to test for cancer and other diseases.

Antihistamine Looks Promising for Alzheimer's Patients
Alzheimer's disease can be heartbreaking to watch and frustrating to treat. Most medicines on the market do little more than delay the inevitable mental decline.

Preliminary tests show that Dimebon helps in restoring some memory.
But a new drug called Dimebon appears to stop and perhaps even reverse the symptoms of the cruel and degenerative disease, according to a new study published in the journal Lancet today.

"I was pleasantly surprised to see the effect on cognitive function, on memory, on activities of daily living that not only were clearly significant but seemed to increase over time," said Dr. Sam Gandy, former chairman of the Alzheimer's Association Medical and Scientific Advisory Council.

Dimebon wasn't designed to treat Alzheimer's disease. Far from it. It's an antihistamine that was supposed to treat allergies.

But a study that tracked 120 mild to moderate Alzheimer's patients for a year, and found that at six months those taking Dimebon three times a day showed significant improvement in mental tests and cognitive functioning, while those placed on the placebo kept deteriorating. A year into the study, the Dimebon group was still improving, while those without the drug were declining rapidly.

Hopes Dashed for Alzheimer's Drug
Researchers Abandon Flurizan; Doctors Hold Out Hope for Effective Approach
Many Alzheimer's researchers deny that the failure of a promising remedy for the degenerative disease requires a return to the drawing board, saying the setback is not a death knell for drugs designed to target a protein in the brain considered the trigger for the disease.

Still, doctors are disappointed that the treatment fell short of expectations -- especially when its makers spent $60 million on it during the past year alone.

On June 30, Myriad Genetics Inc. announced that its drug Flurizan didn't improve cognitive function or performance of daily activities for people who have Alzheimer's disease. A recent clinical trial tested the drug for 18 months in patients with a mild form of the condition.

"We are disappointed that Flurizan failed to achieve significance in this study, and we will now discontinue development of this compound," Myriad's CEO Peter Meldrum said in a statement.

Flurizan targeted one type of protein in the brain called beta amyloid. Researchers believe that the protein forms clumps that clog the connections between brain cells, which may contribute to the symptoms of Alzheimer's, which include progressive memory loss.

It was hoped that Flurizan would decrease the production of beta amyloid and slow the progression of the disease.

However, many scientists say they were not surprised by the findings. In fact, they say they even expected the outcome after seeing the underwhelming results of an earlier trial of the drug.

"The bottom line is that Flurizan was a nonstarter from the very beginning," says Rudy Tanzi, professor of neurology at Harvard Medical School in Boston. Tanzi is also the co-founder and shareholder of two companies that develop Alzheimer's treatments.

When results released in 2006 did not show an overall positive effect of Flurizan on brain function, Myriad researchers narrowed the patient population to target a small subgroup of people who benefited from the drug. They used this population -- patients who had mild Alzheimer's disease and took a high dose of the drug -- in the most recent trial.

But by that time, the earlier trial had already "cast considerable doubt on the potency of the drug in Alzheimer's disease," says Dr. Sid Gilman, director of the Michigan Alzheimer's Disease Research Center in Ann Arbor, Michigan...

"I have been skeptical of this all along," Gilman added.

Where to Go From Here
Doctors say that this latest defeat in the fight against Alzheimer's gives no indication of the state of research relating to the disease.

"Flurizan was the first shot on goal, but it was a shot from the 50-yard-line by a fifth grader," Tanzi says. "This is by no means a failure of all drugs that target amyloid beta."

Dr. Ronald Petersen, director of the Alzheimer's Disease Treatment Center at the Mayo Clinic in Rochester, Minn., agrees and says, "There are many other alternatives in the pipeline that show promise."

Among these are drugs aimed at various targets, Gilman says, including the immune system, receptors for various chemicals that bathe brain cells, and other pathways for stopping the pesky proteins that researchers believe contribute to Alzheimer's symptoms.

But treating and curing the condition may require a tag team of therapies to achieve the most effective results.

"I suspect that the reality is that attacking the amyloid cascade is a complicated issue, and no single therapeutic strategy is likely to be the final answer," Petersen says.

Scientists are optimistic that even with Flurizan's demise, a plausible treatment will emerge soon.

"History has shown that when you have a new mechanism and a new target, inevitably the first wave of drugs is usually the worst," Tanzi says, referring to the findings from Flurizan. "In these situations you need to be patient and wait for the second or third wave of drugs. ... That wave is coming."

There are still no CURE of any kind for Alzheimer's disease today on the world market... Dr.William Thomas.

Mary Joseph Foundation a non-profit organization for Alzheimer's disease.

Alois Alzheimer

Alois Alzheimer was born in 1864 in Markbreit in Bavaria, Southern Germany. Excelling in sciences at school he studied medicine in Berlin, Aschaffenburg Tubingen and Wurzburg where he graduated with a medical degree in 1887. He began work in the state asylum in Frankfurt am Main, becoming interested in research on the cortex of the human brain. Here he commenced his education in psychiatry and neuropathology.

Along with Franz Nissl, a colleague at the asylum, Alzheimer spent the following years working on a major six volume study, the 'Histologic and Histopathologic Studies of the Cerebral Cortex,' describing the pathology of the nervous system. The work was finally published between 1907 and 1918. In 1895 Alzheimer was appointed director of the asylum where he continued his research on a number of subjects including manic depression and schizophrenia.

Today, the pathological diagnosis of Alzheimer's disease is still generally based on the same investigative methods used in 1906. This is remarkable compared with the development of investigative methods for other diseases, and it speaks volumes about the quality of Alzheimer's discovery.

Alzheimer's disease is the most common cause of dementia and accounts for 65% - 80% of all cases. It destroys brain cells and nerves disrupting the transmitters which carry messages in the brain, particularly those responsible for storing memories. Alzheimer's disease was first described by A. Alzheimer's in 1906.

During the course of Alzheimer's disease, nerve cells die in particular regions of the brain. The brain shrinks as gaps develop in the temporal lobe and hippocampus, which are responsible for storing and retrieving new information. This in turn affects people's ability to remember, speak, think and make decisions. The production of certain chemicals in the brain, such as acetylcholine is also affected. It is not known what causes nerve cells to die but there are characteristic appearances of the brain after death. In particular, 'tangles' and 'plaques' made from protein fragments are observed under the microscope in damaged areas of brain. This confirms the diagnosis of Alzheimer's disease.

Currently there are over 30 million peoples worldwide who are living with Alzheimer’s disease and that number is expected to grow to well over 61 million by 2020. Alzheimer’s disease is the seventh leading cause of death in the United States and number six worldwide.

Mary Joseph Foundation a non-profit international organization for Alzheimer's disease

137 1/2 Washington Ave,
Belleville, New Jersey 07109

A world without Alzheimer's and hungry Children.

We really cares about you!

Our main gold is to eliminate Alzheimer's disease through the advancement of research; at the same time to provide and enhance care and support for all affected by this disease; and to reduce the risk of dementia through the promotion of brain health. We are working very hard so that one day there would be a world without Alzheimer's disease, but for now with your donations its allow us to build homes, give medicines, foods, vitamins, caring and remove individuals who have Alzheimer's disease from the street who are homeless and from mental homes and cares for them, our services are FREE.

It hurt me very, very much that tears some times come to my eyes to see so much people here in America and around the world suffering from Alzheimer's disease and the children who go with out foods and many times are homeless.

Mary Joseph Foundation cares and we are doing everything possible to eliminate Alzheimer's disease, homelessness and hunger.

We are looking for more companies to work with us on Alzheimer's disease and children who are hungry and homeless.

To help please send all mails and donations to: Mary Joseph Foundation a non-profit organization, 137 1/2 Washington Ave, Belleville, NJ 07109

Melrose Joseph
Director
Mary Joseph Foundation

Every 22 seconds in the world and 71 seconds in America someone get Alzheimer's

Autobiographical memory: Memory for the personal events and facts of one's life.

There is no single concept called " memory " There are two overarching types: short-term, which allows you to remember the beginning of this sentence by the time you reach the end of it, and long-term, which includes unconscious habits and reflexes, general facts and knowledge, and autobiographical memory ... memory for the personal details, facts and experiences of your life.

Just like the rest of our bodies, our brains change as we age. Most of us notice some slowed thinking and occasional problems remembering certain things. However, serious memory loss, confusion and other major changes in the way our minds work are not a normal part of aging.

Is a progressive and fatal brain disease. There are over 6 million Americans now have Alzheimer’s disease. Alzheimer's destroys brain cells, causing problems with memory, thinking and behavior severe enough to affect work, lifelong hobbies or social life. Alzheimer’s gets worse over time, and it is fatal. Today it is the seventh-leading cause of death in the United States.

We are doing everything possible to help individuals who have Alzheimer's disease and also to find a cure.

Changing The Present helps nonprofit's raise awareness Alzheimer's disease and raise money by making charitable giving more convenient, cost-efficient, and rewarding than ever before.

Register for a Premium membership for just a donation per year to take full advantage of our FREE services and online purchasing and fundraising.

Remember someone develops Alzheimer's disease
every 22 seconds and it could be you.

Don't let Alzheimer's steal
you or your love one dreams. Act now !!!

Mary Joseph Foundation a non-profit organization for Alzheimer's disease

To really see the suffering and pain that Alzheimer's disease causes you have to really see and experience the suffering of your dear love one, it was very, very hard for me to see my mother in so much pain, that many times tears would start coming from my eyes.

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Alzheimer's disease and the affects.

A few days ago several studies on Alzheimer's disease show

memories are first processed in the entorhinal cortex, which also is where Alzheimer's seems to begin its spread.

Evidence at the cellular level shows there are two causes for the onset of Alzheimer's. Starchy plaques crowd the space between brain cells. Tangles of tau proteins clomp together, sabotaging communication pathways.

For such important structure, little is known about the circuitry of the entorhinal cortex. What is known is that the activity levels of its neurons seem to predict whether something will be remembered or forgotten, for example the entorhinal cortex is the first area in the brain damaged by Alzheimer's. It is like a small fire set by an arsonist, the disease smolders here, then works upward through the centers of speech and language and spreads across the ceiling of the brain, moving into the visual cortex in the back, the motor cortex in the front, then into the most forward part, where cognition, judgment and reasoning reside.

Having dismantled the walls and floors of the brain's major lobes, Alzheimer's descends into the subcortex , finally attacking the brain stem and choking off the most basic processes of life, swallowing, breathing, blood pressure.

Recently, researchers identified abnormal tau protein in the entorhinal cortex before dementia was even clinically detectable. For years now most researchers targeted a different symptom, the amyloid beta plaques that gum up the spaces between the brain's neurons, causing them to die.

We are our memories, and almost everything we do is guided by the experiences we have had. All of our skills, our aspirations, our hopes, dreams, and imagination come out of our experiences and the accumulated benefit we have derived from them.

It is that very foundation, however, that turns tremulous for those with Alzheimer's.

All such memories are an amalgam of associations.

We are trying our best to find a cure and at the same time helping individuals who have Alzheimer's.

There are still no Cure on the market today for Alzheimer's disease...Dr. William Thomas


Mary Joseph Foundation
137 1/2 Washington Ave,
Belleville, New Jersey 07109

More about Alzheimer's disease

Until the late 1970s, the study of such personal memory was not considered suitable for scientific inquiry. Whatever played across the mind's screen was private and unknowable to the outside world.This lack of knowledge about how memory works made it almost impossible to unravel one of medicine's most vexing questions - the cause of Alzheimer's, an age-related disease affecting more than six million Americans.

But an examination of the latest research, some of it not yet published, shows that, neuron by neuron, scientists are finally making their way into the deepest recesses of human memory. Like the first blurry, black-and-white pictures sent back from the surface of the moon, the view is still imperfect, but memory's secret landscape is slowly being revealed.For example Scientific are now using laser and different type of wire devices to cause regression to the memory.

Science is unlocking many of the mysteries of the brain, but we don’t have all the answers yet. You can do everything “right” and still not prevent Alzheimer’s disease. What’s offered here is the best and most up-to-date information available so that you can make your own decisions about your health.

Mary Joseph Foundati0n

http://www.maryjosephfoundation.blogspot.com