Health Questions - Mercy Medical Center

Mercy: Excellence. Every Day in Every Way.

•	In-Depth Reports Home

In This Report

•	Highlights
•	Introduction
•	Causes
•	Risk Factors
•	Prevention
•	Symptoms
•	Diagnosis
•	Medications
•	Stages
•	Resources
•	References

Related Reports

•	Depression

Encyclopedia

•	Dementia
•	Alzheimer’s disease

More Features

•	Printer-friendly version

Alzheimer's disease

Highlights

Alzheimer’s Disease Toll Increasing

More than 5 million Americans now have Alzheimer’s disease, and the number could increase to 16 million by mid-century, according to a 2007 report from the Alzheimer’s Association.

New Drug Indication

In 2006, the FDA expanded the use of donepezil (Aricept) to include treatment of people with severe dementia associated with Alzheimer’s disease. Donepezil was previously approved only for people with mild-to-moderate dementia.

Managing Psychotic and Behavioral Symptoms

Newer antipsychotic drugs are no better than placebo for controlling psychosis, aggression, and agitation in patients with Alzheimer’s disease, indicates an important study in the New England Journal of Medicine. In addition, these drugs can cause severe side effects and have been associated with increased death rate.
Non-drug approaches, such as behavioral techniques and bright light boxes, may be helpful for these patients, suggests an Archives of Internal Medicine study.

Brain Exercises Prevent Mental Decline

Cognitive training exercises that help boost memory, reasoning, and processing speed may help slow mental decline and improve functional abilities in older adults, indicates a Journal of the American Medical Association study.

Nonsteroidal Anti-Inflammatory Drugs (NSAIDs) Do Not Prevent Alzheimer’s

The NSAIDs naproxen (Aleve) and celecoxib (Celebrex) do not protect against Alzheimer’s disease, indicates a data analysis from a large-scale U.S. National Institutes of Health (NIH) clinical trial.

Docosahexaenoic Acid (DHA) for Alzheimer’s Prevention

DHA, an omega-3 fatty acid found in some types of fish, may lower the risk for dementia and Alzheimer’s disease as well as delay its progression. However, researchers are uncertain whether DHA dietary supplements provide the same benefits as food sources (salmon, mackerel, and other types of fatty fish). In 2007, the NIH announced the launch of a national clinical trial to evaluate whether DHA can slow cognitive and functional decline in people with mild-to-moderate Alzheimer’s disease.

Support for Caregivers

Intensive programs that combine counseling, support groups, and problem-solving techniques can dramatically improve caregivers’ quality of life and may help delay patients’ transfers to nursing homes, several recent studies suggest.

Introduction

Alzheimer's disease (AD) is a degenerative disease of the brain from which there is no recovery. The disease slowly attacks nerve cells in all parts of the cortex of the brain and some surrounding structures, thereby impairing a person's abilities to govern emotions, recognize errors and patterns, coordinate movement, and remember. Ultimately, a person with AD loses all memory and mental functioning.

The major areas of the brain have one or more specific functions.

Causes

Researchers are finding specific biologic factors involved with Alzheimer's disease. Various environmental and genetic players appear to contribute to or trigger the process by which these factors destroy nerve cells leading to this disease.

Biologic Factors in the Brain

Imaging techniques in patients with Alzheimer's disease have found significant loss of cells and volume in the regions of the brain devoted to memory and higher mental functioning. Important abnormalities have specifically been observed during biopsies:

Twisted nerve cell fibers, known as neurofibrillary tangles
A sticky protein, beta amyloid

Other factors also play a role.

Click the icon to see an animation about Alzheimer's disease.

The Effects of Neurofibrillary Tangles and Beta Amyloid in Alzheimer's Disease. These biologic factors appear to be involved in the development Alzheimer's disease in the following ways:

Neurofibrillary tangles are the damaged remains of microtubules, the support structure that allows the flow of nutrients through the neurons (nerve cells). A key component in these tangled fibers is an abnormal form of the tau protein, which in its healthy version helps in the assembly of the microtubule structure. The defective tau, however, appears to block the actions of the normal version.
Beta Amyloid (also called A beta) is the second significant finding. This insoluble protein accumulates and forms sticky patches called neuritic plaque, which are found surrounded by the debris of dying nerve cells in the brains of Alzheimer's victims.
Amyloid precursor protein (APP) is a large nerve-protecting protein that is the source of beta amyloid. In Alzheimer's certain enzymes, particularly those called gamma-secretases, snip APP into beta amyloid pieces. This process is controlled by factors called presenilin proteins. (Genetic abnormalities that affect either APP or presenilin proteins occur in some inherited cases of early-onset Alzheimer's.)
High levels of beta amyloid are associated with reduced levels of the neurotransmitter acetylcholine. (Neurotransmitters are chemical messengers in the brain.) Acetylcholine is part of the cholinergic system, which is essential for memory and learning and is progressively destroyed in Alzheimer's disease.
Beta amyloid may also disrupt channels that carry sodium, potassium, and calcium. These elements serve the brain as ions, producing electric charges that must fire regularly in order for signals to pass from one nerve cell to another. If the channels that carry ions are damaged, an imbalance can interfere with nerve function and signal transmission.

Click the icon to see an image of amyloidosis.

Other Proteins. Researchers have now identified other important proteins in the areas of the brain affected by Alzheimer's disease.

ERAB (endoplasmic-reticulum associated binding protein) appears to combine with beta amyloid, which in turn attracts new beta amyloid from outside the cells. High amounts of ERAB may also enhance the nerve-destructive power of beta amyloid.
AMY plaques resemble beta amyloid so closely that researchers were able to detect them only with the use of highly sophisticated techniques.
Elevated levels of a protein called prostate apoptosis response-4 (Par-4) may cause nerve cells to self-destruct.

Oxidation and the Inflammatory Response

Researchers are also attempting to discover why beta amyloid is so toxic to nerve cells. Some researchers are focusing on two processes in the body that may be involved with Alzheimer's disease: oxidation and the inflammatory process. There is some evidence that such events can begin decades before Alzheimer's disease actually develops. One scenario for their role in Alzheimer's is as follows:

The Role of Oxidation.

As beta amyloid breaks down it releases unstable chemicals called oxygen-free radicals. Once released, oxygen-free radicals bind to other molecules through a process called oxidation.
Oxidation is the result of many common chemical processes in the body, but when oxidants are overproduced, they can cause severe damage in cells and tissue, including even affecting genetic material in cells (its DNA). Oxidation is known to play a role in many serious diseases, including coronary artery disease and cancers, and experts believe it may also contribute to Alzheimer's.

The Inflammatory Response.

One result of oxidation is the marshaling of immune factors to repair the cellular injuries it produces. Overproduction of some of these factors, however, produces the so-called inflammatory response, in which the immune process itself can actually damage the body's own cells themselves.
Principle immune cells in the brain are called macrophage/microglia (M phi). In the healthy brain, they play an important protective role against invading organisms. However, when they are activated by beta amyloid oxidation, they release toxic molecules called cytokines, which are known to cause harm. For example, significantly high levels of interleukin-6, a specific cytokine, have been detected in people with Alzheimer's.
Other inflammatory factors of specific interest in Alzheimer's research are the enzyme cyclooxygenase (COX) and its products called prostaglandins. Excess amounts of these factors may increase levels of glutamate. Glutamate is an amino acid that excites nerves and, when overproduced, is a powerful nerve-cell killer.
The inflammatory process has also been associated with the release of soluble toxins called amyloid beta-derived diffusible ligands, which some investigators believe may prove to key players in the destructive process.

Genetic Factors

Major research targets in Alzheimer's disease are the factors responsible for beta amyloid build-up and concentration in certain people and not in others. Genetic factors are believed to play a role in many cases. In 2003, the National Institute on Aging (NIA) launched the ambitious AD Genetics Initiative, a 3-year national project to bank genetic material from families who have at least two members with late-onset Alzheimer's.

The ApoE Gene and Late-Onset Alzheimer's. The major target in genetic research on late-onset Alzheimer's disease (called LOAD) has been apolipoprotein E (ApoE), which plays a role in the movement and distribution of cholesterol for repairing nerve cells during development and after injury.

The gene for ApoE comes in three major types:

ApoE4. Studies have reported the greatest deposits of beta amyloid in people with ApoE4, which is now believed to be a major risk factor for late-onset Alzheimer's. Some evidence suggests that the ApoE protein removes beta amyloid but the ApoE4 variant does so less efficiently than other ApoE types. (ApoE4 has also been studied for years as a risk factor for heart disease.)
ApoE3 and ApoE2. Fewer beta amyloid deposits have been observed in people with the ApoE3, and the fewest deposits have been observed in people with ApoE2, which may actually be protective.

People inherit a copy of one type from each parent, but Alzheimer's disease is not inevitable even in people with two copies of the ApoE4 gene. Reports vary widely in estimating the extent of risk:

People without ApoE4 have an estimated risk of between 9 - 20% for developing Alzheimer's by age 85.
In people with one copy of the gene, the risk is between 25 - 60%.
In people with two copies, the risk ranges from 50 - 90%. (Only 2% of the population carries two copies of the ApoE4 gene.)

Some researchers suspect that some specific variation of the ApoE4 gene or combinations with other genes are critical for the disease, since many people who carry the ApoE4 exhibit no signs of Alzheimer's. For example, evidence suggests that genetic factors play a role in a common subtype of late-onset Alzheimer's disease that also includes psychosis. An important 2002 genetic study has identified certain genetic linkages associated with ApoE4 that appear to play a strong role in this subtype.

Other Genetic Factors in Late-Onset Alzheimer's. Most people with late-onset Alzheimer's disease do not carry the ApoE4 gene. Increasingly, researchers believe that many cases of late-onset Alzheimer's result from a combination of genetic factors that participate in the process of producing or degrading beta amyloid. Some under investigation include:

Researchers are targeting chromosomes 9, 10, and 12 as possible locations for genetic factors involved with Alzheimer's disease. (The ApoE4 gene is on chromosome 19.) In 2005, researchers announced that mutations linked to the ubiquilin 1 (UBQLN1) gene, located on chromosome 9, might be associated with increased risk for late-onset Alzheimer's disease.
Researchers have detected mutations in the proteins amyloid precursor protein (APP) and ubiquitin-B (Ubi-B), which may account for some cases of late- and early-onset Alzheimer's. Such mutations are not inherited, however, but appear to be genetic mistakes that occur during transcription, the coding process in which DNA establishes the pattern for the production of its proteins and other molecules.
In 2007, researchers identified mutations in the SORL1 gene as a possible factor in late-onset Alzheimer’s disease. Researchers think that variations in this gene may contribute to amyloid plaque formation in Alzheimer’s disease.

Genetic Factors for Early-Onset Alzheimer's. Scientists are coming closer to identifying defective genes responsible for early-onset Alzheimer's, an uncommon, but extremely aggressive form of the disease.

Mutations in genes known as presenilin-1 (PS1) and presenilin-2 (PS2) account for most cases of early-onset inherited Alzheimer's disease. The defective genes appear to accelerate beta amyloid plaque formation and apoptosis, a natural process by which cells self-destruct.
Genetic mutations in the genes that control amyloid precursor protein (APP) are also being targeted as causes of early-onset Alzheimer's. The genetic disease Down syndrome, for example, overproduces beta-amyloid precursor protein (APP), the source of beta amyloid, and almost always leads to early Alzheimer's. Other APP mutations are being identified.

Environmental Factors

Researchers are also investigating environmental factors (infections, metals, industrial and other toxins) that may trigger oxidation, inflammation, and the disease process, particularly in people with a genetic susceptibility to Alzheimer's.

Infectious Organisms. Slow, infectious viruses cause a number of other degenerative neurologic diseases, such as kuru and Creutzfeldt-Jakob disease.

Click the icon to see an image of Creutzfeldt-Jakob disease.

Although no specific virus has been linked to Alzheimer's, some researchers theorize that people with a genetic susceptibility to Alzheimer's may be vulnerable to the actions of certain viruses, particularly under circumstances when the immune system may be weakened.

Metals. Some laboratory studies have reported excessive amounts of metal ions such as zinc, copper in the brain of people with Alzheimer's disease. Such ions may possibly change the chemical architecture of normal beta amyloid, making it more harmful. A mildly acidic environment appears to be important in the process that binds these metals to beta amyloid. Experts observe that such conditions (acidic environment and higher levels of zinc and copper) commonly occur as part of the inflammatory response to local injury.

Electromagnetic Fields. Some studies on people exposed to intense electromagnetic fields (EMF) have reported a higher incidence of Alzheimer's. However, the association between EMF and Alzheimer's is very weak.

Risk Factors

Alzheimer's disease is the seventh leading cause of death in American adults. It affects about 5 million Americans and 8 million more people worldwide. According to the U.S. Alzheimer’s Association, 1 in 8 people age 65 and older, and nearly 1 in 2 people over age 85, have Alzheimer’s disease.

Age is the greatest risk factor for Alzheimer's disease. The number of cases of Alzheimer's disease doubles every 5 years in people over 65. By age 85, almost half of all people are afflicted. People with the disease survive, on average, half as long as similarly aged adults without the disease.

With the increasing numbers of aging adults, unless effective methods for prevention and treatment are developed, Alzheimer's disease will reach epidemic proportions, afflicting about 16 million Americans within 50 years. Evidence points to older age, high blood pressure, cholesterol levels, and a family history of the disease as the most important risk factors for Alzheimer's disease.

Gender and Estrogen Loss

Several studies have reported that women have a much higher risk for Alzheimer's disease than men. If there is a gender difference, it is likely to be due estrogen, the primary female hormone, which appears to have properties that protect against the memory loss and lower mental functioning associated with normal aging. Such actions include blocking production of beta amyloid, offering antioxidant protection, and regulating blood sugar (glucose) levels in the brain. The drop in estrogen levels after menopause may explain a higher risk for Alzheimer's disease in older women than in men. (Testosterone, the male hormone, converts to estrogen, which may help protect men.) Studies have been mixed, however, on the association between the decline in natural estrogen levels and mental functioning in older women.

Family History and Population Differences

People with a family history of the disease are at higher than average risk for Alzheimer's disease. Researchers are identifying important genetic factors, notably the ApoE4 gene, that may be responsible for late- and early-onset cases.

Dietary and other cultural factors that increase the risk for hypertension and unhealthy cholesterol levels may also play a role. For example, a study of Japanese men showed that their risk increased if they emigrated to America. And the disease is much less common in West Africa than in African-Americans, who share the same or higher risk with Caucasians in America.

Risk Factors for Cardiovascular Disease

High blood pressure and unhealthy cholesterol levels -- the same important risk factors for heart disease and stroke -- may also be risk factors for Alzheimer's disease. In fact, they appear to be more important than ApoE4, the genetic factor most commonly associated with Alzheimer's disease.

Blood pressure is the force applied against the walls of the arteries as the heart pumps blood through the body. The pressure is determined by the force and amount of blood pumped and the size and flexibility of the arteries.

High Blood Pressure. Studies have reported an association between Alzheimer's disease and systolic hypertension (the higher and first number in blood pressure measurement). High blood pressure can cause problems with the vascular system, which is responsible for delivering blood to the brain. Recent research suggests that some types of blood pressure medication may lower Alzheimer's risk.

High Cholesterol Levels. Research indicates an association between high cholesterol levels and Alzheimer's disease in some people. One theory is that cholesterol regulates the processing and accumulation of amyloid beta-protein.

Click the icon to see an image of cholesterol.

Stroke. High blood pressure and heart disease can increase the risk for stroke. For people who have Alzheimer’s disease or mild cognitive impairment, stroke can increase the decline of cognitive function and accelerate dementia.

Diabetes. Patients with diabetes often have high blood pressure, lipid imbalances, and circulatory disorders that affect the heart and vascular system, which in turn increases the risk for Alzheimer’s. In patients who do not have other risk factors for Alzheimer’s, diabetes itself may increase risk. Research also suggests that diabetes can increase the risk for mild cognitive impairment, a condition that often precedes Alzheimer’s disease.

High Homocysteine Levels. Homocysteine is an amino acid that has been identified as a modest risk factor in heart disease. It has also been associated with a higher risk for Alzheimer's disease. High levels are general due to deficiencies of the B vitamins B6, B12, and folate. Such vitamins are also related to nerve protection. Researchers theorize that homocysteine impairs the ability of DNA to repair nerve cells. The weakened cells are then more vulnerable to the harmful effects of oxidized beta amyloid.

Down Syndrome

Nearly all patients who inherit Down syndrome develop changes in the brain that resemble Alzheimer's if they live into their 40s, although onset varies and can occur as late as age 70. Women under the age of 35, but not older mothers, who give birth to children with Down syndrome are also at much higher risk for Alzheimer's.

Other Risk Factors Associated with Alzheimer's Disease

Lower Education and Economic Groups. A number of studies have reported either a higher risk for Alzheimer's disease in people with less education or a lower risk for Alzheimer's disease in those who remain mentally active. Some experts speculate that learning itself may stimulate more neurons to grow and thus create a larger reserve in the brain so that it takes longer for brain cells to be destroyed. Some evidence suggests that early malnutrition, which is more likely to occur in lower income and educational groups, has been associated with smaller brains and with Alzheimer's disease in old age. Low-birth weight can cause problems in growth factors that could affect both mental and physical health later on in adulthood.

Small Head Size. The size of the skull is fixed by age 7. Brain size approximates the head size until old age, when it begins to shrink. Some evidence has reported an association between small head size (and therefore less brain volume) and Alzheimer's disease, possibly because people who start with larger brains can sustain more injury over time. For example, a 2002 study indicated that it was reduction in overall brain volume, not specific regions, that contributed to mental impairment in older healthy adults. Another study reported that people who had small heads plus the ApoE4 gene had 14 times the risk for Alzheimer's disease than those without this combination. Nevertheless, other studies have found no association between a small head size and Alzheimer's disease.

Some experts suggest that the relationship observed in other research may simply be due to social and economic factors, such as malnutrition or low birth weight, which have been associated with both Alzheimer's disease and small head size. Small head size independent of other factors, they argue, does not pose a higher risk for either Alzheimer's disease or low intelligence

Depression. There is a significant overlap between depression and dementia in the elderly. In fact depression itself is often an early symptom of Alzheimer's disease. In a 2002 study of Catholic nuns, for each of four depressive symptoms, the risk for developing Alzheimer's disease increased by an additional 19%. For example, for a woman with four depressive symptoms the risk increased by 76%. Some evidence suggests that there may even be common genetic factors in people who have both early depression and Alzheimer's disease.

Head Injury. Some studies have found an association between serious head injuries in early adulthood and the development of Alzheimer's. It is not yet known if such injuries directly cause Alzheimer's or simply accelerate the disease in people who are already susceptible to it.

Prevention

Although there is no strong evidence that any lifestyle change can prevent Alzheimer's disease, studies suggest that certain behaviors may help protect against mental decline. In particular, medications and lifestyle choices that protect the heart may be of specific importance. Various preventive drugs are under investigation, including antioxidant and anti-inflammatory therapies.

Nonsteroidal Anti-Inflammatory Drugs (NSAIDs) as Prevention

In 2004, the National Institutes of Health (NIH) halted a large clinical trial that was investigating the use of anti-inflammatory drugs in preventing Alzheimer's disease. While prior data had confirmed that NSAIDs were not effective in treating AD, research continued to explore these drugs' potential preventive benefits.

The Alzheimer's Disease Anti-Inflammatory Prevention Trial (ADAPT) was launched in 2001 to investigate whether long-term use of naproxen (Aleve) or celecoxib (Celebrex) could decrease the risk of developing AD. The trial was based on the premise that because inflammation is known to be involved in the process of Alzheimer’s disease, anti-inflammatory drugs may help to prevent it. The NIH suspended this trial due to evidence that the NSAID naproxen was associated with increased incidence of cardiovascular and cerebrovascular events among participants. No adverse effects appeared during this trial for the COX-2 inhibitor celecoxib. However, heart safety concerns about this drug had been raised in other trials, and investigators did not believe that celecoxib's potential benefits outweighed its risks.

Since 2004, the ADAPT investigators have continued to monitor the trial’s participants to see if these treatments had any effect in changing their risk for Alzheimer’s. In an update analysis of ADAPT data published in 2007, the researchers announced that neither naproxen nor celecoxib appear to reduce the risk for Alzheimer’s.

Heart-Protective Medications and Behaviors

The same lifestyle and medical choices that reduce risk factors for heart disease and diabetes are important for reducing the risk for Alzheimer's disease. And, experts believe that treating high blood pressure and diabetes may help slow the progression of Alzheimer’s disease. The following are some heart-protective medications that may also protect the brain.

Blood Pressure Drugs. Because high blood pressure is associated with increased risk of Alzheimer’s, researchers have been studying whether blood pressure medication can reduce this risk. In a 2006 study of patients who took high blood pressure drugs, researchers found that potassium-sparing diuretics reduced the risk of developing Alzheimer’s by 70%. Beta-blockers and certain calcium channel blockers also helped to a lesser extent. ACE inhibitors appeared to offer no protection.

Statins. Statins are common drugs used to lower cholesterol levels. In past years, a number of studies reported a significantly lower risk for Alzheimer's disease in patients who took statins. However, newer studies have failed to prove that statins can help prevent Alzheimer's disease. In these recent studies, large numbers of elderly people had their dementia evaluated at baseline and then monitored over several years. The results indicated that statin use did not predict onset of AD. In the meantime, the NIH is conducting a clinical trial to investigate whether simvastatin can slow the progression of AD.

Male and Female Hormone Replacement Therapies

Hormone Replacement Therapy. Hormone replacement therapy (HRT) has been studied for years for health effects after menopause, including its effect on mental decline. A number of studies, including a major 2003 analysis, have found no differences in mental performance and no protection from Alzheimer's disease in women taking HRT compared to non-users. The 2003 trial, called the Women's Health Initiative Memory Study (WHIMS), enrolled 4,500 women over 65 years of age. The WHIMS study showed that older postmenopausal women who took combination HRT (estrogen plus progestin) had twice the risk of developing dementia than similarly aged women who received placebo pills. In addition to increasing the risk for dementia (including Alzheimer's disease), combination HRT failed to prevent the development of mild cognitive impairment. Based on these results, the researchers from the National Institute on Aging (NIA) recommended against prescribing combination hormone therapy to older women for maintaining or improving cognitive function. The NIA continued to research whether estrogen-only therapy could prevent or delay the onset of Alzheimer's disease. Results released in 2004 indicated that women ages 65 years and older who took estrogen-only HRT had a slightly increased risk of developing dementia.

Testosterone. Some testosterone converts to estrogen, which may be why older men appear to have a lower risk for Alzheimer's disease than older women. Animal studies have suggested that testosterone may help reduce levels of beta amyloid. There is also some evidence that low testosterone levels may be a particular risk factor in men with the ApoE4 gene. Some experts believe that giving testosterone to elderly men, and combinations of testosterone and estrogen to older women, may prove to be protective. Side effects of testosterone in women include increased body hair, acne, fluid retention, anxiety, and depression. Long term benefits or serious adverse effects are unknown.

DHEA. Dehydroepiandrosterone (DHEA) is a male-like hormone in the body that declines with age. Some evidence suggests that it may help reduce mental decline in older women, but not in older men. Studies are under way. The hormone may, however, reduce HDL (the so-called good cholesterol) when taken in higher doses. While its effect on cancer-cell growth is unknown, some evidence indicates that high levels may increase cancer risk. In any case, DHEA is not regulated, and brands vary widely in their content.

Dietary Factors

Because Alzheimer's disease rates vary among different populations, investigators are researching how diet can help in prevention. Caloric intake itself may play a role in brain health. In one study on animals, restricting calories below normal (but above starvation levels) helped prevent age-related nerve degeneration. However, in patients with existing Alzheimer's, weight loss is a strong indicator of mental decline.

Fats and Oils. Some studies suggest an association between fat and Alzheimer's disease:

In China and Nigeria, where fat intake is low, the risk of developing Alzheimer's is 1% at age of 65 compared to 5% in the U.S.
A study in the Netherlands reported an association between dementia and diets high in total fat, saturated fat, and cholesterol.
A number of studies suggest that a high-fat high-calorie diet in people who carry the ApoE4 gene may confer a particularly high risk. For example, in one study, adults who carried the ApoE4 gene and whose diet consisted of 40% fat calories had 29 times the risk for Alzheimer's compared to non-ApoE4 carriers on the same high-fat diet.

The recommended dietary goal is to limit total fat intake to 25 - 35% of total daily calories. But not all fats are alike. Unhealthy fats include saturated fats (contained in animal products such as meat) and trans-fatty acids (contained in fast foods and commercially baked products). The American Heart Association recommends limiting saturated fat intake to less than 7% of total daily calories and trans-fatty acid intake to less than 1% of total daily calories.

It is best to replace saturated fats and trans-fatty acids with unsaturated fats from plant and fish oils. Omega-3 fatty acids are excellent sources of unsaturated fats. Plant sources of omega-3 fatty acids include canola oil, soybeans, flaxseed, and certain types of nuts such as walnuts. For fish sources, salmon, mackerel, sardines, lake trout, herring, and albacore tuna are especially high in marine omega-3 fatty acids. For heart health, and possibly brain health, experts recommend eating these types of fish at least twice a week.

Two types of omega-3 fatty acids are found in fish oils: Docosahexaenoic acid (DHA) and eicosapentaneoic acid (EPA). Researchers are particularly interested in the role that DHA may play in Alzheimer’s disease prevention. DHA has been linked to many brain cell functions, and appears to have particular importance for aging brains. Studies indicate that people who have higher blood levels of DHA have a much lower risk of developing dementia and Alzheimer’s disease.

Although evidence suggests that consuming DHA-rich foods later in life helps to increase DHA levels in the brain, it is unclear whether dietary supplements can provide similar benefits. A 2007 study indicated that omega-3 fatty acid supplements may help slow cognitive decline in some patients with very mild Alzheimer’s disease, but that the supplements have little effect for advanced stages of the disease. In 2007, the U.S. National Institutes of Health launched a large-scale clinical trial to evaluate whether DHA supplements can slow the progression of cognitive and functional decline in people with mild-to-moderate Alzheimer’s disease.

Mediterranean diet is an eating plan that has specific heart-health benefits. It is rich in fiber and nutrients, including omega-3 fatty acids and antioxidant vitamins. The diet emphasizes fish, fruits, vegetables, and monounsaturated (“good”) fats, particularly olive and canola oils. A 2006 study suggested that the Mediterranean diet may also be good for the brain. In the study, patients who strictly followed the diet had a 40% lower risk of developing Alzheimer’s disease than patients who ate a conventional American diet. Other studies also indicate the Mediterranean diet is associated with a lower risk for Alzheimer’s.

Omega-3 fatty acids, found plentifully in oily fish and flaxseed and canola oils, are beneficial to people afflicted with IBD (inflammatory bowel disease).

Fruits and Vegetables. According to several studies, eating plenty of darkly colored fruits and vegetables may slow brain aging. Blueberries, which are very rich in antioxidants, are of particular interest. A 2006 study of over 3,000 elderly adults found that consumption of vegetables (especially green leafy vegetables) helped reduce the rate of cognitive decline, but fruit intake had no effect.

Alcohol. Some studies have suggested that moderate intake of alcohol (one or two drinks a day) may protect the aging brain, possibly by releasing acetylcholine, the chemical in the brain that is deficient in Alzheimer's disease. Not all studies have been positive. In any case, heavy alcohol consumption offers no protection and is dangerous.

Folate and Vitamin B12. Some studies suggest that deficiencies of vitamins B6, B12, and folate (folic acid) may be a risk factor for Alzheimer' diseases. Deficiencies in these vitamins can increase homocysteine levels, which some research associates with a higher risk for Alzheimer's disease. Foods containing folate include avocados, bananas, oranges, asparagus, green leafy vegetables, and dried beans. In the United States and some other countries, grain and cereal products are fortified with folate. B12 is found only in animal, dairy, and fish products. B6 is found in a variety of foods, including fortified cereals, beans, meat, fish, and some fruits and vegetables.

Click the icon to see an image of vitamin B12 sources.

Click the icon to see an image of folate sources.

Research is still inconclusive and conflicting about whether increased consumption of folate, through food or dietary supplements, can help prevent Alzheimer’s disease or slow its progression. A small 2006 study of healthy older adults, published in the New England Journal of Medicine, found that supplements containing folate, vitamin B12, and vitamin B6 did not help improve cognitive performance. A 2007 Lancet study indicated that folic acid supplements may help slow cognitive decline. People in the Lancet study took 800 mcg of folic acid daily, which is twice the recommended daily allowance of 400 mcg. However, this study was conducted in the Netherlands, where people tend to get less folate in their daily diets than in the United States.

Another 2007 study found that elderly people who consumed folate from both diet and supplement sources had a reduced risk for Alzheimer’s disease. Neither diet alone nor supplements alone affected Alzheimer’s risk; only the combination of the two produced an effect. The study also indicated that vitamins B6 and B12 do not affect Alzheimer’s risk.

Antioxidant Supplements. Much research on Alzheimer's disease has indicated that oxidation (release of damaging unstable particles) may play an important role in the disease process. Some reports, including a large 2002 population study, have suggested that vitamin E intake, from food or supplements, may protect against mental decline. Other studies suggest that vitamin E protects only those who carried the ApoE4 gene. Most of the evidence finding any benefits from other antioxidants comes from using a combination of antioxidant vitamins, such as vitamins C and E, but not from using them separately. However, there is no strong evidence of protection to date from using antioxidant supplements.

Other Health Behaviors

Physical Exercise. Studies indicate that exercise may help prevent the development of Alzheimer’s disease and other forms of dementia. A 2006 study found that older adults (65 years and older) who exercised three times a week reduced their risk for Alzheimer’s by about 40%. Exercise in the study included walking, hiking, aerobics, calisthenics, swimming, water aerobics, weight training, and stretching.

Mental Exercise. Cognitive training that includes exercises to stimulate memory, reasoning, and mental processing speed may help improve both mental ability and daily functioning. In an important 2006 study in the Journal of the American Mental Association, older community-dwelling adults who received cognitive training showed reductions in cognitive decline. In addition, they were better able to handle daily living tasks -- such as performing housework, managing money, and preparing meals -- than people who did not receive the training. The benefits of cognitive training lasted for up to 5 years afterwards. Other studies indicate that participating in intellectually engaging activity -- such as doing crossword puzzles or learning a new language -- may help reduce the risk of Alzheimer’s disease.

Social Interaction. Social interaction is also important for maintaining emotional health as well as keeping the mind active and energized. A 2007 study indicated that adults who are lonely have twice the risk of developing Alzheimer’s dementia as those who are not socially isolated.

Symptoms

The early symptoms of Alzheimer's disease (AD) may be overlooked because they resemble signs of natural aging. Older adults who begin to notice a persistent mild memory loss of recent events may have a condition called mild cognitive impairment (MCI). MCI is now believed to be a significant sign of early-stage Alzheimer's in older people. Studies now suggest that older individuals who experience such mild memory abnormalities can later develop Alzheimer's disease.

Early symptoms of Alzheimer's disease may include:

Forgetfulness (particularly of recent events or information)
Loss of concentration (having trouble planning or completing familiar tasks, difficulty with abstract thinking such as simple arithmetic problems)
Language problems (forgetting the names of objects, mixing up words, difficulty completing sentences)
Confusion about time and place (difficulty recognizing familiar neighborhoods or remembering how you arrived at a location, confusion about months or seasons )
Impaired judgment (dressing inappropriately or making poor financial decisions)
Impaired movement and coordination (slowing of movements, halting gait, reduced sense of balance)
Mood and behavior changes (rapid mood swings, emotional outbursts, personality changes, increased fear or suspicion)
Apathy and depression (loss of interest in activities, increased sleeping, sitting in front of the television for long periods of time)

Diagnosis

A definitive test to diagnose Alzheimer's disease, even in patients showing signs of dementia, has not yet been developed. A number of expert groups have developed criteria to help diagnose Alzheimer's disease and rule out other disorders. A diagnosis often involves answering questions about the patient:

Do psychological tests indicate dementia?
Does the patient have deficits in two or more areas of mental functioning (such as language, motor skills, and perceptions)?
Has memory and mental functions gotten progressively worse?
Is consciousness disturbed? (It is not in Alzheimer's disease.)
Is the patient over age 40?
Are other medical or physical conditions present that could account for the same symptoms?
Are daily activity impaired or has the behavior changed?
Is there a family history of Alzheimer's disease?
Are there other symptoms, such as depression, insomnia, incontinence, delusions, hallucinations, dramatic verbal, emotional or physical outbursts, sexual disorders, and weight loss?

Other steps involved in making a decision include laboratory tests (EEG and possibly tests to rule out other diseases) and psychological testing to determine the presence of dementia.

Ruling out Conditions of Normal Aging that Can Cause Alzheimer's-like Symptoms

Although some memory impairment occurs in many people as they age, only some of these people develop Alzheimer's disease. Many similar symptoms can occur in healthy older individuals from other conditions associated with aging:

Fatigue
Grief or depression
Illness
Vision or hearing loss
The use of alcohol or certain medications
Simply the burden of too many details to remember at once

Ruling Out Other Causes Memory Loss or Dementia

The first step in diagnosing Alzheimer's disease is to rule out other conditions that might cause memory loss or dementia. There are a number of causes for dementia in the elderly besides Alzheimer's disease:

Vascular dementia (abnormalities in the vessels that carry blood to the brain)
Lewy bodies variant (LBV), also called dementia with Lewy bodies
Parkinson's disease
Frontotemporal dementia

Experts believe that 60% of cases of dementia are due to Alzheimer's, 15% to vascular injuries, and the rest are a mixture of the two or caused by other factors.

Vascular Dementia. Vascular dementia is primarily caused by either multi-infarct dementia (multiple small strokes) or Binswanger's disease (which affects tiny arteries in the midbrain). One major analysis suggested that patients with vascular dementia have better long-term verbal memory than patients with Alzheimer's disease, but poorer executive function (less ability to integrate and organize).

Lewy Bodies Variant. Lewy bodies are abnormalities found in the brains of patients with both Parkinson's disease and Alzheimer's. They can also be present in the absence of either disease; in such cases, the condition is called Lewy bodies variant (LBV). In all cases, the presence of Lewy bodies is highly associated with dementia. LBV was defined in 1997, and some experts believe it may be responsible for about 20% of people who have been diagnosed with Alzheimer's. They can be difficult to distinguish. Compared to Alzheimer's disease patients, those with LBV may be more likely to have hallucinations and delusions early on, to walk with a stoop (similar to Parkinson's disease), to have more fluctuating attention problems, and to perform better than Alzheimer's disease patients on verbal recall but less well with organizing objects.

Parkinson's Disease. Dementia is about six times more common in the elderly Parkinson patient than in the average older adult. It is most likely to occur in older patients who have had major depression. Unlike in Alzheimer's, language is not usually affected in Parkinson's related dementia. Visual hallucinations occur in about a third of people on long-term medications.

Substantia nigra and Parkinson's disease

Parkinson's disease is a slowly progressive disorder that affects movement, muscle control, and balance. Part of the disease process develops as cells are destroyed in certain parts of the brain stem, particularly the crescent-shaped cell mass known as the substantia nigra. Nerve cells in the substantia nigra send out fibers to tissue located in both sides of the brain. There the cells release essential neurotransmitters that help control movement and coordination.

Frontotemporal Dementia (FTD). Once considered rare, FTD is now considered to be the second most common cause of early-onset dementia. People who develop this condition tend to be in their mid-fifties although it can develop later on. It results in greater behavioral impairment (apathy, reduced empathy, poor self-care, unrestrained behavior) than with Alzheimer's disease. It may also be marked by speech problems and early incontinence. Brain imaging scans can help diagnose this problem.

Other Conditions that Cause Similar Symptoms. Some elderly people have a condition called mild cognitive impairment, which involves more severe memory loss than normal but no other symptoms of Alzheimer's. A number of conditions, including many medications, can produce symptoms similar to Alzheimer's:

Severe depression
Drug abuse
Thyroid disease
Severe vitamin B12 deficiency
Blood clots
Hydrocephalus (excessive accumulation of spinal fluid in the brain)
Syphilis
Huntington's disease
Creutzfeldt-Jakob disease
Brain tumors

It is important that the doctor recognize any treatable conditions that might be causing symptoms or worsening existing dementia caused by Alzheimer's or vascular abnormalities.

Psychological Testing

A number of psychological tests are used or being developed to assess difficulties in attention, perception, and memory and problem-solving, social, and language skills. Experts are researching specific tests that may help identify early on people with mild memory impairment who are at high risk for Alzheimer's disease.

Two commonly used tests that are very useful in identifying individuals who may be at risk for Alzheimer's are the Mini-Mental State Exam (MMSE) and the Mattis Dementia Rating Scale. Still, these tests have limitations.
A clock drawing test is also a good test for Alzheimer's disease. The patient is given a piece of paper with a circle on it and is first asked to write the numbers in the face of a clock and then to show "10 minutes after 11." The score is based on spacing between the numbers and the positions of the hands.

Electroencephalography

Electroencephalography (EEG) traces brain-wave activity; in some patients with Alzheimer's disease this test reveals "slow waves." EEG data helps distinguish a potential patient with Alzheimer's disease from a patient with severe depression, whose brain waves are normal.

Imaging Tests

Imaging tests include magnetic resonance imaging (MRI), positron-emission tomography (PET), and single photon emission computed tomography (SPECT). These tests are sometimes used to rule out other disorders, such as multi-infarct dementia, stroke, blood clots, and tumors. Research is being conducted to determine if these tests can help to confirm a diagnosis of Alzheimer's disease and improve understanding of disease progression. Researchers hope that imaging tests may also be able to provide diagnoses of Alzheimer’s disease while it is still in its early stages.

In 2006, scientists developed a new imaging molecule called FDDNP that they hope will enable earlier detection of Alzheimer’s disease. Research also continues on Pittsburgh compound B, a tracer molecule used in PET brain scans to highlight beta-amyloid protein deposits. Results from all this research may help to define potential drug targets and aid in the development of new Alzheimer's drugs.

Click the icon to see an image of an MRI of the brain.

In 2005, the National Institute of Aging, in collaboration with industry partners, launched the $60 million Alzheimer's Disease Neuroimaging Initiative (ADNI). This landmark 5-year clinical trial, which will be conducted at 50 sites throughout the United States and Canada, will investigate whether neuroimaging techniques, such as MRI and PET scans, can be combined with biomarkers and neuropsychological tests to measure the progression of AD and mild cognitive impairment. In 2004, the U.S. Medicare system expanded insurance coverage of PET scans for eligible beneficiaries who meet specific diagnostic criteria for both Alzheimer's disease and fronto-temporal dementia. Medicare also covers the costs for patients enrolled in its agency-approved imaging clinical trials.

Investigational Tests.

Blood Tests. Blood tests are currently used to check for anemia and other disorders that can produce dementia symptoms. Investigators are researching serum biomarkers, such as the iron transport protein p97, that might help detect the presence of Alzheimer's disease.

Cerebrospinal Fluid Test. Scientists are developing new nanotechnology screening methods that may eventually be used to identify Alzheimer's disease while it is still in its earliest stages and before plaque deposits accumulate. In 2005, a research team announced it had used a bio-barcode assay to detect tiny amounts of a protein called amyloid-beta-derived diffusable ligand (ADDL) in cerebrospinal fluid. ADDLs may be involved in cognitive decline and are a potential biomarker for early stage Alzheimer's disease. Tests for other proteins are also being developed.

Odor Test. Investigators are also using the impairment of smell in Alzheimer's disease to develop tests that require patients to distinguish between odors.

Determining Severity after a Diagnosis Has Been Made

Once a diagnosis has been made, some experts observe that certain factors at the time of diagnosis indicate a higher risk for a more rapid decline:

Older age
Being male
The presence of high blood pressure
Signs of loss of motor control and coordination
Tremor
Social withdrawal
Loss of appetite and severe weight loss
Accompanying sensory problems, such as hearing loss and a decline in reading ability
General physical debility

Medications

Most drugs used to treat Alzheimer's, and those under investigation, are aimed at slowing progression. There are no cures to date. In addition, the improvements from some of these drugs may be so modest that even the patients and their families are not aware of them. Even in these cases, however, the drugs may delay the need for admission to nursing homes.

There are currently two drug classes that have been approved by the U.S. Food and Drug Administration (FDA) to treat the cognitive symptoms of Alzheimer's disease:

Cholinesterase inhibitors (generally used to treat mild-to-moderate Alzheimer's; donepezil is also approved for treatment of severe dementia )
N-methyl-D-aspartate (NMDA) receptor antagonists (used to treat moderate-to-severe Alzheimer's)

Cholinesterase Inhibitors

Cholinesterase inhibitors are designed to protect the cholinergic system, which is essential for memory and learning and is progressively destroyed in Alzheimer's. These drugs work by preventing the breakdown of the brain chemical acetylcholine and are recommended for the treatment of mild-to-moderate Alzheimer's. The first cholinesterase inhibitor, tacrine, was approved in 1993 but is rarely prescribed today due to safety concerns. The three most commonly prescribed cholinesterase inhibitors are donepezil (approved in 1996), rivastigmine (approved in 2000), and galantamine (approved in 2001).

Cholinesterase inhibitors may increase the risk for gastrointestinal bleeding or ulcers, and patients should be cautious about using these medicines with NSAIDs (which can also cause gastric irritation). Common side effects of cholinesterase inhibitors, especially when taken at higher doses, may include nausea, vomiting, diarrhea, and upset stomach.

Donepezil. Donepezil (Aricept) is the only Alzheimer’s drug approved for all stages of dementia, from mild to severe. It is taken once a day and has only modest benefits, but it does help slow loss of function and reduce caregiver burden. It works equally in patients with or without the ApoE4 gene. Several trials, including an important 2005 New England Journal of Medicine (NEJM) study, have found that donepezil may have short-term benefits for patients with mild cognitive impairment by delaying progression to AD. In the NEJM study, donepezil slowed progression during the first year of therapy, but demonstrated no benefits by the conclusion of the 3-year trial. Studies also suggest that donepezil may help improve behavior and memory in patients with moderate-to-severe Alzheimer’s when it is given in combination with memantine (Namenda).
Rivastigmine. Rivastigmine (Exelon) targets two enzymes: Acetylcholinesterase and butyrylcholinesterase. It is taken as a pill twice a day. (The FDA approved a skin patch version of the drug in 2007.) Rivastigmine may be particularly helpful for patients with rapidly progressing disease. It has slowed or slightly improved disease status even in patients with advanced disease. Rivastigmine may cause significantly more side effects than donepezil, including nausea, vomiting, and headache.
Galantamine (Razadyne). Galantamine not only protects the cholinergic system but also acts on nicotine receptors, which are also depleted during Alzheimer's. Studies report that it improves daily living, behavior, and mental functioning, including in patients with mild to advanced-moderate Alzheimer's disease and those with a mix of Alzheimer's disease and vascular dementia. Some studies have suggested that the effects of galantamine may persist for a year or longer and even strengthen over time. In 2005, the name of galantamine was changed from Reminyl to Razadyne.
Tacrine. Tacrine (Cognex) was the first cholinergic protective drug. It needs to be taken four times a day, has only modest benefits, and has no benefits for patients who carry the ApoE4 gene. In high doses, it can also injure the liver. In general, newer cholinergic protective drugs that do not pose as great a risk for the liver are now used for Alzheimer's.

About half of patients with mild-to-moderate disease show slight improvement with these drugs. Comparative studies have reported little differences in effectiveness among them. All drugs have gastrointestinal side effects, including nausea. Of note, some of the drugs often used in elderly Alzheimer's disease patients are known as anticholinergics and may offset the effects of the Alzheimer's disease pro-cholinergic drugs. Such drugs include antihistamines, antipsychotic drugs, and some anti-incontinence drugs.

In any case, the benefits of these drugs are far from dramatic. In fact, many experts have reservations about developing any additional drugs that affect the cholinergic system since, at best, they only slow progression and do not appear to affect the basic destructive disease process. When patients go off the drugs, the deterioration continues. In 2005, the United Kingdom’s National Institute for Clinical Excellence (NICE) recommended against the use of donepezil, rivastigmine, galantamine, and memantine for Alzheimer’s disease treatment. The agency contended that the costs of these drugs outweigh their modest benefits.

N-methyl-D-aspartate (NDMA) Receptor Antagonist

Memantine (Namenda) is approved for treatment of moderate-to-severe Alzheimer’s disease. (Most cholinesterase inhibitors are used to treat mild-to-moderate stages of the disease.) By blocking NDMA receptors, memantine protects against the overstimulation of glutamate, an amino acid that excites nerves and, in excess, is a powerful nerve-cell killer.

Memantine is prescribed either alone or in combination with donepezil. Studies indicate that memantine may help improve cognitive function and delay the progression of Alzheimer’s disease for up to 1 year. Side effects are generally mild but may include dizziness, drowsiness, or fainting.

In one study of effects on moderate-to-severe Alzheimer's, patients who received memantine showed a small but statistically significant benefit in cognitive function and performance of daily abilities compared with those patients who were given placebo. In a 2004 study, memantine was added to the drug regimen of patients with moderate-to-severe Alzheimer's who had taken donepezil for at least 6 months. In comparison to patients who took only donepezil, patients who received the combination donepezil-memantine therapy showed a greater improvement in measures of cognitive function, activities of daily living, and behavior parameters. A 2006 study indicated that memantine combined with donepezil may help reduce behavior problems -- such as agitation, aggression, and irritability -- and improve disturbances in appetite and eating.

Although cholinesterase inhibitors and memantine are the best available medications for Alzheimer's, their benefits are, unfortunately, quite modest. More effective methods of prevention and treatment are urgently needed.

Nonsteroidal Anti-Inflammatory Drugs (NSAIDs) as Treatment

There has been considerable controversy over whether NSAIDs may help in the treatment of Alzheimer's disease. As inflammation is involved in the destruction of brain cells, it has been suggested that anti-inflammatory drugs might be able to halt this process and thus slow the progression of the disease. In a rigorous 2003 study, patients with mild-to-moderate Alzheimer's were randomized to receive either naproxen (Aleve) or rofecoxib (Vioxx) or placebo. After 12 months of treatment, patients in the anti-inflammatory groups did not show any difference in cognitive improvement compared to those patients who received placebo.

Results from another large study, published in 2004, also failed to demonstrate improvement in cognitive function for patients with mild-to-moderate Alzheimer's who were treated with rofecoxib. Since the completion of these studies, rofecoxib was withdrawn from the market, and the NIH suspended a clinical study assessing naproxen’s preventive benefits (see Nonsteroidal Anti-Inflammatory Drugs as Prevention). As mentioned earlier, patients should be cautious about taking NSAIDs in combination with cholinesterase inhibitors as they may increase the risk of gastrointestinal bleeding.

Nicotine Replacement

Nicotine enhances the actions of the cholinergic system (which is depleted in Alzheimer's disease) and is known to improve concentration and memory in the short term. Some studies have suggested that nicotine may protect nerve cells and help prevent the formation of beta amyloid. One study indicated that nicotine might help protect against Alzheimer's disease in carriers, but not noncarriers, of the ApoE4 gene. Another reported improvement in verbal recall and word retrieval in healthy relatives of Alzheimer's disease patients who wore a low-dose nicotine patch. Research to date, however, has found no strong evidence of improvement in Alzheimer's disease patients with nicotine replacement methods. No one should smoke to prevent or treat Alzheimer's disease.

Herbs and Dietary Supplements

Manufacturers of herbal remedies and dietary supplements do not need FDA approval to sell their products. Just like a drug, herbs and supplements can affect the body's chemistry, and therefore have the potential to produce side effects that may be harmful. There have been several reported cases of serious and even lethal side effects from herbal products. Always check with your doctor before using any herbal remedy or dietary supplement.

Ginkgo Biloba. Ginkgo biloba is a common herb that has antioxidant properties and appears to increase blood flow to the brain. A 2002 study of healthy people who took over-the-counter ginkgo for 6 weeks reported no improvements in memory or mental function. Studies are reporting that a ginkgo biloba extract, called Egb 761, may slightly improve the memory of patients with mild to moderate Alzheimer's disease. The herb poses a small increased risk for bleeding, which may be hazardous in combination with other blood-thinning medications, such as warfarin or high-doses of vitamin E.

Turmeric. Studies suggest that circumin, a compound found in the spice turmeric, has properties that may protect against the Alzheimer's disease process.

Melatonin. Melatonin, a natural hormone involved in sleep regulation, is of interest to researchers. It is an antioxidant, may break down beta amyloid, and is able to pass through the blood-brain barrier. Deficiencies have been observed in patients with Alzheimer's disease. A number of studies (but not all) report that melatonin may improve sleep habits in these patients. Some studies reported slower progression of mental impairment.

Investigational Drugs

A number of drugs are being investigated for treatment and prevention of Alzheimer's disease. Intense areas of research are focusing on drugs that prevent beta amyloid build-up, its toxic effects on nerve cells, or other mechanisms of the disease process. Promising research in late-stage clinical trials include.

Tramiprosate (Alzhemed) is an experimental drug designed to prevent beta-amyloid accumulation in the brain.
Flurizan (MPC-7869) may help reduce amyloid plaque development. It is currently being studied in Phase III trials for adults with mild Alzheimer’s disease.
Rosiglitazone XR (Avandia) is an extended-release formulation of a drug used to treat type 2 diabetes. Its anti-inflammatory properties are being studied as a treatment for patients with mild-to-moderate Alzheimer’s who do not carry the APOE-e4 gene. Phase III results have been promising, but this drug has been linked to increased risk for heart attack deaths in patients with diabetes. In 2007, a panel of experts from the Food and Drug Administration (FDA) agreed the drug increases the risk of heart attacks -- but concluded it should remain on the market. The panel did, however, recommend the FDA require rosiglitazone's maker to add warnings to the drug's label. Patients or caregivers of patients who take rosiglitazone, especially those who have heart disease or who are at high risk for heart attack, should discuss their treatment options with their doctors.
Dimebon is an antihistamine, which researchers think may help prevent brain cell death. The drug is currently in Phase II trials.
Antioxidants such as vitamin E and selenium are being investigated for their preventive effects. Antioxidant treatment trials include curcumin (the yellow pigment found in turmeric spice) and a combination trial with fish oil and alpha-lipoic acid.

Treating Symptoms Associated with Alzheimer's

Depression. Major depression with dementia that occurs in elderly people may be an early sign of Alzheimer's. In such cases, it precedes Alzheimer's by 2 years or less. (It is, in fact, sometimes difficult to differentiate major depression from early-stage Alzheimer's disease.) Antidepressants known as selective serotonin reuptake inhibitors (SSRIs), including fluoxetine (Prozac) and sertraline (Zoloft), may be effective in relieving depression, irritability, and restlessness associated with Alzheimer's in some patients.

Apathy. Depression is often confused with apathy. An apathetic patient lacks emotions, motivation, interest, and enthusiasm while a depressed patient is generally very sad, tearful, and hopeless. According to one study, apathy is more common than depression in patients with Alzheimer's disease. It responds to stimulants, such as methylphenidate (Ritalin), rather than antidepressants.

Psychosis. Antipsychotic drugs are used to treat verbally or physically aggressive behavior and hallucinations. Because older antipsychotic drugs, such as haloperidol (Haldol), have severe side effects, most doctors now prescribe newer atypical antipsychotics, such as risperidone (Risperdal) or olanzapine (Zyprexa).

However, these newer antipsychotic drugs still can cause serious side effects, including confusion, sleepiness, and Parkinsonian-like symptoms. In addition, studies indicate that their safety risks may outweigh any possible benefits. A 2005 study showed that these drugs produce a slightly increased rate of death in patients with Alzheimer’s disease or dementia. In addition, several studies from 2006 and 2007 published in the New England Journal of Medicine suggested that atypical antipsychotics work no better than placebo in controlling psychosis, aggression, and agitation in patients with Alzheimer’s.

Most experts now recommend that doctors delay prescribing antipsychotic medication unless absolutely necessary. They recommend first trying behavioral treatments and controlling changes in the patient’s environment and routine. Anti-seizure drugs, such as carbamazepine (Tegretol) or valproate (Depakote), can also sometimes treat agitation and other psychotic symptoms. Non-drug treatments, such as bright light boxes, are also showing promise for managing psychotic and behavioral symptoms.

Disturbed Sleep. Patients with Alzheimer's disease commonly experience disturbances in their sleep/wake cycles. Moderately short-acting sleeping drugs, such as temazepam (Restoril), zolpidem (Ambien), or zaleplon (Sonata), or sedating antidepressants, such as trazodone (Desyrel, Molipaxin), may be useful in managing insomnia. Some research suggests that exposure to brighter-than-normal artificial light during the day for patients with normal vision may help reset wake/sleep cycles and prevent nighttime wandering and sleeplessness. Trials on melatonin, a natural hormone that helps trigger sleep at night, are in progress.

Stages

The lifespan of patients with Alzheimer's is generally reduced, although a patient may live anywhere from 3 - 20 years after diagnosis. The final phase of the disease may last from a few months to several years, during which time the patient becomes increasingly immobile and dysfunctional. Caregivers should understand the phases of this illness in order to help determine their own capacities for dealing with this painfully sad disease.

Home Treatment in Early Stages

Telling the Patient. Often doctors will not tell patients that they have Alzheimer's. If a patient expresses a need to know the truth, it should be disclosed. Both the caregiver and the patient can then begin to address issues that can be controlled, such as access to support groups and drug research.

Mood and Emotional Behavior. Patients display abrupt mood swings, and many become aggressive and angry. Some of this erratic behavior is caused by chemical changes in the brain. But it may also be due to the experience of losing knowledge and understanding of one's surroundings, causing fear and frustration that patients can no longer express verbally.

The following recommendations for caregivers may help soothe patients and avoid agitation:

Keep environmental distractions and noise at a minimum if possible. (Even normal noises, such as people talking outside a room, may seem threatening and trigger agitation or aggression.)
Speak clearly. Most experts recommend speaking slowly to a patient with Alzheimer's disease, but some caregivers report that patients respond better to clear, quickly spoken, short sentences that they can more easily remember.
Use a combination of facial expressions, voice tones, and words for communicating emotions. (One study suggested that patients may have difficulty in recognizing the meaning of facial expressions, particularly those signaling sadness, surprise, and disgust.)
Limit choices (such as clothing selection).
Offer diversions, such as a snack or car ride, if the patient starts shouting or exhibiting other disruptive behavior.
Simply touching and talking may also help.
Maintain as natural an attitude as possible. Patients with Alzheimer's disease can be highly sensitive to the caregiver's underlying emotions and react negatively to patronization or signals of anger and frustration.
Showing movies or videos of family members and events from the patient's past may be comforting.

Although much attention is given to the negative emotions of patients with Alzheimer's disease, some patients become extremely gentle, retaining an ability to laugh at themselves or appreciate simple visual jokes even after their verbal abilities have disappeared. Some patients may seem to be in a drug-like or "mystical" state, focusing on the present experience as their past and future slip away. Encouraging and even enjoying such states may bring some comfort to a caregiver.

There is no single Alzheimer's personality, just as there is no single human personality. All patients must be treated as the individuals they continue to be, even after their social self has vanished.

Appearance and Cleanliness. For the caregiver, grooming the patient may be an alienating experience. For one thing, many patients resist bathing or taking a shower. Some spouses find that showering with their afflicted mate can solve the problem for a while. Often patients with Alzheimer's disease lose their sense of color and design and will put on odd or mismatched clothing. It is important to maintain a sense of humor and perspective and to learn which battles are worth fighting and which ones are best abandoned.

Driving. As soon as Alzheimer's is diagnosed, the patient should be prevented from driving. One study found that more than half of elderly people involved in fatal accidents had some degree of neurologic damage.

Wandering. A potentially dangerous trait is the patient's tendency to wander. At the point the patient develops this tendency, many caregivers feel it is time to seek out nursing homes or other protective institutions for their loved ones. For those who remain at home, the following precautions are recommended:

Locks should be installed outside the door, which the caregiver can open, but the patient cannot.
Alarms may be installed at exits.
A daily exercise program should be implemented, which may help tire the patient. One study showed that walking 30 minutes, three times a day, also improved communication.
The caregiver should contact organizations, such as Alzheimer's Association or Medic Alert, for identification supplies and procedures that help locate patients who wander away from home and become lost.
Some experts are discussing the benefits versus the ethics of electronic tagging, which would emit a radio signal or alarm that allows the patient to be tracked using a detector.

Speech Problems. Some evidence suggests that speech therapy combined with Alzheimer's disease medications may be helpful for maintaining verbal skills patients with mild symptoms.

Sexuality. In many cases, the patient becomes uninhibited sexually. At the same time, the patient's physical deterioration and receding capacity to recognize the spouse as a known and loved individual can make sexual activity unattractive for the caregiving spouse. Other patients may lose interest in sex. If sexual issues are a problem, they should be discussed openly with the doctor. Ways should be found to maintain non-sexual physical affection that can bring comfort to both the patient and the spouse.

Home Treatment During Later Stages

Patients with Alzheimer's disease need 24-hour a day attention. Even if the caregiver has the resources to keep the patient at home during later stages of the disease, outside help is still essential. If available, home visits by a health profession can have a favorable impact on survival and delay the need for a nursing home. Medicare now covers many Alzheimer's services, and patients should be able to stay at home longer than previously.

Incontinence. A patient's incontinence is generally devastating to the caregiver and a primary reason why many caregivers decide to seek nursing home placement when the patient reaches this stage. When the patient first shows signs of incontinence, the doctor should make sure that it is not caused by an infection. Urinary incontinence may be controlled for some time by trying to monitor times of liquid intake, feeding, and urinating. Once a schedule has been established, the caregiver may be able to anticipate incontinent episodes and get the patient to the toilet before they occur.

Immobility and Pain. As the disease progresses, patients become immobile, literally forgetting how to move. Eventually, they become almost entirely wheelchair-bound or bedridden. Bedsores can be a major problem. Sheets must be kept clean, dry, and free of food. The patient's skin should be washed frequently, gently blotted thoroughly dry, and moisturizers applied. The patient should be moved every 2 hours and the feet kept raised with pillows or pads. Exercises should be administered to the legs and arms to keep them flexible.

Dehydration. Dehydration can become a problem. It is essential to encourage fluid intake equal to 8 glasses of water daily. Coffee and tea are diuretics and will deplete fluid.

Eating Problems. Weight loss and the gradual inability to swallow are two major related problems in late-stage Alzheimer's and are associated with an increased risk of death. Weight gain, however, is linked to a lower risk of dying. The patient can be fed through a feeding syringe, or the caregiver can encourage chewing action by pushing gently on the bottom of the patient's chin and on the lips. The caregiver should offer the patient foods of different consistency and flavor. Because choking is a danger, the caregiver should learn to administer the Heimlich maneuver, which may be taught by the local Red Cross. In very late stages, some caregivers choose feeding tubes for the patient. They should be aware that feeding tubes have no measurable impact on survival.

Care for the Caregiver

About 80% of patients with Alzheimer's disease are cared for by family members, who often lack adequate support, finances, or training for this difficult job. Few diseases disrupt patients and their families so completely or for so long a period of time as Alzheimer's. The patient's family endures two separate losses and grieves twice:

First, they must grieve for the ongoing disappearance of the personality they recognize. Dealing with the patient throughout the course of the disease is like Alice's fall down the rabbit hole into Wonderland. No sooner has the caregiver grappled with one set of problems, when the patient's further deterioration creates new and more intractable ones.
Finally, the caregiver must grieve the actual death of the person.

Often, caregivers themselves begin to show signs of mental disorder or ill health. Depression, empathy, exhaustion, guilt, and anger can play havoc with even a healthy individual faced with the care of a loved one suffering from Alzheimer's.

Fortunately, research shows that intensive support services can greatly improve caretakers’ quality of life and make it easier for them to continue caring for patients in their homes. In a 2006 study, caregivers who received individual and family counseling, telephone counseling, support groups, and stress management and problem-solving techniques reported reduced rates of depression and improved self-confidence compared with those who received only written educational materials. Another 2006 study indicated that improving caregivers’ access to counseling and support services can help delay nursing home placement of patients. National and local Alzheimer's associations can provide important support and other services.

Nursing Homes and Other Outside Services

A point comes when the most devoted caregiver will probably need to institutionalize the patient. That point is determined not only by the caregiver's emotional endurance, but also by their physical strength and stamina, as a patient typically takes on the random, undisciplined behavior of a very young child. Financial considerations in finding a nursing home are often paramount, but the kind of care is equally important. Although fully half of all nursing home patients suffer from Alzheimer's, not all nursing homes have programs specifically designed for them. Some institutions may claim that they do, but often they simply group patients together without offering any special programs. If a caregiver manages to find a facility that offers good services, it may be located far from home, making visits difficult. The caregiver must then decide whether superior care at a distant institution is worth seeing the patient less frequently. When the patient's illness becomes terminal, a hospice program may be another option.

Twelve Steps for Caregivers

1. Although I cannot control the disease process, I need to remember I can control many aspects of how it affects my relative.

2. I need to take care of myself so that I can continue doing the things that are most important.

3. I need to simplify my lifestyle so that my time and energy are available for things that are really important at this time.

4. I need to cultivate the gift of allowing others to help me, because caring for my relative is too big a job to be done by one person.

5. I need to take one day at a time rather than worry about what may or may not happen in the future.

6. I need to structure my day because a consistent schedule makes life easier for me and my relative.

7. I need to have a sense of humor because laughter helps to put things in a more positive perspective.

8. I need to remember that my relative is not being difficult on purpose; rather their behavior and emotions are distorted by the illness.

9. I need to focus on and enjoy what my relative can still do rather than constantly lament over what is gone.

10. I need to increasingly depend upon other relationships for love and support.

11. I need to frequently remind myself that I am doing the best that I can at this very moment.

12. I need to draw upon the Higher Power, which I believe is available to me.

Source: The American Journal of Alzheimer's Care and Related Disorders & Research, Nov/Dec 1989

Resources

www.alzheimers.org -- Alzheimer's Disease Education and Referral Center
www.alz.org -- Alzheimer's Association
www.alzforum.org -- Alzheimer's Research Forum
www.alzfdn.org -- Alzheimer's Foundation of America
www.alz.co.uk -- Alzheimer's Disease International
www.nia.nih.gov -- National Institute on Aging
www.ninds.nih.gov -- National Institute of Neurological Disorders and Stroke
www.aan.com -- American Academy of Neurology
www.medicalert.org -- Medic Alert
www.ahaf.org -- American Health Assistance Foundation
www.clinicaltrials.gov -- Find clinical trials
www.medicare.gov/NHCompare/Home.asp -- Find a nursing home

References

ADAPT Research Group, Lyketsos CG, Breitner JC, Green RC, Martin BK, Meinert C, et al. Naproxen and celecoxib do not prevent AD in early results from a randomized controlled trial. Neurology. 2007 May 22;68(21):1800-8. Epub 2007 Apr 25.

Akomolafe A, Beiser A, Meigs JB, Au R, Green RC, Farrer LA, et al. Diabetes mellitus and risk of developing Alzheimer disease: results from the Framingham Study. Arch Neurol. 2006 Nov;63(11):1551-5.

Ayalon L, Gum AM, Feliciano L, Arean PA. Effectiveness of nonpharmacological interventions for the management of neuropsychiatric symptoms in patients with dementia: a systematic review. Arch Intern Med. 2006 Nov 13;166(20):2182-8.

Belle SH, Burgio L, Burns R, Coon D, Czaja SJ, Gallagher-Thompson D, et al. Enhancing the quality of life of dementia caregivers from different ethnic or racial groups: a randomized, controlled trial. Ann Intern Med. 2006 Nov 21;145(10):727-38.

Cummings JL, Schneider E, Tariot PN, Graham SM; Memantine MEM-MD-02 Study Group. Behavioral effects of memantine in Alzheimer disease patients receiving donepezil treatment. Neurology. 2006 Jul 11;67(1):57-63.

Durga J, van Boxtel MP, Schouten EG, Kok FJ, Jolles J, Katan MB, et al. Effect of 3-year folic acid supplementation on cognitive function in older adults in the FACIT trial: a randomised, double blind, controlled trial. Lancet. 2007 Jan 20;369(9557):208-16.

Freund-Levi Y, Eriksdotter-Jonhagen M, Cederholm T, Basun H, Faxen-Irving G, et al. Omega-3 fatty acid treatment in 174 patients with mild to moderate Alzheimer disease: OmegAD study: a randomized double-blind trial. Arch Neurol. 2006 Oct;63(10):1402-8.

Gamaldo A, Moghekar A, Kilada S, Resnick SM, Zonderman AB, O'Brien R. Effect of a clinical stroke on the risk of dementia in a prospective cohort. Neurology. 2006 Oct 24;67(8):1363-9.

Luchsinger JA, Reitz C, Patel B, Tang MX, Manly JJ, Mayeux R. Relation of diabetes to mild cognitive impairment. Arch Neurol. 2007 Apr;64(4):570-5.

Luchsinger JA, Tang MX, Miller J, Green R, Mayeux R. Relation of higher folate intake to lower risk of Alzheimer disease in the elderly. Arch Neurol. 2007 Jan;64(1):86-92.

McMahon JA, Green TJ, Skeaff CM, Knight RG, Mann JI, Williams SM. A controlled trial of homocysteine lowering and cognitive performance. N Engl J Med. 2006 Jun 29;354(26):2764-72.

Mittelman MS, Haley WE, Clay OJ, Roth DL. Improving caregiver well-being delays nursing home placement of patients with Alzheimer disease. Neurology. 2006 Nov 14;67(9):1592-9.

Morris MC, Evans DA, Tangney CC, Bienias JL, Wilson RS. Associations of vegetable and fruit consumption with age-related cognitive change. Neurology. 2006 Oct 24;67(8):1370-6.

Regan C, Katona C, Walker Z, Hooper J, Donovan J, Livingston G. Relationship of vascular risk to the progression of Alzheimer disease. Neurology. 2006 Oct 24;67(8):1357-62.

Rogaeva E, Meng Y, Lee JH, Gu Y, Kawarai T, Zou F, et al. The neuronal sortilin-related receptor SORL1 is genetically associated with Alzheimer disease. Nat Genet. 2007 Feb;39(2):168-77. Epub 2007 Jan 14.

Scarmeas N, Stern Y, Mayeux R, Luchsinger JA. Mediterranean diet, Alzheimer disease, and vascular mediation. Arch Neurol. 2006 Dec;63(12):1709-17. Epub 2006 Oct 9.

Schaefer EJ, Bongard V, Beiser AS, Lamon-Fava S, Robins SJ, Au R, et al. Plasma phosphatidylcholine docosahexaenoic acid content and risk of dementia and Alzheimer disease: the Framingham Heart Study. Arch Neurol. 2006 Nov;63(11):1545-50.

Schneider JA, Arvanitakis Z, Bang W, Bennett DA. Mixed brain pathologies account for most dementia cases in community-dwelling older persons. Neurology. 2007 Jun 13; [Epub ahead of print]

Schneider LS, Tariot PN, Dagerman KS, Davis SM, Hsiao JK, Ismail MS, et al. Effectiveness of atypical antipsychotic drugs in patients with Alzheimer's disease. N Engl J Med. 2006 Oct 12;355(15):1525-38.

Small GW, Kepe V, Ercoli LM, Siddarth P, Bookheimer SY, Miller KJ, et al. PET of brain amyloid and tau in mild cognitive impairment. N Engl J Med. 2006 Dec 21;355(25):2652-63.

Willis SL, Tennstedt SL, Marsiske M, Ball K, Elias J, Koepke KM, et al. Long-term effects of cognitive training on everyday functional outcomes in older adults. JAMA. 2006 Dec 20;296(23):2805-14.

Wilson RS, Krueger KR, Arnold SE, Schneider JA, Kelly JF, Barnes LL, et al. Loneliness and risk of Alzheimer disease. Arch Gen Psychiatry. 2007 Feb;64(2):234-40.

Review Date: 7/31/2007
Reviewed By: Harvey Simon, MD, Associate Professor of Medicine, Harvard Medical School; Physician, Massachusetts General Hospital.

The information provided herein should not be used during any medical emergency or for the diagnosis or treatment of any medical condition. A licensed medical professional should be consulted for diagnosis and treatment of any and all medical conditions. Call 911 for all medical emergencies. Links to other sites are provided for information only -- they do not constitute endorsements of those other sites. © 1997- A.D.A.M., Inc. Any duplication or distribution of the information contained herein is strictly prohibited.