Elevated homocysteine levels (along with reduced levels of B
vitamins such as folate, vitamin B12, and vitamin B6) are persistently
associated with Alzheimer’s disease and mild cognitive impairment
(Quadri P et al 2005; Ravaglia G et al 2005; Tucker KL et al 2005).
Based on the association between elevated homocysteine and Alzheimer’s
disease, strategies that lower homocysteine levels to safe ranges,
including supplementation with B vitamins, are recommended.
Vitamin B12. Research has suggested that low
cobalamin (vitamin B12) levels are related to dementias in general. In
a study evaluating levels of vitamin B12 in patients who had
Alzheimer’s disease or frontotemporal dementia, researchers found a
significant negative correlation (the lower the level of vitamin B12,
the more the deterioration) between vitamin B12 and degree of cognitive
deterioration (Engelborghs S et al 2004). A population-based
longitudinal study in Sweden of 370 people aged 75 years or older who
did not have dementia found that subjects who had low levels of vitamin
B12 or folate had twice the risk of developing Alzheimer’s disease over
the 3-year period of the study (Wang HX et al 2001).
Vitamin B6. A study found significantly lower
consumption of vitamin B6 after age 60 years in patients with
Alzheimer’s disease compared to control subjects (Mizrahi EH et al
2003). Low vitamin B6 levels are also associated with elevated numbers
of lesions on the brains of patients with Alzheimer’s disease (Mulder C
et al 2005).
Folate. Folic acid is needed for DNA synthesis and
to make S-adenosylmethionine (SAMe). A study of 126 patients, including
30 who had Alzheimer’s disease, found that the levels of folate in
cerebrospinal fluid were significantly lower in patients with
late-onset Alzheimer’s disease (Serot JM et al 2001). Another
longitudinal analysis of people between the ages of 70 and 79 years
found that people who had high levels of homocysteine or low levels of
folate had impaired cognitive function. The strongest association
between abnormal levels and dementia was found in people who had low
folate levels, leading researchers to suggest that folate might reduce
the risk of cognitive decline (Kado DM et al 2005).
Niacin. A 2004 study (of more than 6000 people)
conducted between 1993 and 2002 found that high levels of dietary
niacin protect against Alzheimer’s disease (Morris MC et al 2004). The
authors researched the dietary habits of initially healthy people aged
65 years or older. As the study progressed, some study participants
developed Alzheimer’s disease and some remained healthy. Subjects who
had the highest intake of niacin had a 70 percent reduction in risk of
cognitive decline. Intake of dietary niacin was inversely related to
the incidence of Alzheimer’s disease and age-related cognitive decline
(Morris MC et al 2004).
Natural Hormone Replacement
Estrogen replacement therapy (ERT) has been studied in relation to
Alzheimer’s disease with mixed results. Initial studies suggested that
ERT protected women against developing Alzheimer’s disease. Later
studies from the Women’s Health Initiative, however, suggested that
combination ERT and synthetic progestin therapy increased the risk of
dementia (Kasper DL et al 2004; Webber KM et al 2005). Hoping to
reconcile these results, one research team suggested that estrogen has
a healthy cell bias, meaning that estrogen therapy is beneficial when
the cells are still healthy but can exacerbate Alzheimer’s disease once
neurological health begins to degenerate (Brinton RD 2005).
When interpreting these results, however, you must consider the
complex interactions among all the hormones. Newer research has
examined the role of several of the hormones that act on the
hypothalamic-pituitary-gonadal axis, including luteinizing hormone and
follicle-stimulating hormone. Levels of these gonadotropic hormones are
altered in Alzheimer’s disease. One theory suggests that increases in
these hormones, rather than a decline in estrogen, may be a causative
factor in Alzheimer’s disease (Webber KM et al 2005). Studies have also
implicated declining levels of progesterone (Singh M 2005). In normal
aging, levels of luteinizing hormone and follicle-stimulating hormone
are often elevated, whereas progesterone levels decline.
Pregnenolone. Pregnenolone is a hormone that is
synthesized directly from cholesterol in the cell mitochondria. The
body converts pregnenolone into other important hormones, including
dehydroepiandrosterone (DHEA), various estrogens, progesterone, and
testosterone (Szilagyi G et al 2005). Aging causes a steep decline in
the production of pregnenolone, as well as in the hormones for which it
is a precursor.
Progesterone is synthesized in the brain, spinal cord, and
peripheral nerves from pregnenolone. Research strongly suggests that
progesterone promotes the formation of myelin sheaths, the fatty layers
of insulation that allow electrochemical signals to move efficiently
from one neuron to another (Schumacher M et al 2004). Scientists
believe that progesterone offers exciting treatment alternatives for
the prevention of many degenerative brain conditions, as well as
cognitive impairment during aging (Schumacher M et al 2004).
French researchers have shown that pregnenolone directly influences
acetylcholine release in several key brain regions. They also
demonstrated pregnenolone’s ability to promote new nerve growth.
According to the study authors: “Our data demonstrate that
[pregnenolone sulfate infusions] dramatically increase neurogenesis”
(Mayo W et al 2003, 2005).
Testosterone. Results of studies of the association
between testosterone and Alzheimer’s disease are conflicting. Some have
found higher or comparable levels of testosterone in patients who have
Alzheimer’s disease compared to age-matched control subjects (Almeida
OP et al 2003; Pennanen C et al 2004). Others have found that patients
with Alzheimer’s disease have lower levels of testosterone compared to
control subjects (Hogervorst E et al 2003). However, studies have shown
improved cognition in older adults who received testosterone
supplementation (Cherrier MM et al 2005). Few studies have been
conducted on testosterone replacement therapy in men with Alzheimer’s.
One such study, however, found that testosterone therapy did not
improve cognitive scores, but did result in higher quality-of-life
scores for patients with Alzheimer’s disease, as rated by their
caregivers (Lu PH et al 2006).
Melatonin. Known as the sleep hormone, melatonin
helps establish healthy sleep patterns. However, it is also an
antioxidant that has been shown to be highly effective in reducing
oxidative damage to the central nervous system. Melatonin stimulates
several antioxidant enzymes, including glutathione peroxidase and
glutathione reductase (Reiter RJ et al 1999). In animal studies,
melatonin improved cognitive function and reduced oxidative injury and
deposition of beta-amyloid (Cheng Y et al 2006). Additional studies
have confirmed that melatonin protects brain cells from beta-amyloid
toxicity by impairing beta-amyloid generation and slowing the formation
of plaque deposits (Wang JZ et al 2006).
DHEA. Various studies have indicated that patients
with Alzheimer’s disease have decreased levels of DHEA and that DHEA
has neuroprotective effects (Hillen T et al 2000; Polleri A et al 2002;
Weill-Engerer S et al 2002). DHEA is a neuroprotective steroid and a
precursor of other sex hormones, including testosterone and estrogen.
In animal studies, DHEA was shown to improve memory in rats that
overexpressed beta-amyloid (Farr SA et al 2004).
Huperzine to Support Acetylcholine
Huperzine A, derived from a Chinese club moss, is an NMDA-receptor
blocker than can help prevent or reduce the glutamate-mediated
excitotoxicity that produces beta-amyloid. It also helps block the
enzyme that destroys acetylcholine, much like conventional
pharmaceuticals such as acetylcholinesterase inhibitors. In animals,
huperzine A improved the decrease in acetylcholine activity in the
cortex and hippocampus (Bai DL et al 2000; Cheng DH et al 1996; Tang XC
1996; Wang LM et al 2000). Huperzine A was also shown to be as
effective, and sometimes even more effective, than traditional
acetylcholinesterase inhibitors (such as donepezil and galantamine) in
porcine intrinsic cardiac neurons (Darvesh S et al 2004). These results
were confirmed in a follow-up human study that found huperzine has
better penetration through the blood-brain barrier, higher
bioavailability, and longer duration of action than the expensive
pharmaceuticals (Wang R et al 2006).
Huperzine has been extensively studied in China. One Chinese study
found that 58 percent of patients with Alzheimer’s disease who were
treated with huperzine showed improvement in memory and in cognitive
and behavioral functions, compared with 36 percent who received placebo
(Xu SS et al 1995). Chinese researchers also found that patients with
Alzheimer’s disease who were treated with huperzine A performed
remarkably better on the Alzheimer’s Disease Assessment Scale–Cognitive
Subscale, Mini-Mental State Examination, Activities of Daily Living
Scale, Clinical Global Impression Scale, and Alzheimer’s Disease
Assessment Scale–Non-Cognitive Subscale than those on placebo (Zhang Z
et al 2002). Huperzine is currently in phase 2 trials in the United
States.
Vitamin Depot Online Foundation Recommendations
There are many choices of both drugs and nutritional supplements
available for patients with Alzheimer's disease. In light of new
evidence that oxidative stress and inflammation are central to
Alzheimer’s disease, people at risk of Alzheimer’s (or those who have
early dementia) are advised to take supplements that reduce
inflammation and oxidative damage. These include:
B vitamins—A full complement of B vitamins (including folate, vitamin B6, and vitamin B12) to lower homocysteine. Specificsuggested doses include
1000 micrograms (mcg) of vitamin B12, 250 mg of vitamin B6, and 800 mcg
of folic acid.
Niacin—Up to 800 mg daily. Start slowly and take with food to avoid flushing.
Nutrients such as phosphatidylserine-DHA (PS-DHA),
glycerophosphorylcholine (GPC), phosphatidylserine, vinpocetine, and
ashwagandha, are available in multi-nutrient mixes. For more
information call 1-800-544-4440.
The role of hormone replacement therapy has attracted considerable
attention in the treatment of people with Alzheimer’s disease, with
somewhat conflicting results. Although testosterone and progesterone
replacement therapy has shown some benefits, estrogen therapy has been
more complicated. For information on blood testing to determine proper
hormone levels, call 1-800-544-4440, or log on at www.lef.org.
Alzheimer’s Disease Safety Caveats
An aggressive program of dietary supplementation should not be
launched without the supervision of a qualified physician. Several of
the nutrients suggested in this protocol may have adverse effects.
These include:
Acetyl-L-Carnitine
Acetyl-L-carnitine can cause gastrointestinal symptoms such as nausea and diarrhea.
Choline
Do not take choline if you have primary genetic trimethylaminuria.
Choline can cause fishy body odor, excessive perspiration,
hypotension (low blood pressure), depression, and gastrointestinal
symptoms such as nausea and diarrhea.
Coenzyme Q10
See your doctor and monitor your blood glucose level frequently if
you take CoQ10 and have diabetes. Several clinical reports suggest that
taking CoQ10 may improve glycemic control and the function of beta
cells in people who have type 2 diabetes.
Statin drugs (such as lovastatin, simvastatin, and pravastatin) are known to decrease CoQ10 levels.
Cucumin
Do not take curcumin if you have a bile duct obstruction or a
history of gallstones. Taking curcumin can stimulate bile production.
Consult your doctor before taking curcumin if you have
gastroesophageal reflux disease (GERD) or a history of peptic ulcer
disease.
Consult your doctor before taking curcumin if you take
warfarin or antiplatelet drugs. Curcumin can have antithrombotic
activity.
Always take curcumin with food. Curcumin may cause gastric
irritation, ulceration, gastritis, and peptic ulcer disease if taken on
an empty stomach.
Curcumin can cause gastrointestinal symptoms such as nausea and diarrhea.
DHEA
Do not take DHEA if you could be pregnant, are breastfeeding, or could have prostate, breast, uterine, or ovarian cancer.
DHEA can cause androgenic effects in woman such as acne, deepening of the voice, facial hair growth and hair loss.
EPA/DHA
Consult your doctor before taking EPA/DHA if you take warfarin
(Coumadin). Taking EPA/DHA with warfarin may increase the risk of
bleeding.
Discontinue using EPA/DHA 2 weeks before any surgical procedure.
Folic acid
Consult your doctor before taking folic acid if you have a vitamin B12 deficiency.
Daily doses of more than 1 milligram of folic acid can
precipitate or exacerbate the neurological damage caused by a vitamin
B12 deficiency.
Garlic
Garlic has blood-thinning, anticlotting properties.
Discontinue using garlic before any surgical procedure.
Garlic can cause headache, muscle pain, fatigue, vertigo,
watery eyes, asthma, and gastrointestinal symptoms such as nausea and
diarrhea.
Ingesting large amounts of garlic can cause bad breath and body odor.
Ginkgo biloba
Do not take ginkgo biloba if you have a known risk factor for
intracranial hemorrhage such as systematic arterial hypertension,
diabetes, or amyloid senile plaque.
Ginkgo biloba can cause allergic skin reactions, elevated
blood pressure, and gastrointestinal symptoms such as nausea and
diarrhea.
Green Tea
Consult your doctor before taking green tea extract if you take
aspirin or warfarin (Coumadin). Taking green tea extract and aspirin or
warfarin can increase the risk of bleeding.
Discontinue using green tea extract 2 weeks before any surgical procedure. Green tea extract may decrease platelet aggregation.
Green tea extract contains caffeine, which may produce a
variety of symptoms including restlessness, nausea, headache, muscle
tension, sleep disturbances, and rapid heartbeat.
Huperzine A
Do not take huperzine A if you have a seizure disorder, cardiac
arrhythmias, asthma, irritable bowel syndrome, inflammatory bowel
disease, or malabsorption syndrome.
Huperzine A can cause excessive perspiration, blurred
vision, fasciculations (involuntary muscle twitching), dizziness,
bronchospasm, bradycardia, arrhythmias, seizures, urinary incontinence,
increased urination, excessive salivation, and gastrointestinal
symptoms such as nausea, abdominal cramps, diarrhea, and vomiting.
NAC
NAC clearance is reduced in people who have chronic liver disease.
Do not take NAC if you have a history of kidney stones (particularly cystine stones).
NAC can produce a false-positive result in the nitroprusside test for ketone bodies used to detect diabetes.
Consult your doctor before taking NAC if you have a history of
peptic ulcer disease. Mucolytic agents may disrupt the gastric mucosal
barrier.
NAC can cause headache (especially when used along with nitrates) and gastrointestinal symptoms such as nausea and diarrhea.
Niacin (nicotinic acid)
Do not take high doses of nicotinic acid (1.5 to 5 grams daily or
more) if you have liver dysfunction, an unexplained elevation in your
serum aminotransferase (transaminase) level, active peptic ulcer
disease, arterial bleeding, or if you consume large amounts of alcohol.
Consult your doctor before taking high doses of nicotinic
acid if you have a history of jaundice, peptic ulcer disease,
gastritis, disease of the liver or bile ducts, gout, kidney
dysfunction, or cardiovascular disease (especially acute myocardial
infarction or unstable angina).
Consult your doctor before taking high doses of nicotinic
acid if you have diabetes. High doses of nicotinic acid can negatively
affect glucose tolerance. Monitor your serum glucose level frequently
if you take nicotinic acid and have diabetes.
Have your doctor monitor your serum aminotransferase level if you take high-doses of nicotinic acid.
Nicotinic acid may cause flushing, principally of the face,
neck, and chest. This flushing is thought to be
prostaglandin-prostacyclin mediated. Histamine may also play a role in
the flushing.
Nicotinic acid can cause dizziness, palpitations, rapid
heartbeat, shortness of breath, sweating, chills, insomnia, nausea,
vomiting, abdominal pain, and muscle pain.
High doses of nicotinic acid can cause blurred vision, macular edema, toxic amblyopia, and cystic maculopathy.
PABA (Para-aminobenzoic Acid)
Do not take PABA if you are taking sulfonamides or have a kidney disease.
PABA can cause anorexia, nausea, vomiting, fever, and rash.
Vitamin B1 (Thiamin)
Consult your doctor before taking vitamin B1 for a thiamin
deficiency, lactic acidosis secondary to thiamin deficiency,
Wernicke-Korsakoff syndrome, Wernicke's encephalopathy, or Korsakoff's
psychosis.
Vitamin B2 (riboflavin)
High doses of vitamin B2 (riboflavin) may interfere with the Abbott TDx drugs-of-abuse assay.
Riboflavin absorption is increased in hypothyroidism and decreased in hyperthyroidism.
If you are taking nucleoside reverse-transcriptase inhibitors,
even a mild riboflavin deficiency can increase your risk of lactic
acidosis.
Vitamin B6
Do not take vitamin B6 if you are being treated with levodopa, unless you are taking carbidopa at the same time.
Vitamin B12 (cyanocobalamin)
Do not take cyanocobalamin if you have Leber's optic atrophy.
Vitamin C
Do not take vitamin C if you have a history of kidney stones or of
kidney insufficiency (defined as having a serum creatine level greater
than 2 milligrams per deciliter and/or a creatinine clearance less than
30 milliliters per minute.
Consult your doctor before taking large amounts of vitamin C
if you have hemochromatosis, thalassemia, sideroblastic anemia, sickle
cell anemia, or erythrocyte glucose-6-phosphate dehydrogenase (G6PD)
deficiency. You can experience iron overload if you have one of these
conditions and use large amounts of vitamin C.
Vitamin E
Consult your doctor before taking vitamin E if you take warfarin (Coumadin).
Consult your doctor before taking high doses of vitamin E if you have a vitamin K deficiency or a history of liver failure.
Consult your doctor before taking vitamin E if you have a
history of any bleeding disorder such as peptic ulcers, hemorrhagic
stroke, or hemophilia.
Discontinue using vitamin E 1 month before any surgical procedure.
Vinpocetine
Do not take vinpocetine if you have a history of allergic or hypersensitivity reactions to any vinca alkaloids.
Consult your doctor before taking vinpocetine if you take
warfarin (Coumadin). Have your international normalized ratio monitored
frequently by your doctor if you take vinpocetine and warfarin.
Consult your doctor before taking vinpocetine if you have
low blood pressure (including transient low blood pressure or
orthostatic hypotension). Prolonged use of vinpocetine may lead to
slight reductions in systolic and diastolic blood pressures.
Vinpocetine can cause temporary rapid heartbeat, pressure
headache, facial flushing, dizziness, insomnia, drowsiness, and
gastrointestinal symptoms such as nausea and diarrhea.
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