Introducing – Velvet Bean: Herbal Alternative for Parkinson’s
Wednesday, February 17th, 2010Research shows that Velvet bean, a natural source of L-Dopa, improves the symptoms of Parkinson’s disease. This herb has been used in Ayurvedic medicine for centuries.
Mucuna pruriens, or Velvet bean, is an ancient herb that has received much attention in recent years because of its effectiveness in treating Parkinson’s disease, a debilitating neurological condition that affects millions, particularly with advancing age. Velvet bean’s active chemical ingredient is a natural form of dopamine, making it very specific for Parkinson’s disease, as well as for any disorder caused by insufficient levels of this critical neurotransmitter. Research has shown that when natural dopamine is chemically removed from the herb, Velvet bean is still effective against the symptoms of Parkinson’s disease, indicating that the herb possesses multiple anti-Parkinsonian properties.
Velvet bean has been used as part of the traditional herbal treatment for Parkinson’s disease in Ayurvedic medicine for centuries. Empirical evidence gathered over this time strongly suggests that this treatment stops the progress of the disease by helping to regenerate the nervous system and arresting damage caused by free radicals. Herbal treatment has not been shown to reverse Parkinson’s disease, however.
Velvet Bean as an Herbal Alternative to L-Dopa
Due to the high concentration of naturally-occuring L-dopa in Velvet bean seeds, it has been studied intensively for its potential use in slowing the progress of
In a clinical trial, the effects of Velvet bean were compared with standard doses of L-dopa in
Further Research on Velvet Bean and Parkinson’s Disease Symptoms
In a second clinical study, the efficacy of a traditional Ayurvedic treatment including Velvet bean was studied in 18 clinically diagnosed Parkinson’s disease patients. Patients whose herbal therapy was accompanied by traditional Ayurvedic cleansing experienced significant improvements in their Parkinson’s disease symptoms, particularly in motor activities. These patients showed reductions in tremors, radykinesia, stiffness and cramps as compared to patients receiving herbal therapy alone.
This research indicates that the naturally-occurring L-dopa contained in Velvet bean may offer advantages over conventional L-dopa preparations in the long-term management of Parkinson’s disease. The necessity of combining such treatment with whole-body cleansing, such as that traditionally administered in Ayurveda, significantly enhances the effectiveness of the herbal treatment.
Ways To Improve Your Brain Health and Fitness
Friday, February 5th, 2010Brain fitness has basic principles: variety and curiosity. When anything you do becomes second nature, you need to make a change. If you can do the crossword puzzle in your sleep, it’s time for you to move on to a new challenge in order to get the best workout for your brain. Curiosity about the world around you, how it works and how you can understand it will keep your brain working fast and efficiently. Use the ideas below to help attain your quest for mental fitness.
1. Play Games
Brain fitness programs and games are a wonderful way to tease and challenge your brain. Suduko, crosswords and electronic games can all improve your brain’s speed and memory. These games rely on logic, word skills, math and more. These games are also fun. You’ll get benefit more by doing these games a little bit every day — spend 15 minutes or so, not hours.
2. Meditation
Daily meditation is perhaps the single greatest thing you can do for your mind/body health. Meditation not only relaxes you, it gives your brain a workout. By creating a different mental state, you engage your brain in new and interesting ways while increasing your brain fitness.
3. Eat for Your Brain
Your brain needs you to eat healthy fats. Focus on fish oils from wild salmon, nuts such as walnuts, seeds such as flax seed and olive oil. Eat more of these foods and less saturated fats. Eliminate transfats completely from your diet.
4. Tell Good Stories
Stories are a way that we solidify memories, interpret events and share moments. Practice telling your stories, both new and old, so that they are interesting, compelling and fun. Some basic storytelling techniques will go a long way in keeping people’s interest both in you and in what you have to say.
5. Turn Off Your Television
The average person watches more than 4 hours of television everyday. Television can stand in the way of relationships, life and more. Turn off your TV and spend more time living and exercising your mind and body.
6. Exercise Your Body To Exercise Your Brain
Physical exercise is great brain exercise too. By moving your body, your brain has to learn new muscle skills, estimate distance and practice balance. Choose a variety of exercises to challenge your brain.
7. Read Something Different
Books are portable, free from libraries and filled with infinite interesting characters, information and facts. Branch out from familiar reading topics. If you usually read history books, try a contemporary novel. Read foreign authors, the classics and random books. Not only will your brain get a workout by imagining different time periods, cultures and peoples, you will also have interesting stories to tell about your reading, what it makes you think of and the connections you draw between modern life and the words.
8. Learn a New Skill
Learning a new skill works multiple areas of the brain. Your memory comes into play, you learn new movements and you associate things differently. Reading Shakespeare, learning to cook and building an airplane out of toothpicks all will challenge your brain and give you something to think about.
9. Make Simple Changes
We love our routines. We have hobbies and pastimes that we could do for hours on end. But the more something is ’second nature,’ the less our brains have to work to do it. To really help your brain stay young, challenge it. Change routes to the grocery store, use your opposite hand to open doors and eat dessert first. All this will force your brain to wake up from habits and pay attention again.
10. Train Your Brain
Brain training is becoming a trend. There are formal courses, websites and books with programs on how to train your brain to work better and faster. There is some research behind these programs, but the basic principles are memory, visualization and reasoning. Work on these three concepts everyday and your brain will be ready for anything.
Scientists Develop Better Technique to Study Bacterial Swimming
Monday, February 1st, 2010The new approach uses optical traps, microfluidic chambers and fluorescence to get an improved picture of how E. coli get around.
Chemla, who jointly led the study with physics professor
The researcher calls the optical traps “bacterial treadmills”.
According to the researchers, movement of the bacterial cell alters the light from the laser, and, thereby, help track its behaviour.
Fluorescent markers enhance visualization of the bacteria and their flagella under a microscope, say the researchers.
While earlier studies have been unable to follow individual bacterial cells moving in three dimensions for more than about 30 seconds, the new approach allows the researchers to track a single bacterium as it swims for up to an hour, and that is why it may offer a new look at questions that so far have been unanswerable.
“For example, some people have asked whether E. coli has a nose. Does it have a front and back?” Nature magazine quoted
He and his colleagues have observed that while the bacterium can travel in either direction, most E.coli have “a pronounced preference” for one over the other.
The researchers found that after most tumbles, a bacterium usually continued swimming in the same general direction, but that about one in six tumbles caused it to change direction completely.
They were also able to quantify other features of bacterial swimming, such as changes in velocity and the time spent running and tumbling.
They hope that their novel method will allow scientists to address many more questions about this model organism.
“That’s the typical way biology moves forward. You develop a new measurement capability and then you can use that to go back and look at fundamental questions that people had been looking at but had no way of answering,” Golding said.
A research article describing the new technique has been published in the journal Nature Methods.
Protein that Repairs Alzheimer’s Brain Damage Identified
Tuesday, January 26th, 2010TRENTON – Scientists from University of Medicine and Dentistry of New Jersey have identified a protein that can repair brain damage in Alzheimer’s patients.
They said that a protein called vimentin normally appears twice in a lifetime – when neurons in the brain are forming during the first years of life and, years later when the brain’s neurons are under siege from Alzheimer’s or other neurodegenerative diseases.
“Vimentin is expressed by neurons in regions of the brain where there is Alzheimer’s damage but not in undamaged areas of the brain,” said
“When the patient shows up at the doctor’s office with symptoms of cognitive impairment, the neurons have reached the point where they can no longer keep pace with the ever-increasing damage caused by Alzheimer’s,” he added.
While explaining the study results, Nagele likened neurons to a tree with long strands called dendrites branching off from the main part of the cell.
The dendrite branches are covered with 10,000 tiny “leaves” called synapses that allow neurons to communicate with each other. Vimentin is an essential protein for building the dendrite branches that support the synapses.
“A hallmark of Alzheimer’s is the accumulation of amyloid deposits that gradually destroy the synapses and cause the collapse of dendrite branches,” he said.
“When the dendrites and synapses degenerate, the neuron releases vimentin in an attempt to re-grow the dendrite tree branches and synapses. It’s a rerun of the embryonic program that allowed the brain to develop in the early years of life,” Nagele added.
The researchers also reported some initial findings that indicated a similar damage response mechanism takes place following traumatic brain injury, suggesting the possibility that similar therapeutic agents could be developed to enhance repair both for sudden brain trauma and for progressive neurodegenerative diseases.
The findings are published in journal Brain Research.
Iron Accumulation in a Cell Can Cause Disease
Tuesday, January 26th, 2010The accumulation of iron in mitochondria, which is the centre for cell respiration and energy production, is toxic. The iron can substantially damage the cell and cause death.
Using a mouse model, University of Sydney (U-S) researchers found that the iron loading was caused by its increased iron uptake and decreased release due to reduced iron utilization in two major mitochondrial pathways.
“The terrible part is that these children (with high iron accumulation in cells) grow up knowing the joys of self-sufficiency, being able to walk and function normally before they are struck down,” said
The study appeared in the latest edition of the Proceedings of the National Academy of Science.
Depression Ups Cancer Patients Dying Risk
Tuesday, January 26th, 2010Published in the November 15, 2009 issue of Cancer, a peer-reviewed journal of the American Cancer Society, the finding of an analysis highlights the need for systematic screening of psychological distress and subsequent treatments.
In order to determine the effects of depression on cancer patients’ disease progression and survival, graduate student Jillian Satin, MA, of the University of British Columbia in Vancouver, Canada, and her colleagues analyzed all of the studies to date they could identify related to the topic.
The researchers found 26 studies with a total of 9417 patients that examined the effects of depression on patients’ cancer progression and survival.
“We found an increased risk of death in patients who report more depressive symptoms than others and also in patients who have been diagnosed with a depressive disorder compared to patients who have not,” said Satin.
In the combined studies, the death rates were up to 25 percent higher in patients experiencing depressive symptoms and 39 percent higher in patients diagnosed with major or minor depression.
The increased risks remained even after considering patients’ other clinical characteristics that might affect survival, indicating that depression may actually play a part in shortening survival.
However, the authors say additional research must be conducted before any conclusions can be reached. The authors add that their analysis combined results across different tumor types, so future studies should look at the effects of depression on different kinds of cancer.
The investigators note that the actual risk of death associated with depression in cancer patients is still small, so patients should not feel that they must maintain a positive attitude to beat their disease.
Nevertheless, the study indicates that it is important for physicians to regularly screen cancer patients for depression and to provide appropriate treatments.
Introducing – Kava
Tuesday, January 26th, 2010Latin name: Piper methysticum
Other names: kava kava, kawa, kew, yagona, sakau
Kava is a tall shrub in the pepper family that grows in the South Pacific islands. It has been used there for thousands of years as a folk remedy and as a social and ceremonial beverage.
The part of the plant used medicinally is the root. Although the root was traditionally chewed or made into a beverage, kava is now available in capsule, tablet, beverage, tea, and liquid extract forms.
Why People Use Kava:
* Anxiety
* Insomnia
Because kava can cause sedation, and in high amounts, intoxication, kava drinks are consumed in some parts of the world in much the same way as alcohol.
How Kava Works:
The main active components in kava root are called kavalactones. Specific types of kavalactones include dihydrokavain, methysticin, kavain, dihydromethysticin, dihydrokawain, yangonin and desmethoxyyangonin.
Although it’s not clear exactly how kava works, kavalactones may affect the levels of neurotransmitters (chemicals that carry messages from nerve cells to other cells) in the blood. Kava has been found to affect the levels of specific neurotransmitters, including norepinephrine, gamma aminobutyric acid (GABA) and dopamine.
Scientific Evidence for Kava:
A number of well-designed studies have examined kava’s ability to relieve anxiety compared to anxiety medication or a placebo. The results have been promising.
In 2003, a review by the Cochrane Collaboration examined the existing research to see how kava fared compared to a placebo in treating anxiety. After analyzing the 11 studies (involving a total of 645 people) that met the criteria, the researchers concluded that kava “appears to be an effective symptomatic treatment option for anxiety.” However, they added that it seemed to be a small effect.
Concerns About Kava and the Liver:
Although rare, case reports have linked kava use with liver toxicity, including hepatitis, cirrhosis, and liver failure.
As a result, the FDA issued a warning about kava in 2002. Several countries have banned or restricted the sale of kava.
Clinical trials have not found liver toxicity. Adverse liver reactions appear to be linked to factors such as pre-existing liver disease, alcohol consumption, excessive doses, genetic variations in the cytochrome P450 enzymes, consumption of other drugs or herbs that, combined, may have a toxic effect, or the use of stem or leaf extracts or extracts made with acetone or ethanol.
Potential Side Effects of Kava:
Side effects include indigestion, mouth numbness, skin rash, headache, drowsiness and visual disturbances. Chronic or heavy use of kava has linked to pulmonary hypertension, skin scaling, loss of muscle control, kidney damage, and blood abnormalities.
Kava may lower blood pressure and it also may interfere with blood clotting, so it shouldn’t be used by people with bleeding disorders. People with Parkinson’s disease shouldn’t use kava because it may worsen symptoms.
Kava should not be taken within 2 weeks of surgery. Pregnant and nursing women, children, and people with liver or kidney disease shouldn’t use kava.
Possible Drug Interactions:
Kava shouldn’t be taken by people who are taking Parkinson’s disease medications, antipsychotic drugs, or any medication that influences dopamine levels.
Kava shouldn’t be combined with alcohol or medications for anxiety or insomnia, including benzodiazepines such as Valium (diazepam) or Ativan (lorazepam). It may have an additive effect if taken with drugs that cause drowsiness.
Kava may have an additive effect if combined with antidepressant drugs called monoamine oxidase inhibitors (MAOI).
Kava shouldn’t be taken with any drug or herb that impairs liver function. Kava also may interfere with blood clotting, so people taking Coumadin (warfarin) or any drug that influences blood clotting should avoid it unless under a doctor’s supervision.
Kava is a diuretic, so it may have an additive effect if combined with drugs or herbs that have diuretic properties.
Genetic Link Between Psychosis and Creativity Revealed
Saturday, January 23rd, 2010BUDAPEST – A new study seems to have established a link between psychosis and creativity.
Writing about the study in the journal Psychological Science, he has revealed that a variant of this gene is associated with a greater risk of developing mental disorders, such as schizophrenia and bipolar disorder.
For the study,
The participants underwent a battery of tests, including assessments for intelligence and creativity.
To measure the volunteers’ creativity, the researchers asked them to respond to a series of unusual questions, and scored them based on the originality and flexibility of their answers.
The subjects also completed a questionnaire regarding their lifetime creative achievements before the researchers took blood samples.
According to the researchers, their findings showed a clear link between neuregulin 1 and creativity, for volunteers with the specific variant of this gene were more likely to have higher scores on the creativity assessment, and also greater lifetime creative achievements, than volunteers with a different form of the gene.
He says: “Molecular factors that are loosely associated with severe mental disorders but are present in many healthy people may have an advantage enabling us to think more creatively.”
His findings also suggest that certain genetic variations, even though associated with adverse health problems, may survive evolutionary selection and remain in a population’s gene pool if they also have beneficial effects.
Low Incomes Leads to Higher Mortality Rate In Prostate Cancer Patients
Saturday, January 23rd, 2010GENEVA – Prostate cancer patients who belong to low socio-economic status are more likely to die than patients with higher incomes, according to a new study from Swiss researchers.
The study’s findings indicate that poor prostate cancer patients receive worse care than their wealthier counterparts.
The researchers wanted to know how disparities affected prostate cancer mortality in Switzerland, a country with an extremely well developed health care system and where healthcare costs, medical coverage, and life expectancy are among the highest in the world,
Dr.
The analysis included 2,738 patients identified through the Geneva Cancer Registry.
The researchers found that as compared with patients of high socio-economic status, those of low socio-economic status were less likely to have their cancer detected by screening, had more advanced stages of cancer at diagnosis, and underwent fewer tests to characterize their cancer.
These patients were less likely to have their prostates removed and were more likely to be managed with watchful waiting, or careful monitoring.
Patients with low socio-economic status also had a 2-fold increased risk of dying from prostate cancer compared with patients of high socio-economic status.
“The increased mortality risk of patients of low socio-economic status is almost completely explained by delayed diagnosis, poor work-up, and less complete treatment, indicating inequitable use of the health care system,” said Rapiti.
The authors say lead time and length time biases linked to early detection through PSA screening may partially explain the survival advantage observed among high SES patients.
The study has been published in the latest issue of Cancer, a peer-reviewed journal of the American Cancer Society.
Kids With Small Head Size at Risk of Neurologic Problems
Thursday, January 21st, 2010Kids With Small Head Size at Risk of Neurologic Problems
Published in the medical journal of the American Academy of Neurology, the guideline has been developed in full collaboration with the Child Neurology Society.
Microcephaly is the medical term used for the condition in which kids have small head sizes. In some cases, it is not present at birth, but develops by the time a child becomes two.
While microcephaly is not a disease, it is an important sign that may point to other conditions.
“The evidence suggests that children with microcephaly are more likely to have certain neurologic conditions, such as epilepsy and cerebral palsy, as well as mental retardation and eye and ear disorders,” said lead guideline author Dr. Stephen Ashwal, a child neurologist at Loma Linda University School of Medicine in Loma Linda, California, and a Fellow of the American Academy of Neurology.
“In fact, the evidence shows that children with microcephaly are at risk for developmental delay and learning disorders. For these reasons, it is necessary for doctors to recognize microcephaly and check the child for these associated problems, which often require special treatments. This is an important recommendation, as it allows doctors to provide more accurate advice and counseling to families who have a child with microcephaly,” he added.
The expert says that doctors may also consider screening for coexisting conditions, such as epilepsy and cerebral palsy.
“Forty percent of children with microcephaly also have epilepsy, 20 percent also have cerebral palsy, 50 percent also have mental retardation, and 20 to 50 percent also have eye and ear problems,” said Ashwal.
Brain scans like an MRI or CT scan as well as genetic testing may be useful in identifying the causes of microcephaly.
Ashwal says even if a small head size runs in families, it is still important to see a doctor due to the risk of other conditions.
Stressing the importance of telling the doctor about any family history of neurologic disease, Ashwal said: “It should be noted though, that some children with small head size have normal development and do not develop any related conditions or problems.”
Healthy Older Brains Not Smaller than Younger Ones
Thursday, January 21st, 2010Healthy Older Brains Not Smaller than Younger Ones
MAASTRICHT – The belief that healthy older brains are substantially smaller than younger brains has been deemed incorrect by Dutch researchers.
The authors suggest that previous findings may have overestimated atrophy and underestimated normal size for the older brain.
The new study tested participants in Holland’s long-term Maastricht Aging Study who were free of neurological problems such as dementia, Parkinson’s disease or stroke.
Once participants were deemed otherwise healthy, they took neuropsychological tests, including a screening test for dementia, at baseline and every three years afterward for nine years.
MRI scans were used to measure seven different parts of the brain, including the memory-laden hippocampus, the areas around it, and the frontal and cingulate areas of the cognitively critical cortex.
The participants were later divided into two groups: one group with 35 cognitively healthy people who stayed free of dementia (average starting age 69.1 years), and the other group with 30 people who showed substantial cognitive decline but were still dementia-free (average starting age 69.2 years).
In contrast to the 35 people who stayed healthy, the 30 people who declined cognitively over study-period showed a significant effect for age in the hippocampus and parahippocampal areas, and in the frontal and cingulate cortices.
In short, among the people whose cognition got worse, older participants had smaller brain areas than younger participants.
Thus, the seeming age-related atrophy in gray matter more likely reflected pathological changes in the brain that underlie significant cognitive decline than aging itself, wrote the authors.
As long as people stay cognitively healthy, the researchers believe that the gray matter of areas supporting cognition might not shrink much at all.
If future longitudinal studies find similar results, our conception of ‘normal’ brain aging may become more optimistic,” said lead author
The study appears in journal Neuropsychology.
Bacteria Can Help Convert Waste to Power
Tuesday, January 19th, 2010Bacteria Can Help Convert Waste to Power
BOSTON – Bacteria that generate power could be used in microbial fuel cells to convert waste into electricity, according to the latest research.
University of Massachusetts (U-M) researchers isolated bacteria with large numbers of tiny projections called pili which transfer electrons to generate power in fuel cells, more efficiently than counterparts with a smooth surface.
The researchers isolated a strain of Geobacter sulfurreducens which they called KN400 that grew prolifically on the graphite anodes of fuel cells.
The bacteria formed a thick bio-film on the anode surface, which conducted electricity. The researchers found large quantities of pilin, a protein that makes the tiny fibres that conduct electricity through the sticky bio-film.
“The filaments form microscopic projections called pili that act as microbial nanowires,” said
Microbial fuel cells can be used in monitoring devices in environments where it is difficult to replace batteries if they fail but to be successful they need to have an efficient and long-lasting source of power.
Lovley described how KN400 might be used in sensors placed on the ocean floor to monitor migration of turtles.
These findings were reported at the Society for General Microbiology’s meeting at Heriot-Watt University,
Bone Strengthening Drugs Linked To Lower Breast Cancer Incidence
Tuesday, January 19th, 2010Bone Strengthening Drugs Linked To Lower Breast Cancer Incidence
The study is the work of lead investigator
“The idea that bisphosphonates could reduce breast cancer incidence is very exciting because there are about 30 million prescriptions for these agents written annually in the US targeting bone health, and more could easily be used to counteract both osteoporosis and breast cancer,” Chlebowski told the media.
For the study, Chlebowski and colleagues re-analyzed data from the Women’s Health Initiative (WHI), a large observational study set up by the National Institutes of Health (NIH) in 1991 to examine the most common causes of death, disability and impaired quality of life in postmenopausal women. The WHI collected information on cardiovascular disease, cancer, and osteoporosis.
In the 150,000-plus cohort of generally healthy postmenopausal women, the researchers found 32 per cent fewer cases of invasive breast cancer among women who used bisphosphonates (mostly alendronate, marketed as Fosamax by Merck), compared to women who did not use such drugs.
What prompted the study were the findings of a report from a breast cancer trial that suggested bisphosphonate zoledronic acid given intravenously every 6 months resulted in fewer cancers in the other breast.
“It appeared to make bone less hospitable to breast cancer.”
In deciding how to devise the study, the researchers had to find a way to control for bone density, since that in itself is a risk factor for breast cancer. In other words they had to devise a way to control for potential differences between the women prescribed bisphosphonate and those not prescribed bisphosphonate, because those on the bone-strengthening drugs were on it because they had low bone mineral density, which is linked to lower breast cancer incidence.
They found that about 10,000 of the cohort had their bone mineral density analyzed as part of the WHI study, and for the others, including those prescribed bisphosphonates, the researchers used a 10-item hip fracture predictive score to measure bone density.
Thus they were able to correlate the results of bone mineral density tests in the 10,000 who had the tests with the predictive score in order to correct for any potential difference in bone density in women using bisphosphonates compared to those who did not use them.
Thus prepared, Chlebowski and colleagues then studied data on 2,216 women who were using bisphosphonates when they entered the WHI study.
The results showed that:
* Only 64 of the bisphosphonate users developed breast cancer, and most of the cases, (50 of them), were estrogen-receptor positive.
* Overall there was an average of 32 per cent fewer breast cancers among bisphosphonate users compared to non-users.
* There were 30 per cent fewer estrogen-receptor positive cancers and 34 per cent fewer entry-receptor negative cancers among bisphosphonate users, although the latter finding was not statistically significant due to low numbers.
Speculating on what effect bisphosphonates might have to cause fewer breast cancers, Chlebowski said it could be because the drugs discourage blood vessel formation (which tumors rely on to grow), and help the immune system:
“Bisphosphonates reduce angiogenesis and stimulate immune cells responsible for tumor cell surveillance as potential mediators,” explained Chlebowski.
He said we need to study this link in more detail, because “while we currently have several options for reducing receptor positive breast cancers, none are available for receptor negative cancers”.
Brainy Ingredients Get Brawny
Tuesday, January 19th, 2010Brainy Ingredients Get Brawny
BEVERLY HILLS – An estimated 10 per cent of American adults have mood disorders — 21 million. Another five million have Alzheimer’s disease.
Interest in cognitive health is also expanding to the younger populations, ages 25—50 years. Many younger people are more receptive to ‘keeping their brain sharp’ as they find themselves taking care of an elderly parent suffering from age-related mental decline and realise that they might have a similar condition in a few decades.
One of the primary ingredients marketed for cognitive health is the omega-3 fatty acid DHA. Martek’s life’sDHA is used in many infant formulas for improved cognitive function (and eye health), and through this platform is finding a home elsewhere. Its success is demonstrated with Martek’s second quarter financial 2009 results, which showed revenues up two per cent to $92.4 million.
“Our success within the infant formula market has provided us credibility with the food companies. If we are good enough for babies, we must be good enough for the rest of the population,” says
Other ingredients are hopping on the DHA bandwagon. Ocean Nutrition Canada, a major supplier of fish oil, has partnered with
Functional ingredients
Citicoline
Cocoa
Curcumin
Eleuthero
Gamma amino butyric acid (GABA)
Ginkgo biloba
Huperzia serrata
L-carnitine
L-theanine
L-tyrosine
Melatonin
Omega-3 DHA
Phosphatidylserine (PS)
Pomegranate
St John’s wort
Turmeric
Vinpocetine
Vitamin D
Vitamin E
“We wanted to leverage both companies’ ingredients for brain health,” says
Hagerman says the company works to leverage market interest into successful new ingredients. “We first look at market attractiveness, long-term prospects of selling, production capabilities and, finally, patent opportunities, since we have to make substantial investments in identifying and developing new ingredient product opportunities.”
One new entrant to the field is Vivimind by Ovos Natural Health. The ingredient, derived from homotaurine found in seaweed, has a great deal of research behind it, on more than 2,000 individuals. It is set to launch in the US market by the end of the year.
“Vivimind has received scientific support and has been embraced by consumers in the Canadian market since its launch in September 2008,” says
Other emerging ingredients include vinpocetine, curcumin and turmeric. And — surprise, surprise — vitamin D. A May 2009 study in Europe of more than 3,000 men aged 40-79 found those with high vitamin D levels performed better on memory and information processing tes
Got Cognitive Activity? It Does a Mind Good
Saturday, January 16th, 2010Got Cognitive Activity? It Does a Mind Good
BOSTON – If you don’t have a college degree, you’re at greater risk of developing memory problems or even Alzheimer’s. Education plays a key role in lifelong memory performance and risk for dementia, and it’s well documented that those with a college degree possess a cognitive advantage over their less educated counterparts in middle and old age.
Now, a large national study from Brandeis University published in the American Journal of Geriatric Psychiatry shows that those with less schooling can significantly compensate for poorer education by frequently engaging in mental exercises such as word games, puzzles, reading, and lectures.
“The lifelong benefits of higher education for memory in later life are quite impressive, but we do not clearly understand how and why these effects last so long,” said lead author
But education early in adulthood does not appear to be the only route to maintain your memory. The study found that intellectual activities undertaken regularly made a difference. “Among individuals with low education, those who engaged in reading, writing, attending lectures, doing word games or puzzles once or week or more had memory scores similar to people with more education,” said Lachman.
The study, called Midlife in the United States, assessed 3,343 men and women between the ages of 32 and 84 with a mean age of 56 years. Almost 40 percent of the participants had at least a 4-year college degree. The researchers evaluated how the participants performed in two cognitive areas, verbal memory and executive function — brain processes involved in planning, abstract thinking and cognitive flexibility. Participants were given a battery of tests, including tests of verbal fluency, word recall, and backward counting.
As expected those with higher education said they engaged in cognitive activities more often and also did better on the memory tests, but some with lower education also did well, explained Lachman.
“The findings are promising because they suggest there may be ways to level the playing field for those with lower educational achievement, and protect those at greatest risk for memory declines,” said Lachman. “Although we can not rule out the possibility that those who have better memories are the ones who take on more activities, the evidence is consistent with cognitive plasticity, and suggests some degree of personal control over cognitive functioning in adulthood by adopting an intellectually active lifestyle.”
The study was supported by the National Institute on Aging.
Novel Two-Step Chemical Process Makes Cancer Cells Glow Quickly, Safely
Tuesday, January 12th, 2010Novel Two-Step Chemical Process Makes Cancer Cells Glow Quickly, Safely
BOSTON – Researchers at Massachusetts General Hospital have developed a two-step process that uses a chemical reaction to make live cancer cells light up quickly and safely.
This attains significance because scientists generally label cells with colored or glowing chemicals to observe how basic cellular activities differ between healthy and cancerous cells, but existing techniques are either too slow or too toxic to perform on live cells.
Under the novel process, chemically modified antibodies first home in on cancer cells, and then a chemical reaction called cycloaddition transfers a dye onto the antibody making the cancer cells glow when viewed through a microscope.
Philip Dawson, a member of Faculty of 1000 Biology and leading authority in chemistry and cell biology, reviewed a study and observed that the novel cycloaddition reaction is fast, very specific, and requires minimal manipulation of the cells.
He comments that, in combining antibody binding with the cycloaddition, “low signal-to-noise ratios are achieved”.
He points out that the new labeling technique could be used to track the location and activity of anti-cancer drugs, the location of cancer-specific proteins within the cell, or to visualize cancer cells inside a living organism.
Cocaine Changes How Genes Work in Brain
Saturday, January 9th, 2010Cocaine Changes How
A study in mice by
The study helps explain how cocaine use changes the brain, said Dr. Nora Volkow, director of the National Institute on Drug Abuse, part of the National Institutes of Health, which funded the study published in the journal Science.
“This finding is opening up our understanding about how repeated drug use modifies in long-lasting ways the function of neurons,” Volkow said in a telephone interview.
For the study, the team gave one group of young mice repeated doses of cocaine and another group repeated doses of saline, then a single dose of cocaine.
They found that one way cocaine alters the reward circuits in the brain is by repressing gene 9A, which makes an enzyme that plays a critical role in switching genes on and off.
Other studies have found that animals exposed to cocaine for a long period of time undergo dramatic changes in the way certain genes are turned on and off, and they develop a strong preference for cocaine.
This study helps explain how that occurs, Volkow said, and may even lead to new ways of overcoming addiction.
In the study, Maze and colleagues showed these effects could be reversed by increasing the activity of gene 9A.
“When they do that, they completely reverse the effects of chronic cocaine use,” Volkow said.
She said this mechanism is likely not confined to cocaine addiction, and could lead to a new area of addiction research for other drugs, alcohol and even nicotine addition.
“One of the questions we’ve had all along is, after discontinuing a drug, why do you continue to be addicted?
“This is one of the mechanisms that probably is responsible for these long-lasting modifications to the way people who are addicted to drugs perceive the world and react to it,” she said.
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Curcumin May Protect Smokers from Nicotine-Induced Head, Neck Cancers
Saturday, January 9th, 2010SAN DIEGO – Curcumin, a compound that is found in the India curry spice turmeric, seems to be effective in stopping nicotine’s adverse effects in smokers with head and neck cancer, according to a study.
Presented at the 2009 American Academy of Otolaryngology – Head and Neck Surgery Foundation (AAO-HNSF) Annual Meeting and OTO EXPO in San Diego, the study examined the effects of curcumin on head and neck squamous cell carcinoma (HNSCC) growths.
It used an in vitro model of a variety of head and neck cancer cell lines.
The researchers behind it pre-treated HNSCC cells with curcumin, and then introduced nicotine, with a view to mimicking the clinical situation.
They observed that curcumin was able to block the nicotine from activating cancer causing cells.
Though nicotine itself has not been shown to be carcinogenic, it has been shown to encourage the cancer-forming process.
The researchers said that they wanted to find out a safe, bioactive food compound that could be used not only as a chemopreventive agent, but that could also block the harmful effects of nicotine.
They believe that their findings may help to discover additional therapies for cancer prevention and treatment.