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Sunday, May 30, 2010

Contrast-enhanced MRI could lead to a more targeted therapy for rheumatoid and psoriatic arthritis

According to a new study contrast-enhanced magnetic resonance imaging (MRI) could help to differentiate between psoriatic and rheumatoid arthritis in hands and wrists.  Because in the past the treatment for patients with psoriatic arthritis was based on the treatment for those with rheumatoid arthritis the results of the study might lead to a more targeted therapy unique to each condition.
The study that took place at the University Hospital of Tubingen imaged using contrast-enhanced magnetic resonance imaging 31 patients with rheumatoid arthritis and 14 with psoriatic arthritis. The contrast media in rheumatoid and psoriatic arthritis is presumed to be different and the difference can only be seen 15 minutes after the contrast material is given.
“Our study revealed a significant difference in perfusion between those patients with rheumatoid arthritis and psoriatic arthritis after 15 minutes. However, since it was a small group of patients and there was an overlap in perfusion values between both types of arthritis, a diagnosis could not be led by contrast-enhanced MRI alone. Our results are nonetheless promising though,” said Nina Schwenzer, lead author of the study.

source:
healthyfeeds.com

Saturday, May 29, 2010

Chinese Boy is just 2yrs & Is World’s Youngest Smoker

Melbourne: A two-year-old Chinese boy is the world’’s youngest smoker. And it was Tong Liangliang’’s dad who taught him how to spark up between tantrums and milky vomits.
Chinese boy, 2, is world''s youngest smoker
Liangliang’’s dad said his son was born with a hernia, and being too young for an operation, has taken up smoking to help him deal with the pain.
“The father wasn”t aware how serious the toddler’’s habit had become until the child began to increase the number of cigarettes he smoked per day,” News.com.au quoted news agency CRI as saying.
However, The Guinness Book of World Records may not accept the feat, as it has refused such requests before on the grounds that it “promoted a harmful habit”. (ANI)

source:
http://www.indiannews1.com

Friday, May 28, 2010

Changing weather may affect our health

It is true that we change with weather at least regarding health and state of mind. We all are influenced more or less by temperature variations.

Arthritis symptoms worsen 
Human body is equipped with sensory receptors that sense external temperature variations as well as atmospheric pressure changes. As these receptors are highly sensible to climate changes they can influence pain sensation. Namely when weather changes, pain rising from already existing illnesses worsens. That is why rheumatics are natural thermometers and barometers. Person suffering from arthrosis, rheumatoid arthritis, ankylosing spondylitis experience greater articular pain.
Increased heart arrest risk
During winter, approximately half of hypertension persons fatalities are caused by heart arrest due the blood vessels contractions when exposed to cold. In the case of arteriosclerosis sufferings, blood vessel contraction can lead to occlusion. When temperatures lower above 4 degree Celsius (39F) risk of cardiac problems rises with 115% while high temperature variations increase the risk with 140%
Asthma attacks are more frequent
Strong wind has a negative effect upon asthma sufferings. Cold an dry air irritates the already sensible mucosa, leading to violent spasms. Muscles that surround the bronchi stiffen limiting air flow and creating respiratory difficulties.

source: healthyfeeds.com

Thursday, May 27, 2010

New technique could help millions suffering from arthritis and osteoporosis

French researchers developed a revolutionary technique for administering bone repairing drugs which could help millions suffering from arthritis and osteoporosis.
Researchers from Strasbourg University hope the new technique will help bone and cartilage recovery thanks to the implant that gradually releases the necessary drugs (growth hormone drugs) into the body.
The new technique developed by the University of Strasbourg was tested only in the laboratory and on animals. This discovery is especially important to the elderly because in their case broken bones heal slower and may lead to permanent disability and even death.

source :healthyfeeds.com

Friday, May 21, 2010

It's Alive! Artificial Life Springs From Manmade DNA

A team of scientists create the first real-life "Frankenstein" by injecting man-made DNA into a previously lifeless cell.
 THE GIST
  • Scientists report the first successful implantation of fully synthetic genome.
  • The manmade genome was more than one million base pairs long.
  • The step could help lead to cheaper drugs, vaccines, and biofuels. 
It may not quite be "Frankenstein," but for the first time scientists have created an organism controlled by completely manmade DNA.
Using the tools of synthetic biology, scientists from the J. Craig Venter Institute installed a completely artificial genome inside a host cell without DNA. Like the bolt of lightening that awakened Frankenstein, the new genome invigorated the host cell, which began to grow and reproduce, albeit with a few problems.
The research marks a technical milestone in the synthesis and implantation of artificial DNA. Venter, along with dozens of other companies and researchers in the same field, expects the research will lead to cheaper drugs, vaccines and biofuels in several years.

"This is the first synthetic cell that's been made," said Venter. "We call it synthetic because the cell is totally derived from a synthetic chromosome, made with four bottles of chemicals on a chemical synthesizer, starting with information in a computer."
The research, published today in the journal Science, combines two of Venter's past achievements.
In 2007 Venter transplanted the genome of one Mycoplasma bacterium into another. Venter and his colleagues also synthesized a trimmed down, artificial version of Mycoplasma's DNA, a project known as the Minimal Genome Project. Attempts to implant the synthetic DNA all failed, until now.



In the current research Venter and his colleagues, which includes Nobel laureate Hamilton Smith, first synthesized Mycoplasma's full genome. Then they added hundreds of thousands of additional base pairs to "watermark" the DNA to distinguish it from a natural one.
Venter and his colleagues created a special code, similar to Morse code, to "write" within the DNA itself. Instead of dots and dashes, they used the sequence of four DNA nucleotides, thymine (T), guanine (G), cytosine (C), and adenine (A), as a code for any letter, number or punctuation mark. Using the code, the team included the names of the study co-authors, a website, and even several philosophical quotes, complete with punctuation.
The completed DNA sequence was more than one million base pairs long. The human genome, by comparison, is more than three billion base pairs long.
No machine can turn out a single piece of DNA anywhere close to that long, however. Instead, Venter and his colleagues started with many relatively small pieces of DNA. Then the scientists transferred DNA pieces back and forth between a yeast cell and E. coli bacteria, turning the many short pieces into fewer but longer DNA segments.
Once the synthetic DNA segment reached the desired length the scientists injected it into a Mycoplasma bacterium that had had its own DNA removed earlier. Needless to say, the process of assembling such a lengthy piece of synthetic DNA was complicated.
"I hope the day comes when making genomes is something everyone can do," said Pamela Silver, a systems biologist at Harvard Medical School.
The new, synthetic DNA "booted up" the bacterium, but not without a few problems; several of the synthesized genes didn't work properly. And the genes that did work didn't do anything particularly useful, at least by human standards.
The Mycoplasma bacteria grew and reproduced, but that was about all. Within several years however, Venter, along with dozens of other researchers and companies, hope to create more exciting bacteria that will speed up the production and drive down the costs of biofuels, vaccines and drugs.
Venter has teamed up with a major oil and gas company, and a pharmaceutical company, to help realize these goals.
Venter's work falls into a nascent field of science known as synthetic biology. Synthetic biology builds on the decades-old field of genetic engineering. Unlike genetic engineering, where scientists introduce a handful of new genes into an organism, synthetic biology aims to reprogram entire organisms, including bacteria and viruses.
The creation and insertion of a synthetic genome more than one million base pairs is a technical landmark, said Frances Arnold, a synthetic biologist at the California Institute of Technology in Pasadena. He says the feat showcases scientists' ability to precisely manipulate long sections of DNA.
But before consumers see any benefit several significant hurdles have to be solved. One of the biggest problems is that scientists are still searching for the specific genetic code to produce cheap drugs, biofuel and other products.
"We can write anything we want," said Arnold. "The problem is that we don't know what to write."

also video on:
http://news.discovery.com/videos/tech-synthetic-life-becomes-reality.html


 

The gene that causes Duchenne muscular dystrophy can be repaired

The gene that causes Duchenne muscular dystrophy 1), a hereditary disease affecting one in 3500 males, can be repaired according to researchers from Universite Laval’s Faculty of Medicine and the CHUQ Research Center.
Researchers performed in vitro tests by inserting into human muscle cells a variety of meganucleases, enzymes with the ability to correct the dystrophin gene, and also in vivo with mice carrying the mutation that causes the illness. Both series of testing showed that the meganucleases can lead to a restoration of the normal nucleotide sequences of the dystrophin gene and its expression in muscle cells.
A number of hurdles must be overcome before this approach can be tested in humans, cautions Dr. Jacques P. Tremblay who led the team of researchers. “It must first be proven in laboratory animals that it is possible to insert a meganuclease targeting the dystrophin gene directly into muscle cells, and that this will induce the synthesis of dystrophin able to attach to the muscle fiber membrane,” explains the researcher. “We’re still two to three years away from this stage,” he estimates. “Subsequent stages, including human trials, could take even longer,” adds Dr. Tremblay.
1 Duchenne muscular dystrophy is characterized by a rapid progression of muscle degeneration that begins in early childhood leading to loss of ambulation and even death.

source:
healthy feeds.com

Wednesday, May 19, 2010

Sulforaphane from broccoli can inhibit breast cancer stem cells

Researchers at the University of Michigan Comprehensive Cancer Center studied the effectiveness of sulforaphane1) in targeting and killing breast cancer stem cells on both mice and cell cultures with promising results.  In the study the sulforaphane extracted from broccoli sprouts prevented new tumors from growing.
“Sulforaphane has been studied previously for its effects on cancer, but this study shows that its benefit is in inhibiting the breast cancer stem cells. This new insight suggests the potential of sulforaphane or broccoli extract to prevent or treat cancer by targeting the critical cancer stem cells,” says Duxin Sun2).
After injecting various concentrations of sulforaphane in mice with breast cancer, researchers measured the number of cancer stem cells in the tumors. The findings showed a decrease in the cancer stem cell population after treatment with sulforaphane, with little effect on the normal cells. Also, the cancer cells from mice treated with sulforaphane were unable to generate new tumors. Similar results were obtained after the researchers tested sulforaphane on human breast cancer cell cultures.
“This research suggests a potential new treatment that could be combined with other compounds to target breast cancer stem cells. Developing treatments that effectively target the cancer stem cell population is essential for improving outcomes,” says Max S. Wicha3).
1) Sulforaphane is a organosulfur compound obtained from cruciferous vegetables
2) Duxin Sun, Ph.D – study author – is an associate professor of pharmaceutical sciences at the U-M College of Pharmacy and a researcher with the U-M Comprehensive Cancer Center
3) Max S. Wicha, M.D. – study author – is a Distinguished Professor of Oncology and director of the U-M Comprehensive Cancer Center.

source:
healthy feeds.com

Monday, May 17, 2010

Eating Nuts Daily Lowers Cholesterol

Daily Helping of Nuts May Help Fight Heart Disease, New Study Finds
By Bill Hendrick
WebMD Health News

Reviewed By Laura J. Martin, MD
May 10, 2010 -- Eating nuts on a daily basis improves blood cholesterol levels and reduces the risk of coronary heart disease, a new study says.
Joan Sabaté, MD, DrPH, and colleagues from Loma Linda University in California, pooled data from 25 studies on nut consumption in seven countries, looking at 583 men and women with various cholesterol levels. None was on cholesterol-lowering medications. Nuts evaluated included almonds, hazelnuts, pecans, pistachios, walnuts, macadamia nuts, and peanuts.
Patients in the trials ate an average of 67 grams, or about 2.4 ounces, of nuts daily.
This dietary practice resulted in an average 5.1% reduction in total cholesterol concentration, a 7.4% reduction in LDL or bad cholesterol, and an 8.3% reduction in the ratio of LDL to HDL ("good" cholesterol) levels.
In addition, triglyceride measurements declined by 10.2%, but only among people with initially elevated triglyceride readings. The cholesterol effects of nut consumption were similar in men and women, and were dose related.

Nuts Improve Cholesterol, Heart Health

Different types of nuts had similar effects on blood cholesterol levels, according to the authors. However, "effects of nut consumption were significantly modified by LDL, body mass index, and diet type: the lipid-lowering effects of nut consumption were greatest among subjects with high baseline LDL and with low body mass index and among those consuming Western diets."
The findings support the inclusion of nuts in therapeutic dietary interventions for improving cholesterol levels, the authors say.
"Increasing consumption of nuts as part of an otherwise prudent diet can be expected to favorably affect blood lipid levels (at least in the short term), and have the potential to lower coronary heart disease risk," the authors write.
Nevertheless, moderation is key. Although eating nuts on a regular basis appears to have significant health benefits, nut consumption should be limited to no more than 3 ounces per day because of their high calorie density.
Sabaté and fellow author Emilio Ros, MD, PhD, disclose receiving research funding from the California Walnut Commission, the Almond Board of California, the National Peanut Board, and the International Tree Nut Council. Sabaté has also received an honorarium as a member of the Pistachio Scientific Advisory Board.
The study is published in the May 10 issue of Archives of Internal Medicine.
SOURCES: News release, Archives of Internal Medicine.

Sabate, J. Archives of Internal Medicine, May 10, 2010; vol 170(9).

News release, Loma Linda University, California.

©2010 WebMD, LLC. All Rights Reserved.

source:
medicine net.com

Sunday, May 16, 2010

Researchers Discover Genetic Link Between Both Types of ALS

Researchers from Northwestern University Feinberg School of Medicine have discovered a link between sporadic and familial forms of amyotrophic lateral sclerosis (ALS), a neurodegenerative disease also known as Lou Gehrig’s disease.

Researchers found that a protein called FUS forms characteristic skein- like cytoplasmic inclusions in spinal motor neurons in most cases of ALS. Mutations in this gene have been previously linked to a small subset of familial ALS cases. Researchers thus linked a rare genetic cause to most cases of ALS, clearing the way for rational therapy based on a known molecular target. The study was recently published online in the Annals of Neurology.

ALS is a disease in which muscle-controlling nerve cells in the brain and spinal cord (motor neurons) die, resulting in rapidly progressive paralysis and death usually within three to five years of the onset of symptoms. Most cases of ALS are of unknown etiology and appear as sporadic ALS. About 5 to 10 percent of ALS cases are familial. Some forms of familial ALS are caused by genetic mutations in specific genes. Mutations in the Cu/Zn superoxide dismutase gene (SOD1) account for approximately 20 percent of familial ALS cases. Mutations in the TAR DNA-binding protein gene (TDP43) and FUS gene occur in about 4 to 5 percent of the familial ALS cases. Altogether, mutations in specific genes have been identified in about 30 percent of familial ALS cases. 

In contrast to familial ALS, the etiology and the pathogenic mechanisms underlying sporadic ALS -- 90 percent of all ALS -- has remained largely unknown. Understanding the causes and pathogenic mechanisms of sporadic ALS is the major challenge in this disease.
For this study, researchers examined the post-mortem spinal cords and brains of 100 cases, 78 with ALS and 22 in a control group. They found FUS pathology in the spinal cords of all the ALS cases, except for a few cases with SOD1 mutations. But FUS pathology was not present in control cases without ALS.
“This is a game changer because it establishes a connection in the development of sporadic ALS with a known cause of familial ALS,” said senior author Teepu Siddique, MD, the Les Turner ALS Foundation/ Herbert C. Wenske Professor of the Ken and Ruth Davee Department of Neurology at Feinberg and a neurologist at Northwestern Memorial Hospital.

“Our finding opens up a new field of investigation for rational therapy for all of ALS,” Siddique added. “This is the holy grail of researchers in this field.”
"There hasn’t been a therapy for most of ALS, because the cause was unknown," Siddique said. “Three genes have been identified in ALS, but the problem has been connecting inherited ALS to sporadic ALS.”
“We identified the FUS pathology in sporadic ALS and most familial ALS cases,” said Han-Xiang Deng, MD, PhD, associate professor of neurology at Feinberg and lead author of the paper. “The patients with the FUS pathology may account for about 90 percent of all ALS cases. Our findings suggest that pathological interaction of FUS with other proteins is a common theme in motor neuron degeneration in the vast majority of the ALS cases. We believe that this is a major step forward in formulating a common pathogenic pathway for motor neuron degeneration. Importantly, it may offer a novel avenue for developing therapies through targeting these FUS-containing inclusions.”

The one exception to the new finding is when familial ALS is associated with a mutation on the SOD1 gene. In those patients and in the mutant SOD1 transgenic mouse models, researchers did not find evidence of FUS pathology.
“This tells us that it follows a different pathway of pathogenesis, so treatment for this form of the disease would have to be different,” Deng said.
The study is supported by the National Institutes of Health, the Les Turner ALS Foundation, the Vena E. Schaff ALS Research Fund, the Harold Post Research Professorship, the Herbert and Florence C. Wenske Foundation, the David C. Asselin MD Memorial Fund and the Les Turner ALS Foundation/Herbert and Florence C. Wenske Professorship.

source:
http://www.feinberg.northwestern.edu

Saturday, May 15, 2010

New drug kills non-Hodgkin lymphoma tumor cells

A new type of drug designed to kill non-Hodgkin lymphoma tumor cells has been developed by researchers from the Samuel Waxman Cancer Research Foundation. The new drug targets an oncogene known as BLC6 which functions as a master regulatory protein and also causes the most common form of non-Hodgkin lymphoma.
“It’s a protein that controls the production of thousands of other genes. Because of that, it has a very profound impact on cells and is required for lymphoma cells to survive and multiply,” said Dr. Melnick1).
Dr. Melnick  and his colleagues were able to identify a “hot spot” on BLC6 that they predicted would play a critical role in protein interactions. They showed that their BCL6 inhibitor drug was specific to BCL6, and did not block other master regulatory proteins. The drug had powerful lymphoma killing activity and yet was non-toxic to normal tissues. “This is the first time a drug of this nature has been designed and it shows that it’s not actually impossible to target factors like BCL6,” he said.
1) Ari Melnick, M.D. – associate professor of medicine at Weill Cornell Medical College in New York City

Friday, May 14, 2010

Biologists discover how biological clock controls cell division in bacteria

Circadian clock protein KaiC, at the center of the clock, controls the timing of cell division in bacterial colonies around the clock’s periphery. Credit: Guogang Dong, Haitao Guo, John Buchner and Susan Golden








A team of biologists has unraveled the biochemistry of how bacteria so precisely time cell division, a key element in understanding how all organisms from bacteria to humans use their biological clocks to control basic cellular functions.

The discovery, detailed in the February 19 issue of the journal Cell, provides important clues to how the biological clocks of bacteria and other "prokaryotic" cells—which lack cell nuclei—evolved differently from that of "eukaryotic" cells with nuclei that comprise most other forms of life, from fungi to plants and animals.
"A major question in biology is how the circadian clock machinery is different in bacteria than it is in plants, animals and fungi," said Susan Golden, a professor of biology at UC Sana Diego, who headed the study. "We looked at how the biological clock controls when bacterial cells divide—in bacteria, there's a period of four hours where the cells are not allowed to divide—and we identified the structural changes in a key protein that controls this action."
Golden and her colleagues from UCSD, MIT, Michigan State University and Texas A&M University probed cell division in the cyanobacterium Synechococcus elongatus. That organism had been studied extensively by the Golden lab and other researchers, who found that the timing of cell division, patterns of gene expression and compaction of the chromosome are controlled by the circadian clock. What was unknown was precisely how the circadian clock in bacteria controlled cell division.
Using time-lapse microscopy, Golden and her colleagues discovered that the clock proteins KaiA, KaiB, and KaiC in bacteria control the action of a key protein called FtsZ, preventing it from going to the middle of the cell and forming a ring necessary for cell division. After four hours has elapsed, the clock proteins allow FtsZ to move toward the center of the cell and change structurally to form this ring.
"This complex of proteins is at the heart of the bacterial clock controlling cell division," said Golden. "There are two cycles, the cell cycle and the circadian cycle, that need to mesh for organisms to function. What we learned from this study is how these two cycles with different timing periods interact, and that the mechanisms that control the timing of cell division in bacteria are different than they are in eukaryotic cells."
Golden added that knowledge of the mechanisms of how organisms from bacteria to humans control the timing of their cell division and other processes has application to many human problems resulting from disorders in the circadian clock.
"Understanding the basic mechanisms of the biological clock is vital to our daily lives as many people suffer from some problem in their daily sleep cycle," said Golden. "The biological clock in humans plays a central role in whether we gain or lose weight, when we fall asleep and wake up, how likely we are to have accidents and how we respond to disease."
Provided by University of California - San Diego (news : web)
 

Researchers examine link between bacteria in the digestive system and obesity

Obesity is more than a cosmetic concern because it increases a person’s risk for developing high blood pressure, diabetes and many other serious health problems. It’s well understood that consuming more calories than you expend through exercise and daily activities causes weight gain. But with about one in every three American adults now considered obese, researchers are attempting to identify additional factors that affect a person’s tendency to gain and retain excess weight.
In the April issue of Mayo Clinic Proceedings, researchers from Mayo Clinic Arizona and Arizona State University examine the role that bacteria in the human gastrointestinal tract play in regulating weight and the development of obesity.
Known as gut microbiota, the trillions of bacteria that populate the human gastrointestinal tract perform a variety of chores. These “friendly” microbes help extract calories from what we eat, help store these calories for later use, and provide energy and nutrients for the production of new bacteria to continue this work.
According to John DiBaise, M.D., a Mayo Clinic Arizona gastroenterologist and lead author of the Mayo Clinic Proceedings article, several animal studies suggest that gut microbiota are involved in regulating weight and that modifying these bacteria could one day be a treatment option for obesity.
One study cited by the authors observed that young, conventionally-reared mice have a significantly higher body fat content than a laboratory-bred, germ-free strain of mice that lack these bacteria, even though they consumed less food than their germ-free counterparts. When the same research group transplanted gut microbiota from normal mice into germ-free mice, the germ-free mice experienced a 60 percent increase in body fat within two weeks, without any increase in food consumption or obvious differences in energy expenditure.
Another animal study reviewed by the authors focused on the gene content of the gut microbiota in mice. Finding more end products of fermentation and fewer calories in the feces of obese mice led researchers to speculate that the gut microbiota in the obese mice help extract additional calories from ingested food.
“These results suggest that differences exist in the gut microbiota of obese versus lean mice, raising the possibility that the manipulation of gut microbiota could be a useful strategy for regulating energy balance in obese people,” says Dr. DiBaise.
Although information on the link between gut microbiota and obesity in human subjects is more limited, the authors present some evidence supporting this connection. One study cited placed 12 obese participants in a weight-loss program for a year, randomly assigning them to either a fat-restricted or carbohydrate-restricted, low-calorie diet. Researchers noted distinct differences between lean and obese participants when they monitored the type and number of bacteria found in participants’ stool samples before and after the diet changes.
Another study cited followed children from birth to age 7 and analyzed stool samples collected at 6 and 12 months. The children who were normal weight at age 7 had distinctly different bacteria in their samples from those collected from overweight-obese children, suggesting that differences in the composition of the gut microbiota precede overweight-obesity.
Dr. DiBaise says that much more research is needed to clarify a number of issues related to the relationship between the gut microbiota and obesity. Future studies need to establish whether the small changes in caloric extraction seen in recent studies can produce measurable weight differences in humans. Second, researchers need to prove or disprove the possible relationship between the gut microbiota and the regulation of weight.
“In particular, it is essential to demonstrate unequivocally whether differences in gut microbiota in obese versus lean people are the cause or the result of obesity,” says Dr. DiBaise.
Finally, the authors note that the next wave of research should explore the safety and feasibility of modifying the gut microbiota in clinical trials involving humans.
“Although clearly no substitute for proper diet and exercise, manipulation of the gut microbiota may represent a novel approach for treating obesity that has few adverse effects,” says Dr. DiBaise.
Source: Mayo Clinic

OSU-CG12 kills cancer cells


OSU-CG12 , a energy-restriction mimetic agent, is an experimental anticancer drug that causes the cancer cells to self destruct by choking off the sugar supply. OSU-CG12  was designed by researchers at the Ohio State University Comprehensive Cancer Center – Arthur G. James Cancer Hospital and Richard J. Solove Research Institute.
Researchers showed that OSU-CG12 is 10 time more efficient in killing cancer cells then ciglitazone or resveratrol by using breast cancer and prostate cancer cell line. Also the agent suppresses the cell’s ability to metabolize sugar and stops the glucose from entering cancer cells which leads to the cancer cells consuming themselves as well other biochemical events that eventualy lead to the cell’s death.
“Our study proves that this new agent kills cancer cells through energy restriction. This is important because it shows that it is possible to design drugs that target energy restriction, and it is exciting because energy-restricting mimetic agents may also be useful for other diseases, including metabolic syndromes, diabetes, cardiovascular disease and obesity,” said Ching-Shin Chen, principal investigator.

source :
healthy feeds.com

AlloMap blood test works as well as a heart biopsy


AlloMap, a blood test made by XDx Inc 1), works as well as a heart biopsy when it comes to checking for signs of rejection in patients with heart transplants, according to researchers at Stanford University. The AlloMap test is also cheaper than a heart biopsy by almost 1000$. The AlloMap test works by checking the blood to see if specific genes associated with rejection are turned on or expressed. Compared to a heart biopsy in which  a surgical cut is made to the neck or arm and a tube is insert through a vein, the test feels like a walk in the park.

safe to reduce the number of biopsies by using the Allomap test, the researchers compared results from 600 patients who were randomly assigned to have a biopsy or the blood test and an echocardiogram. The results showed that the Allomap test worked as well as routine biopsies, with similar complications  and rates of rejection in both cases.  The Allomap test is available in U.S. and offered at 65 transplant centers.
1) XDx Inc is a molecular diagnostics company focused on the discovery, development and commercialization of non-invasive gene expression testing in the areas of transplant medicine and autoimmunity
2) Dr. Hannah Valentine – Senior Associate Dean, Office of Diversity and Leadership, School of Medicine at Stanford University, Stanford,  CA

source :
healthy feeds.com

Thursday, May 13, 2010

Reduce headaches caused by migraine with aspirin plus metoclopramide

You can substantially reduce headache caused by migraines within two hours with a single dose of 900-1000mg aspirin, according to researchers. Also vomiting and nausea symptoms are greatly reduced if 900mg of aspirin is taken together with 10mg of metoclopramide.
Researchers compared the differences in response rates for people taking aspirin alone or aspirin plus metoclopramide with those of people taking placebo or another active agent and found that 25% of people who took a single dose of 9000-1000mg aspirin had their headaches reduced from severe or moderate to no pain, compared to those who took the placebo.  One in two people had the pain reduced to no worse than mild pain.
Aspirin plus metoclopramide was better at reducing symptoms of vomiting, nausea, photophobia and phenophobia than aspirin alone, although it didn’t produce a greater frequency of pain relief.  Aspirin plus metoclopramide had a similar effect to 50mg of sumatriptan, a headache treatment, but a 100mg dose of sumatriptan was slighty better at delivering a pain free response within two hours.
“Aspirin plus metoclopramide will be a reasonable therapy for acute migraine attacks, but for many it will be insufficiently effective,” said the study leader Andrew Moore, who works in Pain Relief and the Department of Anaesthetics at the John Radcliffe Hospital, Oxford, UK.

source :
healthy feeds.com

The Secret Behind the Mediterranean Diet: Olive Oil



The heart-healthy Mediterranean diet has been getting a whole lot of press lately due to some pretty significant research into its benefits. It has been shown to lower the incidence of asthma and allergies in children, lower the risk of metabolic syndrome, possiblyeliminate diabetes medication for Type II diabetics, and may lessen the risk of cancer and depression.

Just last month research came out of the Netherlands on the Mediterranean diet and fertility. While the study didn’t actually prove that the diet alone boosts fertility, but found that two common diet patterns emerged: women who adhered to the Mediterranean-style diet had a higher pregnancy rate following in vitro fertilization (IVF) or intracytoplasmic sperm injection (ICSI). In fact, the women who were consistent with the tenets of the diet were 40 percent more likely to get pregnant than those women whose diets were farthest from the Mediterranean Diet.

More recent findings, out of Spain and published in the April online issue ofBMC Genomics, show that specific components in olive oil, a major player in the Mediterranean diet, may suppress genes that promote inflammation. "These findings strengthen the relationship between inflammation, obesity and diet and provide evidence at the most basic level of healthy effects derived from virgin olive oil consumption in humans," said study leader Francisco Perez-Jimenez of the University of Cordoba.

In this study, researchers focused on the genes in 20 participants who all had metabolic syndrome, a cluster of risk factors that occur together which can increase your tendency to develop coronary artery disease, stroke, and type 2 diabetes, and how they were effected by a diet rich in phenol compounds. The researchers identified almost 100 genes whose inflammatory activity is dampened by consumption of olive oil, in particular extra virgin olive oil. Dr. Perez-Jimenez concludes that “Several of the repressed genes are known to be involved in pro-inflammatory processes, suggesting the diet can switch the activity of immune system cells.”

Extra-virgin olive oil, which is produced by pressing the olives without the use of any chemical or heat treatments, contains phytochemicals that are otherwise lost in the refining process. In 2008, Spanish researchers conducted a study, also published inBMC Cancer, in which they separated the extra-virgin olive oil into fractions and then they tested these against breast cancer cells in the laboratory. The researchers found that all of the fractions that contained major extra-virgin phytochemicals polyphenols (lignans and secoiridoids) effectively inhibited the breast cancer gene called HER2.

source :
healthyfeeds.com