Sunday, April 22, 2012



Cancer chemical alert over crisps and coffee as Food Standards Agency identifies 13 at-risk products

The old acrylamide scare pops up again.  It was a hot topic in California in 2005.   I don't think I need  to add anything  beyond what I said in 2007

Food firms have been warned about the presence of a cancer-risk chemical in everyday products ranging from crisps and chips to instant coffee and ginger biscuits.

A biscuit designed for babies and toddlers has also been caught up in the alert.

Experts are even warning families to  only lightly toast their bread at home, as the chemical, called acrylamide, is more likely to form the longer and darker foods cook.

A study by the Food Standards Agency has identified 13 products containing raised levels of the chemical. In each case, officials at the local council where the supplier is based have been told to notify them.

Acrylamide, which is still being investigated by scientists, is a cooking by-product associated with frying, baking, roasting or toasting foods at very high temperatures, usually greater than 120c.

The FSA insists its findings raise no immediate risk to the public and there is no need for people to change their diet.

However, it is putting pressure on all food companies to reduce acrylamide levels because long-term consumption could increase the risk of cancer. Its official advice is also that families should ensure bread and chips they eat are only toasted or baked to the 'lightest colour possible'.

The FSA said its study of levels of acrylamide and furan – another cancer-risk chemical – is used to identify which firms need to take action. Acrylamide is formed by a reaction between natural components in food as it cooks.

In reality it has probably been in the diet for as long as man has fried, roasted or toasted food. Manufacturers including Heinz and McVitie's have already responded by changing their recipes.

But others, including Nestle, makers of Nescafe, say it is impossible to do so without harming the flavour and quality of their products. It added: 'There is currently no scientific evidence to suggest any particular product has any negative impact on health in the context of acrylamide exposure.'

The FSA is required by the EU and the European Food Safety Authority to carry out the annual tests. It looked at 248 samples, from chips sold by fast-food outlets to supermarket own-label and big brand ranges. In 13 cases levels were above  the 'indicative value' – a trigger point to tell the firm it should examine its production process.

European watchdogs have been putting pressure on food manufacturers to reduce acrylamide for almost a decade. In 2002 Swedish studies revealed high levels formed during the frying or baking of potato or cereal products.

The FSA said: 'This raised worldwide public concern because studies in laboratory animals suggest acrylamide has the potential to cause cancer in humans by interacting with the DNA in cells.

'The Agency believes exposure to such chemicals should be as low as reasonably practicable.'

The latest survey found 'an upward trend' in acrylamide levels in processed cereal-based baby foods, excluding rusks. Importantly however, the FSA said this did not mean parents should stop giving these products to youngsters.

The Food and Drink Federation,  which represents manufacturers,  said members are 'ensuring levels are as low as reasonably achievable'.

Heinz changed its Banana Biscotti recipe this year to reduce acrylamide to trace levels. United Biscuits, which makes McVitie's Gingernuts, said it has cut acrylamide by 70 per cent. The firm also pledged to cut levels in its McCoy’s crisps.

SOURCE







Scientists Regenerate Damaged Mouse Hearts by Transforming Scar Tissue Into Beating Heart Muscle

This sounds like REALLY good news

Scientists at the Gladstone Institutes just announced a research breakthrough in mice that one day may help doctors restore hearts damaged by heart attacks -- by converting scar-forming cardiac cells into beating heart muscle.

These scientists previously transformed such cells into cardiac muscle-like cells in petri dishes. But Gladstone postdoctoral scholar Li Qian, PhD, along with researchers in the laboratory of Deepak Srivastava, MD, has now accomplished this transformation in living animals -- and with even greater success. The results, which may have broad human-health implications, are described in the latest issue of Nature, available online April 18.

Cardiovascular disease is the world's leading cause of death. Annually in the United States alone, the nearly 1 million Americans who survive a heart attack are left with failing hearts that can no longer beat at full capacity.

"The damage from a heart attack is typically permanent because heart-muscle cells -- deprived of oxygen during the attack -- die and scar tissue forms," said Dr. Srivastava, who directs cardiovascular and stem cell research at Gladstone, an independent and nonprofit biomedical-research institution. "But our experiments in mice are a proof of concept that we can reprogram non-beating cells directly into fully functional, beating heart cells -- offering an innovative and less invasive way to restore heart function after a heart attack."

In laboratory experiments with mice that had experienced a heart attack, Drs. Qian and Srivastava delivered three genes that normally guide embryonic heart development -- together known as GMT -- directly into the damaged region. Within a month, non-beating cells that normally form scar tissue transformed into beating heart-muscle cells. Within three months, the hearts were beating even stronger and pumping more blood.

"These findings could have a significant impact on heart-failure patients -- whose damaged hearts make it difficult for them to engage in normal activities like walking up a flight of stairs," said Dr. Qian, who is also a California Institute for Regenerative Medicine postdoctoral scholar and a Roddenberry Fellow. "This research may result in a much-needed alternative to heart transplants -- for which donors are extremely limited. And because we are reprogramming cells directly in the heart, we eliminate the need to surgically implant cells that were created in a petri dish."

"Our next goal is to replicate these experiments and test their safety in larger mammals, such as pigs, before considering clinical trials in humans," added Dr. Srivastava, who is also a professor at the University of California, San Francisco (UCSF), with which Gladstone is affiliated. "We hope that our research will lay the foundation for initiating cardiac repair soon after a heart attack -- perhaps even when the patient arrives in the emergency room."

This research builds on the groundbreaking cell-reprogramming work of another Gladstone scientist and UCSF professor of anatomy, Shinya Yamanaka, MD, PhD. Dr. Yamanaka's 2007 discovery of a way to turn adult human skin cells into cells that act like embryonic stem cells has radically advanced the fields of cell biology and stem cell research. But these new Gladstone experiments go further by both completing the experiments directly in live hearts and by employing a technique called "direct reprogramming." Direct reprogramming could revolutionize the field of regenerative medicine, as it lets scientists transform one adult cell type into another without first having to revert back to the stem cell state. In the future, Gladstone scientists hope to use direct reprogramming not only to treat heart failure, but also for spinal cord injury and devastating illnesses such as Alzheimer's and Parkinson's disease.


SOURCE


1 comment:

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