Tag Archives: health

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A spoonful of friendly bacteria helps the medicine go down

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pillsGenetically engineered bacteria have been used to deliver therapies for bowel disorders like inflammatory bowel disease:

The bacterium is able to deliver the protein, a human growth factor called KGF-2, directly to the damaged cells that line the gut, unlike other treatments which can cause unwanted side effects. Also unlike other treatments, it is envisaged that patients will be able to control the medication themselves by ingesting xylan, perhaps in the form of a drink.

I am not 1 of the 400 Britons who suffers from IBD but it is wonderful to see that genetic engineering has such excellent medical applications.

[from Science Daily][image from Deco Fernandez on flickr]

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A cure for radiation sickness?

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radioactive materials hazard signHey, great news! A group of researchers have discovered a medicine that can alleviate the damaging effects of radiation sickness… at least in mice and monkeys:

The first series of tests included experiments on more than 650 monkeys. Each test featured two groups of monkeys exposed to radiation, but only one group was given the medication. The radiation dosage was equal to the highest dosage sustained by humans as result of the Chernobyl mishap.

The experiment’s results were dramatic: 70% of the monkeys that did not receive the cure died, while the ones that survived suffered from the various maladies associated with lethal nuclear radiation. However, the group that did receive the anti-radiation shot saw almost all monkeys survive, most of them without any side-effects. The tests showed that injecting the medication between 24 hours before the exposure to 72 hours following the exposure achieves similar results.

Isn’t that brilliant news? Think of all the great things we could achieve if we could prevent radiation from damaging the human body! As its lead hook, Ynetnews gleefully trumpets about the geopolitical edge that this medicine will give to Israel in dealing with their ongoing paranoia about uppity Muslims with nuclear weapons, but follows with a more broadly humanitarian application:

Gudkov’s discovery may also have immense implications for cancer patients by enabling doctors to better protect patients against radiation. Should the new medication enable cancer patients to be treated with more powerful radiation, our ability to fight the disease could greatly improve.

Think also of clean-up operations in locations with similar problems to Chernobyl, or time spent in space beyond the Earth’s handy and life-saving magnetosphere. The list of places that people can’t go just got shorter. [via SlashDot; image by 7263255]

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Long lived flies

flyA company called Genescient is developing a method for finding genes that affect human longevity using the power of the gene:

Genescient has identified over 100 gene networks (∆’s) that are altered in long lived strains of Drosophila melanogaster and that are also linked to longevity and age-related diseases in humans.

Genescient has sophisticated software that cross links gene function in Drosophila with possible human therapeutics for age-related diseases. Drosophila is an excellent model system of aging and age-related disease that has many genetic pathways that are highly conserved in humans. Therefore, therapeutic substances that act on genetic pathways in Drosophila often work similarly in humans.

It is truly exciting to live in this era when increasing human longevity is a serious area of research.

[via Next Big Future][image from AmpamukA on flickr]

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Achieving longevity

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moai_profileThere always seems to be some intriguing news on progress in extending lifespans, or achieving what Aubrey De Grey calls engineered negligible senescence. From Physorg we have news that a compound called rapamycin, first discovered on Easter Island, can increase the lifespans of laboratory mice:

The University of Texas Health Science Center at San Antonio and two collaborating centers reported that the Easter Island compound – called “rapamycin” after the island’s Polynesian name, Rapa Nui – extended the expected lifespan of middle-aged mice by 28 percent to 38 percent. In human terms, this would be greater than the predicted increase in extra years of life if cancer and heart disease were both cured and prevented.

Protein folding in certain species of bats has been found to lead to an increase in their lifespans:

Asish and colleagues made their discovery by extracting proteins from the livers of two long-lived bat species (Tadarida brasiliensis and Myotis velifer) and young adult mice and exposed them to chemicals known to cause protein misfolding. After examining the proteins, the scientists found that the bat proteins exhibited less damage than those of the mice, indicating that bats have a mechanism for maintaining proper structure under extreme stress.

And finally the curious case of Brooke Greenberg: who is the size of an infant, with the mental capacity of a toddler, but turned 16 in January:

In a recent paper for the journal “Mechanisms of Ageing and Development,” Walker and his co-authors, who include Pakula and All Children’s Hospital (St. Petersburg, Fla.) geneticist Maxine Sutcliffe chronicled a baffling range of inconsistencies in Brooke’s aging process. She still has baby teeth at 16, for instance. And her bone age is estimated to be more like 10 years old.

“There’ve been very minimal changes in Brooke’s brain,” Walker said. “Various parts of her body, rather than all being at the same stage, seem to be disconnected.”

A substantial increase in human lifespans would be a huge, world-changing, medical and technological achievement, but could well lead to many social problems. An excellent exploration of the effects of longevity is Bruce Sterling‘s sublime Holy Fire.

[from Physorg and abcnews][image from anoldent on flickr]

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Enzyme linked to longevity

enzyme_WWP-1Researchers have discovered a key enzyme – WWP-1 – that forms part of the process by which caloric restriction leads to longer lifespans in roundworms:

“The only other known factor regulating longevity in response to diet restriction operates at the very end of the signaling cascade,” said Howard Hughes Medical Investigator and senior author Andrew Dillin, Ph.D., an associate professor in the Molecular and Cell Biology Laboratory. “These two enzymes are further up the ladder, bringing us closer to the receptor that receives the signal for throwing the switch to promote a healthy lifespan.”

Identifying the receptor may allow researchers to design drugs that mimic the signal and could lead to new treatments for age-related diseases. This could enable us to reap the health benefits of calorie restriction without adhering to extreme diets in which the satisfying feel of a full stomach is strictly off limits.

The kind of medicine described is definitely near the top of my plausible future technologies that may emerge in my lifetime.

[at Physorg][image from Physorg]