Promise and danger Nanomedicine

There is a new exciting field of nanomedicine and technological revolution, which promises exciting new ways to diagnose and treat diseases? Or does it herald the release of dangerous nanoparticles or nanorobots nanoelectronic devices that will wreak havoc in the body? A new survey of more than 500 studies on the subject concluded that neither scenario is likely. She appears in the journal Molecular ACS 'Pharmacy.
Duncan and Ruth Rogerio Gaspar explained that nanomedicine - the use of nanotechnology to medical care is often overhyped as a panacea or potential ALLS opasnost.Kontseptsiya debuted with far-sighted that the robots

The use of tears diabetes monitor blood sugar levels

Instead of a cumbersome and sometimes painful routine drawing of blood, patients with diabetes may be able to use their tears, researchers from the University of Michigan reported in analytical chemistry. In animal studies, researchers found that the level of glucose from the tears of rabbits can accurately measure blood glucose (sugar) levels, using the electrochemical sensor device.
Leading researchers, Mark Meyerhoff and team explained that approximately 5% of people worldwide have diabetes. With increasing levels of obesity worldwide, the number of patients with type 2 diabetes, is set to increase significantly.
The researchers, whether they intend to develop a new, painless device that can detect the tear glucose, instead of having to draw blood.
Patients with diabetes may have to draw blood from two to ten times daily to check their blood glucose levels. A significant number of patients with diabetes, not to draw blood as often as they should, because of discomfort and pain it causes. This can lead to poor glycemic control. Long-term poor glycemic control increases in the number of risks and complications associated with the state, especially microvascular complications, which may lead to the development of neuropathy and foot ulcers, retinopathy and other diseases and conditions.Investigators say that in accordance with their findings, the tears can provide as accurate reading as the choice of the fingers and blood directly.
The authors wrote:

    ".... It may be possible to measure glucose levels tears several times a day to monitor changes in blood glucose without the pain of repeated potential invasive blood sampling. "
Their sensor is very sensitive and can reach very low detection limits of 1,5 ± 0,4 mmol of glucose (S / N = 3). This is sufficient to measure tear fluid glucose levels in glucose sensitivity of 0,032 ± 0,02 nA / micron. The capillary tube sensor requires only 4-5 ml of tears, when the needle is inserted into the capillary sensor.
As in the journal, the researchers wrote:

    "The strong correlation between tear and blood glucose levels was detected, suggesting that the measurement of tear glucose measurement of potential noninvasive substitute blood glucose, and a new configuration of sensor could help in further research in this direction."

Hidden Genetic Influence On Cancer Was Found By Researchers

In findings with major implications for the genetics of cancer and human health, researchers at Beth Israel Deaconess Medical Center (BIDMC) and two other science teams in New York City and Rome have uncovered evidence of powerful new genetic networks and showed how they may work to drive cancer and normal development.

Four papers published online in the almanac Cell describe aspects of what may be a fundamentally new dimension of genetic occupation that involves a vast posse of RNA molecules interacting and manipulating the molecular endgame behind the scenes.

Each report used a different approach, strengthening the basic discovery of the new RNA network. In the half-century old inside dogma of molecular biology, DNA issues its genetic blueprint to messenger RNA, which relays the orders to the protein-making machinery of the room. 

The new studies suggest a significant new role for RNA on top of its traditional middle-management job: The RNA of one gene can curb and be controlled by dozens or hundreds of RNAs of other genes. In the envelope of a major tumor suppressor gene, PTEN, a shift in the associated RNA network appears to be as malevolent as a modifying in the gene itself in human prostate and colon cancer cells, in glioblastoma cells, and in a mouse subject of melanoma, according to three of the papers.

The findings may distend the framework for investigating how tumors form and progress, who is at risk for cancer, and how to rouse and disable the essential misbehaving molecules that drive the wart and spread of cancer.

"For instance, we now know that the PTEN tumor suppressor gene is talking to a cyclopean unrecognized RNA network," said Pier Paolo Pandolfi MD PhD, gaffer of the Cancer Genetics Program at BIDMC and George C. Reisman Professor of Remedy at Harvard Medical School, and the senior author of two of the papers. "The RNAs talk including a new language. If this language is broken and the RNA network is perturbed, PTEN goes down, and this has penetrating consequences. But it's incredibly exciting for therapeutic possibilities. You may be able to rewire the crosstalk between the RNAs for cancer arrest and therapy."  

Scientists typically use genetic studies to search how changes in the DNA code influence the action of the proteins. Targeted therapies enjoy arisen from efforts to counteract the effect of problematic proteins, yet most of the genetic determinants of cancer residue a vexing puzzle. The newly discovered RNA network could explain much of the transitory genetic variation underlying cancer and other diseases, say authors of the papers. 

The new RNA regulatory network also appears to go into the massive non-protein-coding region of the human genome and plays an substantial role in normal muscle development, suggests another related MS in Cell. Because humans share so many protein-coding genes with other organisms, including worms and yeast, this chiefly portion that is transcribed into non-coding RNA makes the human genome idiosyncratic. Much of the function of that non-coding RNA has been a mystery.