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Tag: influenza
This Week In Health: The War On Viruses

This Week In Health: The War On Viruses

“This Week In Health” offers some highlights from the world of health news and wellness tips that you may have missed this week:

  • According to a study published in Cancer Research, a compound found in avocados may be useful in treating acute myeloid leukemia (AML). According to Medical News Today,`it is “estimated that more than 20,000 people in the US will be diagnosed with AML this year, and more than 10,000 will die from the cancer.” But the compound avocatin B “selectively targets and destroys” leukemia stem cells “while leaving healthy blood cells unscathed.”
  • Influenza viruses are nasty, adaptable pathogens. A promising new drug takes an unconventional approach to fighting it, and is showing early results. Rather than attacking the virus itself or providing a boost to the immune system, Vasculotide treats the symptoms that are most life threatening by reinforcing cellular barriers in the lungs, which is precisely what the virus attacks, causing its victims to drown in their own fluids. This bolstering of the lungs gives the body more time to rid itself of the virus.
  • The World Health Organization issued a statement Wednesday on the outbreak of Middle East Respiratory System (MERS) which is currently affecting South Korea. Among the main factors contributing to the outbreak, according to the WHO, are lack of public awareness about MERS, suboptimal containment practices in hospitals; and patients’ habits of “doctor shopping,” that is, going from hospital to hospital looking for the best treatment and spreading the virus as a result. The statement called the outbreak a “wakeup call” and said that “in a highly mobile world, all countries should always be prepared for the unanticipated possibility of outbreaks of this, and other serious infectious diseases.”

Photo: threelayercake via Flickr

Health Memo Roundup: Attack Of The ‘Superbugs’

Health Memo Roundup: Attack Of The ‘Superbugs’

Here are some highlights from the world of health and wellness you may have missed this week:

  • Sleep disorders are prolific, detrimental, and treatable. Snoring, sleep apnea, insomnia, and restless leg syndrome are among the afflictions that can get in the way of a good night’s rest, causing moodiness, irritability, and memory problems. Luckily, these can usually be treated with exercise, proper dieting, and other measures.
  • The common cold and the flu are both viruses that can put you out of commission for a while, but while the former is relatively mild, influenza can turn aggressive and deadly pretty quickly. Especially for patients who are at greater risk for respiratory illness, it’s important to be able to identify which virus is which, and also to be aware of how to not only treat these infections — but prevent them as well.
  • The emergence of antibiotic-resistant bacteria (aka “superbugs”) is one of the major potential health crises of the moment. These tough bugs have evolved to survive all the treatments that we currently have developed to combat bacteria, and after a recent outbreak in a Los Angeles hospital, other medical centers are stepping up. Learn how hospitals are changing their practices to curb the transmission of these difficult-to-kill pathogens.
  • Tune in to this: There is compelling new evidence that using psychedelics, like LSD and magic mushrooms, does not harm your mental health. A recent study found no link between use of these drugs and the development of anxiety and depression later in life. If anything, the study found that those who experimented with psychedelics may be at a lower risk for mental health problems. Far out.

Image: BASF via Flickr

Can A Genetic Model Predict Next Year’s Flu Strain?

Can A Genetic Model Predict Next Year’s Flu Strain?

By Geoffrey Mohan, Los Angeles Times

LOS ANGELES — The seasonal flu has met its enemy, and it’s calculus.

A theoretical physicist and computational biologist analyzed the genetic code of thousands of strains of Influenza A that occurred over a 44-year period to create a model that accurately predicts which strain will prevail in the pitched evolutionary battle between human antibodies and the rapidly mutating virus.

Their method proved more accurate for selecting an appropriate vaccine than the current method used by public health officials, according to a report published online Wednesday in the journal Nature.

The researchers, from the University of Cologne in Germany and Columbia University, examined Influenza A/H3N2, a seasonal strain that causes thousands of deaths annually. They focused on the H part — short for hemagglutinin, a spike-shaped protein that seeks out sugars in human cells and binds to them, allowing the virus to inject its deadly code.

Human antibodies — naturally launched or gigged into action by vaccines — engage in a constant arms race with this wildly mutating protein, making flu vaccination season something of an educated guessing game. World health officials have been reasonably accurate in identifying which resistant strains are emerging as a new threat. But their method has a lot of uncertainty. A study in 2010, in fact, called several popular diagnostic methods “questionable.”

Inaccuracy also is at the heart of the survival for a virus, which shuffles its code enough to create variations that don’t show up on the radar of the human immune system.

“This is a really fast-evolving virus,” said study co-author Marta Luksza, a computational biologist at Columbia University. “Individual strains are very short-lived. Very, very rarely are there two identical strains. They mutate, they infect another individual. But they do share common mutations still.”

Luksza and co-author Michael Laessig estimated the frequency of these mutations in the viral RNA and factored in such variables as infection rates to come up with a model predicting a strain’s evolutionary fitness.

Since the researchers already knew the outcome of the evolutionary arms race from the record of flu strains from 1968 to 2012, they tested whether their model would have identified the fittest strains. It predicted the rise of the correct lineage in 93 percent of cases.

Perhaps more importantly, the model chose a more genetically matched strain than the one deployed as a vaccine.

Luksza cautioned that the study focused on one type of influenza. When they tested the model against an extinct H1N1 strain, results were less precise.

“In principle, there’s no reason why it shouldn’t be applicable to other strains,” Luksza said. But there may be complicating factors involved in the evolution of other strains that would have to be incorporated into the model, she added.

“I think our model could be used as guidance for the existing way of choosing vaccines,” Luksza said.

Photo: Mcfarlandmo via Flickr