South African officials withhold findings of Caster Semenya’s gender test

September 19, 2009 By Leave a Comment

London, Sep. 19 (ANI): Even before South African star athlete Caster Semenya’s gender was questioned at the World Championships in Berlin, Athletics South Africa (ASA) had found out and withheld the fact that she had internal testes, an e-mail exchange has revealed.

According to the e-mail exchanges published in the Mail and Guardian newspaper, ASA officials were aware of the findings of a Pretoria clinic that Semenya had internal testes and produced abnormal amounts of testosterone for a woman, Times Online reports.

It was ASA’s chief medical officer and team doctor, Harold Adams, who had suggested the need carrying out the tests on Semenya, 18, because of her deep voice, muscular body and facial hair, which later became a subject of controversy in Berlin.

Another email exchange shows that Adams later suggested that the results to be kept confidential while the South African team was in Berlin.

“Thinking about the current confidential matter, I would suggest we make the following decisions. 1. We get a gynae opinion and take it to Berlin. 2. We do nothing and I will handle these issues if they come up in Berlin,” the report quoted from Dr Adams’ email to ASA President Leonard Chuene and General Manager Molatelo Malehopo, as saying.

Following the IAAF establishing that Semenya was a hermaphrodite, South African officials not only angrily denounced it, but also denied carrying out their own tests.

Taking matters a step further, South African Sports Minister Makhenkesi Stofile lost his temper at a press conference and threatened to start a “third world war” if Semenya was banned from international competition because of her gender.

Earlier, Semenya’s ex-coach Wilfred Daniels had said the ASA had duped Semenya into thinking the gender test carried out on her were routine drug tests. (ANI)

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New Alzheimer’s drugs may lower damage caused by traumatic brain injury

March 16, 2009 By Leave a Comment

London, Mar 16 (ANI): A new class of Alzheimer’s drugs have been found to reduce long-term damage caused by traumatic brain injury, say researchers from Georgetown University Medical Centre.

The drugs called gamma-secretase inhibitors are designed to target amyloid plaque that accumulates in the brains of people with Alzheimer’s disease.

“No one knows why it occurs, but abnormal amounts of amyloid plaque have been found during an autopsy in about a third of brain injury victims, some of whom were children who would ordinarily never have had these deposits,” Nature magazine quoted Dr. Mark Burns, an assistant professor at GUMC, as saying.

“Remarkably, these deposits may occur in less than one day after injury,” he added.

The researchers found that the same pathways activated chronically in Alzheimer’s disease are activated acutely in traumatic brain injury, and that they appeared to play a very important role in secondary injury.

Moreover, people who suffered a brain injury were at a 400 percent increased risk of developing the disorder.

During the study, the researchers sought to understand whether amyloid peptide contributed to secondary injury. They used two different approaches to blocking activation of the pathway that produces amyloid peptide.

The mice used in the study were genetically altered to lack beta secretase, which meant they were incapable of producing amyloid.

The researchers also treated “normal” mice with the experimental agent DAPT, one of the first gamma secretase inhibitors currently undergoing trails.

As a result, amyloid peptide production was substantially reduced in that group.

They found that in normal control mice, brain injury produced substantially more amyloid peptide, and that the brain region known as the hippocampus, which is also affected in Alzheimer’s disease, was substantially damaged.

They then followed the groups of reduced amyloid mice after injury, and found that three weeks after initial trauma, both groups performed almost equally well on learning tests.

“The experiment with the genetically altered mice shows that amyloid peptide contributes to the secondary damage seen in traumatic brain injury,” he said.

“If injured mice that cannot develop amyloid demonstrate reduced signs of secondary trauma, that points to amyloid peptide as a cause of this continuing damage,” he added.

The findings appear in the journal Nature Medicine. (ANI)

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‘Magic’ pill that can curb smoking damage closer to reality

January 13, 2009 By Leave a Comment

London, Jan 13 (ANI): A pill which can alleviate some of the negative health effects of cigarettes is on the anvil.

Boston University School of Medicine researchers have found 28 molecules, which are produced in abnormal amounts in cells lining the airways of smokers.

If the levels of these molecules could be restored to that of non-smokers it might allow chronic smokers who have been unable to quit to improve their health prospects, reports New Scientist.

It might also enable people to smoke without significant damage to their health.

To reach the conclusion, lead researcher Avrum Spira and his colleagues took samples of cells from the airways of 10 smokers and 10 non-smokers and identified 28 microRNAs – molecules that control the expression of whole networks of related genes – that were perturbed in the smokers.

“These microRNAs serve to regulate the gene expression changes occurring in people who smoke and who get smoking related diseases, including cancer,” says Spira.

One of these microRNAs, called mir-218, appears to control a group of genes that usually protect lung and airway cells from the oxidative damage caused by smoke.

“We think the level of activity [of mir-218] is crucial in how a smoker defends his or herself against injury and potential development of lung disease,” the expert added.

Other microRNAs identified help to regulate the proliferation and growth of airway cells.

Giving supplements of mir-218 to smokers, or developing a drug that restores levels of disrupted microRNAs to normal could mitigate some of the damaging effects of smoke.

“We might be able to alter the host’s response to tobacco smoke so that it is a protective one,” says Spira.

The study has been published in the journal Proceedings of the National Academy of Science. (ANI)

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