Categories
Cardiovascular
Diagnostics
Endocrinology
Health Insurance
Medical Devices
Mental Health
Nutrition
Oncology
Public Health
Sexual Health
Popular Articles

Clinton Embarks On 7 Nation African Tour
"U.S. Secretary of State Hillary Clinton heads this week on a seven-nation tour of Africa aiming to prove U.S. commitment to the continent after the administration"s early focus elsewhere," AFP/ABS-CBN News reports. According to the news service, "Clinton will seek to build ties with three African powers -- Kenya, Nigeria and South Africa -- and visit three nations recovering from conflict -- Angola, Democratic Republic of Congo [DRC] and Liberia. She will end with a stop in small U.S. ally Cape Verde" (8/3). "Her visit is the earliest in any U.S. administration that both the President and the Secretary of State have visited Africa," VOA News reports (Clottey, 8/2). Buy arimidex to treat cancer.

New York Times Series Examines Maternal Mortality In Tanzania
The New York Times on Sunday examined maternal mortality in Tanzania, in the opening of a three-part series on maternal mortality in Africa. According to the Tanzanian Ministry of Health, the country has a maternal death rate of 578 per 100,000 births, though the World Health Organization puts the count at 950 maternal deaths per 100,000 births. Roughly 13,000 Tanzanian women die of pregnancy- or childbirth-related causes annually, giving it "neither the best nor the worst record in Africa," the Times reports. Tanzania is one of the world"s poorest countries and faces shortages in several areas -- including health workers, drugs, equipment and infrastructure -- that contribute to maternal mortality.The Times profiled obstetrical care at a rural hospital in Berega, Tanzania, that typifies efforts to reduce maternal mortality in Africa. Facing a shortage of doctors and nurses, the hospital has been training "assistant medical officers" to perform caesarean sections and other procedures. Meanwhile, the government also is attempting to train more assistants and midwives, build more clinics and nursing schools, offer housing to attract health workers to rural areas and provide places for pregnant women to stay closer to hospitals.According to the Times, many women who die in childbirth are young and healthy, and most maternal deaths are preventable with basic obstetrical care. The five leading causes of maternal death are bleeding, infection, high blood pressure, prolonged labor and complications resulting from abortions, the Times reports. In discussing maternal mortality, experts often refer to what are known as "the three delays": a woman"s delay in going to the hospital, the time spent traveling there and the hospital"s delay in starting treatment upon the woman"s arrival. Although only around 15% of births have dangerous complications, the problems are almost impossible to predict, and seemingly normal labors can quickly progress into serious emergencies. Worldwide, more than 536,000 women die annually from pregnancy or childbirth, according to WHO (Grady, New York Times, 5/24).

generic viagra online


News of the day
Op-Ed: First Lady's Upcoming Africa Trip; Developed Nations Commitment To World's Poor
Michelle Obama Can Highlight "Disproportionate Impact" of HIV/AIDS on Women, Girls During Africa Visit
Nutrition

Cells Are Like Robust Computational Systems, Carnegie Mellon-Led Team Reports

Gene regulatory networks in cell nuclei are similar to cloud computing networks, such as Google or Yahoo!, researchers report today in the online journal Molecular Systems Biology. The similarity is that each system keeps working despite the failure of individual components, whether they are master genes or computer processors. This finding by an international team led by Carnegie Mellon University computational biologist Ziv Bar-Joseph helps explain not only the robustness of cells, but also some seemingly incongruent experimental results that have puzzled biologists. "Similarities in the sequences of certain master genes allow them to back up each other to a degree we hadn"t appreciated," said Bar-Joseph, an assistant professor of computer science and machine learning and a member of Carnegie Mellon"s Ray and Stephanie Lane Center for Computational Biology. Between 5 and 10 percent of the genes in all living species are master genes that produce proteins called transcription factors that turn all other genes on or off. Many diseases are associated with mutations in one or several of these transcription factors. However, as the new study shows, if one of these genes is lost, other "parallel" master genes with similar sequences, called paralogs, often can replace it by turning on the same set of genes. That would explain the curious results of some experiments in organisms ranging from yeast to humans, in which researchers have recently identified the genes controlled by several master genes. Researchers have been surprised to find that when they remove one master gene at a time, almost none of the genes controlled by that master gene are de-activated. In the current work, the Carnegie Mellon researchers and their colleagues in Israel and Spain identified the most probable backup for each master gene. They found that removing the master genes that had very similar backups had almost no noticeable effect, but when they removed master genes with less similar backups, the effect was significant. Additional experiments showed that when both the master gene and its immediate backup were removed, the effects became very noticeable, even for those genes with a similar backup gene. In one example, when the gene Pdr1 was removed, researchers found almost no decrease in activation among the genes it controls; when Pdr1 and its paralog were removed, however, 19 percent of the genes Pdr1 controls failed to activate. "It"s extremely rare in nature that a cell would lose both a master gene and its backup, so for the most part cells are very robust machines," said Anthony Gitter, a graduate student in Carnegie Mellon"s Computer Science Department and lead author of the Nature MSB article. "We now have reason to think of cells as robust computational devices, employing redundancy in the same way that enables large computing systems, such as Amazon, to keep operating despite the fact that servers routinely fail." In addition to Bar-Joseph and Gitter, the authors include Itamar Simon, Zehava Siegfried and Michael Klutstein of Hebrew University Medical School in Jerusalem, Oriol Fornes of the Municipal Institute for Medical Research in Barcelona, and Baldo Oliva of Pompeu Fabra University, also in Barcelona. This work was supported by grants from the National Science Foundation and the National Institutes of Health. Molecular Systems Biology is a peer-reviewed journal published by Nature Publishing Group. Byron Spice Carnegie Mellon University


Add your comment:
Name:
Site address: http://
Your message:
Enter today\\\\'s date, 2 digits
(spam protection):

© Copyright 2009