The Johns Hopkins prototype is designed to do a better job than current garments in keeping health care workers from coming in contact with Ebola patients' contagious body fluids, both during treatment and while removing a soiled suit. In addition, it is expected to keep the wearer cooler - an important benefit in hot, humid regions such as West Africa. The first projects selected for the federal funding were announced earlier this month by the US Agency for International Development (USAID) through its new programme, called Fighting Ebola: A Grand Challenge for Development.
The precise amount of funding and other support that the USAID will award to this project is still under review. The improved protective suit is being developed by a team of medical experts, engineers, students and other volunteers under the supervision of Johns Hopkins University's Center for Bioengineering Innovation and Design (CBID) and Jhpiego, a nonprofit Johns Hopkins affiliate that focuses on
international health programmes.
"The personal protection suit we are developing with our partners at the Center for Bioengineering Innovation and Design is purposefully designed to address safety and climate issues now putting health workers at risk," said Leslie Mancuso, Jhpiego president and CEO. Some of the enhancements in the new suit include a large clear visor in the hood, which is integrated into the suit; air vents in the hood; a rear zipper to reduce infection risks while removing the garment; a cocoon-style doffing process that requires far fewer steps than existing garments; and a small battery-powered, dry air source to cool the user by blowing air into the hood.

According to The World Health Organisation, the worst Ebola outbreak on record has killed more than 7,000 people. The total number of cases in Guinea, Sierra Leone and Liberia - the three countries hit hardest by the outbreak- is now more than 19,000.


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