Coughs and sneezes can spread germs further than we thought
Concerns about catching a cold or flu from someone coughing or sneezing are well justified, particularly in view of recent research showing violent respiratory events can spread respiratory diseases further than we previously thought. The public health consequences of people coughing and sneezing demand that greater efforts be taken to protect people from infected droplets spread in such manners. The new findings that these droplets may can spread a lot further than previously realized means more aggressive initiatives are needed to cope with this problem.
Respiratory diseases are spread between infectious and susceptible individuals primarily from violent respiratory events such as coughs and sneezes, reports the Journal of Fluid Mechanics. To better understand this problem researchers have studied the fluid dynamics of such violent expiratory events. Direct observation of sneezing and coughing events has revealed that such flows are multiphase turbulent buoyant clouds made up of suspended droplets of various sizes. The researchers developed discrete and continuous models of droplet fallout from the clouds with a goal of predicting the range of pathogens.
Coughs and sneezes float farther than you think
Researchers have discovered how coughs and sneezes float farther than you think, reports MIT on April 8, 2014. In a novel study MIT researchers have showed that coughs and sneezes have associated gas clouds which keep their potentially infectious droplets floating over much greater distances than were previously realized. John Bush, a professor of applied mathematics at MIT, and co-author of a new paper on the subject, has said, “When you cough or sneeze, you see the droplets, or feel them if someone sneezes on you. But you don’t see the cloud, the invisible gas phase. The influence of this gas cloud is to extend the range of the individual droplets, particularly the small ones.”
Ventilation systems may be more likely to transmit potentially infectious particles
It was observed in this study that the smaller droplets which develop in a cough or sneeze may travel five to 200 times further than they would if those droplets were not part of a cloud and simply moved as groups of unconnected particles. The fact that these droplets may remain airborn due to being resuspended by gas clouds, means that ventilation systems may be more likely to transmit potentially infectious particles than has been previously suspected. It is pointed out that this understanding should prompt architects and engineers to re-examine the design of workplaces and hospitals and circulation on airplanes in order to lower the chances that airborne pathogens will be transmitted among people.
A cough or sneeze resembles a puff emerging from a smokestack