Air Pollution

A new review of studies on levels of urban exposure to airborne pollutants and their effects on human health suggests that advanced instrumentation and information technology will soon allow researchers and policymakers to gauge the health risks of air pollution on an individual level.
In New York City alone, the economic impact of premature death from causes relate to air pollution, including asthma and other respiratory conditions and cardiovascular complications, exceeds $30.7 billion a year. Globally, 4.2 million deaths per year are attributable to airborne pollution, making it the fifth-ranking mortality risk factor according to a 2015 study publish in the Lancet.

The impact of air pollution

An interdisciplinary research team from New York University, led by Masoud Ghandehari; so an associate professor in NYU Tandon’s Department of Civil and Urban Engineering and the Center for Urban Science and Progress (CUSP); so publish a comprehensive review of recent efforts to assess the impact of air pollution exposure in cities.

Ghandehari’s co-authors are Andrew Caplin, Silver Professor in the NYU Department of Economics; Paul Glimcher, Silver Professor and professor of neural science and psychology; George Thurston, NYU School of Medicine professor in the Departments of Environmental Medicine and Population Health; and Chris Lim, a recent Ph.D. graduate of the School of Medicine.
Their paper, publish in Nature Communications, explains how data glean from environmental sensors mount on buildings and lamp poles; so as well as mobile and wearable sensors, were combine with information on socioeconomic status; so commuting patterns, and lifestyle habits such as outdoor exercise; hence to develop models of pollution exposures at the neighborhood level.

The major urban centers

Such studies were conduct in major urban centers; also including New York City, Hong Kong, and San Francisco, and inform public policy on air pollution limits and climate action strategies. Yet the authors argue that advance sensing and information technologies can be use to even greater advantage; so offering the potential for far more granular assessments at the level of the individual. “One of the questions they want to answer is how different people experience pollution, and why?” Ghandehari said.

They explain that populationlevel assessments overlook factors; so such as personal mobility including commuting by car, bus, bicycle, or on foot, and often do not consider indoor climate control conditions or life stage. For example, students and working adults are more mobile than older people; also are therefore more exposed, while children experience lifelong adversities.

Socioeconomic status is also a know factor for increase exposure to airborne pollutants; so as well as increase risk of asthma and cardiovascular disease. Using technology to study individual associations between air pollution and health outcomes rather than group associations will yield evidence base arguments; hence for change that would particularly impact individuals at higher risk of negative health impacts.