A breath of fresh information to help diagnosis

Researchers discuss how useful data can be collected from analyzing breath.
© 2019 KAUST

Human breath carries a breadth of information, and KAUST research scientist Osama Amin has partnered with KAUST's Mohamed-Slim Alouini and Basem Shihada and colleagues Maryam Khalid and Sajid Ahmed at Information Technology University, Pakistan, to harness that information.

Ever since the late 18th century, scientists and inventors have been devising ways to enhance human telecommunication from the telegraph, the telephone, the mobile phone and now the Internet. In more recent years, there has been a hype around multidimensional media. Demand for this type of next-generation media has prompted researchers to investigate ways to add other senses, such as smell, touch and taste, to the traditional sound and sight senses. 

Scientists have already found ways to extract information about the human body from breath. The breathalyzer, which estimates blood-alcohol levels, was invented in the 1950s. More recently, clinicians have been using breath samples collected from patients to detect viruses, like human influenza, or even to diagnose cancers, like breast and lung tumors. Almost 1,000 volatile organic compounds have so far been identified in healthy human breath, which vary depending on health, age, diet, sex, body fat, height and lifestyle.

The team envision an even broader concept. They have already designed a system architecture that can theoretically detect a person infected with a virus from the midst of a crowded area, like an airport.

“Our idea is to construct a communication system using inhaled and exhaled breath, where the information is carried in molecules,” explains Amin. 

Constructing such a breath communication system will open the door to a new generation of wireless body networks, he explains. These are the communications systems used by medical practitioners, for example, to wirelessly monitor health using wearable and implanted sensors that can communicate information to a remote device.

A breath communication system won’t replace this sort of setup, but it can offer an even larger degree of freedom for real-life applications, such as those needed to monitor patients under quarantine.

KAUST CEMSE EE CTL SRI CNR STAT CS NETLAB Osama Amin Mohamed Slim Alouini Basem Shihada
Osama Amin discusses the system architecture with advisors Mohamed-Slim Alouini and Basem Shihada (back). © 2019 KAUST

The team is now establishing multidisciplinary collaborations with experts in many fields to define the best communication channel models that can be used for this approach. They are asking the questions—What kinds of information can be exchanged? What types of molecular compounds would be introduced into the system to interact with the human body? What types of sensors and detectors are needed to send and receive information? And what security and privacy concerns need to be addressed?

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