An innovative early disease detection system that uses the sense of smell is going mobile.

The NaNose breathalyzer technology developed by Professor Hossam Haick of the Technion will soon be installed in a mobile phone – to be called, appropriately, the SniffPhone. A tiny smell-sensitive sensor will be installed onto a phone add-on, and using specially designed software, the phone will be able to “smell” users’ breath to determine if they have cancer, among other serious diseases.

By identifying the special “odor” emitted by cancer cells, the NaNose system can detect the presence of tumors, both benign and malignant, more quickly, efficiently and cheaply than previously possible, said Haick.

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“Current cancer diagnosis techniques are ineffective and impractical,” he said. NaNose technology, he said, “could facilitate faster therapeutic intervention, replacing expensive and time-consuming clinical follow-up that would eventually lead to the same intervention.”

According to research done by Haick’s team, the NaNose system has a 90 percent accuracy rate.

The smartphone device is just a vehicle to implement the NaNose technology that can be taken anywhere and used in any circumstances, including in rural areas of the developing world where bringing in sophisticated testing equipment is impossible.

The plan calls for a chip with NaNose technology to be installed in a device that is attached to a smartphone, and for an app to read the sensor data, analyzing it on the device or uploading it to the cloud for processing.

NaNose technology will be especially useful in battling lung cancer, said Haick. According to US government statistics, lung cancer kills more Americans annually than the next three most common cancers — colon, breast, and pancreatic — combined. The reason, doctors say, is because lung cancer is so difficult to detect. Currently, the only way to detect early-stage lung cancer is through an extensive process involving blood tests, biopsies, CT scans, ultrasound tests, and other procedures — and even then, detection is difficult.

“Mostly the patient arrives for diagnosis when the symptoms of the sickness have already begun to appear,” said Haick, describing the drawbacks in current detection protocols. “Months pass before a real analysis in completed. And the process requires complicated and expensive equipment such as CT and mammography imaging devices. Each machine costs millions of dollars, and ends up delivering rough, inaccurate results.”

The NaNose-based system, on the other hand, doesn’t require anything more than a patient’s breathing into the device in order to come up with an initial diagnosis. Lung cancer tumors produce chemicals called volatile organic compounds (VOCs), which easily evaporate into the air and produce a discernible scent profile. Haick’s NaNose chip detects the unique “signature” of VOCs in exhaled breath. In four out of five cases, the device differentiated between benign and malignant lung lesions and even different cancer subtypes.

The project is being funded by the European Commission, which has given the consortium developing it a six million euro grant. The developers include universities and research institutes from Germany, Austria, Finland, Ireland and Latvia, as well as Irish cell biology research firm Cellix, with the NaNose system the centerpiece of the technology. That Israeli-developed component will be delivered by an Israeli start-up called NanoVation-GS, a spinoff of the Technion. Professor Haick serves as the start-up’s Chief Science Officer.

“The SniffPhone is a winning solution. It will be made tinier and cheaper than disease detection solutions currently, consume little power, and most importantly, it will enable immediate and early diagnosis that is both accurate and non-invasive,” said Haick. “Early diagnosis can save lives, particularly in life-threatening diseases such as cancer.”