Soon, mobile device for preventing and treating drug use.
So called 'enabling technologies' - artificial intelligence, continuous physiological monitoring, wireless connectivity, and smartphone computation - exist to make behavioural interventions more effective outside the clinic or office environments.
In everyday, natural environments, they can detect changes in an individual's biological and affective states, which could well be trigger points for risky health behaviours, such as substance use.
However, "iHeal," currently being developed1 by Edward Boyer from the University of Massachusetts Medical School in the US, and his colleagues, is different from existing mobile health applications, because it incorporates biosensors.
Individuals with a history of substance abuse and post-traumatic stress disorder wear a sensor band around their wrist that measures the electrical activity of the skin, body motion, skin temperature and heart rate - all indicators of arousal or stress.
The band wirelessly transmits information to a smartphone, where software applications monitor and process the user's physiological data.
When the software detects an increased stress or arousal level, it asks the user to annotate events by inputting information about their perceived level of stress, drug cravings, and current activities.
iHeal's ultimate goal is to identify, in real-time, drug cravings and deliver personalized, multimedia drug prevention interventions precisely at the moment of greatest need.
Boyer and team's paper examines iHeal's development process to date i.e. system architecture, as well as preliminary feedback from potential users to identify potential limitations and key attributes from a user-perspective.
Their analyses suggest a number of technical issues related to data security, as well as the need for a more robust and less stigmatising version before the device could be worn in public.
This could be a sensor band that has the appearance and functionality of a wrist-watch, or a sensor that can be worn on the ankle.
"Our findings demonstrate that conducting clinical trials using enabling technologies in natural environments will require a deeper understanding of user preferences," the authors said.
"Study designers should rely on recipients rather than 'experts' to create intervention content. A focus on preventing identification of research participants to avoid subsequent stigmatization is also key," the authors concluded.
The study has been published online in Springer's Journal of Medical Toxicology. ( ANI )
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