Jun 19 2015
You can whack it with a hammer, attack it with a drill, or even stab it with a screwdriver. But try as you might, you won’t be able to tamper with a high-tech pill dispenser designed by mechanical engineering students at Johns Hopkins University’s Whiting School of Engineering.
Which is exactly the point.
The U.S. Centers for Disease Control and Prevention have estimated that drug overdoses kill more than 44,000 Americans annually, including 16,000 deaths from prescription drugs. Federal officials also say that at least one in 20 Americans ingests drugs prescribed for someone else. Concerned about these alarming statistics, experts at the Johns Hopkins Bloomberg School of Public Health’s Center for Injury Research and Policy challenged a team of Johns Hopkins undergraduate mechanical engineers to design and build a theft- and tamper-resistant pill dispenser.
The Johns Hopkins students’ tamper-resistant pill dispenser prototype features a fingerprint scanner, at left, which verifies the patient’s identity and then releases, at right, the correct dosage only within the prescribed time frame. (Credit: Johns Hopkins University)
“We needed this personal pill ‘safe’ to have tamper resistance, personal identification capabilities, and a locking mechanism that allows only a pharmacist to load the device with pills,” said Kavi Bhalla, assistant professor at the university’s Bloomberg School of Public Health and one of the team’s mentors for the project.
Classmates Megan Carney, Joseph Hajj, Joseph Heaney and Welles Sakmar — each 22 years old and graduated from Johns Hopkins last month — spent their senior year researching, designing, building and testing a device that met those specifications. The team unveiled its high-tech creation at the Department of Mechanical Engineering’s Senior Design Day, an event held annually at the end of the spring semester.
Weighing in at 2.57 pounds and standing 9.25 inches tall, the electronic prototype is equipped with a fingerprint sensor and circuitry to ensure that drugs are dispensed only to the prescribed patient at the prescribed intervals and in the prescribed dosage. The cylindrical device is built of the same kind of super-tough steel alloy used in aircraft landing gear and is equipped with the same kind of fingerprint sensor used in some iPhones. The sensor ensures that the medication is dispensed only to the correct patient; a timer ensures that no dose is dispensed too soon.
“The device starts to work when the patient scans in his or her fingerprint. This rotates a disc, which picks up a pill from a loaded cartridge and empties it into the exit channel. The pill falls down the channel and lands on a platform where the patient can see that the pill has been dispensed. The patient then tilts the device and catches the pill in their hand,” explains Carney, of Larchmont, New York.
According to Heaney, of Oyster Bay, New York, the most challenging part of the whole project was “getting the electronic circuit that powers the fingerprint detector to work right.”
The device can hold 60 tablets (a standard month’s dose) of OxyContin, a potent narcotic pain reliever that was selected for the project because it tops the list of the most commonly abused prescription drugs. (Tylenol served as a stand-in for its more potent cousin during device development.)
“We also went and talked to the pharmacist at the Rite-Aid [on the Johns Hopkins Homewood campus] and got his feedback on our design and approach,” said Sakmar, from Madison, Connecticut. “We wanted to make sure not only that it was easy for the patient to use but also simple for the pharmacist to unlock, load with pills, and then relock.”
Once the team members were satisfied with the input from the pharmacist, they then challenged a student to try to break into their invention.
“He took a hammer and other tools to it, from a hacksaw to a drill, and he broke at least one drill bit trying to get it open,” said Carney.
Andrea Gielen, director of the Johns Hopkins Center for Injury Research and Policy at the Bloomberg School of Public Health and one of the team’s mentors, said she and Bhalla were so impressed with the design that they have a proposal pending with the National Institutes of Health to further develop and test prototypes of the team’s device as part of a larger consumer product safety initiative.
Source: https://www.jhu.edu/