A Smart Otoscope to Better Diagnose Ear Infections

Published in Insight - Insight Jan./Feb. 2021

Because ear infections can be complicated to diagnose, otolaryngologist–head and neck surgeon James Clark occasionally sees patients who have been misdiagnosed. “After two or three courses of antibiotics, they come to a specialist like me because they are not improving,” says Clark.

To help alleviate the complexity of accurately identifying ear infections, in early 2019, Clark set out with Therese Canares, director of pediatric emergency medicine digital health innovation at Johns Hopkins, to develop a “smart” otoscope. “I thought using technology might offer a solution,” says Clark.

The clinicians joined a program at the Johns Hopkins Technology Innovation Center that matches researchers and health care providers with business, design and technical experts to develop software for improved patient care. Clark and Canares labeled 100 images of healthy and infected ear drums so that a computer using machine-learning could create an artificial intelligence algorithm. Once complete, initial testing showed the algorithm detects ear infections at the same sensitivity and specificity as a fellowship-trained otolaryngologist.

By October 2020, the team produced a prototype featuring a high-definition camera and screen, and wireless internet connectivity. After recording images of an eardrum, the smart otoscope sends the images to the cloud, where they are saved and then analyzed by the algorithm. A diagnosis is then sent back to the otoscope in real time and displayed on the screen. Clark says the technology may be beneficial for in-person appointments, telemedicine and urgent care settings.

Alternatively, the technology could be used by a caregiver in the home to share high-resolution images with a physician in real time during a telehealth visit.

Since 2019, the team has secured $450,000 in funding. Most recently, they submitted a provisional patent application for the technology through Johns Hopkins Technology Ventures. The next step is gathering efficacy data on the prototype.

“The best thing about being at Hopkins is if you're interested in something, there's always someone you can call or email, and they will help you out,” says Clark. “There’s an openness to trying new technology across our health system, and that has been awesome.”

2020 DELTA Grants to Help Develop Digital Initiatives for Teaching, Learning

DELTA grants of up to $75,000 each were given to six teams of Johns Hopkins University faculty members, staff members and students to help unleash the potential of digital technology.

An illustration represents new technology and online learning.

Developing Implantable and Wearable Technology for Spinal Cord Injury

The technologies’ shared purpose is to prevent secondary injury such as neurological damage and to promote lower extremity muscle function, cardiovascular stability and bladder function.

An illustration shows the concept for an implant for spinal cord injury.

Johns Hopkins Expands Access to MyChart with Self-Sign-Up

An algorithm that verifies identity online is the latest step making it easier for patients to sign up for MyChart.

A graphic represents the self sign-up feature for MyChart.