Vermont Medicine Magazine

These words of wisdom, paraphrased from a 1984 lecture by the late Lawrence Weed, M.D., a professor of medicine at the University of Vermont (pictured at left), sparked an idea in a young medical student’s mind. That spark led the future doctor to envision and create a clinical decision tool that visually shows, describes, and categorizes thousands of diseases. Used in clinics and medical schools throughout the nation and across the globe, this tool, VisualDx, delivers time-sensitive, clinically relevant information for diagnosing and treating common and rare diseases and brings public health to the point of care.

Art Papier, M.D.’88, was a first-year medical student in Vermont when he attended Dr. Weed’s brown-bag lunch lecture 40 years ago. Papier was fascinated by Weed’s work, which focused on the advantages of keeping detailed, shareable medical records to improve patient care and health outcomes. Weed devised the now widely used problem-oriented medical record (POMR) to organize patient data by diagnosis and SOAP notes (Subjective, Objective, Assessment, and Plan), a standardized method for organizing and guiding patient information and thinking. Following Weed’s lecture, the future Dr. Papier began working for Weed’s medical software company, Problem-Knowledge Couplers (PKC), where Papier entered medical literature information into a data bank for physicians and learners.

“In his small attic office, I was introduced to the problem of cognitive biases in medical decision-making and the limitation of the human mind in handling complexity. I began to appreciate that individual practitioners could not possibly store every single diagnosis in their heads and—just as important—it was impossible to know all the right questions to ask for each potential complaint the patient might have,” says Dr. Papier, associate professor in dermatology and medical informatics at the University of Rochester and dermatologist at University of Rochester Medical Center. “With the explosion of medical knowledge, if we are to deliver high-level care, we need to augment our brains with reliable information as we make decisions.”

This revelation stuck with Papier as he started his residency in 1990 in Rochester, New York, where Kodak—the photographic film company—was headquartered. The digital photography revolution was beginning, and Kodak had recently designed a system for digitizing Kodachrome slides onto compact discs. By 1999, digital cameras had become ubiquitous, and Papier was creating prototype digital tools under the company name Logical Images. The product software was released in 2001, but at the time, few people could use it.

“There were no computers in medical exam rooms (to run the software), no smart phones, and no electronic health records being used (to share the information), so there was little commercial interest in our product,” Papier recalls. “Then 9/11 [terrorist attacks] happened, and Anthrax [deadly bacterium] was spread in the mail.” These momentous events set VisualDx on trajectory to success, he says.

In November 2001, Papier received a phone call from D.A. Henderson, M.D., M.P.H., a renowned physician who had led the effort to eradicate smallpox. Dr. Henderson was leading U.S. preparedness to address the threat of intentional dissemination of biological agents, including smallpox. The George W. Bush’s administration intended to mandate smallpox vaccination for 60 million Americans in six months, with Henderson overseeing the rollout. The smallpox vaccine carried risks that concerned Dr. Henderson, including a potentially fatal complication in people with eczema or the immunocompromised. Henderson engaged VisualDx to create a website and print materials for the Centers for Disease Control to visually show health care workers normal and adverse reactions to the vaccine.

“We then met with health departments to show how VisualDx could assist professionals with patients with fever, rash, and possible bioterrorism diseases,” says Papier. “We could give them software they can use daily for common things, and the bioterrorism information will be there if they need it.” Within two years, health departments in five states and New York City, Los Angeles County, and San Antonio licensed VisualDx, establishing it as a tool in public health preparedness.

Fast forward to 2007 and the proliferation of smartphones with cameras and internet connectivity. With this new technology, VisualDx returned to its core idea of bringing pattern-recognition skills for any medical problem to the point of care.

How it Works
VisualDx is a digital resource that guides clinicians in differential diagnosis, treatment decisions and patient education. Its library contains 47,000 skin, oral, eye, genital, hair, nail, radiographic, electrocardiogram, and pathologic images covering more than 3,400 diseases and public health threats, including COVID-19, mpox, Lyme disease, measles, and rabies. The content is created by an editorial board of invited experts and is continually updated. Additionally, a smartphone user can take a photo of a rash or lesion and the software’s AI-assisted tool will analyze the photo and guide the user through possible conditions, with narrative descriptions and images. The platform interfaces with Epic and other electronic health records, which improves information sharing, decision-making, and workflow in a busy health care setting.

VisualDx can be customized for state and local public health reporting, with alerts about whom to contact and links to reporting forms and phone numbers. The Vermont Department of Health launched a pilot project in November 2022 to provide the technology to all clinicians, residents, and nurse practitioner and medical students in Vermont. The initiative aims to remove barriers between public health goals and busy medical professionals, to improve Vermont’s readiness for emerging infectious diseases. The Vermont-customized platform allows public health alerts to go out unobtrusively, and clinicians can access reference information about emerging conditions and are guided to submit specimens to the Vermont Public Health laboratory.

“We believe this first-of-its-kind initiative will improve public health by supporting our health professionals with intuitive tools for timely diagnosis, testing, and patient education,” said Vermont Health Commissioner Mark Levine, M.D., professor of medicine. “Connecting Vermont’s time-strapped medical professionals with the information they need right when they need it ensures that they will be ready for the ever-changing and seemingly constantly emerging public health emergencies.”