HOW AI IS CHANGING HEALTH CARE 

CU faculty address the challenges and benefits of artificial intelligence

By Kara Mason

October 2023

It’s a common theme in nearly all aspects of medicine. These are a few ways faculty members in the CU School of Medicine use, study, and think about AI’s future in their work and in patient care.

IMPROVING CARE

When Kahook, a prolific inventor, is designing and building physical devices to be used in the operating room or in the clinic, he’s also thinking about what AI can offer to the process. Earlier this year, when Kahook asked ChatGPT about unmet needs in ophthalmology, the language processing tool replied: “We currently lack pharmaceutical methods for treating ocular diseases with precision and efficacy, where drugs are delivered directly to the targeted tissues, and where patients experience fewer side effects without compromises.”

That AI-born response became the beginning of a presentation Kahook gave in February, when he unveiled promising results for SpyGlass, a device he invented that can be injected directly into the eye to deliver glaucoma medication for up to three years.

While AI’s use as a tool to improve patient care evolves, a major question is how it compares to the physicians who are experts in identifying and treating disease. Kahook says he believes the technology could help make a diagnosis more objective. Still, challenges do exist.

“The pros of using AI to achieve a diagnosis include reducing variability among clinicians, potentially leading to more consistent and accurate diagnoses,” he says. “It can also augment clinicians’ expertise and speed up the diagnostic process. However, the cons involve potential overreliance on AI, overlooking subtle nuances that experienced clinicians might notice, and ethical concerns regarding AI’s role in decision-making.”

Like many, Kahook sees AI as another tool to improve medicine and patient care.

“The fact that this technology is rapidly evolving means that the clinical setting can benefit from increasingly advanced tools that augment current capabilities,” he says. “AI can assist in more accurate diagnostics, personalized treatment plans, and efficient administrative tasks, ultimately improving patient care and outcomes.”

There’s also the possibility for AI to help uncover disease at an earlier point of development, ultimately giving doctors more time to slow progression, address symptoms, and bolster research avenues toward enhancing the preservation of vision.

“For physicians, this would mean the ability to diagnose and treat patients at an earlier stage, leading to better outcomes and quality of life,” Kahook says. “Additionally, such early detection could accelerate research efforts by providing large datasets for studying disease progression and treatment responses.”

MACHINE LEARNING

In the last decade, machine learning has evolved and developed significantly. In 2014, computer scientists joked that it would take hours for a computer to identify a bird in a photo. Now, an app on your phone can monitor a birdfeeder in real-time, notifying you when a bird arrives and telling you what type it is.

A confluence of two forces in information technology contributed to the rapid improvement of machine learning, Greene says. First, a focus on gathering data raised the possibility of training larger models than ever before, and specialized computer hardware, largely based on graphics processing units like those used for video games, made processing that data feasible.

“We discovered that the types of neural networks that worked well on the problems we were working with had been developed for quite some time, but didn’t have a natural match in the computing sphere so that we could build them quickly and larger than what had been built before. We also needed to be able to train them over larger amounts of data.”

The next frontier of machine learning in health care, Greene says, is multimodal integration, a system that can take text and generate an image or text. Systems for art and language, such as DALL-E and ChatGPT, have already been making waves. The next few years may bring more multimodal integration, where images, video, text, and other data are generated together to form a new kind of reality, which may have many biomedical applications.

For health care, Greene says he’d like to see a focus on accuracy of machine learning. That will likely require hybridizing AI methods from a few decades ago, which were heavily focused on reasoning, with machine learning methods that are now prominent, he says.

There is also a need for health care professionals who understand AI. Greene notes that the need for data scientists who understand health care systems, electronic health records, medicine, and biology continues to grow.

“In health care, our data, processes, and the needs of our patients and providers are unique, so there’s a critical need for more scientists trained in these techniques,” he says.

ADDRESSING BIAS

“Some health systems created chatbots as symptom-checkers,” DeCamp explains. “You can go online and type in symptoms such as cough and fever and it would tell you what to do. As a result, we became interested in the ethics around the broader use of this technology.”

Physicians’ own opinions about AI can also have a role in its effectiveness – another topic of interest for DeCamp. Who a patient’s doctor is could really matter. In an article published in the journal Science in July, DeCamp and a co-author write: “Although not specific to AI, in some prior studies, older physicians are less likely to follow algorithm-based recommendations, whereas in other studies, younger physicians override decision support more.”

“We see a lot of attention given to developing fair algorithms and fair datasets,” DeCamp says. “While that’s important, things can change when algorithms enter a clinical environment where there are new and different forms of bias, such as overly skeptical clinicians.”

Ultimately, DeCamp says, it’s not up to one sector of the health care industry to solve the bias that arises in AI tools. There are questions that everyone should consider.

“We have to ask ourselves, ‘Who are we forgetting? Who is left out by these tools?’ There’s a place in ethics that puts special emphasis on the way we treat those who are or who may be in the minority and are harmed by what we’re doing,” he says. “It’s important to not assume that just because something is better overall it’s better for everyone. There may still be individuals and groups who are harmed by the technology.”

Addressing those challenges should come in the design process of new tools.

“We need to start demanding that AI proactively reduce disparities and equities, not design it and wait for that to happen later,” DeCamp says.

TEACHING AI

Zimmer compared the outline to a scholarly paper written by educators. She was impressed. “There were a lot of similarities,” she says. “It was done quickly, and I thought, ‘Well, that’s really very cool. I wonder if we should be doing that more as we’re developing guidelines for AI.’”

Zimmer, like others throughout the field of medicine, has some skepticism about the ability of AI to diagnose patients and return accurate results, but she says it’s worth introducing to students early, so they can also continue to grow and evolve along with the technology.

“We are thinking about ways to develop some assignments where students use artificial intelligence and then critique it, because we want them to understand that there may be things that are wrong,” Zimmer says. “A key for medicine and science in general is that we can’t have a top-down approach. We’ve got to create these tools together.”

This approach has led to discussions with students, who are already using AI programs for studying. Zimmer points out that there are many discussions about transparency, including how to cite the use of AI features like ChatGPT, just as one would with a book or journal article.

“There’s general concern and thoughts that maybe it shouldn’t be part of the curriculum, but I think that students will have to use this these tools in the future, so rather than shutting things down, we should embrace it and develop some guidelines around how to use it,” she says.