Microsoft Research Podcast - The AI Revolution in Medicine, Revisited: Laws, norms, and ethics for AI in health
Episode Date: May 1, 2025Healthcare experts Laura Adams, Vardit Ravitsky, and Dr. Roxana Daneshjou discuss responsible AI implementation in medicine, examining governance approaches, shifting patient-provider relationships, a...nd the identification of bias to ensure equitable deployment.
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This is the moment for broad, thoughtful consideration of how to ensure maximal safety and also maximum access.
Like any medical tool, AI needs those guardrails to keep patients as safe as possible.
But it's a tricky balance. Those safety measures must not mean that the great advantages that we document in this book end up unavailable to many who could benefit from them. One of the most exciting aspects of this moment is that the new
AI could accelerate health care in a direction that is better for patients,
all patients, and providers as well if they have access.
This is the AI Revolution in Medicine Revisited. I'm your host, Peter Lee.
Shortly after OpenAI's GPT-4 was publicly released, Kerry Goldberg, Dr. Zach Kohani,
and I published The AI Revolution in Medicine to help educate the world of healthcare and
medical research about the transformative impact this new generative AI technology could have. But
because we wrote the book when GPT-4 was still a secret, we had to speculate. Now,
two years later, what did we get right and what did we get wrong? In this series,
we'll talk to clinicians, patients, hospital administrators, and others
to understand the reality of AI in the field and where we go from here.
The passage I read at the top there is from Chapter 9, Safety First.
One needs only to look at examples such as laws mandating seat belts in cars,
and, more more recently internet
regulation to know that policy and oversight are often playing catch up with emerging technologies.
When we were writing our book, Carrie, Zach, and I didn't claim that putting frameworks
in place to allow for innovation and adoption while prioritizing inclusiveness and protecting
patients from hallucination and other harms would be easy.
In fact, in our writing, we posed more questions than answers in the hopes of highlighting
the complexities at hand and supporting constructive discussion and action in the space.
In this episode, I'm pleased to welcome three experts who have been thinking deeply about
these matters, Laura Adams, Vardit Ravitsky,
and Dr. Roxana Dineshu.
Laura is an expert in AI, digital health, and human-centered care.
As a senior advisor at the National Academy of Medicine, or NAM, she guides strategy for
the Academy's science and technology portfolio and leads the Artificial Intelligence Code
of Conduct National Initiative.
Vardit is President and CEO of the Hastings Center for Bioethics, a bioethics and health policy institute.
She leads research projects funded by the National Institutes of Health,
is a member of the committee developing the National Academy of Medicine's AI Code of Conduct,
and is a senior lecturer at Harvard Medical School. Roxana is a board-certified
dermatologist and an assistant professor of both dermatology and biomedical data
science at Stanford University. Roxana is among the world's thought leaders in AI,
healthcare, and medicine thanks in part to groundbreaking work on AI biases and trustworthiness.
One of the good fortunes I've had in my career is the chance to work with both Laura and
Vardit, mainly through our joint work with the National Academy of Medicine. They're
both incredibly thoughtful and decisive leaders, working very hard to help the world of healthcare
and healthcare regulators come to grips with generative AI.
And over the past few years, I've become an avid reader of all of Roxana's research
papers.
Her work is highly technical, super influential, but also informative in a way that spans
computer science, medicine, bioethics, and law.
These three leaders, one from the medical establishment, one from the bioethics field, and the third from clinical research,
provide insights into three incredibly important dimensions of the issues
surrounding regulations, norms, and ethics of AI in medicine.
Here's my interview with Laura Adams.
Laura, I'm just incredibly honored and excited that you're joining us here today, so welcome.
Thank you, Peter.
My pleasure.
Excited to be here.
So, Laura, you know, I've been working with you at the NEM for a while, and you are a
strategic advisor at the NEM, but I think a lot of our listeners might not know too
much about the National Academy of Medicine, too much about the National Academy of Medicine
and then within the National Academy of Medicine what the Strategic Advisor does.
So why don't we start there? How would you explain to a person's mother or father what the
National Academy of Medicine is?
Sure. The National Academy was formed more than 50 years ago. It was formed by the federal
government, but it is not the federal government.
It was formed as an independent body to advise the nation
and the federal government on issues of science
and primarily technology related issues as well.
So with that 50 years, some probably know
of the National Academy of Medicine
when it was the Institute of Medicine
and produced such publications as to air as Human and Crossing the Quality Chasm, both of which were seminal
publications that I think had a dramatic impact on quality safety and how we saw our healthcare
system and what we saw in terms of its potential.
So now for your role within NEM, what does the Senior Advisor do?
What do you do?
What I do there is in the course of leading the AI Code
of Conduct project, my role there
was in framing the vision for that project, really
understanding what did we want it to do?
What impact did we want it to make?
So for example, some thought that it
might be that we wanted everyone to use our Code of Conduct.
And my advice on that was, let's use this as a touchstone.
We want people to think about their own codes of conduct
for their use of AI.
That's a valuable exercise to decide what you value,
what your aspirations are.
I also then do a lot of the field alignment around that work.
So I probably did 50 talks last year,
conference presentations, webinars,
different things where the code of conduct was presented so that the
awareness could be raised around it so people could see the practicality of
using that tool, especially the six commitments that were based on the idea
of complex adaptive systems simple rules, where we could recall those in the heat
of decision-making around AI in the heat of
Application or even in the planning and strategic thinking around it
All right, we're going to want to really break into a lot of details here
but I would just like to rewind the clock a little bit and
talk about
your first
encounters with AI
and talk about your first encounters with AI. And there's sort of, I guess, two eras.
There's the era of AI and machine learning before
CHAT GPT, before the generative AI era,
and then afterwards,
before the era of generative AI,
what was your relationship
with the idea of artificial intelligence?
Was it a big part of your role and something
you thought about, or was it just one of many technologies
that you considered?
It was one of many.
Watching it help us evolve from predictive analytics
to predictive AI, which, of course, I
was fascinated by the fact that it could use structured
and unstructured data, that it could learn
from its own processes.
These things were really quite remarkable.
But my sense about it was that it was one of many.
We were looking at telemedicine.
We were looking at a variety of other things,
particularly wearables and things
that were affecting and empowering patients
to take better care of themselves
and have more agency around their own care.
So I saw it as one of many.
And then the world changed in 2022.
It changed dramatically.
Right.
OK.
So November 2022, CHAT GPT.
Later in the spring of 2023, GPT-4.
And so what were your first
encounters and what were you feeling? What were you
experiencing?
At the time, I was curious, and I thought, I think I'm seeing
four things here that make this way different. And one was, and
it proved to be true over time, the speed with which this
evolved, and I was watching it evolve very, very quickly
and thinking, this is almost, this is kind of mind-blowing
how fast this is getting better.
And then this idea that we could scale this.
As we were watching the early work with ambient listening,
I was working with a group of physicians
that were lamenting
the cost and the unavailability of scribes. They wanted to use scribes and
I'm thinking we don't have to incur the cost of that. We don't have to struggle
with the unavailability of that type of someone in the workforce. And then I
started watching the ubiquity and I thought oh my gosh this is unlike any other
technology that we've seen because with electronic health records for example
it's had its place but it was over here we had another digital technology maybe
telehealth over here this was one and I thought there will be no aspect of
healthcare that will be left untouched by AI that blew my mind and then I
think the last thing was the democratization.
And I realized, wow, anyone with a smartphone
has access to the most powerful
large language models in the world.
And I thought this, to me,
is a revolution in cheap expertise.
That was, those were the things
that really began to stun me, and
I just knew that we were in a way different era.
It's interesting that you first talked about ambient listening.
Why was that of particular initial interest to you specifically?
It was because one of the things that we were putting together
in our code of conduct, which began pre-generative AI,
was the idea that we wanted to renew the moral well-being and the sense of shared purpose to the healthcare workforce.
That's one of the six principles. And I knew that the cognitive burden was becoming unbearable.
When we came out of COVID, it was such a huge wake up call to understand exactly what was going on
at that point of care and how challenging it had become
because information overload is astonishing
in and of itself.
And that idea that we have so much in the way
of documentation that needed to be done
and how much of a clinician's time was taken up doing that, rather than
doing the thing that they went into the profession to do, and that was interact with people,
that was to heal, that was to develop human connection that had a healing effect.
And they just, so much of the time was taken away from that activity.
I also looked at it and because I studied a diffusion of innovations theory and understand what causes something to move rapidly across the social system and get
adopted, it has to have a clear relative advantage. It has to be compatible with
the way that processes work. So I didn't see that this was going to be a hugely
disruptive activity to workflow, which is a challenge of most digital tools, is
that they're designed without that sense of how does this impact the workflow.
And then I just thought that it was going to be a front runner in adoption
and it might then start to create that tsunami, that wave of interest in this,
and I don't think I was wrong.
I have to ask you, because I've been asking every guest,
there must have been moments early on in the encounter with generative AI where you felt doubt
or skepticism. Is that true or did you immediately think, wow this is something
very important? No, I did feel doubt and skepticism. My understanding tells me of
it and told me of it in the very beginning that this is trained
on the internet with all of its flaws.
When we think about AI, we think about it being very futuristic, but it's trained on
data from the past.
I'm well aware of how flawed that data, how biased that data is, mostly men, mostly white
men when we think about it during a certain age grouping of. So I knew that we had inherent massive flaws
in the training data, and that concerned me.
I saw other things about it that also concerned me.
I saw that it's some difficulty in beginning to use it
and govern it effectively.
You really do have to put a good governance system in
if you're going to put this into a care delivery system.
And I began to worry about widening a digital divide
that already was a chasm.
And that was between those well-resourced,
usually urban hospitals and health systems
that are serving the well-resourced
and the inner city hospital in Chicago
or the rural hospital in Nebraska
or the Mississippi Community Health Center.
Yes.
So I think this skepticism about technology,
new technologies in healthcare is very well-earned.
So you've zeroed in on this issue of technology
where oftentimes we hope it'll reduce or eliminate biases
but actually seems to oftentimes have the opposite effect.
And maybe this is a good segue then into this really
super important national effort that you're leading
on the AI code of conduct.
Because in a way, I think those failures have past and even just the idea the promise that technology
should make a doctor or nurses job easier not harder even that oftentimes seems not to have
panned out in the way that we hope and then there's of course the well-known issue of hallucinations or of mistakes being made.
How did those things inform this effort around a code of conduct and why a code of conduct?
Those things weighed heavily on me as the initiative leader because I had been deeply
involved in the spread of electronic health records.
Not really knowing and understanding
that electronic health records were going to have
the effect that they had on the providers that used them.
Looking back now, I think that there could have been
design changes, but we probably didn't have as much
involvement of providers in the design.
In some cases we did, we just didn't understand
what it would take to work it
into their workflows.
So we wanted to be sure that the code of conduct
took into consideration and made explicit some of the things
that I believe would have helped us had we
had those guardrails or those guidelines explicit for us.
And those are things like, our first one
is to protect and advance human health and connection.
We also wanted to see things about openly sharing and monitoring because we know that
for this particular technology, it's emergent.
We're going to have to do a much better job at understanding whether what we're doing
works and works in the real world.
So the reason for a code of conduct was,
we knew that the good news when the,
here comes AI and it's barreling toward us,
the good news was that everybody was putting together
guidelines, frameworks, and principle sets.
The bad news was same,
that everybody was putting together
their own guideline, principle, and framework set.
And I thought back to how much I struggled
when I worked in the world of health information exchange
and built a statewide health information exchange
and then turned to try to exchange that data
across the nation and realized that we
had a patchwork of privacy laws and regulations
across the state.
It was extremely costly to try to move data.
And I thought we actually need,
in addition to data interoperability,
we need governance interoperability,
where we can begin to agree on a core set of principles
that will more easily allow us to move ahead
and achieve some of the potential and the vision
that we have for AI if we are
not working with a patchwork of different guidelines, principles and
frameworks. So that was the the impetus behind it. Of course we again wanted to
be used as a touchstone, not everybody wholesale adopt what we've said. We want
people to think about this and think deeply about it. Yeah Laura I always am impressed with just how humble you are. You were indeed you know one of the prime instigators of the
digitization of health records leading to electronic health record systems and
I don't think you need to feel bad about that. That was a tremendous advance. I
mean moving a fifth of the US economy to be digital,
I think, is significant.
Also, our listeners might want to know
that you led something called the Rhode Island Quality
Institute, which was really, I think,
maybe arguably the most important early examples
that set a pattern for how and why health data might actually
lead very directly to improvements in human health at a statewide level or at
a population level. And so I think your struggles and frustrations on you know
how to expand that nationwide I think are really, really informative. So let's get into what these
principles are, you know, what's in the code of conduct.
Yeah, the six simple rules were derived out of a larger set of principles that we pulled together.
And the origin of all of this was we did a fairly extensive landscape review. We looked at least at 60 different sets of these principles, guidelines, and frameworks. We looked for
areas of real convergence. We looked for areas where there was inconsistencies,
and we looked for out-and-out gaps. The out-and-out gaps that we saw at the time
were things like a dearth of references to advancing human health as the
priority.
Also monitoring post implementation.
So at the time we were watching these evolve and we thought these are very significant
gaps.
Also the impact on the environment was a significant gap as well.
And so when we pulled that together, we developed a set of principles and crosswalked those
with learning health system principles. And then once we got that, we again wanted to distill that
down into a set of commitments which we knew that people could find accessible.
And we published that draft set of principles last year and we have a new
publication that will be coming out in the coming months that will be the revised
set of principles and code commitments that we got because we took this out publicly.
So we opened it up for public comment once we did the draft last year.
Again, many of those times that I spoke about this, almost all of those times came with
an invitation for feedback and conversations that we had with people shaped it.
And it is in no way, shape or form a final code of conduct, a set of principles and commitments,
because we see this as dynamic.
But what we also knew about this was that we wanted to build this with a super solid
foundation, a set of immutables, the things that don't change at some vicissitudes or the whims of this or the whims of that. We wanted those things
that were absolutely foundational. Yeah, so we'll provide a link to the documents
that describe the current state of this, but can we give an example of one or two
of these principles and one or two of the commitments? I've mentioned the Protect and Advance Human Health and Connection as the primary aim.
We also want to ensure that the equitable distribution of risks and benefits,
and that equitable distribution of risks and benefits is something that I was referring to earlier about
when I see well-resourced organizations.
And one that's particularly important to me
is engaging people as partners with agency
at every stage of the AI lifecycle.
That one matters because this one talks about
and speaks to the idea that we wanna begin bringing in
those that are affected by AI,
those on whom AI is used into the early development and conceptualization
of what we want this new tool, this new application to do.
So that includes the providers that use it, the patients.
And we find that when we include them,
the ethicists that come along with that,
we develop much better applications,
much more targeted applications
that do what we intend them to do in a more precise way. The other thing about that engaging
with agency, by agency we mean that person, that participant can affect the
decisions and they can affect the outcome. So it isn't that they're sort of
the token person coming into the table and will allow you to tell your story or
so, but this is an active participant.
We practiced what we preached
when we developed the code of conduct
and we brought patient advocates in
to work with us on the development of this,
work with us on our applications,
that first layer down of what the applications
would look like, which is coming out in this new paper.
We really wanted that component of this because I'm also seeing that patients are definitely
not passive users of this and they're having an agency moment, let's say, with generative
AI because they've discovered a new capacity to gain information, to in many ways claim
some autonomy in all of this.
And I think that there is a disruption underway right now, a big one that has been in the
works for many years, but it feels to me like AI may be the tipping point for that disruption
of the delivery system as we know it.
Right.
It's, I think it just exudes sort of inclusivity and thoughtfulness in the whole process.
During this process, were there surprises, things that you didn't expect, things about
AI technology itself that surprised you?
The surprises that came out of this process for me, one of them was I surprised myself. We were working on the commentary paper and
Stephen Lin from Stanford had strong input into that paper. And when we looked at what
we thought were missing, he said, let's make sure we have the environmental impact. And
I said, oh, really, Stephen, we really want to think about things that are more
directly aligned with health, which I couldn't believe came out of my own
mouth. And Stephen, without saying, do you hear yourself? I mean I think he could
have said that, but he was more diplomatic than that and he persisted a
bit longer and said, I think it's actually the greatest threat to human
health. And I said, of course, you're right.
But that was surprising and embarrassing for me.
But it was eye opening in that even when
I thought that I had understood the gaps
and using this as a touchstone.
So the learning that took place and how rapidly that learning
was happening among people involved in this,
the other thing that was surprising for me was the degree at which patients became vastly
facile with using it to the extent that it helped them begin to, again, build their own
capacity.
The hashtag Patients Use AI from Dave DeBronkart.
Watch that one.
This is more revolutionary than we think.
And so I watched that, the swell of that happening,
and it sort of shocked me because I was envisioning this
as again, a tool for use in the clinical setting.
Yes.
Okay, so we're running now towards the end of our time together, and I always like to
end our conversations with a more provocative topic.
And I thought for you, I'd like to use the very difficult word, regulation.
And when I think about the book that Carrie, Zach and I wrote, we have
a chapter on regulation, but honestly, we didn't have ideas. We couldn't understand
how this would be regulated, and so we just defaulted to publishing a conversation about
regulation with GPT-4. And in a way, I think, I don't know that I or my co-authors were satisfied
with that. In your mind, where do we stand two years later now, when we think about the
need or not to regulate AI, particularly in its application to healthcare, and where has
the thinking evolved to?
There are two big differences that I
see in that time that has elapsed.
And the first one is we have understood
the insufficiency of simply making sure
that AI-enabled devices are safe prior to going out
into implementation settings.
We recognize now that there's got
to be this whole other aspect of regulation and assurance that these
things are functioning as intended and we have the capacity to do that in the point
of care type of setting.
So that's been one of the major ones.
The other thing is how wickedly challenging it is to regulate generative AI.
I think one of the most provocative and exciting
articles that I saw written recently
was by Bakul Patel and David Blumenthal, who posited,
should we be regulating generative AI as we
do a licensed and qualified provider?
Should it be treated in the sense
that it's got to have a certain amount of training
and a foundation that's got to pass certain tests.
It has to demonstrate that it's um, it's improving and keeping up with current literature.
Does it be responsible for mistakes that it makes in some way shape or form? Does it have to report its performance?
And I'm thinking what a provocative idea, but it's worth considering. I chair the Global Opportunities Group for a
regulatory and innovation AI sandbox in the UK, and we're hard at work thinking about how do you regulate something
as unfamiliar and untamed really as generative AI. So I'd like to see us think more about
this idea of sandboxes,
more this idea of should we be just completely rethinking
the way that we regulate?
To me, that's where the new ideas will come.
Because the danger, of course, in regulating in the old way,
first of all, we haven't kept up over time,
even with predictive AI, even with pre-generative AI,
we haven't kept up.
And what worries me about continuing on in that same vein is that we will stifle innovation
and we won't protect from potential harms.
Nobody wants an AI Chernobyl, nobody.
But I worry that if we use those old tools on the new applications that we will not
regulate, then we'll stifle innovation.
And when I see all of the promise coming out
of this for things that we thought were unimaginable,
then that would be a tragedy.
I think the other reflection I've had on this
is the consumer aspect of it.
Because I think a lot of our current regulatory frameworks
are geared towards experts using the technology.
So when you have a medical device,
you know you have a trained, board-certified doctor
or licensed nurse using the technology.
But when you're putting things in the hands of a consumer, I think somehow the surface area of risk seems wider to me.
And so I think that's another thing that somehow our current regulatory concepts aren't really ready for. I would agree with that and the I think a
few things to consider vis-a-vis that is that this revolution of patients using
it is unstoppable so it will happen but I we're considering a project here at
the National Academy about patients using AI and thinking about let's
explore all the different facets of that. Let's understand
what does safe usage look like? What would we might we do to help this new development
enhance the patient-provider relationship and not erode it as we saw, don't confuse your Google
search with my medical degree type of approach. Thinking about how does it change the identity of the provider?
How does it, what can we do to safely build a container in which patients can
use this without giving them the sense that it's being taken away or that
because I just don't, I don't see that happening. I don't think they're going
to let it happen. That to me feels extremely important for us to explore
all the dimensions of that and that is one project that I hope
to be following on to the AI code of conduct
and applying the code of conduct principles with that project.
Well, Laura, thank you again for joining us.
And thank you even more for your tremendous national, even
international leadership on really helping mobilize the greatest institutions
in a diverse way to fully confront
the realities of AI and healthcare.
I think it's tremendously important work.
Peter, thank you for having me.
This has been an absolute pleasure. I've had the opportunity to watch Laura in action as she leads a national effort to define
an AI code of conduct.
And our conversation today has only heightened my admiration for her as a national leader.
What impresses me is Laura's recognition
that technology adoption in healthcare has had a checkered history and furthermore oftentimes
not accommodated the huge diversity of stakeholders that are affected equally.
The concept of an AI code of conduct seems straightforward in some ways, but you can tell
that every word in the emerging code has been chosen carefully. And Laura's tireless engagement, traveling to virtually every corner
of the United States as well as to several other countries, shows real dedication.
And now here's my conversation with Vardit Rovetsky.
with Vardit Rovetsky. Vardit, thank you so much for joining. It's a real pleasure, I'm honored that you invited me. You know, we've been lucky. We've had a few chances to interact
and work together within the National Academy of Medicine and so on. But I think for many of the normal subscribers to the Microsoft Research Podcast, they might
not know what the Hastings Center for Bioethics is and then what you, as the leader of Hastings
Center, do every day.
So I'd like to start there first off with what is the Hastings Center?
Mostly we're a research center. We've been around for more than 55 years and
we're considered one of the organizations that actually founded the
field known today as bioethics, which is the field that explores the policy
implications, the ethical social issues in biomedicine.
So we look at how biotechnology is rolled out, we look at issues of equity, of access
to care, we look at issues at the end of life, the beginning of life, how our natural environment
impacts our health, any aspect of the delivery of healthcare, the design of the delivery of health care,
the design of the health care system
and biomedical research leading to all this,
any aspect that has an ethical implication
is something that we're happy to explore.
We try to have broad conversations
with many, many stakeholders,
people from different disciplines
in order to come up with guidelines and recommendations
that would actually help patients, families, communities.
We also have an editorial department.
We publish academic journals.
We publish a blog.
And we do a lot of public engagement activities, webinars,
in-person events.
So we just try to promote the thinking of the public
and of experts on the ethical aspects of health and healthcare.
One thing I've been impressed with with your work and the work of the Hissing Center is
it really confronts big questions but also gets into a lot of practical detail and so
we'll get there. But before that, just a little bit about you then. The way I like to ask
this question is how do you explain to your parents what you do
every day?
Funny that you brought my parents into this, Peter, because I come from a family of philosophers.
Everybody in my family is in humanities, in academia.
When I was 18, I thought that that was the only profession and that I absolutely had
to become a philosopher or else what else can you do with your life?
I think being a bioethicist is really about, on one hand, keeping an eye constantly on
the science as it evolves.
When a new scientific development occurs, you have to understand what's happening so
that you can translate that outside of science.
So if we can now make a gamete from a skin cell so that babies will be created differently,
you have to understand how that's done, what that means, and how to talk about it.
The second eye you keep on the ethics literature. What ethical frameworks,
theories, principles have we developed over the last decades that are now relevant to this
technology? So you're really a bridge between science, biomedicine on one hand and humanities
on the other hand. Okay, so let's shift to AI.
And here, I'd like to start with kind of an origin story.
Because I'm assuming before generative AI and chat GPT
became widely known and available,
you must have had some contact with ideas in data science,
in machine learning,
and in the concept of AI before CHAT GPT.
Is that true?
And what were some of those early encounters like for you?
The earlier issues that I heard people talk about in the field
were really around diagnostics
and reading images and ooh it looks like machines could perform better than
radiologists and oh what if women preferred that their mammographies be read
by these algorithms and does that threaten us clinicians because it's sort of
highlights our limitations and weaknesses as you know the weakness of
the human eye and the human brain. So there were early concerns about will
this outperform the human and potentially take away our jobs? Will it impact our authority with patients?
What about de-skilling clinicians or radiologists or any type of diagnostician losing the ability,
some abilities that they've had historically because machines take over? So those were the
early day reflections and interestingly some of them remain even now with generative AI.
All those issues of the standing of a clinician and what sets us apart and will a machine ever be
able to perform completely autonomously and what about empathy and what about relationships.
Much of that translated later on into the more advanced technology. I find it interesting that you use words like our and we to implicitly refer to humans,
homo sapiens, to human beings.
And so do you see a fundamental distinction, a hard distinction that separates humans from
machines? Or, you know, how, if there are replacements of some human
capabilities, or some things that human beings do by machines, how do you think about that?
Ooh, you're really pushing hard on the philosopher in me here. I've read books and heard lectures by those who think that the line is blurred and I don't buy that.
I think there's a clear line between human and machine.
I think the issue of AGI of artificial general intelligence and will that amount to consciousness? Again, it's such a profound, deep philosophical
challenge that I think it would take a lot of conceptual work to get there. So how do
we define consciousness? How do we define morality? The way it stands now, I look into
the future without being a technologist, without
being an AI developer, and I think, maybe I hope, that the line will remain clear, that
there's something about humanity that is irreplaceable.
But I'm also remembering that Immanuel Kant, the famous German philosopher, when he talked about what it means to be a part of the moral
universe, what it means to be a moral agent, he talked about rationality and the ability to
implement what he called the categorical imperative, and he said that would apply to any creature,
not just humans. And that's so interesting. It's always fascinated me that so many centuries ago
he said such a progressive thing. That's amazing. Yeah, it is amazing because I often as an
ethicist, I don't just ask myself what makes us human. I ask myself what makes us worthy of
I ask myself, what makes us worthy of moral respect?
What makes us holders of rights? What gives us special status in the universe
that others creatures don't have?
And I know this has been challenged by people
like Peter Singer who say some animals
should have the same respect.
And what about fetuses and what about people in a coma? I know the
landscape is very fraught. But the notion of what makes humans deserving of special
moral treatment, to me, is the core question of ethics. And if we think that it's some
capacities that give us this respect, that make us hold that status, then maybe it goes beyond human.
So it doesn't mean that the machine is human, but maybe at certain point these machines
will deserve a certain type of moral respect that it's hard for us right now to think
of a machine as deserving that respect, that
I can see. But completely collapsing the distinction between human and machine, I don't think so
and I hope not.
Yeah. Well, you know, in a way, I think it's easier to entertain this type of conversation conversation post-Chat GPT. And so now, what was your first personal encounter with what we now call generative AI, and what
went through your mind as you had that first encounter?
No one's ever asked me this before, Peter.
It almost feels exposing to share your first
encounter. So I just logged on and I asked a simple question but it was an
ethical question. I framed an ethical dilemma because I thought if I asked it
to plan a trip like all my friends already did. It's less interesting to me. And within seconds,
a pretty thoughtful, surprisingly nuanced analysis was kind of trickling down my screen
and I was shocked. I was really taken aback. I was almost sad because I think my whole life I was hoping that only humans can generate this
kind of thinking in using moral and ethical terms. And then I started tweaking my question and I asked
for specific philosophical approaches to this and it just kept surprising me in how well it performed.
So I literally had to catch my breath and sit down and go,
okay, this is a new world, something very important
and potentially scary is happening here.
How is this gonna impact my teaching?
How is this gonna impact my writing?
How is this gonna impact health?
It was really a moment of shock. I think the first time I had the privilege
of meeting you, I heard you speak and share some of your initial framing of how, you know,
how to think about the potential ethical implications of AI and the human impacts of AI in the future,
keeping in mind that people listening to this podcast
will tend to be technologists and computer scientists,
as well as some medical educators
and practicing clinicians.
What would you like them to know or understand most
about your thoughts?
I think from early on, Peter, I've been an advocate in favor of bioethics as a field,
positioning itself to be a facilitator of implementing AI.
I think on one hand, if we remain the naysayers as we have been regarding other technologies,
we will become irrelevant because it's happening,
it's happening fast, we have to keep our eye on the ball
and not ask, should we do it,
but rather ask, how should we do it?
And one of the reasons that bioethics
is going to be such a critical player
is that the stakes are so high.
The risk of making a mistake
in diagnostics is literally life and death. The risk of breaches of privacy that would
lead to patients losing trust and refusing to use these tools. The risk of clinicians
feeling overwhelmed and replaceable,
the risks are just too high.
And therefore, creating guardrails,
creating frameworks with principles
that sensitize us to the ethical aspects, that
is critically important for AI and health to succeed.
And I'm saying it as someone who wants it very badly
to succeed.
You are actually seeing a lot of health care organizations
adopting and deploying AI.
Has any aspect of that been surprising to you?
Have you expected it to be happening faster or slower
or unfolding in a different way?
One thing that surprises me is how
it seems to be isolated.
Different systems, different institutions One thing that surprises me is how it seems to be isolated.
Different systems, different institutions making their own decisions about what to acquire
and how to implement.
I'm not seeing consistency and I'm not even seeing anybody at a higher level collecting
all the information about who's buying and implementing what, under what types of principles
and what are their outcomes?
What are they seeing?
It seems to be just siloed and happening everywhere.
And I wish we collected all this data,
even about how the decision is made at the executive level
to buy a certain tool to implement it,
where, why, by whom.
So that's one thing that surprised me.
The speed is not surprising me because it really solves
problems that healthcare systems have been struggling with.
What seems to be one of the more popular uses,
and again, you know this better than I do,
is the help with scribes with taking notes,
ambient recording. This seems to be really desired because of burnout that clinicians
face around this whole issue of note taking. And it's also seen as a way to allow clinicians
to do more human interaction, you know, look at the patient, talk to the patient, listen, rather than focus on the screen.
We've all sat across the desk with a doctor that never looks at us because they look at the screen.
So there's a real problem here and there's a real solution and therefore it's hitting the ground quickly.
hitting the ground quickly. But what's surprising to me is how many places
don't think that it's their responsibility
to inform patients that this is happening.
So some places do, some places don't.
And to me, this is a fundamental ethical issue
of patient autonomy and empowerment.
And it's also pragmatically the fear of a crisis of trust.
People don't like being recorded without their consent, surprise, surprise. People worry about
such a recording of a very private conversation that they consider to be confidential, such a
recording ending up in the wrong hands or being shared externally
or going to a commercial entity.
People care, patients care.
So what is our ethical responsibility to tell them?
And what is the institutional responsibility to implement these wonderful tools?
I'm not against them, I'm totally in favor.
Implement these great tools in a way that respects longstanding ethical principles of informed consent,
transparency, accountability for change in practice.
And bottom line, patients' right to know
what's happening in their care.
You actually recently had a paper in the medical journal
that touched on an aspect of this,
which I think was not with scribes, but with notes that doctors would send to patients.
And in fact, in previous episodes of this podcast, we actually talked to both the technology developers of that type of feature, as well as
doctors who were using that feature. And in fact, even in
those previous conversations, there was the question, well,
what does the patient need to know about how this note was put
together? So you and your co-authors had a very interesting
recent paper about this.
So the trigger for the paper
was that patients seemed to really like
being able to send electronic messages to clinicians.
We email and text all day long, why not in health?
People are used to communicating in that way.
It's efficient.
It's fast.
So we asked ourselves, wait, what if an AI
tool writes the response? Because again, this is a huge burden on clinicians, and it's a real issue
of burnout. We surveyed hundreds of respondents. And basically, what we discovered is that there
was a statistically significant difference in their level of satisfaction
when they got an answer from a human clinician,
when they got an answer, again electronic message from AI.
And it turns out that they preferred the messages written by AI.
They were longer, more detailed,
even conveyed more empathy. You know, AI has all the time in the world
to write you a text. It's not rushing to the next one. But then when we disclosed who wrote the
message, they were less satisfied when they were told it was AI. So the ethical question that that raises is the following. If your
only metric is patient satisfaction, the solution is to respond using AI, but not tell them
that. Now, when we compared telling them that it was AI or human or not telling them anything, their satisfaction remained high,
which means that if they were not told anything, they probably assumed that it was a human clinician
writing because their satisfaction for human clinician or no disclosure was the same.
So basically, if we say nothing and just send back an AI-generated response, they will be more satisfied because
the response is nicer, but they won't be put off by the fact that it was written by
AI and therefore, hey presto, optimal satisfaction.
But we challenge that and we say it's not just about satisfaction.
It's about long-term trust.
It's about your right to know. It's about
empowering you to make decisions about how you want to communicate. So we push
back against this notion that we're just there to optimize patient
satisfaction and we bring in broader ethical considerations that say, no,
patients need to know. If it's not the norm yet to get your message from AI, they
should know that this is happening.
And I think, Peter, that maybe we're in a transition period.
It could be that in two years, maybe less than that, most of our communication will
come back from AI and we will just take it for granted that that's the case.
And at that point, maybe disclosure is not necessary
because many, many surveys will show us
that patients assume that, and therefore they are informed.
But at this point in time, when it's transition
and it's not the norm yet, I firmly think that ethics
requires that we inform patients.
Let me push on this a little bit
because I think this final point that you just made is
I think is so interesting.
Does it matter what kind of information
is coming from human or AI?
Is there a time when patients will have different expectations
for different types of information from their doctors?
I think, Peter, that you're asking the right question because it's more nuanced.
And these are the kinds of empirical questions that we will be exploring in the coming months
and years.
Our recent paper showed that there was no difference regarding the content.
If the message was about what we call the serious matter or a less serious matter, the preferences were the same. But we
didn't go deep enough into that. That would require a different type of
design of study and you just said you know there are different types of
information. We need to categorize them. Yes. What types of information and what degree of impact on your life? Is it a
life and death piece of information? Is it a quality of life piece of
information? How central is it to your care and to your thinking? So all of that
would have to be mapped out so that we can design these studies. But you know,
you pushed back in that way and I want to push back in a different direction that to me is more fundamental
and philosophical. How much do we know now? You know I keep saying oh patients
deserve a chance for informed consent and they need to be empowered to make
decisions and if they don't want that tool used in their care,
then they should be able to say, no.
Really?
Is that the world we live in now?
Do I have access to the black box
that is my doctor's brain?
Do I know how they performed on this procedure
in the last year?
Do I know whether they're tired?
Do I know if they're up to speed on the literature
with this? We already deal with black boxes, except they're not AI. And I think the evidence
emerges that AI outperforms the humans in so many of these tasks. So my pushback is,
are we seeing AI exceptionalism in the sense that if it's AI, panic, we have
to inform everybody about everything and we have to give them choices and they have to
be able to reject that tool and the other tool versus, you know, the rate of human error
in medicine is awful.
People don't know the numbers.
The annual deaths attributed to medical error is awful. People don't know the numbers. The annual deaths attributed to medical
error is outrageous. So why are we so focused on informed consent and
empowerment regarding implementation of AI and less in other contexts? Is it just
because it's new? Is it because it is some sort of existential threat? Not just a matter of risk?
I don't know the answer, but I don't want us to suffer from AI exceptionalism, and I don't want
us to hold AI to such a high standard that we won't be able to benefit from it, whereas again,
we're dealing with black boxes already in medicine. Just to stay on this topic though, one more question,
which is maybe almost silly in how hypothetical it is.
If instead of email, it were a Teams call or a Zoom call,
doctor and patient, except that the doctor is not
the real doctor, but it's a perfect replica of the doctor designed to
basically fool the patient that this is the real human being and having that interaction.
Does that change the bioethical considerations at all?
I think it does because it's always a question of are we really misleading?
Now if you get a text message in an environment that you know people know
AI is already integrated to some extent, maybe not your grandmother but the
younger generation is aware of this implementation, then maybe you can say
it was implied, I didn't mean to mislead the patient.
If the patient thinks they're talking to a clinician
and they're seeing like, what if it's not you now, Peter?
What if I'm talking to an avatar
or some representation of you?
Would I feel that I was misled in recording this podcast?
Yeah, I would.
Because you really gave me good reasons to assume
that it was you. So it's something deeper about trust, I think, and it touches on
the notion of empathy. A lot of literature is being developed now on the
issue of what will remain the purview of the human clinician. What are humans
good for when AI is so
successful and especially in medicine? And if we see that the text messages are
read as conveying more empathy and more care and more attention, and if we then
move to a visual representation, facial expressions that convey more empathy. We really need to take a hard look at what we mean by care.
What about then the robots, right?
That we can touch, that can hug us.
I think we're really pushing the frontier
of what we mean by human interaction,
human connectedness, care and empathy.
This will be a lot of material for
philosophers to ask themselves the fundamental question.
You asked me at first, what does it mean to be human?
But this time, what does it mean to be two humans together,
and to have a connection?
If we can really be replaced in the sense that patients will feel more satisfied,
more heard, more cared for. Do
we have ethical grounds for resisting that, and if so, why? You're really going
deep here into the conceptual questions, but bioethics is already looking at that.
Vardy, it's just always amazing to talk to you. The incredible span of what you think about from those fundamental philosophical questions
all the way to the actual nitty gritty, like, you know, what parts of an email from a doctor
to a patient should be marked as AI.
I think that span is just incredible and incredibly needed and useful today.
So thank you for all that you do.
Thank you so much that you do.
Thank you so much for inviting me.
The field of bioethics, and this is my take,
is all about the adoption of disruptive new technologies
into biomedical research and healthcare.
And Fardid is able to explain this with such clarity.
I think one of the reasons that AI has been challenging
for many people is that its use spans the gamut
from the nuts and bolts of how in one to disclose
to patients that AI is being used to craft an email,
all the way to what does it mean to be a human being caring for
another human.
What I learned from the conversation with Vardis is that bioethicists are confronting
head on the issue of AI in medicine, and not with an eye towards restricting it, but recognizing
that the technology is real, it's arrived, and needs to be harnessed now for maximum
benefit. So now, here's my conversation with Dr. Roxana Dineshu.
Roxana, I'm just thrilled to have this chance to chat with you.
Thank you so much for having me on today.
I'm looking forward to our conversation.
In Microsoft Research, of course,
we think about healthcare and biomedicine a lot,
but I think there's less of an understanding from our audience what people actually do in their day
to day work. And of course, you have such a broad background, both on the science side with a PhD
and on the medical side. So what's
your typical work week like? I spent basically 90% of my time working on
running my research lab and doing research on how AI interacts with
medicine, how we can implement it to fix the pain points in medicine and how
we can do that in a fair and responsible way. And 10% of my time I am in clinic. So
I am a practicing dermatologist at Stanford and I see patients half a day a
week. And your background, it's very interesting.
There's always been these MD-PhDs in the world, but somehow, especially right now what's happening
in AI, people like you have become suddenly extremely important because it suddenly has
become so important to be able to combine these two things.
Did you have any inkling about that when you started, let's say, on your PhD work?
So I would say that during my... because I was in training for so long.
During my PhD was in computational genomics.
I still have a significant interest in precision medicine and I
think AI is going to be central to that but I think the reason I became
interested in AI initially is that I was thinking about how we associate genetic
factors with patient phenotypes. Patient phenotypes being how does the disease
present? What does the disease look like? And I thought, you know, AI might be a good way to
standardize phenotypes from images of, say, skin disease because I was interested in dermatology at that time. And you know the part about phenotyping disease was a huge bottleneck because
you know you would have humans sort of doing the phenotyping. And so in my head
when I was getting into this space I was thinking I'll bring together you know
computer vision and genetics to try to make new discoveries about how genetics
impacts human disease.
And then when I actually started my postdoc to learn computer vision, I went down this
very huge rabbit hole, which I am still, I guess, falling down where I realized, you know,
about biases in computer vision and how much work needed to be done for generalizability.
And then after that, large language models came out and like everybody else became incredibly
interested in how this could help in healthcare and now also vision language models and multimodal models.
So, you know, we're just tumbling down the rabbit hole.
Indeed, I think you really made a name for yourself by looking at the issues of biases,
for example, in training data sets. And that was well before large language models were a thing.
Maybe our audience would like to hear a little bit more about that earlier work.
So as I mentioned, my PhD was in computational genetics.
In genetics, what has happened during the genetic revolution is these large-scale studies to discover how
genetic variation impacts human disease and human response to medication.
So that's what pharmacogenomics is, is human response to medications.
And as I got, you know, entrenched in that world, I came to realize that I wasn't really represented in the
data. And it was because the majority of these genetic studies were on European ancestry
individuals. You weren't represented either. Many diverse global populations were completely excluded from these studies
and genetic variation is quite diverse across the globe and so you're leaving
out a large portion of genetic variation from these research studies. Now things
have improved, it still needs work in genetics, but definitely there has been many amazing researchers sounding
the alarm in that space.
And so during my PhD, I actually focused on doing studies of pharmacogenomics in non-European
ancestry populations. So when I came to computer vision
and in particular dermatology,
where there were a lot of papers being published
about how AI models perform at diagnosing skin disease,
and several papers essentially saying,
oh, it's equivalent to a dermatologist.
Of course, that's not completely true because it's a very sort of contrived setting of
diagnosis.
But my first inkling was, well, are these models going to be able to perform well across
skin tones?
One of our landmark papers,
which was in Science Advances,
showed we created a diverse dataset,
our own diverse benchmark of skin disease and showed that
the models performed significantly worse on
brown and black skin. And I think the key here is we also showed that it was an
addressable problem because when we fine-tuned on diverse skin tones you
could make that bias go away. So it was really in this case about what data was
going into the training of these computer vision models.
Yeah, and I think if you're listening to this conversation, if you haven't read that paper,
I think it's really must reading.
It was not only Roxanne,
it wasn't only just a landmark scientifically and medically,
but it also sort of crossed the chasm
and really became a subject of public discourse and debate as well.
And I think you really changed the public discourse around AI.
So now I want to get into generative AI.
I always like to ask, what was your first encounter with generative AI personally and what went through your head?
What was that experience like for you?
Yeah, I mean, I actually tell this story a lot because I think it's a fun story.
So I would say that I had played with GPT-3 prior and wasn't particularly, you know, impressed by how it was doing.
And I was at NURPS in New Orleans and I was, we were walking back from a dinner.
I was with Andrew Beam from Harvard.
I was with his group and we were just sort of, you know, walking along enjoying the sights
of New Orleans, chatting,
and one of his students said,
hey, OpenAI just released this thing called Chat GPT.
You have to-
So this would be New Orleans in December-
2022, yeah.
Yes, uh-huh, okay.
So I went back to my hotel room.
I was very tired, but I, you know, went to the website to see, okay, like, what is this
thing?
And I started to ask medical questions, and I started all of a sudden thinking, uh-oh,
we have made a leap here. Something has changed.
So it must have been very intense for you from then because months later
you had another incredibly impactful or landmark paper basically looking at biases, race-based medicine
in large language models. So can you say more about that?
Yes, I work with a very diverse team and we have thought about bias in medicine
not just with technology but also with humans. Humans have biases too and
there's this whole debate around is the
technology going to be more biased than the humans? How do we do that? But at the same time,
like the technology actually encodes the biases of humans. And there was a paper in the Proceedings
of the National Academy of Sciences, which did not look at technology
at all, but actually looked at the race-based biases of medical trainees that were untrue
and harmful in that they perpetuated racist beliefs.
And so we thought, if medical trainees and humans have these biases, why don't we see if the models
carry them forward? And we added a few more questions that we sort of brainstormed as a team,
and we started asking the models those questions. And by this time, it was GPT-4? We did include GPT-4 because GPT-4 came out as well. And we also included
other models as well such as CLAWD because we wanted to look across the board. And what we
found is that all of the models had instances of perpetuating race-based medicine and actually the GPT models had one of the
most I think one of the most egregious responses and again this is 3.5 and 4
we haven't you know fully checked to see what things look like because there's
been newer models in that they said that we should use race in calculating kidney
function because there were differences in muscle mass between the races and said that we should use race in calculating kidney function
because there were differences in muscle mass
between the races.
And this is sort of a racist trope in medicine
that is not true because race is not based on biology.
It's a social construct.
So yeah, that was that study.
And that one did spur a lot of public conversation.
Yeah, your work there even had the issue of bias
overtake hallucination, you know,
as really the most central and most difficult issue.
So how do you think about bias in LLMs?
And does that in your mind disqualify the use
of large language models from particular uses in medicine?
Yeah, I think that the hallucinations are an issue too.
And in some senses, they might even go with one another, right?
Like if it's hallucinating information, that's not true true but also like biased. So I think these
are issues that we have to address with the use of LLMs in health care but at
the same time things are moving very fast in this space. I mean we have a
secure instance of several large language models within our health care
system at Stanford
so that you could actually put
secure patient information in there.
So while I acknowledge that bias and hallucinations
are a huge issue,
I also acknowledge that the healthcare system
is quite broken and needs to be improved,
needs to be streamlined, physicians are burned out,
patients are not getting access to care in the appropriate ways, and I have a
really great story about that which I can share with you later. So in 2024 we
did a study asking dermatologists are they using large-language models in
their clinical practice, and I think this percentage has probably gone up since then.
65% of dermatologists reported using large language models
in their practices on tasks such as writing,
writing insurance authorization letters,
you know, writing information sheets for the patients,
even sort of using them to educate themselves,
which makes me a little nervous because in my mind,
the best use of large language models right now
are cases where you can verify facts easily.
So for example, I did show and teach my nurse how to use our secure large language model
in our healthcare system to write rebuttal letters to the insurance.
I told her, hey, you put in these bullet points that you want to make and you ask it to write the letter and you can verify that the letter contains the facts
which you want and which are true.
Yes.
And we have also done a lot of work to try to stress test models because we want them
to be better. And so we held this red teaming event at Stanford where we brought together 80 physicians,
computer scientists, engineers, and had them
write scenarios and real questions that they might ask on a day-to-day,
or tasks that they might actually ask AI to do.
And then we had them grade the performance.
And we did this with the GPT models.
At the time we were doing it with GPT 3.54
and four with internet.
But before the paper came out,
we then ran the data set on newer models.
And we made the data set public because I'm a big believer in public data. So we made the data set on newer models. And we made the data set public, because I'm
a big believer in public data.
So we made the data set public so that others
could use this data set.
And we labeled what the issues were in the responses,
whether it was bias, hallucination,
like a privacy issue, those sort of things.
If I think about the hits or misses in our book,
we actually wrote a little bit, not too much,
about noticing biases. I think we underestimated the magnitude of the issue in our book. And
another element that we wrote about in our book is that we noticed that the language model,
if presented with some biased decision-making, more often than not was able to spot
that the decision-making was possibly
being influenced by some bias.
What do you make of that?
So funny enough, I think we had a,
before I moved from Twitter to Blue Sky,
but we had a little back and forth on Twitter about this,
which actually inspired us to look into this as a research.
We have a preprint up on it of actually using other large language models to identify bias
and then to write critiques that the original model can incorporate and
improve its answer upon.
I mean, we're moving towards this sort of agentic systems framework rather than a singular
large language model.
And people of course are talking about also retrieval augmented generation, where you sort of have this corpus of, you
know, text that you trust and find trustworthy and have that incorporated into the response
of the model. And so you could build systems, essentially, where you do have other models
saying, hey, specifically look for bias, and then it will sort of focus on that task.
And you can even give it examples
of what bias is within context learning now.
So I do think that we are going to be improving in this space.
And actually, my team is most recently
we're working on building patient facing chat box.
That's where my like patient story comes in,
but we're building in patient facing chat box.
We're using prompt engineering tools,
we're using automated eval tools,
we're building all of these things to try to make it more accurate and less biased.
So it's not just like one LLM spitting out an answer.
It's a whole system.
All right, so let's get to your patient facing story.
Oh, of course.
Over the summer, my six year old
fell off the monkey bars and broke her arm.
And I picked her up from school.
She's crying so badly.
And I just look at her and I know that we're in trouble.
And I said, okay, you know,
we're going straight to the emergency room.
And we went straight to the emergency room.
She's crying the whole time.
I'm almost crying because it's just like,
she doesn't even wanna go into the hospital.
And so then my husband shows up and we also had the baby and the baby wasn't allowed in
the emergency room.
So I had to step out.
And I'm thanks to the Cures Act, I'm getting like all the information, you know, as it's
happening like I'm getting the x-ray results and I'm looking at it and I can tell
there's a fracture, but I can't, you know, tell like how bad it is, like is this something that's
going to need surgery, and I'm desperately texting like all the orthopedic folks I know, the
pediatricians I know, hey what does this this mean? Like getting real time information.
And later in the process, there was a mistake
in her after visit summary about how much Tylenol she could take, but I as a physician knew
that this dose was a mistake.
I actually asked CHAT GPT, I gave it the whole
after visit summary and I said, are there any mistakes here? this dose was a mistake. I actually asked chat GPT, I gave it the whole after
visit summary and I said, are there any mistakes here? And it clued in that the
dose of the medication was wrong. So again, I as a physician with all these
resources have difficulty kind of navigating the healthcare system,
understanding what's going
on in x-rays results that are showing up you know on my phone, can personally
identify medication dose mistakes but you know most people probably couldn't
and and it could be very... I actually you know emailed the team and let them know
to give feedback but so so we have a healthcare system
that is broken in so many ways
and it's so difficult to navigate.
So I get it.
And so that's been a big impetus for me
to work in this space and try to make things better.
That's an incredible story.
It's also validating because one of the examples in our book
was the use of an LLM to spot a medication error
that a doctor or a nurse might make.
Interestingly, we're finding no formalized use of AI right now in the field. But anecdotes
like this are everywhere, so it's very interesting. All right, so we're starting to run short
on time, so I want to ask you a few quick questions. And a couple of them might be a
little provocative.
Oh, boy. Well, I don't run away from controversy. So of course with
that story you just told I can see that you use AI yourself. When you are actually in
clinic, when you are being a dermatologist and seeing patients, are you using alternative AI?
So I do not use it in clinic except for the situation
of the insurance authorization letters.
And even I was offered, you know,
sort of an AI based scribe, which many people are using.
There have been some studies that show
that they can make mistakes.
I'm still, I have a human scribe. To me, writing the notes is actually part of the thinking process.
So when I write my notes at the end of the day, there have been times that I've all
of a sudden had an epiphany, particularly on a complex case. But I have used it to write, you know, sort of these insurance authorization letters.
I've also used it in grant writing.
So as a scientist, I have used it a lot more.
Right.
So I don't know of anyone who has a more nuanced
and deeper understanding of the issues of biases in AI
in medicine than you.
Do you think this biases can be repaired in AI?
And in, if not, what are the implications?
So I think there are several things here,
and I just wanna be thoughtful about it.
One, I think the bias in the technology
comes from bias in the system and bias in medicine, which
very much exists and is incredibly problematic. And so I always tell people, like, it doesn't
matter if you have the most perfect, fair AI. If you have a biased human and you add those together
because you're going to have this human AI interaction, you're still going to have a problem. There is a paper that I'm on with Dr.
Matt Groh which looked at looking at
dermatology diagnosis across skin tones,
and then with AI assistance.
We found there's a bias gap with even physicians.
It's not just an AI problem,
humans have the problem too.
And we also looked at when you have the human AI system,
how that impacts the gap,
because you wanna see the gap close.
And it was kind of a mixed results
in the sense that there was actually situations
where like the accuracy increased in both groups,
but the gap actually also increased because they were
actually, even though they knew it was a fair AI, for some reason they were relying upon the AI more
often when, or they were trusting it more often on diagnoses on white skin. Maybe they'd read my
papers, who knows? Even though we had told them, you know,
it was a fair model.
So I think for me, the important thing is
understanding how the AI model works
with the physician at the task.
And what I would like to see
is it improve
the overall bias and disparities with that unit.
And at the same time I tell human physicians,
we have to work on ourselves.
We have to work on our system,
our medical system that has systemic issues
of access to care or how patients get treated
based on what they might look like or other parts of
their background? All right, final question. So, you know, we started off with your stories about
imaging in dermatology and of course, Jeff Hinton, Turing winner and one of the grandfathers of
the AI revolution famously had predicted many years ago that by 2018
or something like that, we wouldn't need human radiologists because of AI. That hasn't
come to pass. But since you work in a field that also is very dependent on imaging technologies,
do you see a future when radiologists,
or for that matter, dermatologists,
might be largely replaced by machines?
I think that's a complex question.
Let's say you have the most perfect AI systems.
I think there's still a lot of nuance
in how these things get done.
I'm not a radiologist,
so I don't want to speak to what happens in radiology, but in dermatology,
it ends up being quite complex, the process.
I don't just look at lesions and make diagnoses.
I do skin exams to first identify the lesions of concern.
So maybe if we had total body photography that could help
like catch which lesions would be of concern, which people have worked on, that would be step,
sort of step one. And then the second thing is, you know, it's, I have to do the biopsy. So,
you know, is the robots not going to be doing the biopsy. And then the pathology for skin cancer
is sometimes very clear,
but there's also like intermediate type lesions
where we have to make a decision,
bringing all that information together
for rashes that can be quite complex.
And then we have to kind of think about
what other tests we're gonna order,
what therapeutics we might try first, that sort of stuff.
So, you know,
there is a thought that you might have AI that could reason through all of those steps, maybe,
but I just don't feel like we're anywhere close to that at all. I think the other thing is
AI does a lot better on sort of, you know, tasks that are well defined. And a lot of things in medicine,
like it would be hard to train the model on because it's not well defined. Even human
physicians would disagree on the next best step. Well, Roxanne, for whatever it's worth, I can't
even begin to imagine anything replacing you. I think your work has been just so,
imagine anything replacing you. I think your work has been just so, I think use the word and I agree with it, landmark and multiple times. So thank you for all that you're doing
and thank you so much for joining this podcast.
Thanks for having me. This was very fun.
The issue of bias in AI has been the subject of truly landmark work by Roxana and her collaborators,
and this includes biases in large language models.
This was something that in our writing of the book, Kerry, Zach, and I recognized and
wrote about.
But in fairness, I don't think Kerry, Zach, or I really understood the full implications
of it.
And this is where Roxana's work has been so illuminating and important.
Roxanna's practical prescriptions around RIN teaming
have proven to be important in practice.
And equally important were Roxanna's insights
into how AI might always be guilty of the same biases,
not only of individuals,
but also of whole healthcare organizations.
But at the same time, AI might also be a potentially powerful tool to detect and help mitigate against such biases.
When I think about the book that Carrie, Zach, and I wrote, I think when we talked about laws, norms, ethics, regulations, it's the place that we struggled the most.
And in fact, we actually relied on a conversation with GPT-4 in order to tease out some of the core issues.
Well, moving on from that conversation with an AI to a conversation with three deep experts
who have dedicated their careers to making sure that we can harness all of the goodness
while mitigating against the risks of AI.
It's been both fulfilling, very interesting,
and a great learning experience.
I'd like to say thank you again to Laura, Vardit, and Roxana
I'd like to say thank you again to Laura, Vardit and Roxana for sharing their stories and insights.
And to our listeners, thank you for joining us.
We have some really great conversations planned for the coming episodes, including an examination
on the broader economic impact of AI and health, and a discussion on AI drug discovery.
We hope you'll continue to tune in.
Until next time.