5 takeaways from the FDA’s list of AI-enabled medical devices


Health & Care Transformation (HCT)
Management Institute


Joaquim Cardoso MSc*
Chief Strategy Officer, Researcher and Editor
November 9, 2022

*MSc from London Business School — MIT Sloan Masters Program

Source: MedTechDive


Executive Summary:


  • As medical devices that use artificial intelligence and machine learning appear in more hospitals and imaging labs across the U.S., new data from the Food and Drug Administration show the agency has been fielding more submissions.
  •  
  • In 2022 alone, the FDA authorized 91 AI- or machine-learning-enabled medical devices, according to data released on Oct. 5. 

  • This broad category of devices can include anything from a basic algorithm to more complex machine learning tools, 

  • and Tel Aviv-based startup Aidoc’s feature to analyze X-ray exams to detect and triage collapsed lungs. 

  • Dive analyzed FDA data on all of the AI- and machine-learning-enabled devices the agency has authorized to date. 

Here are five takeaways on the rise of these devices.


(1) The number of AI-enabled medical devices has surged in the last five years 



(2) There are more AI tools for radiology than for any other specialty 



(3) Most authorized devices have 510(k) clearance. However, many AI/ML devices aren’t required to be reviewed by the FDA 



(4)GE Healthcare and Siemens have the most authorized AI/ML medical devices 



(5) AI/ML devices will get increasingly complex with algorithms that can “learn” and regulators are looking to adapt





ORIGINAL PUBLICATION (full version)




One of several AI-enabled medical devices cleared by the FDA in 2022 includes an algorithm to flag potential cases of collapsed lung in X-ray images. the rads via Getty Images

5 takeaways from the FDA’s list of AI-enabled medical devices


MedTechDive
Elise Reuter
Nov. 7, 2022


As medical devices that use artificial intelligence and machine learning appear in more hospitals and imaging labs across the U.S., new data from the Food and Drug Administration show the agency has been fielding more submissions.


In 2022 alone, the FDA authorized 91 AI- or machine-learning-enabled medical devices, according to data released on Oct. 5. 


This broad category of devices can include anything from a basic algorithm to more complex machine learning tools, Michaela Miller, U.S. medtech technology and analytics practice leader for IQVIA, a North Carolina-based analytics and clinical research firm, said by email.


Devices that received FDA clearance this year include an atrial fibrillation history feature for the Apple Watch, and Tel Aviv-based startup Aidoc’s feature to analyze X-ray exams to detect and triage collapsed lungs.


Dive analyzed FDA data on all of the AI- and machine-learning-enabled devices the agency has authorized to date. Here are five takeaways on the rise of these devices.


Here are five takeaways on the rise of these devices.


  • 1. The number of AI-enabled medical devices has surged in the last five years
  • 2. There are more AI tools for radiology than for any other specialty
  • 3. Most authorized devices have 510(k) clearance. However, many AI/ML devices aren’t required to be reviewed by the FDA. 
  • 4. GE Healthcare and Siemens have the most authorized AI/ML medical devices 
  • 5. AI/ML devices will get increasingly complex with algorithms that can “learn” and regulators are looking to adapt

One of several AI-enabled medical devices cleared by the FDA in 2022 includes an algorithm to flag potential cases of collapsed lung in X-ray images. the rads via Getty Images

1. The number of AI-enabled medical devices has surged in the last five years



The number of AI- and machine-learning-enabled devices reviewed by the agency more than doubled from 2017 to 2018, and has continued to grow each year since. 

In 2021, the FDA authorized a record 115 submissions, an 83% increase from 2018.


Advances in sensor technology, imaging and data analytics have helped drive the trend, Miller wrote. Still, “the need to regulate and control these technology applications as drivers behind treatment decisions has increased to ensure patient safety,” she added.


Advances in sensor technology, imaging and data analytics have helped drive the trend


Just two years ago, the FDA created its Digital Health Center of Excellence, adding staff to provide more expertise on software devices and to modernize the agency’s regulatory approach. 


Just two years ago, the FDA created its Digital Health Center of Excellence, adding staff to provide more expertise on software devices and to modernize the agency’s regulatory approach.


Bakul Patel, who led that initiative, has since left the agency, but while there Patel built significant capacity to evaluate AI- and machine-learning-enabled devices, said Nicholson Price, a professor of law at the University of Michigan and who focuses on life sciences innovation.

“There have been questions about capacity constraints on FDA, whether they have the staff and relevant expertise,” Price said. “They had a plan to increase hiring in this space, and they have in fact hired a bunch more people in the digital health space.”


One of several AI-enabled medical devices cleared by the FDA in 2022 includes an algorithm to flag potential cases of collapsed lung in X-ray images. the rads via Getty Images

2. There are more AI tools for radiology than for any other specialty



Of the 521 submissions the FDA has authorized to date, three-quarters have been in radiology and 11% have been in cardiology. 


Part of the reason for the concentration of devices in these specialties is because there is ample data for device developers to draw on from imaging and electrocardiograms.


Of the 521 submissions the FDA has authorized to date, three-quarters have been in radiology and 11% have been in cardiology.

Part of the reason for the concentration of devices in these specialties is because there is ample data for device developers to draw on from imaging and electrocardiograms.


“Radiology went digital very early relative to other areas of medical practice,” Price said. 

“You’re not working with as messy of [data], different sources of text analysis, differences in how things are measured. … You’ve got bigger, more comparable, cleaner datasets in [radiology and cardiology] than you have in a lot of other areas.”


Because data in other areas often isn’t configured the same way across most hospitals and healthcare systems, an algorithm that uses data pulled from patients’ health records to make a prediction at one hospital may not work in another health system, Price said. 


Even if both hospitals use the same electronic health record system, differences in how that system is set up can affect how well the algorithm works.


Because data in other areas often isn’t configured the same way across most hospitals and healthcare systems, an algorithm that uses data pulled from patients’ health records to make a prediction at one hospital may not work in another health system, 


One of several AI-enabled medical devices cleared by the FDA in 2022 includes an algorithm to flag potential cases of collapsed lung in X-ray images. the rads via Getty Images

3. Most authorized devices have 510(k) clearance. However, many AI/ML devices aren’t required to be reviewed by the FDA.



Of the devices that have gone through FDA review, the majority have received 510(k) clearance, which does not require clinical trials as long as developers can prove their device is “substantially equivalent” to one already on the market.


To date, 96% of authorized AI- and machine-learning-enabled medical devices have 510(k) clearance, while only three devices have gone through the FDA’s more rigorous premarket approval process. 

Another 18 devices have gone through the regulator’s de novo clearance process, which is for devices that are not deemed high risk but do not have a predicate.


While most of the devices on the market don’t provide a diagnosis, they instead offer suggestions or alerts for clinicians or patients.


For example, detecting atrial fibrillation from ECG data may be a relatively simple task from an analytical perspective, but it won’t have the scope of information that a clinician uses when they make a diagnosis, said Giorgio Quer, assistant professor of digital medicine and director of artificial intelligence at the Scripps Research Translational Institute.

“Devices are focused on a specific task. They are fantastic at that task,” he said. “My device, for example, is telling me, ‘you’re probably ok’ or ‘you may have an arrhythmia, let’s get it checked.’ It cannot tell you, ‘you have exactly this type of arrhythmia.’ This is the task of a clinician to interpret the data.”


While most of the devices on the market don’t provide a diagnosis, they instead offer suggestions or alerts for clinicians or patients. 

For example, detecting atrial fibrillation from ECG data may be a relatively simple task from an analytical perspective, but it won’t have the scope of information that a clinician uses when they make a diagnosis, 


FDA-authorized devices likely are just a fraction of the AI- and machine-learning-enabled tools that exist in healthcare as most applications of automated learning tools don’t require regulatory review, according to Price. 


Academic medical systems generally haven’t been required to seek FDA authorization for algorithms they develop in-house, Price added. 

Predictive tools based on electronic health record systems were exempted from regulatory review, though that may change under a new guidance.

“My strong impression is that somewhere between the majority and vast majority of ML and AI systems being used in healthcare today have not seen FDA review,” Price said. 

“It sure seems like medical devices that are going to be impacting health and safety should go through some sort of regulatory review. 

Exactly what that should look like is fairly complicated.”


FDA-authorized devices likely are just a fraction of the AI- and machine-learning-enabled tools that exist in healthcare as most applications of automated learning tools don’t require regulatory review, according to Price.


One of several AI-enabled medical devices cleared by the FDA in 2022 includes an algorithm to flag potential cases of collapsed lung in X-ray images. the rads via Getty Images

4. GE Healthcare and Siemens have the most authorized AI/ML medical devices



So far, GE Healthcare has received FDA clearance for 42 AI- and machine-learning-enabled medical devices, most of which are in radiology. 


They include an image-reconstruction algorithm to improve the quality of MRI images and an algorithm to help clinicians detect collapsed lung cases.

“The way we approach this is we try to meet our clinicians’ pain points,” said Vignesh Shetty, general manager of GE Healthcare’s Edison AI and Platform.

“Radiology is what a lot of our customers and partners have wanted to work with us [on] so far,” Shetty said in an interview. 

“For a growing number of these clearances, you will notice that we’ve got use cases in other care pathways as well, including but not limited to oncology, cardiology, and even neurology.”


So far, GE Healthcare has received FDA clearance for 42 AI- and machine-learning-enabled medical devices, most of which are in radiology. “The way we approach this is we try to meet our clinicians’ pain points,”


Meanwhile, Berlin-based Siemens Healthineers had 29 cleared devices …

… including a feature to help with quick quantification and accurate visualization of calcified coronary lesions from CT scans.


Meanwhile, Berlin-based Siemens Healthineers had 29 cleared devices, including a feature to help with quick quantification and accurate visualization of calcified coronary lesions from CT scans.


  • Canon Medical Systems, a subsidiary of the Tokyo-based photography company; 
  • Tel Aviv-based Aidoc, which makes computer-aided triage systems; and 
  • Amsterdam-based conglomerate Philips also had several cleared AI devices.

One of several AI-enabled medical devices cleared by the FDA in 2022 includes an algorithm to flag potential cases of collapsed lung in X-ray images. the rads via Getty Images

5. AI/ML devices will get increasingly complex with algorithms that can “learn” and regulators are looking to adapt



Currently, any major changes to a medical device must be cleared by the FDA, so most algorithms remain static after they’re introduced to the market. 


Still, the agency is preparing for a future when the software integrated in these devices can adapt.


Currently, any major changes to a medical device must be cleared by the FDA, so most algorithms remain static after they’re introduced to the market. Still, the agency is preparing for a future when the software integrated in these devices can adapt.


AI- and machine-learning-enabled devices will become increasingly complex as companies move toward algorithms that “learn” as opposed to algorithms that are “locked and deployed,” wrote IQVIA’s Miller.


“One thing that is really peculiar for AI devices, the core of the device is an AI algorithm, a piece of software. The piece of software may evolve over time, so there needs to be periodic surveillance of how the software inside of the device is changing,” said Scripps’ Quer.


“One thing that is really peculiar for AI devices, the core of the device is an AI algorithm, a piece of software. The piece of software may evolve over time, so there needs to be periodic surveillance of how the software inside of the device is changing,” 


The FDA has taken some steps to modernize how it regulates these types of devices. 


It has been working on a digital health pre-certification program that would allow the agency to pre-clear trusted manufacturers to update their software products, though this hasn’t been without hurdles. 

In a recent report, the FDA acknowledged that it would need Congressional approval to move forward with the program.


The FDA also has discussed a predetermined change control plan, where companies could outline anticipated modifications to software-based devices, allowing them to make changes within those boundaries without making another time-consuming submission to the agency.


Ensuring patients benefit from these devices will depend not only on regulators, but also on developers involving clinicians in the earliest steps of design to ensure software is effective when integrated into their practice.


“We need to have a deep collaboration between the AI world — the computer scientists or engineers, like myself, who work with the ​data and the algorithms — and on the other side the clinicians​, who are facing the patient and can provide a clinical perspective,” Quer said. 

“The clinician always needs to be in the loop and provide that ​clinical input, be the one that judges if this is useful or not.”


Ensuring patients benefit from these devices will depend not only on regulators, but also on developers involving clinicians in the earliest steps of design to ensure software is effective when integrated into their practice.


Originally published at https://www.medtechdive.com on November 7, 2022.

NAMES MENTIONED

Bakul Patel,

Nicholson Price, a professor of law at the University of Michigan

 Giorgio Quer, assistant professor of digital medicine and director of artificial intelligence at the Scripps Research Translational Institute.

Vignesh Shetty, general manager of GE Healthcare’s Edison AI and Platform.

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