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Potentially perfect crime: Assassination via medical device hack

December 6, 2012 12:42 pm by | 2 Comments

On Sunday’s episode of the Emmy award-winning show Homeland, the Vice President of the United States is assassinated by a group of terrorists that have hacked into the pacemaker controlling his heart. In an elaborate plot, they obtain the device’s unique identification number. They then are able to remotely take control and administer large electrical shocks, bringing on a fatal heart attack.

Viewers were shocked – many questioned if something like this was possible in real life. In short: yes (although the part about the attacker being halfway across the world is questionable). For years, researchers have been exposing enormous vulnerabilities in Internet-connected implanted medical devices.

Millions of people rely on these brilliant technologies to stay alive. But as we put more electronic devices into our bodies, we must address the serious security challenges that come with them. We are familiar with the threat that cyber-crime poses to the computers around us, but we have not yet prepared for the threat it may pose to the computers inside of us.
Implanted devices have been around for decades, but only in the last decade have these devices become virtually accessible. While this access lets doctors collect valuable data, many of these devices were distributed without any type of encryption or defensive mechanisms in place. Unlike a regular electronic device that can be loaded with new firmware, medical devices are embedded inside the body and require surgery for “full” updates. One of the greatest constraints to adding additional security features is the very limited amount of battery power available.

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Thankfully, to date there have been no recorded cases of a death or injury resulting from a cyber attack on the body. All demonstrations so far have been conducted for research purposes only. But if someone decides to use these methods for nefarious purposes, it may go undetected.

Marc Goodman, a global security expert and the track chair for Policy, Law and Ethics at Singularity University, explained just how difficult it is to detect these types of attacks.  ”Even if a case were to go to the coroner’s office for review, how many public medical examiners would be capable of conducting a complex computer forensics investigation?” he asks. Even more troubling, he points out, “The evidence of medical device tampering might not even be located on the body, where the coroner is accustomed to finding it, but rather might be thousands of kilometers away, across an ocean on a foreign computer server.”

Since knowledge of these vulnerabilities became public in 2008, we’ve seen rapid advancements in the types of successfully attempted hacking.

The equipment needed to hack a transmitter used to cost tens of thousands of dollars; last year a researcher hacked his insulin pump using an Arduino module that cost less than $20. Barnaby Jack, a security researcher at McAfee, demonstrated a system in April that could scan for and compromise insulin pumps that communicate wirelessly. With the push of a button on his laptop, he could have any pump within 300 feet dump its entire contents, without even needing to know the device ID numbers. At a different conference, Jack showed how he’d reverse-engineered a pacemaker and could deliver an 830-volt shock to a person’s device from 50 feet away – which he likened to an “anonymous assassination.”

We’ve also seen some fascinating advancements in the emerging field of security for medical devices. Researchers have created a “noise” shield that can block out certain attacks – but have strangely run into problems with telecommunication companies looking to protect their frequencies. There have been discussions of using ultrasound waves to determine the distance between a transmitter and medical device to prevent long-distance attacks. One team has developed biometric heartbeat sensors to allow devices within a body to communicate with each other, keeping out intruding devices and signals.

But these developments pale in comparison to the enormous difficulty of protecting against “medical cybercrime,” and the rest of the industry is falling badly behind.

Hospitals around the country have seen a dangerous rise of malware infections in computerized equipment. Many of these systems are running very old versions of Windows that are susceptible to viruses from years ago, and some manufacturers will not allow their equipment to be modified, even with security updates, partially due to regulatory restrictions.
A solution to this problem requires a rethinking of the legal protections, a loosening of equipment guidelines, and  increased disclosure to patients.

Government regulators have studied this issue and recommended that the FDA take these concerns into account when approving devices. This may be a helpful first step, but the government will not be able to keep up with the fast developments of cyber-crime. As the digital and physical world continue to meld, we are going to need an aggressive system of testing and updating these systems. The devices of yesterday were not created to protect against the threats of tomorrow.

Tarun Wadhwa is a research associate at Singularity University researching how advancing technologies can be used to solve public policy issues. Follow him on Twitter @twadhwa.

[Image from flickr user Paul Lowry]


Filed under: Health

This article originally appeared on VentureBeat

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By Wadhwa, Tarun

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2 comments
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@RasuShrestha. Just saw that episode. Fascinating. Frightening.