Q&A: How Monogram’s CEO plans to disrupt robotic joint replacement surgery

Seven-year-old surgical robotics company Monogram Orthopedics, which went public in May, is aiming to take on medtech heavyweights such as Stryker and Zimmer Biomet as well as smaller challengers in the growing market for robot-assisted joint replacement. CEO Benjamin Sexson, an engineer by training, sees a pressing need for personalized implants made to fit each patient’s specific anatomy. He explained to MedTech Dive how the robotic platform that Monogram is developing could help reduce complications associated with knee replacement surgery, and how the Austin, Texas-based company plans to compete against Stryker’s market-leading Mako robot.

This interview has been edited for length and clarity.

MEDTECH DIVE: What are some of the challenges in knee replacement that you are trying to solve with your surgical robot?

BENJAMIN SEXSON: The idea is to move away from what’s called mechanical alignment, which is how we’ve always done it with manual instruments. A lot of the robots on the market today are just basically helping surgeons put the knee into mechanical alignment – everybody gets the same knee, the joint line is basically restored to be parallel to the floor.

With functional, or more personalized, alignment approaches, surgeons are tweaking the plan based on, I have my patient’s specific data, I have the CT scan, and I can assess intraoperatively what do I think looks best? And they can make very, very precise and accurate tweaks to the surgical plan that, over time, we’re seeing are enhancing patient satisfaction.

Stryker and Zimmer both have the ability to use a CT scan or advanced imaging to preoperatively plan. Stryker has been driving this trend. Stryker is showing that patients are happier when you can do some degree of personalization of the surgery.

Other players in the space have been struggling [because] they are imageless. They made the bet that insurance companies would not be as accommodative in the future to reimbursing the cost of the CT scan, and so their surgeries correlate to generalized models. We think that over time, this is going to be increasingly problematic for those other players.

How will you compete against Stryker?

In our assessment, the most differentiating feature of the Mako system is safe, reliable and efficient robot-enabled cutting. They have a robot-mounted sagittal saw that a surgeon is moving around within a constrained plane. And it’s just very efficient at removing bone. But there are some serious limitations to their arm that we see. 

The first limitation is that their system only has four joints, which is fine for doing a knee. But it’s not fine for many other applications where you need more dexterity out of the arm. So if you look at robotic utilization in hips, only 3% of hips today utilize advanced technology. Stryker has not had meaningful penetration in the hip market.

To actually do a hip surgery, you need a minimum of six joints for the robot. When you start to think about other applications, like shoulders and extremities, it really becomes a bit limiting. So, the Stryker Mako robot is a knee robot. But we think it’s much less efficient for other orthopedic applications.

And we think it’s really problematic to have all of these kinds of application-specific robots. We think what’s much more efficient is to have a single robot that can do any type of orthopedic surgery. So that’s one distinct advantage of our system.

The second distinct advantage is that our system is active versus haptic. The surgeon doesn’t have to move the arm around, the robot is executing a very, very safe cut path, and the surgeon is driving the robot along this cut path with a foot pedal. They have both hands unencumbered.

We will have to match the efficiency and safety of [Stryker’s] cutting and optimize the workflow to be more efficient. Fast and efficient cutting is a substantial focus for Monogram, and we have broken new ground by actively cutting with a sagittal saw. So our vision is really to make orthopedic surgery completely idiot-proof, where it doesn’t matter if you’re a resident doing a surgery for the first time or a very seasoned orthopedic surgeon. It’s an autonomous system.