Medical Equipment

Nanopolishing Process for Scalpels Aims for More-Precise Surgeries

Scalpel surfaces normally have some defects that come from the grinding process, which means there are always some naturally occurring flaws in their edges. “Those flaws are really important medically, at least we believe,” said Cliff Spiro, Chief Technology Officer at Entrepix Medical, in an interview with MD+DI.  “What happens is, when you get these scratches on the surface of the scalpel, those scratches are pretty ragged microscopically, and as a surgeon makes an incision, those scratches act like hooks,” he explained.

“They do a lot of unnecessary damage at the wound,” Spiro continued. “And causes damage remote from the wound. So normally if your wound is about 50 microns wide, there’s actually a wake of damage some 400 microns on either side. So, the wound ends up being about 10 times wider than it needs to be.”

In his last position at a semiconductor company, Spiro began to wonder if a technology called chemical mechanical planarization (CMP) could be used on other products besides computer chips. Spiro described CMP as softening a surface and then removing the softened outer layer with a mechanical polishing pad. He likened it to how a Zamboni works on an ice rink. “You just kind of soften the ragged surface, and then, with a special polishing pad, leave behind a perfect finish,” he said.

He contacted a leading surgeon at the University of Chicago and asked him if using a better scalpel would make any difference. “He said he thought it might, so we agreed to do some experiments with guinea pigs,” Spiro said. Their experiments found that wounds were closing 10 times faster when using a scalpel that had been processed with CMP and that there was a lot less pain involved.

Spiro then partnered with Entrepix to develop its CMP Planatome technology for scalpels. He explained that CMP doesn’t change the size, shape, or composition of the scalpel. “All we’re doing is removing the very outer layer of flaws,” he said. “We take away that topography, we take away that edge that tears, and we’re left with a near atomically perfect cutting edge. And so, the wound is smaller, and there’s no wake of damage.”

Entrepix cites multiple studies that have shown wound-closure rates from a Planatome incision at over 90% after just 24 hours, which is a dramatic improvement over the 10% achieved with traditional scalpels. There is also less swelling and a considerable reduction in scarring, both in size and variation.

Another study showed that nerves incised with a Planatome blade showed a 25% recovery at five weeks, while a nerve cut with a standard scalpel showed only a 9% recovery.

Besides causing less trauma and pain and promoting faster healing for patients, near-atomically perfect cutting-edge tools benefit surgeons as well. “We think that the ragged blade that they’re using today accumulates tissues and debris, so it stops cutting,” he said.

Spiro cited the case of one surgeon performing a multi-hour procedure that normally would go through a couple of dozen blades. “He only used one [Planatome blade] the entire time,” Spiro said, noting that the surgeon was able to shave a half-hour’s time from the surgery.

“It’s just a perfect little edge and it just doesn’t drag or rip. There will be less bleeding,” Spiro continued. “That’s something we’ve seen in a number of cases. That can mean less cautery and when a surgeon needs to cauterize, that means taking on another tool, stopping, pausing, restarting–all that was takes time.”

Image courtesy of Entrepix Medical

Above: Side view of a standard scalpel.

Image courtesy of Entrepix MedicalPlanatome #10-Side View-1000x-v2.png

Above: Side view of a scalpel after the Planatome process.


Spiro concluded by saying that Entrepix has always focused on improved patient results, but they have also gotten great feedback from surgeons about the durability and the utility of the blades. “It definitely is something that surgeons are realizing to be unique that will focus on [patient] outcomes.”

Entrepix buys bulk scalpels from leading vendors and applies its Planatome process to them. The scalpels are then sterilized and packaged and sold under the Planatome name, in blade sizes of #10, #11, #15, and #15c. The company is initially launching into the plastic surgery and dermatology markets.

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