EtO causes cancer. Device sterilizers are scrambling to find alternatives.

The Environmental Protection Agency finalized new regulations in March that will enforce tighter regulations on ethylene oxide, one of the most common sterilants for medical devices. The final rule is designed to reduce emissions of EtO, a carcinogenic gas, from commercial sterilizers by more than 90%.

Anticipating the new rule, industrial sterilizers have been upgrading emissions controls and looking at other chemicals. Medtech trade group Advamed has warned that new regulations on EtO emissions could limit capacity for sterilizing medical devices, potentially creating shortages. However, proponents of other technologies have said they can meet some of the industry’s sterilization needs. 

“The reality in our mind is that there are a number of products today that could be sterilized with another modality,” said Tony Eisenhut, CEO of Novasterilis, which makes sterilization equipment using supercritical carbon dioxide. 

Experts said no individual technology can currently replace EtO, but a patchwork of alternatives could help reduce emissions.

The current state of device sterilization

Once manufactured, medical equipment goes through a process to ensure that it’s safe to use and doesn’t pose an infection risk to patients. The Food and Drug Administration’s Center for Devices and Radiological Health evaluates sterilization methods before devices go to market. 

The most common method is EtO, used for about half of all devices, followed by gamma radiation, which is used for about 40% to 45% of devices, said Aftin Ross, deputy director for the Office of Readiness and Response in CDRH’s Office of Strategic Partnerships and Technology Innovation. Both methods can process large quantities of product, but they also come with significant challenges. 

EtO, a flammable gas used to sterilize materials that aren’t compatible with radiation, heat or steam, is carcinogenic to humans when inhaled. Because of this, facilities must maintain emissions equipment, and products must go through an off-gassing process to ensure no residual EtO remains. 


“That is really one of the challenges we have right now. There’s not currently a method that has the same scope and scale of EtO.” 

Aftin Ross

Deputy Director for the Office of Readiness and Response in CDRH’s Office of Strategic Partnerships and Technology Innovation


EtO is often used for polymer resin-based products, single-use medical devices, procedure kits, surgical trays, synthetic gowns, and sealed combination drug-devices like syringes and stents, according to a regulatory impact analysis for the EPA’s final rule.

Gamma radiation relies on a byproduct from nuclear reactors, called cobalt-60. Cobalt absorbs radiation from a nuclear plant, and is then encapsulated in stainless steel “pencils,” before it is transported in reinforced containers. 

At a sterilization plant, the radioactive material is contained in a bunker, and the resulting radiation is used to sterilize medical devices, including gloves, gowns, syringes and surgical staplers. This process requires careful planning, as the global supply of cobalt-60 is limited, and facilities must meet strict security requirements due to the presence of the radioactive material. 

“In the ‘50s, when this really came about … nuclear was on the rise,” said Andrew Patton, CEO of Nextbeam, a company that uses electronic beam radiation for sterilization. “The number of nuclear plants that produce radioactive cobalt-60, which is really the key source ingredient to running a gamma plant, hasn’t evolved in the same way that we thought it might have in the ‘50s or ‘60s.” 

Nordion, a subsidiary of Sotera Health, provides cobalt-60 and gamma radiation systems for medical devices and cancer treatment. Sotera CEO Michael Petras told investors in February that the company is working with Ontario Power Generation to develop a supply of cobalt-60 to support long-term growth. Roughly half of the world’s cobalt-60 is produced in Ontario, Canada, according to Nordion. 

Three people stand around a suspended metal cylinder.

Workers prepare a container for shipping radioactive cobalt-60 from Oak Ridge National Laboratory to Los Angeles for use in treating cancer patients, 1953.

FDA searching for alternatives

The FDA started tracking facility closures in 2019, when multiple facilities using EtO shut down in response to lawsuits or state orders. That year, the agency also launched two innovation challenges to identify new sterilization methods and reduce EtO emissions. 

“Our number one learning is that there is no one-size-fits-all solution,” Ross said. “We’re going to continue to take a multi-pronged approach to try to reduce EtO emissions.”