Medical X-rays taken in space for the first time
By Stephen Beech
Medical X-rays have been taken in space for the first time - making long-term flights deep into the solar system a safer option.
American scientists say the breakthrough aboard a commercial spaceflight marks not only a "new era" for astronaut health, but also for mission-critical non-medical tasks.
Lead researcher Dr. Sheyna Gifford said: "It's been a dream for aerospace medicine to have more than one imaging modality for diagnosing illnesses and injuries in space.
"X-rays are fast, easy and diagnostically valuable."
For more than four decades, ultrasound has been the only reliable medical imaging method used in space.
As spaceflight missions increase in duration and distance, raising the risk of adverse medical issues, the limitations of ultrasound have become less acceptable.
Ultrasound imaging requires substantial operator training and relies on a sound wave transmitting medium.
Dr. Gifford, assistant professor of aerospace medicine at Mayo Clinic in Minnesota, said: "Traditional X-ray machines are very large, produce a lot of radiation, and have a tendency to produce a blurred image if there's movement.
"Because everything in space is constantly moving, the conceit has been that obtaining a diagnostic image in orbit was too technically challenging."
The availability of small, portable X-ray machines offered Dr. Gifford's team the chance to test in-orbit X-ray capabilities.
In 2022, the flight crew, with minimal medical training, took a portable X-ray machine on a parabolic flight and successfully obtained a digital X-ray of a hand in microgravity.
Dr. Gifford's team partnered with the commercial company SpaceX to investigate the feasibility of using a commercial off-the-shelf portable radiography system on Fram2, a 3.5-day polar orbital flight.
Se said: "Portable X-ray machines are in use everywhere - at the Kentucky Derby, on the sidelines of the Super Bowl and around the globe in low-resource areas - because they can run on solar power and can be operated by individuals with no medical expertise.
"We believed an off-the-shelf portable system would stand a very good chance of surviving prelaunch testing and be operational in space by crew members with minimal training."
For the study, published in the journal Radiology, anatomic and equipment X-rays were obtained both preflight and inflight by crew members using an X-ray system featuring an ultraportable wireless digital X-ray generator.
All the images were evaluated by independent radiologists.
Dr. Gifford said: "A spaceflight-ready radiography system would have profound implications not only for crew health but also for mission-critical nonmedical tasks.
"For sustained human presence in space, X-rays are critical not just for crew members but also for other mission components like electronics and spacesuits.
"The only way to look inside these objects without taking them apart is to X-ray them."
Prior to the Fram2 spaceflight, three crew members received four hours of training on the portable radiography system.
SpaceX personnel also conducted impact and compatibility testing on the system for the spacecraft.
The crew acquired preflight images, including X-rays of a hand, forearm, abdomen, pelvis and chest.
The Fram2 mission launched on March 31, 2025, on a SpaceX Falcon 9 rocket, entering into a 90-degree orbit more than 200 miles above sea level.
The mission duration was three days and 14 hours, and the spacecraft returned to Earth on April 4, 2025.
The X-ray generator sustained superficial structural damage during landing and recovery, but internal hardware components and X-ray output were unaffected.
Inflight images acquired without ground support included X-rays of a phantom object used to calibrate the system, and a smartwatch, hand, forearm, abdomen, pelvis and chest.
The inflight images were immediately transmitted to an onboard computer and reviewed by the crew.
On returning to Earth, postflight X-rays replicating the preflight and inflight images were also acquired.
All X-rays were evaluated by three independent radiologists for overall image quality, spatial resolution, contrast resolution and positioning.
The research team found no differences in the overall image quality, contrast resolution or spatial resolution between the preflight and inflight X-rays.
The inflight image quality achieved a diagnostic level for all X-rays, despite the decreased scores for the positioning of the central body X-rays, including the images of the chest, pelvis and abdomen.
Dr. Gifford said: "By acquiring the first human and equipment X-rays in space, our study demonstrates the feasibility of in-orbit radiography and expanded diagnostic capabilities for crew health and hardware evaluation.
"Acquiring a diagnostically useful X-rays in space is something that anyone can do.
"Three very talented nonmedical people with four hours of training in one of the harshest environments did it right and did it well."
Crew members strongly agreed that the X-ray system was easy to use and the imaging protocols were easy to follow.
They suggested improvements for the radiography system, including mechanisms to securely mount and clamp the X-ray detector and generator.
The estimated radiation exposure for crew members was no greater than that associated with standard clinical imaging on Earth.
Dr. Gifford says more research is needed to establish guidelines for examination indications, image interpretation and imaging baselines.
She said: "It's my hope that we can further reduce the size of portable imaging systems and improve its ruggedness and usability so they can be included in future missions."
Dr. Gifford says other space-related applications for portable X-ray systems include imaging malfunctioning satellites in orbit and equipping lunar rovers to analyze the moon's surface.
She added: "Disseminating autonomous miniature X-ray systems around the globe could also change the game in public health.
"The sky is not the limit when it comes to X-rays in space and here on Earth."
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This story was originally published July 14, 2026 at 11:22 AM.