X-Ray Medical Device Inspection

X-Ray Inspection - Medical Device Inspection

X-ray microscope technology for medical device inspection

See for yourself what Glenbrook x-ray can detect:


Lumens positioning inside hubs	Stent integrity during fatigue test	PEEK moulding voids	Missing radiopaque markers

Voids in catheter hubs	Radionuclide seeds	Stent deployment, recorded in motion	Digital Video Recording Demo

With the power and precision of Glenbrook’s patented real-time x-ray microscope technology, you’ll see sharper, more detailed images than you ever thought possible from an x-ray inspection system.

Forget what you thought you knew about x-ray imaging and get ready to see:

Internal mechanisms
of medical devices, even through hard-to-image materials.

Flaws or missing parts
early in the production process, before they become an issue in patient care.

Defects
that can be corrected or removed, to comply with good manufacturing practices.

Internal deployments as they occur,
with Glenbrook systems customized with digital video recording, for on-the-spot viewing and taping for storage and replay.

Only Glenbrook’s MXRA® real-time x-ray camera
has the high resolution and high sensitivity needed to image soft materials used in medical devices: polymers, rubber, ceramic and collagen. And only Glenbrook’s real-time x-ray inspection systems offer compact, affordable versatility to meet your laboratory or production requirements.

The MedaScope™ medical device x-ray scanner: The most sensitive real-time x-ray inspection system in the world, equipped with an X/Y motorized positioner and customizable for pass-through production inspection.

The MedaScope™ desktop:
A portable, compact system for real-time magnified x-ray screening of single devices. Weighing only 55 pounds, it is easy to carry and set up rapidly in any location.

The JewelBox 70T:
The high magnification x-ray inspection instrument for quality assurance of critical devices, unique in its ability to image at a very broad range of voltages for both low and high-density materials. Using digital video recording, it allows internal moving parts to be observed as they deploy and recorded for replay.