Pushing the limits of micro manufacturing, we help OEM create implantable grade component to improve cardiovascular device

A global OEM came to us with a concept to replace an existing component used in the tip of a catheter, designed for ablation of cells on the heart to treat atrial fibrillation. The OEM sought help with a micro-spring component application used to hold thermocouples in the tip assembly of the catheter. They wanted to develop a spring using micro injection molding with PEEK material to replace the existing, high-cost technology.
The Class II device needed a specially designed micro component with a wall thickness of approximately 40 microns and weighing about one-tenth of a milligram. The extremely thin micro component also had to fit into the existing device, while meeting the stringent requirements of implantable medical devices and the repeatability of high-volume manufacturing.
To meet the challenge, our engineering team needed to figure out how to reliably design, manufacture and inspect an extremely tiny component, while holding the customer’s proposed tolerances.

With other macro and micro parts, the team put product designs through rigorous simulation software testing to help predict potential manufacturing issues. However, in this case, due to the nature of the exceptionally small component, simulation software offered limited benefits in accurately representing the molding process. So, in collaboration with the OEM team, our engineering team pushed the boundaries of micro manufacturing, going through several iterations of designs, prototypes and tests to determine the exact right formulation to produce the microscopic component with integrity. Warpage of the part during the molding process and cooling once outside the mold also had to be managed.
In addition to developing the component for consistent, repeatable production, the team needed to remove the microscopic gate from the part and devise inspection methods for quality assurance of the component.
As even the most subtle change in airflow could disrupt the inspection process, managing the inspection and handling environment was critical. For inspection, the team used vision systems to measure and evaluate if the component met customer print specifications. Advanced automation took care of the delicate handling, inspection and packaging.

Marking major engineering and manufacturing milestones for both the OEM and us, the engineers successfully collaborated to create an improved, more cost-effective microscopic component. The global OEM’s product manager praised our team’s dedication and precision. The upgraded device launched on market to overwhelmingly positive feedback from physicians.
Today, we annually produces hundreds of thousands of the micro components for the cardiovascular device. We also produces micro and macro components for the global OEM on several other critical medical devices.

• Product development
• DFM
• Prototyping
• Production tool building
• Micromolding
• Packaging