Medical and Life Sciences
- Medical Device Testing
- Our Customers
- Stability Studies
- Medical Device Packaging
- Custom Test Equipment
- Medical Device Packaging
A leading international medical devices manufacturer planned to automate a manual device functionality test. The upgraded system involved regulating a pressurised fluid supply and monitoring the flow rate of minute amounts of liquid from a delivery system through a small catheter and into prospective patients.
The company had extensively searched test equipment providers looking for an existing tester that met their criteria but were unable to source one. They then contacted Anecto Ltd., whose highly qualified team had the capability to design, build and validate such a test system.
The unit, which became known as a micro intervascular catheter liquid flow/leak test system, was designed to interface with and monitor the flow of fluid (0.5 μL/sec to 10.0 μL/sec) from delivery system at a given pressure (0-3500m bar). Once this flow rate had been measured and was within the required limits, the pressure was raised and the device was monitored for leaks. The temperature of the fluid was also monitored closely throughout the process.
On receipt of the URS (User Requirement Specification) an FS (Functional Specification) was drawn up describing the higher level functionality of the system and outlining the expectations of these functions. This was presented to the medical devices supplier and on acceptance, Anecto engineers generated a DS (Design Specification) detailing how they intended to implement fully the functionality they committed to in the FS.
Anecto then set about the component specification for this project. This was a very complex process due to the high precision required. A variety of parts had to be tested and rejected before components that met the required specifications were found. For example, a large number of valves had to be rejected before one was found that did not interfere with the very sensitive monitoring of the flow rate or in any way introduce measurement errors due to fluid temperature changes.
Upon completion of this phase a bench test was carried out to test the interactivity of the separate components using a basic programme developed by Anecto engineers.
Once it had been confirmed that this basic code controlled the various components, a more complex code was developed to oversee the running of the flow/leak test system and to diagnose failure modes by communicating unambiguously with the operator about what did or did not work during a particular test.
In tandem with this, the enclosure for the unit was developed along with wiring and design diagrams for the hydraulic, pneumatic and electrical components of the system. Once the code had been finalised a number of technical documents were generated including the Calibration Instruction, Maintenance Instruction, Bill of Materials and Software Code Listing.
The finished prototype, the delivered item in this case, was then put through a debugging process and an Operator Guide was created. There was also a full suite of environmental testing completed on the unit in an attempt to mitigate against any un-foreseen problems caused by potential operating environments.
One of the challenges to be overcome was taking account of temperature changes throughout the day. Due to the sensitivity of the unit, slight environmental changes were having an effect on the flow/leak test system’s performance. These changes in performance were characterised by performing environmental simulation studies in a climatic conditioning chamber.
Following on from that, the qualification testing process began with tests and failure modes created to show that the unit had been fully tested in-house ahead of the Factory Acceptance Test (FAT). After a successful FAT, Anecto Ltd.’s micro intervascular catheter liquid flow/leak test system was delivered to the customer.
A Site Acceptance Test (SAT) was then carried out followed by an Installation Qualification (IQ) and Operational Qualification (OQ) and proceeded by the Performance Qualification (PQ). Following a successful SAT there was an un-expected request for altered functionality. Anecto’s experts added some new error modes and re-wrote a large quantity of the software to meet these requirements. The software listing was re-checked and re-issued on-site and validation documents were updated to reflect the recent system changes
The micro intervascular catheter liquid flow/leak test system project commissioned to Anecto Ltd. posed a number of challenges for the company’s experienced design and fabrication teams.
The entire unit had to be designed and built from the ground up. Testing had to be carried out from the earliest stages of the project and continued throughout until its conclusion accompanied by reports and documentation to ensure that the customer was always fully enlightened as to the progress at each stage. While the team working on the project faced a number of challenges they overcame each obstacle.
All regulatory requirements both external and internal were satisfied. The resulting tester met with a very positive response from the customer.
Social Media Links DE
send a request aaaaa
Case Study – Emerson Network Power
How Anecto developed a number of innovative solutions for the leading multinational Emerson Network Power.