Simulated Use Testing

Uses the roller system and the camera to qualitatively evaluate the performance of the device using a tortuous path that simulates the intended use conditions.

Test Procedure

The IDTE 1000 proximal load cell is used to monitor the force applied at the proximal end of the device system. At the same time, an encoder, attached to the proximal load cell, is used to monitor the travelled distance. The sample is advanced through the tortuous path according to the specific profile. Proximal forces, as well as the advancement distance, are recorded simultaneously. The test fluid is circulated inside the anatomical model at a regulated at test temperature ±2°C. The devices are inspected visually, and any damage is recorded.

Equipment

ViVitro uses the Interventional Device Testing Equipment (IDTE) 1000 to provide quantitative performance evaluation of interventional devices during simulated use testing. This test is conducted by advancing a device in a pre-defined anatomical vascular model to simulate the passage of devices during interventional procedures. Standard or specific anatomical 2D and 3D models can be used to simulate device insertion, tracking, deployment and retrieval.

The device is advanced and retracted automatically by the roller system which removes bias due to operator interactions.  The IDTE proximal roller system measures advancement forces along the path and the auxillary load cells can be placed in various locations to measure distal forces on the device or resulting forces on interventional accessories.  The IDTE roller system can handle infinite length catheter and a continuous advancement of the device during testing. No repositioning of the head is necessary.  The IDTE equipment is PC controlled with numerous options for advancement profiles. Testing results can be used for regulatory submissions, competitive product evaluation and product development.

Measured Parameters

  • Maximum, minimum and average force
  • Location of maximum and minimum force
  • Temperature
  • Travel distance
  • Proximal Force
  • Distal Force

Scope

  • PTA, PTCA, coronary and peripheral stent delivery systems – functional performance during simulated use
  • TAVI and TMVR delivery systems – functional performance during simulated use
  • Thrombectomy devices — functional performance during simulated use
  • Guidewires testing – functional performance during simulated use
  • Endoscopic devices – functional performance during simulated use
  • RF ablation catheters testing – functional performance during simulated use
  • Any interventional delivery systems – functional performance during simulated use

Service Levels

Applicable Standards

  • ISO 25539-2:2020
    Cardiovascular implants — Endovascular devices — Part 2: Vascular stents

  • FDA-1608
    FDA Guidance: Certain Percutaneous Transluminal Coronary Angioplasty (PTCA) Catheters – Class II Special Controls Guidance for Industry and FDA

  • SN EN 14299
    Non active surgical implants – Particular requirements for cardiac and vascular implants – Specific requirements for arterial stents

Related Tests

OLE1325, OLE0926

Trackability

ViVitro Labs Advantages

Many companies look to academia to handle their testing needs due to the reduced cost. With ViVitro Laboratory Services you gain the following advantages:

Time to Market
We understand how critical your timelines are. Our expertise and experience ensure your schedule is met and our commitments are delivered on time.

ISO 17025 Accredited
For studies used for regulatory approval this is a must. Victoria and Marseille labs accredited by A2LA.

Free Initial Consultations
All of our studies are scoped via no-cost, no obligation, collaborative consultation.

Guaranteed Confidentiality
We happily provide Non-Disclosure Agreements for all services, including initial consultation.

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