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Cardiovascular Applications

Rapid and reliable innovation and testing of new cardiovascular medical devices and implants. 

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Optimize Cardiovascular Devices Through Simulation

With more than 30 percent of all deaths attributed to cardiovascular diseases, the healthcare industry invests massively in disease prevention, treatment and efforts to shorten the recovery period. The extensive in vitro and in vivo testing required to ensure patient safety inevitably slows the delivery of innovative implantable cardiovascular devices — stents, valves or pacemakers/defibrillators — to those who need them the most.  Leveraging the power of in silico medicine and developing a detailed and reliable multiphysics model of the device and its working environment (the human body) provides the necessary insights to test and optimize new products, help accelerate regulatory approval and save lives.

  • Implants with a Virtual Population
    Implants with a Virtual Population
  • Blood Damage
    Blood Damage
  • Reliability Throughout Product Lifecycle
    Reliability Throughout Product Lifecycle
  • Ensure MRI Compatibility
    Ensure MRI Compatibility
cardio devices simulation

Cardiovascular Applications

Create Effective Cardiovascular Devices

Cardio Compatibility

In Silico Clinical Trials

Applying validated and approved computer models of cardiovascular implants to hundreds of virtual patients provides digital evidence of product performance to help accelerate the regulatory approval process.

Minimize Blood Damage

High shear stress induced by artificial blood pumps or valves may irremediably damage blood cells. Simulation delivers the insight required to innovate device design and reduce damage.

Ensuring MRI Compatibility

Coupled electro-thermal analysis can evaluate the temperature increase with implanted devices such as pacemakers due to MRI interaction.

Reliability and Durability

Use simulation to examine the performance of a cardiac valve or a stent under a wide range of loading conditions and in a diverse virtual population, to render reliable, durable designs.

Decision Under Pressure

The predictive modeling of cardiac mechanics to accurately reproduce the heart’s functionality remains challenging.

heart to heart

In-silico Modeling of the Patient-specific Heart

We will present a high-resolution, 3D, nonlinear finite element model of patient-specific heart geometries and function to accurately reproduce the heart's functionality and response to external disturbances.

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Featured Resources

BLOGS

Using Ansys for Doctorial Research in Cardiovascular Engineering
BY: Susan Coleman

Using Ansys for Doctorial Research in Cardiovascular Engineering

Learn how a 0D-3D coupling sets a foundation to investigate other entities of the heart and conduct case studies on pathologies. 

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WHITE PAPERS & ARTICLES

Ansys White Paper Healthcare

Disruption in Healthcare is Here: Are you Ready?

Ansys is fully embracing the in silico approach by creating the necessary software and enabling access to computational power to make simulation pervasive from startups to large global companies, from concept to in-patient performance.

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