Medical Devices

Design, simulate, prototype, validate, and deploy next-generation medical devices

The future of the healthcare industry will revolve around new technological advancements and big data. Smart medical devices and data-driven patient care are already revolutionizing the healthcare industry. Automation improves efficiency, opens the door to more personalized care, and increases profitability. However, the deployment and advancement of new smart technologies are not without challenges unique to the healthcare industry.

Surgical devices, robots, magnetic resonance equipment, defibrillators, and ventilators combine advanced multi-domain physical components and run equire error-proof operation.

MathWorks®, COMSOL®, and Speedgoat products enable engineers, researchers, and scientists to design, simulate, test, prototype, and validate medical equipment.  MATLAB®, Simulink®, COMSOL Multiphysics®, and Speedgoat help to ensure reliability, traceability, scalability, and compliance with regulations and standards.

Engineers use our products to:

  • Verify and optimize the design of medical devices
  • Simulate the interaction between a biological system and a medical device
  • Model and Simulate electrical and magnetic stimulation of neural tissue
  • Simulate hemodynamics within blood-contacting medical devices
  • Develop virtual prototypes and digital twins
  • Optimize the manufacturing process on a large scale

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Products

COMSOL Multiphysics®
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COMSOL Compiler™
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COMSOL Server™
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Electromagnetics Modules
AC/DC
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Wave Optics
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Ray Optics
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Semiconductor
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Fluid Flow & Heat Transfer Modules
Mixer
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Polymer Flow
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Microfluidics
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Porous Media Flow
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Pipe Flow
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Heat Transfer
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Structural Mechanics & Acoustics Modules
Structural Mechanics
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Nonlinear Structural Materials
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Composite Materials
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Fatigue
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Rotordynamics
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Multibody Dynamics
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MEMS
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Acoustics
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Chemical Engineering Modules
Chemical Reaction Engineering
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Battery Design
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Fuel Cell & Electrolyzer
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Electrodeposition
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Corrosion
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Electrochemistry
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Multipurpose Products
Optimization Module
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Uncertainty Quantification Module
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Material Library
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Particle Tracing Module
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Liquid & Gas Properties Module
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Interfacing Products
LiveLink™ for MATLAB®
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LiveLink™ for Simulink®
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LiveLink™ for Excel®
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CAD Import Module
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Design Module
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ECAD Import Module
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LiveLink™ for SOLIDWORKS®
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LiveLink™ for Inventor®
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LiveLink™ for AutoCAD®
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LiveLink™ for Revit®
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LiveLink™ for PTC® Creo® Parametric™
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LiveLink™ for PTC® Pro/ENGINEER®
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LiveLink™ for Solid Edge®
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File Import for CATIA® V5
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Trainings

Biotech and Pharmaceutical Training Curricula

  • Biomedical Image Processing Curriculum

  • Bioinformatics Curriculum

  • Biomedical Signal Processing and Data Analysis

  • Blogs and user stories

    Stay up to date with the industry's latest trends and learn the best pactices to innovate and optimize your engineering designs.


    The Business Benefits of Modeling and Simulation

    The Business Benefits of Modeling and Simulation

    The product development landscape has undergone a significant shift, driven by new technologies, advanced materials, and complex manufacturing methods. These changes have created unprecedented demands on engineering teams. As a response, simulation has become an indispensable tool for successfully navigating through such challenges.

    Pioneering the Future of Drug Development with Modeling and Simulation

    Pioneering the Future of Drug Development with Modeling and Simulation

    In this thorough exploration, we highlight the capabilities of modeling and simulation in drug development by providing an overview, use cases and examples. In addition, you will learn about the industry’s preferred tool: COMSOL Multiphysics. Read on to discover how simulation has turbocharged the development of pharmaceuticals.

    Engineer working in Optimization Module of COMSOL

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    5 unusual simulations in comsol multiphysics

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