Biomechanics

Orthopedics, Bio Mechanics and Medical Devices services to improve quality and reliability:

  • Blood flow simulation
  • Medical products
  • Fatigue and fracture of bone implants
  • Complex non-linear phenomena, such as stent deployment, tissue modeling and aortic valve stenosis
  • Innovative product design to beat the competition and enable modern, cost-effective health care
  • Design and deployment of cardiovascular related systems such as catheters, drug delivery systems, pacemakers, defibrillators, heart valve replacements
  • Design and deployment of orthopedic related devices such as knee replacement, hip implants, spinal implants, cartilage and joint replacement, human modeling and virtual biomechanics, biocompatible materials analysis
  • Design and deployment of cardiovascular related systems such as vascular stents, catheters, drug delivery systems, pacemakers, defibrillators, heart valve replacements
  • Design and deployment of orthopedic related devices such as knee replacement, hip implants, spinal implants, cartilage and joint replacement, human modeling and virtual biomechanics, biocompatible materials analysis
  • Design of intra-ocular lens implants and general devices
  • Design and simulation of dental implants and general devices
  • Design of mechanical connectors commonly used in all types of medical devices
  • Wear and impact simulation to improve durability and reliability of implants
  • Assessment and prediction of injuries
  • Soft tissue and joint modeling
  • Simulating the physiological response of body systems
  • Life Support Systems and Equipment
  • Microstructural modeling of skin mechanics
  • Aortic Valve
  • Simulation of endovascular stenting/aortic endografting
  • Patient-specific isogeometric analysis for vascular biomechanics
  • Medical Image Processing
  • Non-invasive measurements of aortic size
  • Fatigue modeling of cardiovascular stents
  • Computational Fluid Dynamics for Aorta Hemodynamics

Print Email