3D models for Cardiac Surgery

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Congenital structural pathology

Acquired structural pathology

Cardiac oncology

Cardiac devices

Our 3D models offer features tailored to real clinical needs, enabling personalised surgical planning for across specialties and pathologies.

Measure distances

Measure the distance between points of interest or the diameter of elements such as vascularisation.

Funcionalidad de posicionamiento para dispositivos de asistencia ventricular en cirugía cardiaca

Ventricular assist device positioning

Simulation of the device’s precise location to optimise vascular flow.

Funcionalidad para ver posibles contactos entre el tumor y el resto de elementos en 3D

Tumour relationships

Shows possible infiltrations/contacts between the tumour and other elements.

Funcionalidad para la creación de planos de corte de la imagen médica personalizados

Create customised plans

Apply a cutting plan from any direction.

And more…

Clinical indications in Cardiac Surgery with 3D models

Especially recommended for conditions and procedures in which preoperative planning can optimise outcomes and enhance surgical safety.

Congenital cardiovascular disorders

  • Tetralogy of Fallot
  • Double ventricular outflow tract
  • Transposition of the great arteries
  • Anomalous venous drainage
  • Fontan surgery
  • Truncus arteriosus
  • Septal defects
    • Atrial septal defect (ASD)
    • Ventricular septal defect (VSD)

Acquired structural pathology

  • Hypertrophic cardiomyopathy
  • Ventricular hypertrophy
  • Left atrial appendage occlusion
  • Atrial appendage occlusion by video-assisted thoracoscopy
  • Coronary tree analysis
  • Ventricular aneurysms

Cardiac oncology

  • Cardiac tumour

Cardiac devices

  • Hypertrophic cardiomyopathy
  • Ventricular hypertrophy
  • Left atrial appendage occlusion
  • Atrial appendage occlusion by video-assisted thoracoscopy
  • Coronary tree analysis
  • Ventricular aneurysms
Modelo 3D para cirugía de corazón

Benefits of 3D models in cardiac surgical planning

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  • Improves surgical strategy with objective decisions, anticipating problems
  • Helps plan less aggressive interventions
  • Reduction in intraoperative complications
  • Reduction in post-operative recovery time
  • Assistance in performing previously ruled out surgeries
  • Improved internal communication with the medical team
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3D Printing models

They act as a haptic extension in the operating theatre. Each one undergoes a rigorous quality control and radiological validation processes to ensure its accuracy.

  • Real scale
  • Haptic interpretation of anatomy
  • Structure differentiation by colours
  • Advanced modelling
  • Sterilisable using standard methods (H₂O₂)
  • Ready for rapid delivery (<72 hours)
  • Intended for research and teaching purposes only