Tavr System

Balloon expandable aortic valve systems –
- for Rheumatic and Degenerative patients
  • Non-occlusive deployment, allowing free blood flow
  • No rapid pacing required
  • Tactile feedback confirms ideal positioning during procedure
  • Stabilizes roots of hyper-dynamic, high-output hearts in AR

Tavr Deployment Device

Intuitive, tactile insertion device
  • Non occlusive, self homing, trans-apical delivery
  • No rapid pacing required
  • Maintains coronary perfusion
  • Backflow protected
  • Easy retrieval
  • Sheathless insertion

Self Homing - Rotational and axial alignment
Invaginating allowing frictionless retraction

Non-occlusive and back-flow protected

Paradigm-Shifting

Universal Balloon-Expandable Tavr Stent

MULTI-SCALLOPED CORE

Unique continuous leaflet attachment
Expansion-controlled arm protrusion
  • Single anchoring system designed to embrace full range of aortic valve disease pathologies
  • Extended durability
  • Precision balloon expansion

One Generic Stent Design for

  • Bioprosthetic and Polymer TAVR
  • Transapical and Transfemoral

Multilevel Anchorage Capacity

  • Protruding arms engage leaflet body
  • Mild infra-annular flare
  • Leaflet-tenting supports coronary inflow
  • Continuous leaflet attachment line ensures even stress distribution

Also designed for pure non-calcific AORTIC REGURGITATION

Size Range

SAT Valve Leaflets

The new generation of durable bioprosthetic and polymeric leaflets
  • Designed for degeneration resistance
  • Immune quiescent
  • Minimises suspension stress
  • Mass producible

CALCIFICATION RESISTANCE OF SAT TAVR LEAFLETS

0 20 40 60 80 100 120 140 160 180 Calcium (µg/mg) Conventional GA treatment SAT Pericardium SAT Polymer 124.00 3.00 0.01

SAT Polymeric Leaflets

  • Biostable polymeric leaflets
  • Designed for extended life-span compared to bioprosthetic valves
  • Thin leaflets allow lower crimp profile
  • Polymer stent encapsulation reduces leaflet stress
  • Continuous line of attachment ensures longevity

DURABILITY OF SAT POLYMER LEAFLETS

Reduced Biodegradation

25 Weeks of accelerated In-Vivo Corrosion (both images equal magnification x5000)

SAT BIOPROSTHETIC LEAFLETS

97% reduction in calcification:
  • Greatly enhanced biostability through:
    • Unique decellularization process
    • Long and short range (triple) crosslinks
    • Replacing unstable double bond with stable saturated bond
  • Continuous line of leaflet attachment ensures stress reduction