Features
- Solid proximal core
-
Solid proximal core
The solid proximal core is more like a workhorse wire. Embedded conductive ribbons eliminate the need for a hollow hypotube, making a larger solid core possible for torque, push, and kink resistance more like a workhorse wire.
- Nitinol distal core
-
Nitinol distal core and integrated conductive bands.
The Nitinol core is super elastic for durability and shape recovery. Useful for long multi-vessel procedures. Integrated conductive bands enable the back end to be a continuous piece with no joints, designed to reduce kinking, facilitate device loading, device delivery and easy reconnects.
- iFR has co-registration
-
Only iFR has Co-registration for advanced physiologic guidance.
Map iFR values directly onto the angiogram, so you can see precisely which parts of a vessel are causing ischemia.
- Compatible with iFR and iFR co
-
Compatible with iFR and iFR Co-registration.
iFR Co-registration makes it easy to identify the precise locations causing ischemia.
Solid proximal core
The solid proximal core is more like a workhorse wire. Embedded conductive ribbons eliminate the need for a hollow hypotube, making a larger solid core possible for torque, push, and kink resistance more like a workhorse wire.
Solid proximal core
The solid proximal core is more like a workhorse wire. Embedded conductive ribbons eliminate the need for a hollow hypotube, making a larger solid core possible for torque, push, and kink resistance more like a workhorse wire.
Click here for more information
Solid proximal core
Solid proximal core
The solid proximal core is more like a workhorse wire. Embedded conductive ribbons eliminate the need for a hollow hypotube, making a larger solid core possible for torque, push, and kink resistance more like a workhorse wire.
Nitinol distal core and integrated conductive bands.
The Nitinol core is super elastic for durability and shape recovery. Useful for long multi-vessel procedures. Integrated conductive bands enable the back end to be a continuous piece with no joints, designed to reduce kinking, facilitate device loading, device delivery and easy reconnects.
Nitinol distal core and integrated conductive bands.
The Nitinol core is super elastic for durability and shape recovery. Useful for long multi-vessel procedures. Integrated conductive bands enable the back end to be a continuous piece with no joints, designed to reduce kinking, facilitate device loading, device delivery and easy reconnects.
Click here for more information
Nitinol distal core
Nitinol distal core and integrated conductive bands.
The Nitinol core is super elastic for durability and shape recovery. Useful for long multi-vessel procedures. Integrated conductive bands enable the back end to be a continuous piece with no joints, designed to reduce kinking, facilitate device loading, device delivery and easy reconnects.
Only iFR has Co-registration for advanced physiologic guidance.
Map iFR values directly onto the angiogram, so you can see precisely which parts of a vessel are causing ischemia.
Only iFR has Co-registration for advanced physiologic guidance.
Map iFR values directly onto the angiogram, so you can see precisely which parts of a vessel are causing ischemia.
Click here for more information
iFR has co-registration
Only iFR has Co-registration for advanced physiologic guidance.
Map iFR values directly onto the angiogram, so you can see precisely which parts of a vessel are causing ischemia.
Compatible with iFR and iFR Co-registration.
iFR Co-registration makes it easy to identify the precise locations causing ischemia.
Compatible with iFR and iFR Co-registration.
iFR Co-registration makes it easy to identify the precise locations causing ischemia.
Click here for more information
Compatible with iFR and iFR co
Compatible with iFR and iFR Co-registration.
iFR Co-registration makes it easy to identify the precise locations causing ischemia.
- Solid proximal core
- Nitinol distal core
- iFR has co-registration
- Compatible with iFR and iFR co
See all features
- Solid proximal core
-
Solid proximal core
The solid proximal core is more like a workhorse wire. Embedded conductive ribbons eliminate the need for a hollow hypotube, making a larger solid core possible for torque, push, and kink resistance more like a workhorse wire.
- Nitinol distal core
-
Nitinol distal core and integrated conductive bands.
The Nitinol core is super elastic for durability and shape recovery. Useful for long multi-vessel procedures. Integrated conductive bands enable the back end to be a continuous piece with no joints, designed to reduce kinking, facilitate device loading, device delivery and easy reconnects.
- iFR has co-registration
-
Only iFR has Co-registration for advanced physiologic guidance.
Map iFR values directly onto the angiogram, so you can see precisely which parts of a vessel are causing ischemia.
- Compatible with iFR and iFR co
-
Compatible with iFR and iFR Co-registration.
iFR Co-registration makes it easy to identify the precise locations causing ischemia.
Solid proximal core
The solid proximal core is more like a workhorse wire. Embedded conductive ribbons eliminate the need for a hollow hypotube, making a larger solid core possible for torque, push, and kink resistance more like a workhorse wire.
Solid proximal core
The solid proximal core is more like a workhorse wire. Embedded conductive ribbons eliminate the need for a hollow hypotube, making a larger solid core possible for torque, push, and kink resistance more like a workhorse wire.
Click here for more information
Solid proximal core
Solid proximal core
The solid proximal core is more like a workhorse wire. Embedded conductive ribbons eliminate the need for a hollow hypotube, making a larger solid core possible for torque, push, and kink resistance more like a workhorse wire.
Nitinol distal core and integrated conductive bands.
The Nitinol core is super elastic for durability and shape recovery. Useful for long multi-vessel procedures. Integrated conductive bands enable the back end to be a continuous piece with no joints, designed to reduce kinking, facilitate device loading, device delivery and easy reconnects.
Nitinol distal core and integrated conductive bands.
The Nitinol core is super elastic for durability and shape recovery. Useful for long multi-vessel procedures. Integrated conductive bands enable the back end to be a continuous piece with no joints, designed to reduce kinking, facilitate device loading, device delivery and easy reconnects.
Click here for more information
Nitinol distal core
Nitinol distal core and integrated conductive bands.
The Nitinol core is super elastic for durability and shape recovery. Useful for long multi-vessel procedures. Integrated conductive bands enable the back end to be a continuous piece with no joints, designed to reduce kinking, facilitate device loading, device delivery and easy reconnects.
Only iFR has Co-registration for advanced physiologic guidance.
Map iFR values directly onto the angiogram, so you can see precisely which parts of a vessel are causing ischemia.
Only iFR has Co-registration for advanced physiologic guidance.
Map iFR values directly onto the angiogram, so you can see precisely which parts of a vessel are causing ischemia.
Click here for more information
iFR has co-registration
Only iFR has Co-registration for advanced physiologic guidance.
Map iFR values directly onto the angiogram, so you can see precisely which parts of a vessel are causing ischemia.
Compatible with iFR and iFR Co-registration.
iFR Co-registration makes it easy to identify the precise locations causing ischemia.
Compatible with iFR and iFR Co-registration.
iFR Co-registration makes it easy to identify the precise locations causing ischemia.
Click here for more information
Compatible with iFR and iFR co
Compatible with iFR and iFR Co-registration.
iFR Co-registration makes it easy to identify the precise locations causing ischemia.