The Shockwave Medical Intravascular Lithotripsy (IVL) Connector Cable is a remot
The Shockwave Medical Intravascular Lithotripsy (IVL) Connector Cable is a remote actuator which connects the IVL Generator to the IVL Catheter and is used to activate lithotripsy energy within the IVL balloon catheter.
PPN,QMG
Percutaneous Catheter, Ultrasound,Shockwave Intravascular Lithotripsy System
The Shockwave C2 Catheter is a proprietary lithotripsy device delivered through
The Shockwave C2 Catheter is a proprietary lithotripsy device delivered through the coronary arterial system of the heart to the site of an otherwise difficult to treat calcified stenosis, including calcified stenosis that are anticipated to exhibit resistance to full balloon dilation or subsequent uniform coronary stent expansion. The IVL Catheter contains integrated lithotripsy emitters for the localized delivery of acoustic pressure pulse therapy. The lithotripsy technology generates acoustic pressure pulses within the target treatment site, disrupting calcium within the lesion allowing subsequent dilatation of a coronary artery stenosis using low balloon pressure. The system consists of the IVL Catheter, IVL Connector Cable and IVL Generator. The Shockwave C2 Catheter is available in four (4) sizes: 2.5x12mm, 3.0x12mm, 3.5x12mm, and 4.0x12mm. The Shockwave C2 is compatible with a 6F guiding catheter and extensions, has a working length of 138cm, and shaft depth markers at the proximal end. The catheter is coated with hydrophilic coating to 22.75 cm from the distal tip to reduce friction during device delivery.
QMG
Shockwave Intravascular Lithotripsy System
3
Shockwave IVL System with the Shockwave C2 Coronary IVL Catheter
The Shockwave C2 Catheter is a proprietary lithotripsy device delivered through
The Shockwave C2 Catheter is a proprietary lithotripsy device delivered through the coronary arterial system of the heart to the site of an otherwise difficult to treat calcified stenosis, including calcified stenosis that are anticipated to exhibit resistance to full balloon dilation or subsequent uniform coronary stent expansion. The IVL Catheter contains integrated lithotripsy emitters for the localized delivery of acoustic pressure pulse therapy. The lithotripsy technology generates acoustic pressure pulses within the target treatment site, disrupting calcium within the lesion allowing subsequent dilatation of a coronary artery stenosis using low balloon pressure. The system consists of the IVL Catheter, IVL Connector Cable and IVL Generator. The Shockwave C2 Catheter is available in four (4) sizes: 2.5x12mm, 3.0x12mm, 3.5x12mm, and 4.0x12mm. The Shockwave C2 is compatible with a 6F guiding catheter and extensions, has a working length of 138cm, and shaft depth markers at the proximal end. The catheter is coated with hydrophilic coating to 22.75 cm from the distal tip to reduce friction during device delivery.
QMG
Shockwave Intravascular Lithotripsy System
3
Shockwave IVL System with the Shockwave C2 Coronary IVL Catheter
The Shockwave C2 Catheter is a proprietary lithotripsy device delivered through
The Shockwave C2 Catheter is a proprietary lithotripsy device delivered through the coronary arterial system of the heart to the site of an otherwise difficult to treat calcified stenosis, including calcified stenosis that are anticipated to exhibit resistance to full balloon dilation or subsequent uniform coronary stent expansion. The IVL Catheter contains integrated lithotripsy emitters for the localized delivery of acoustic pressure pulse therapy. The lithotripsy technology generates acoustic pressure pulses within the target treatment site, disrupting calcium within the lesion allowing subsequent dilatation of a coronary artery stenosis using low balloon pressure. The system consists of the IVL Catheter, IVL Connector Cable and IVL Generator. The Shockwave C2 Catheter is available in four (4) sizes: 2.5x12mm, 3.0x12mm, 3.5x12mm, and 4.0x12mm. The Shockwave C2 is compatible with a 6F guiding catheter and extensions, has a working length of 138cm, and shaft depth markers at the proximal end. The catheter is coated with hydrophilic coating to 22.75 cm from the distal tip to reduce friction during device delivery.
QMG
Shockwave Intravascular Lithotripsy System
3
Shockwave IVL System with the Shockwave C2 Coronary IVL Catheter
The Shockwave C2 Catheter is a proprietary lithotripsy device delivered through
The Shockwave C2 Catheter is a proprietary lithotripsy device delivered through the coronary arterial system of the heart to the site of an otherwise difficult to treat calcified stenosis, including calcified stenosis that are anticipated to exhibit resistance to full balloon dilation or subsequent uniform coronary stent expansion. The IVL Catheter contains integrated lithotripsy emitters for the localized delivery of acoustic pressure pulse therapy. The lithotripsy technology generates acoustic pressure pulses within the target treatment site, disrupting calcium within the lesion allowing subsequent dilatation of a coronary artery stenosis using low balloon pressure. The system consists of the IVL Catheter, IVL Connector Cable and IVL Generator. The Shockwave C2 Catheter is available in four (4) sizes: 2.5x12mm, 3.0x12mm, 3.5x12mm, and 4.0x12mm. The Shockwave C2 is compatible with a 6F guiding catheter and extensions, has a working length of 138cm, and shaft depth markers at the proximal end. The catheter is coated with hydrophilic coating to 22.75 cm from the distal tip to reduce friction during device delivery.
QMG
Shockwave Intravascular Lithotripsy System
3
Shockwave IVL System with the Shockwave C2 Coronary IVL Catheter
The Shockwave Medical Lithoplasty® Catheter is a proprietary balloon catheter fo
The Shockwave Medical Lithoplasty® Catheter is a proprietary balloon catheter for lithotripsy-enhanced balloon dilatation of otherwise difficult to treat calcified stenosis of the peripheral vasculature.
The Shockwave Medical Lithoplasty® Catheter is a proprietary balloon catheter fo
The Shockwave Medical Lithoplasty® Catheter is a proprietary balloon catheter for lithotripsy-enhanced balloon dilatation of otherwise difficult to treat calcified stenosis of the peripheral vasculature.
The Shockwave Medical Lithoplasty® Catheter is a proprietary balloon catheter fo
The Shockwave Medical Lithoplasty® Catheter is a proprietary balloon catheter for lithotripsy-enhanced balloon dilatation of otherwise difficult to treat calcified stenosis of the peripheral vasculature.
The Shockwave Medical Lithoplasty® Catheter is a proprietary balloon catheter fo
The Shockwave Medical Lithoplasty® Catheter is a proprietary balloon catheter for lithotripsy-enhanced balloon dilation of otherwise difficult to treat calcified stenosis of the peripheral vasculature.
The Shockwave Medical Lithoplasty® Catheter is a proprietary balloon catheter fo
The Shockwave Medical Lithoplasty® Catheter is a proprietary balloon catheter for lithotripsy-enhanced balloon dilatation of otherwise difficult to treat calcified stenosis of the peripheral vasculature.
The Shockwave Medical Lithoplasty® Catheter is a proprietary balloon catheter fo
The Shockwave Medical Lithoplasty® Catheter is a proprietary balloon catheter for lithotripsy-enhanced balloon dilation of otherwise difficult to treat calcified stenosis of the peripheral vasculature.
The Shockwave Medical Lithoplasty® Catheter is a proprietary balloon catheter fo
The Shockwave Medical Lithoplasty® Catheter is a proprietary balloon catheter for lithotripsy-enhanced balloon dilation of otherwise difficult to treat calcified stenosis of the peripheral vasculature.
The Shockwave Medical Lithoplasty® Catheter is a proprietary balloon catheter fo
The Shockwave Medical Lithoplasty® Catheter is a proprietary balloon catheter for lithotripsy-enhanced balloon dilation of otherwise difficult to treat calcified stenosis of the peripheral vasculature.
The Shockwave Medical Inc. Lithoplasty® Generator provides power and exchanges d
The Shockwave Medical Inc. Lithoplasty® Generator provides power and exchanges data via a Connector Cable to the Lithoplasty® Catheters, which deliver localized lithotripsy-enhanced balloon dilatation of calcified stenotic peripheral arteries.
The Shockwave Medical Lithoplasty® Connector Cable is a remote actuator which co
The Shockwave Medical Lithoplasty® Connector Cable is a remote actuator which connects the Lithoplasty® Generator to the Lithoplasty® Catheter and is used to activate lithotripsy energy within the balloon.
PPN,QMG
Percutaneous Catheter, Ultrasound,Shockwave Intravascular Lithotripsy System
The Shockwave Medical Intravascular Lithotripsy (IVL) Connector Cable is a remot
The Shockwave Medical Intravascular Lithotripsy (IVL) Connector Cable is a remote actuator which connects the IVL Generator to the IVL Catheter and is used to activate lithotripsy energy within the IVL balloon catheter.
PPN,QMG
Percutaneous Catheter, Ultrasound,Shockwave Intravascular Lithotripsy System
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The distal catheter and balloon are hydrophilic coated to increase lubricity. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The distal catheter and balloon are hydrophilic coated to increase lubricity. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The distal catheter and balloon are hydrophilic coated to increase lubricity. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The distal catheter and balloon are hydrophilic coated to increase lubricity. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The distal catheter and balloon are hydrophilic coated to increase lubricity. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The distal catheter and balloon are hydrophilic coated to increase lubricity. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The distal catheter and balloon are hydrophilic coated to increase lubricity. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The distal catheter and balloon are hydrophilic coated to increase lubricity. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The distal catheter and balloon are hydrophilic coated to increase lubricity. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The distal catheter and balloon are hydrophilic coated to increase lubricity. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave S4 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The distal catheter and balloon are hydrophilic coated to increase lubricity. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array o
The Shockwave M5 Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The IVL Catheter is a proprietary lithotripsy device delivered through the perip
The IVL Catheter is a proprietary lithotripsy device delivered through the peripheral arterial system of the lower extremities to the site of an otherwise difficult to treat calcified stenosis. Energizing the lithotripsy device will generate pulsatile mechanical energy within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. The IVL Catheter is comprised of an integrated balloon with an array of lithotripsy emitters for the localized delivery of pulsatile mechanical energy. The system consists of an IVL Catheter, an IVL Connector Cable and an IVL Generator. The IVL Catheter is available in four (4) sizes: 8.0 x 30mm, 9.0 x 30mm, 10.0 x 30mm, and 12.0 x 30mm. The L6 Peripheral IVL Catheter is compatible with a 7 or 8F sheath and has a working length of 110cm.The Shockwave L6 Peripheral IVL Catheter shaft contains an inflation lumen, a guidewire lumen, and the lithotripsy emitters. The inflation lumen is used for inflation and deflation of the balloon with 50/50 saline/contrast medium. The guidewire lumen enables the use of a 0.018” guidewire to facilitate advancement of the catheter to and through the target stenosis. The system is designed as ‘Over-the-wire’ (OTW) with 110cm shaft working length, so an exchange length (300cm) guidewire is indicated. The emitters are positioned along the length of the balloon working length for delivery of pulsatile mechanical energy. The balloon is located near the distal tip of the catheter. Two radiopaque marker bands within the balloon denote the length of the balloon to aid in positioning of the balloon during treatment. The balloon is designed to provide an expandable segment of known length and diameter at a specific pressure. The proximal hub has three ports: one for inflation/deflation of the balloon, one for guidewire lumen, and one for connection to the IVL Connector Cable.
The IVL Catheter is a proprietary lithotripsy device delivered through the perip
The IVL Catheter is a proprietary lithotripsy device delivered through the peripheral arterial system of the lower extremities to the site of an otherwise difficult to treat calcified stenosis. Energizing the lithotripsy device will generate pulsatile mechanical energy within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. The IVL Catheter is comprised of an integrated balloon with an array of lithotripsy emitters for the localized delivery of pulsatile mechanical energy. The system consists of an IVL Catheter, an IVL Connector Cable and an IVL Generator. The IVL Catheter is available in four (4) sizes: 8.0 x 30mm, 9.0 x 30mm, 10.0 x 30mm, and 12.0 x 30mm. The L6 Peripheral IVL Catheter is compatible with a 7 or 8F sheath and has a working length of 110cm.The Shockwave L6 Peripheral IVL Catheter shaft contains an inflation lumen, a guidewire lumen, and the lithotripsy emitters. The inflation lumen is used for inflation and deflation of the balloon with 50/50 saline/contrast medium. The guidewire lumen enables the use of a 0.018” guidewire to facilitate advancement of the catheter to and through the target stenosis. The system is designed as ‘Over-the-wire’ (OTW) with 110cm shaft working length, so an exchange length (300cm) guidewire is indicated. The emitters are positioned along the length of the balloon working length for delivery of pulsatile mechanical energy. The balloon is located near the distal tip of the catheter. Two radiopaque marker bands within the balloon denote the length of the balloon to aid in positioning of the balloon during treatment. The balloon is designed to provide an expandable segment of known length and diameter at a specific pressure. The proximal hub has three ports: one for inflation/deflation of the balloon, one for guidewire lumen, and one for connection to the IVL Connector Cable.
The IVL Catheter is a proprietary lithotripsy device delivered through the perip
The IVL Catheter is a proprietary lithotripsy device delivered through the peripheral arterial system of the lower extremities to the site of an otherwise difficult to treat calcified stenosis. Energizing the lithotripsy device will generate pulsatile mechanical energy within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. The IVL Catheter is comprised of an integrated balloon with an array of lithotripsy emitters for the localized delivery of pulsatile mechanical energy. The system consists of an IVL Catheter, an IVL Connector Cable and an IVL Generator. The IVL Catheter is available in four (4) sizes: 8.0 x 30mm, 9.0 x 30mm, 10.0 x 30mm, and 12.0 x 30mm. The L6 Peripheral IVL Catheter is compatible with a 7 or 8F sheath and has a working length of 110cm.The Shockwave L6 Peripheral IVL Catheter shaft contains an inflation lumen, a guidewire lumen, and the lithotripsy emitters. The inflation lumen is used for inflation and deflation of the balloon with 50/50 saline/contrast medium. The guidewire lumen enables the use of a 0.018” guidewire to facilitate advancement of the catheter to and through the target stenosis. The system is designed as ‘Over-the-wire’ (OTW) with 110cm shaft working length, so an exchange length (300cm) guidewire is indicated. The emitters are positioned along the length of the balloon working length for delivery of pulsatile mechanical energy. The balloon is located near the distal tip of the catheter. Two radiopaque marker bands within the balloon denote the length of the balloon to aid in positioning of the balloon during treatment. The balloon is designed to provide an expandable segment of known length and diameter at a specific pressure. The proximal hub has three ports: one for inflation/deflation of the balloon, one for guidewire lumen, and one for connection to the IVL Connector Cable.
The IVL Catheter is a proprietary lithotripsy device delivered through the perip
The IVL Catheter is a proprietary lithotripsy device delivered through the peripheral arterial system of the lower extremities to the site of an otherwise difficult to treat calcified stenosis. Energizing the lithotripsy device will generate pulsatile mechanical energy within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. The IVL Catheter is comprised of an integrated balloon with an array of lithotripsy emitters for the localized delivery of pulsatile mechanical energy. The system consists of an IVL Catheter, an IVL Connector Cable and an IVL Generator. The IVL Catheter is available in four (4) sizes: 8.0 x 30mm, 9.0 x 30mm, 10.0 x 30mm, and 12.0 x 30mm. The L6 Peripheral IVL Catheter is compatible with a 7 or 8F sheath and has a working length of 110cm.The Shockwave L6 Peripheral IVL Catheter shaft contains an inflation lumen, a guidewire lumen, and the lithotripsy emitters. The inflation lumen is used for inflation and deflation of the balloon with 50/50 saline/contrast medium. The guidewire lumen enables the use of a 0.018” guidewire to facilitate advancement of the catheter to and through the target stenosis. The system is designed as ‘Over-the-wire’ (OTW) with 110cm shaft working length, so an exchange length (300cm) guidewire is indicated. The emitters are positioned along the length of the balloon working length for delivery of pulsatile mechanical energy. The balloon is located near the distal tip of the catheter. Two radiopaque marker bands within the balloon denote the length of the balloon to aid in positioning of the balloon during treatment. The balloon is designed to provide an expandable segment of known length and diameter at a specific pressure. The proximal hub has three ports: one for inflation/deflation of the balloon, one for guidewire lumen, and one for connection to the IVL Connector Cable.
The Shockwave M5+ Intravascular Lithotripsy (IVL) Catheter consists of an array
The Shockwave M5+ Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave M5+ Intravascular Lithotripsy (IVL) Catheter consists of an array
The Shockwave M5+ Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).
The Shockwave M5+ Intravascular Lithotripsy (IVL) Catheter consists of an array
The Shockwave M5+ Intravascular Lithotripsy (IVL) Catheter consists of an array of miniaturized lithotripsy emitters, located inside a balloon, that generate acoustic pressure waves within the target treatment site, disrupting calcium within the lesion and allowing subsequent dilation of a peripheral artery stenosis using low balloon pressure. Two radiopaque marker bands inside the balloon aid in positioning. The proximal hub has three ports: one for inflation/deflation of the balloon with 50/50 saline/contrast medium, one for the ‘Over-the-wire’ (OTW) guidewire lumen, and one for connection to the IVL Connector Cable (and IVL Generator).