The ULTRASKIN Hydrophilic Guide Wire consists of a Nitinol core wire, a plastic
The ULTRASKIN Hydrophilic Guide Wire consists of a Nitinol core wire, a plastic jacket with hydrophilic coating. The wire distal curve comes in different shapes such as straight, J angled and angled. The guide wire is radiopactitive under fluoroscopy.
The ULTRASKIN Hydrophilic Guide Wire consists of a Nitinol core wire, a plastic
The ULTRASKIN Hydrophilic Guide Wire consists of a Nitinol core wire, a plastic jacket with hydrophilic coating. The wire distal curve comes in different shapes such as straight, J angled and angled. The guide wire is radiopactitive under fluoroscopy.
The ULTRASKIN Hydrophilic Guide Wire consists of a Nitinol core wire, a plastic
The ULTRASKIN Hydrophilic Guide Wire consists of a Nitinol core wire, a plastic jacket with hydrophilic coating. The wire distal curve comes in different shapes such as straight, J angled and angled. The guide wire is radiopactitive under fluoroscopy.
The ULTRASKIN Hydrophilic Guide Wire consists of a Nitinol core wire, a plastic
The ULTRASKIN Hydrophilic Guide Wire consists of a Nitinol core wire, a plastic jacket with hydrophilic coating. The wire distal curve comes in different shapes such as straight, J angled and angled. The guide wire is radiopactitive under fluoroscopy.
The ULTRASKIN Hydrophilic Guide Wire consists of a Nitinol core wire, a plastic
The ULTRASKIN Hydrophilic Guide Wire consists of a Nitinol core wire, a plastic jacket with hydrophilic coating. The wire distal curve comes in different shapes such as straight, J angled and angled. The guide wire is radiopactitive under fluoroscopy.
The ULTRASKIN Hydrophilic Guide Wire consists of a Nitinol core wire, a plastic
The ULTRASKIN Hydrophilic Guide Wire consists of a Nitinol core wire, a plastic jacket with hydrophilic coating. The wire distal curve comes in different shapes such as straight, J angled and angled. The guide wire is radiopactitive under fluoroscopy.
The ULTRASKINTM Hydrophilic Guide Wire consists of a Nitinol core wire, a plasti
The ULTRASKINTM Hydrophilic Guide Wire consists of a Nitinol core wire, a plastic jacket with hydrophilic coating. The wire distal curve comes in different shapes such as straight, J angled and angled. The guide wire is radiopactitive under fluoroscopy.
The Puncture Needle incorporates a lumen, which provides a conduit for the inser
The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling thewire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The Puncture Needle incorporates a lumen, which provides a conduit for the inser
The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling thewire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The Puncture Needle incorporates a lumen, which provides a conduit for the inser
The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling thewire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The Puncture Needle incorporates a lumen, which provides a conduit for the inser
The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling thewire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The Puncture Needle incorporates a lumen, which provides a conduit for the inser
The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling thewire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The Puncture Needle incorporates a lumen, which provides a conduit for the inser
The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling thewire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The Puncture Needle incorporates a lumen, which provides a conduit for the inser
The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling thewire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The Puncture Needle incorporates a lumen, which provides a conduit for the inser
The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling thewire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The Puncture Needle incorporates a lumen, which provides a conduit for the inser
The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling thewire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The Puncture Needle incorporates a lumen, which provides a conduit for the inser
The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling thewire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The Puncture Needle incorporates a lumen, which provides a conduit for the inser
The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling thewire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The Puncture Needle incorporates a lumen, which provides a conduit for the inser
The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling thewire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The Puncture Needle incorporates a lumen, which provides a conduit for the inser
The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling thewire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The Puncture Needle incorporates a lumen, which provides a conduit for the inser
The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling thewire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The Puncture Needle incorporates a lumen, which provides a conduit for the inser
The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling thewire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The Puncture Needle incorporates a lumen, which provides a conduit for the inser
The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling thewire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopy and provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopyand provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopyand provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopyand provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to provide support and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopyand provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to providesupport and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopyand provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to providesupport and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopyand provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to providesupport and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopyand provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to providesupport and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a
The ShoocinTM Introducer Kit consists of a puncture needle, a guide wire with a guide wire collimator, a sheath introducer, and a dilator. The Puncture Needle incorporates a lumen, which provides a conduit for the insertion of the Guide Wire into the vascular system. The flexible stainless-steel guide wire is utilized as a guiding mechanism for the insertion of the Introducer Sheath into the vascular system. The Guide Wire contains a wire collimator, which assists in funneling the wire through the lumen of the Puncture Needle. The Guide Wire is radio-detective under fluoroscopy. The Sheath Introducer contains Barium sulfate (BaSO4), making the device visible under fluoroscopyand provides a conduit for introducing other interventional devices, including guide wires and interventional catheters, into the vascular system. The main components of this assembly are a non-hydrophilic coated Sheath Introducer, hemostasis valve housing, and a side port tubing with a 3-way stopcock/valve. The Dilator is used to providesupport and stability to the Sheath Introducer during deployment into the vascular system. The proximal end of the Dilator includes a luer port and has a tapered, atraumatic distal tip. There is no radiocontrast agent on the dilator.
Rotational Excisional Atherectomy System. The Catheter Set includes one Rotarex™
Rotational Excisional Atherectomy System. The Catheter Set includes one Rotarex™S catheter (gauge 8F; length 110 cm), one guidewire (0.018” diameter; 270cm in length), one drape and one collecting bag.
Rotational Excisional Atherectomy System. The Catheter Set includes one Rotarex™
Rotational Excisional Atherectomy System. The Catheter Set includes one Rotarex™S catheter (gauge 8F; length 85 cm), one guidewire (0.018” diameter; 220cm in length), one drape and one collecting bag.
Rotational Excisional Atherectomy System. The Catheter Set includes one Rotarex™
Rotational Excisional Atherectomy System. The Catheter Set includes one Rotarex™S catheter (gauge 6F; length 135 cm), one guidewire (0.018” diameter; 320 cm in length), one sterile and one collecting bag.
Rotational Excisional Atherectomy System. The Catheter Set includes one Rotarex™
Rotational Excisional Atherectomy System. The Catheter Set includes one Rotarex™S catheter (gauge 6F ; length 110 cm), one guidewire (0.018” diameter; 270cm in length), one drape and one collecting bag.
The Aspirex™ Thrombectomy Catheter Set is composed of one Aspirex™ Thrombectomy
The Aspirex™ Thrombectomy Catheter Set is composed of one Aspirex™ Thrombectomy Catheter (gauge 10F; length 110cm), one Aspirex™ Guidewire (0.025” diameter; 270cm in length), one collecting bag, and one sterile drape.
The Aspirex™ Thrombectomy Catheter Set is composed of one Aspirex™ Thrombectomy
The Aspirex™ Thrombectomy Catheter Set is composed of one Aspirex™ Thrombectomy Catheter (gauge 8F; length 110cm), one Aspirex™ Guidewire (0.018” diameter; 270cm in length), one collecting bag, and one sterile drape.
The Aspirex™ Thrombectomy Catheter Set is composed of one Aspirex™ Thrombectomy
The Aspirex™ Thrombectomy Catheter Set is composed of one Aspirex™ Thrombectomy Catheter (gauge 8F; length 85cm), one Aspirex™ Guidewire (0.018” diameter; 220cm in length), one collecting bag, and one sterile drape.
The Aspirex™ Thrombectomy Catheter Set is composed of one Aspirex™ Thrombectomy
The Aspirex™ Thrombectomy Catheter Set is composed of one Aspirex™ Thrombectomy Catheter (gauge 6F; length 135cm), one Aspirex™ Guidewire (0.018” diameter; 320 cm in length), one collecting bag, and one sterile drape.
The Aspirex™ S Thrombectomy Catheter Set is composed of one Aspirex™ S Thrombect
The Aspirex™ S Thrombectomy Catheter Set is composed of one Aspirex™ S Thrombectomy Catheter (gauge 6F; length 110cm), one Aspirex™ S Guidewire (0.018” diameter; 270cm in length), one collecting bag, and one sterile drape.
The Rotarex™ S and Aspirex™ S Guidewire has a LubriSkin PTFE-coated nitinol core
The Rotarex™ S and Aspirex™ S Guidewire has a LubriSkin PTFE-coated nitinol core wire with a gold-plated Tungsten tip coated with DSM ComfortCoat® hydrophilic coating. The guidewire is used to initially cross through the area to be treated. To be used with Straub Medical catheters.
Rotational Excisional Atherectomy System.The Catheter Set includes one Rotarex®S
Rotational Excisional Atherectomy System.The Catheter Set includes one Rotarex®S catheter (gauge 8F; length 110 cm), one guidewire (0.018” diameter; 270cm in length), one drape and one collecting bag.
Rotational Excisional Atherectomy System.The Catheter Set includes one Rotarex®S
Rotational Excisional Atherectomy System.The Catheter Set includes one Rotarex®S catheter (gauge 8F; length 85 cm), one guidewire (0.018” diameter; 220cm in length), one drape and one collecting bag.
Rotational Excisional Atherectomy System. The Catheter Set includes one Rotarex®
Rotational Excisional Atherectomy System. The Catheter Set includes one Rotarex®S catheter (gauge 6F; length 135 cm), one guidewire (0.018” diameter; 320 cm in length), one drape and one collecting bag.
Rotational Excisional Atherectomy System.The Catheter Set includes one Rotarex®S
Rotational Excisional Atherectomy System.The Catheter Set includes one Rotarex®S catheter (gauge 6F; length 110 cm), one guidewire (0.018” diameter; 270cm in length), one drape and one collecting bag.
The Rotarex™ S and Aspirex™ S Guidewire has a LubriSkin PTFE-coated nitinol core
The Rotarex™ S and Aspirex™ S Guidewire has a LubriSkin PTFE-coated nitinol core wire with a gold-plated Tungsten tip coated with DSM ComfortCoat® hydrophilic coating. The guidewire is used to initially cross through the area to be treated. To be used with Straub Medical catheters.
The Rotarex™ S and Aspirex™ S Guidewire has a LubriSkin PTFE-coated nitinol core
The Rotarex™ S and Aspirex™ S Guidewire has a LubriSkin PTFE-coated nitinol core wire with a gold-plated Tungsten tip coated with DSM ComfortCoat® hydrophilic coating. The guidewire is used to initially cross through the area to be treated. To be used with Straub Medical catheters.
The Rotarex™ S and Aspirex™ S Guidewire has a LubriSkin PTFE-coated nitinol core
The Rotarex™ S and Aspirex™ S Guidewire has a LubriSkin PTFE-coated nitinol core wire with a gold-plated Tungsten tip coated with DSM ComfortCoat® hydrophilic coating. The guidewire is used to initially cross through the area to be treated. To be used with Straub Medical catheters.