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 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 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.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and Two (2) dilators.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and Two (2) dilators.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and Two (2) dilators.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and Two (2) dilators.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and One (1) dilator.
Introducer Sheath System containing One (1) introducer Sheath with haemostasis v
Introducer Sheath System containing One (1) introducer Sheath with haemostasis valve and Two (2) dilators.