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 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.
DYB
Introducer, Catheter
2
Shoocin
Other products with the same Product Codes"DTL, PTM"
A collection of sterile, flexible, double-bore tubing, and associated items (typ
A collection of sterile, flexible, double-bore tubing, and associated items (typically includes clamps, filters, spikes, and connectors), used as twin conduits in a surgical irrigation/aspiration system to deliver irrigation solution to a surgical field through one bore and provide aspiration (suction) through the other during a surgical procedure (e.g., tissue/bone morcellation, ENT, neuro and general surgery). The tubing is made of synthetic material and is of a fixed diameter that may be specific to the requirements of the clinical application for which it is intended. This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A sterile device designed to facilitate/regulate the delivery of cardioplegic so
A sterile device designed to facilitate/regulate the delivery of cardioplegic solution to the heart during a cardiopulmonary bypass procedure by connecting an administration line to a cardioplegia cannula. Also known as a cardioplegia delivery set, it basically consists of tubing [e.g., polyvinyl chloride (PVC)] with connectors. It may have a single lumen or branched multiple-lumen design and include various types of connectors, clamps, and valves, depending on additional intended uses (e.g., venting, recirculation, and/or simultaneous perfusion of vein grafts). This is a single-use device.
A small, sterile device with a locking/holding mechanism designed to secure most
A small, sterile device with a locking/holding mechanism designed to secure most any kind of tubing or tubing-like device (e.g., cables, cords) to a patient or to a surgical drape during a clinical intervention. It is typically designed as: 1) an adhesive pad (plaster), strip, or bandage intended to attach to the patient's skin or drape with the exposed side (top side) having an integrated fixation mechanism (e.g., Velcro hook/loop closure); or 2) a mechanical closure or gripping system intended to hold the tubing or tubing hub in place. This device is not designed to hold a specific type or brand of tubing. This is a single-use device.
A sterile, semi-rigid tube used in open heart surgery to facilitate the transfer
A sterile, semi-rigid tube used in open heart surgery to facilitate the transfer of priming fluids during the priming of the extracorporeal circuit of a cardiopulmonary bypass system. It is a noninvasive product in the form of a tube or tubing used to channel the fluids (i.e., primer/blood) to facilitate priming of the extracorporeal circuit and connection of the cardiopulmonary bypass system (heart/lung machine) to the patient. It is typically a moulded plastic tube with hard plastic spike at the distal end that connects to the bag or container of primer solution, a connector at the proximal end, and a central pinch clamp. This is a single-use device.
A sterile, semi-rigid tube used in open heart surgery to facilitate the transfer
A sterile, semi-rigid tube used in open heart surgery to facilitate the transfer of priming fluids during the priming of the extracorporeal circuit of a cardiopulmonary bypass system. It is a noninvasive product in the form of a tube or tubing used to channel the fluids (i.e., primer/blood) to facilitate priming of the extracorporeal circuit and connection of the cardiopulmonary bypass system (heart/lung machine) to the patient. It is typically a moulded plastic tube with hard plastic spike at the distal end that connects to the bag or container of primer solution, a connector at the proximal end, and a central pinch clamp. This is a single-use device.
A sterile, semi-rigid tube used in open heart surgery to facilitate the transfer
A sterile, semi-rigid tube used in open heart surgery to facilitate the transfer of priming fluids during the priming of the extracorporeal circuit of a cardiopulmonary bypass system. It is a noninvasive product in the form of a tube or tubing used to channel the fluids (i.e., primer/blood) to facilitate priming of the extracorporeal circuit and connection of the cardiopulmonary bypass system (heart/lung machine) to the patient. It is typically a moulded plastic tube with hard plastic spike at the distal end that connects to the bag or container of primer solution, a connector at the proximal end, and a central pinch clamp. This is a single-use device.
A small, sterile device intended to connect an intravenous (IV) fluid bag or blo
A small, sterile device intended to connect an intravenous (IV) fluid bag or blood bag to a fluid line to administer fluid to a patient. It consists of a plastic hollow spike at one end intended to be inserted into the IV bag port, a connector at the other end to attach to the IV line (typically via a drip chamber) and may include an additional administration port (i.e., Y-site device). It does not include a built-in drip chamber. This is a single-use device.
A small, sterile device intended to connect an intravenous (IV) fluid bag or blo
A small, sterile device intended to connect an intravenous (IV) fluid bag or blood bag to a fluid line to administer fluid to a patient. It consists of a plastic hollow spike at one end intended to be inserted into the IV bag port, a connector at the other end to attach to the IV line (typically via a drip chamber) and may include an additional administration port (i.e., Y-site device). It does not include a built-in drip chamber. This is a single-use device.
1/2" TUBING TO FIT OVER THE CORONARY PERFUSION OULTET PORT OF AN OXYGENATOR, TO
1/2" TUBING TO FIT OVER THE CORONARY PERFUSION OULTET PORT OF AN OXYGENATOR, TO SECURELY SEAL OFF THE PORT, THUS REDUCING THE POSSIBILITY OF THE PORT BEING INADVERTENTLY OPENED DURING THE HEMOPERFUSION PROCEDURE.
1/2 TUBING TO FIT OVER THE CORONARY PERFUSION OUTLET PORT OF AN OXYGENATOR, TO
1/2 TUBING TO FIT OVER THE CORONARY PERFUSION OUTLET PORT OF AN OXYGENATOR, TO SECURELY SEAL OFF THE PORT, THUS REDUCING THE POSSIBLITY OF THE PORT BEING INADVERTENTLY OPENED DUTING THE HEMOPERFUSION PROCEEDURE.
1/4" TUBING TO FIT OVER THE CORONARY PERFUSION OUTLET PORT OF AN OXYGENATOR, TO
1/4" TUBING TO FIT OVER THE CORONARY PERFUSION OUTLET PORT OF AN OXYGENATOR, TO SECURELY SEAL OFF THE PORT, THUS REDUCING THE POSSIBLITY OF THE PORT BEING INADVERTENTLY OPENED DUTING THE HEMOPERFUSION PROCEEDURE.
1/4" TUBING TO FIT OVER THE CORONARY PERFUSION OUTLET PORT OF AN OXYGENATOR, TO
1/4" TUBING TO FIT OVER THE CORONARY PERFUSION OUTLET PORT OF AN OXYGENATOR, TO SECURELY SEAL OFF THE PORT, THUS REDUCING THE POSSIBLITY OF THE PORT BEING INADVERTENTLY OPENED DUTING THE HEMOPERFUSION PROCEEDURE.
A sterile, semi-rigid tube used in open heart surgery to facilitate the transfer
A sterile, semi-rigid tube used in open heart surgery to facilitate the transfer of priming fluids during the priming of the extracorporeal circuit of a cardiopulmonary bypass system. It is a noninvasive product in the form of a tube or tubing used to channel the fluids (i.e., primer/blood) to facilitate priming of the extracorporeal circuit and connection of the cardiopulmonary bypass system (heart/lung machine) to the patient. It is typically a moulded plastic tube with hard plastic spike at the distal end that connects to the bag or container of primer solution, a connector at the proximal end, and a central pinch clamp. This is a single-use device.
A sterile, semi-rigid tube used in open heart surgery to facilitate the transfer
A sterile, semi-rigid tube used in open heart surgery to facilitate the transfer of priming fluids during the priming of the extracorporeal circuit of a cardiopulmonary bypass system. It is a noninvasive product in the form of a tube or tubing used to channel the fluids (i.e., primer/blood) to facilitate priming of the extracorporeal circuit and connection of the cardiopulmonary bypass system (heart/lung machine) to the patient. It is typically a moulded plastic tube with hard plastic spike at the distal end that connects to the bag or container of primer solution, a connector at the proximal end, and a central pinch clamp. This is a single-use device.
A sterile, semi-rigid tube used in open heart surgery to facilitate the transfer
A sterile, semi-rigid tube used in open heart surgery to facilitate the transfer of priming fluids during the priming of the extracorporeal circuit of a cardiopulmonary bypass system. It is a noninvasive product in the form of a tube or tubing used to channel the fluids (i.e., primer/blood) to facilitate priming of the extracorporeal circuit and connection of the cardiopulmonary bypass system (heart/lung machine) to the patient. It is typically a moulded plastic tube with hard plastic spike at the distal end that connects to the bag or container of primer solution, a connector at the proximal end, and a central pinch clamp. This is a single-use device.
A sterile, semi-rigid tube used in open heart surgery to facilitate the transfer
A sterile, semi-rigid tube used in open heart surgery to facilitate the transfer of priming fluids during the priming of the extracorporeal circuit of a cardiopulmonary bypass system. It is a noninvasive product in the form of a tube or tubing used to channel the fluids (i.e., primer/blood) to facilitate priming of the extracorporeal circuit and connection of the cardiopulmonary bypass system (heart/lung machine) to the patient. It is typically a moulded plastic tube with hard plastic spike at the distal end that connects to the bag or container of primer solution, a connector at the proximal end, and a central pinch clamp. This is a single-use device.
A sterile plastic device designed to join two or more tubes of a cardiopulmonary
A sterile plastic device designed to join two or more tubes of a cardiopulmonary bypass system circuit, typically to create an extension or shunt; it may also be used to connect ancillary disposable devices (e.g., temperature probe). It typically has a Y-shape or straight design and is profiled at its ends to create leak-proof connections. This is a single-use device.
A sterile plastic device designed to join two or more tubes of a cardiopulmonary
A sterile plastic device designed to join two or more tubes of a cardiopulmonary bypass system circuit, typically to create an extension or shunt; it may also be used to connect ancillary disposable devices (e.g., temperature probe). It typically has a Y-shape or straight design and is profiled at its ends to create leak-proof connections. This is a single-use device.
A sterile plastic device designed to join two or more tubes of a cardiopulmonary
A sterile plastic device designed to join two or more tubes of a cardiopulmonary bypass system circuit, typically to create an extension or shunt; it may also be used to connect ancillary disposable devices (e.g., temperature probe). It typically has a Y-shape or straight design and is profiled at its ends to create leak-proof connections. This is a single-use device.
A sterile plastic device designed to join two or more tubes of a cardiopulmonary
A sterile plastic device designed to join two or more tubes of a cardiopulmonary bypass system circuit, typically to create an extension or shunt; it may also be used to connect ancillary disposable devices (e.g., temperature probe). It typically has a Y-shape or straight design and is profiled at its ends to create leak-proof connections. This is a single-use device.
3/8" TUBING TO FIT OVER THE CORONARY PERFUSION OUTLET PORT OF AN OXYGENATOR, TO
3/8" TUBING TO FIT OVER THE CORONARY PERFUSION OUTLET PORT OF AN OXYGENATOR, TO SECURELY SEAL OFF THE PORT, THUS REDUCING THE POSSIBLITY OF THE PORT BEING INADVERTENTLY OPENED DUTING THE HEMOPERFUSION PROCEEDURE.
3/8" TUBING TO FIT OVER THE CORONARY PERFUSION OUTLET PORT OF AN OXYGENATOR, TO
3/8" TUBING TO FIT OVER THE CORONARY PERFUSION OUTLET PORT OF AN OXYGENATOR, TO SECURELY SEAL OFF THE PORT, THUS REDUCING THE POSSIBLITY OF THE PORT BEING INADVERTENTLY OPENED DUTING THE HEMOPERFUSION PROCEEDURE.
A non-sterile device designed to connect together two or more tubes typically wi
A non-sterile device designed to connect together two or more tubes typically with the intention of creating an extension. The connecting ends of this device will typically be serrated to provide a secure grip for the applied tubes. Clips or other forms of locking devices may be applied over the tubes to further secure the fitting. This device will not be appropriate for connecting tubes that are designed to carry (withstand) high pressures [e.g., high pressure gases]. This is a single-use device.
A small, noninvasive, closed-ended Luer attachment intended to be attached to a
A small, noninvasive, closed-ended Luer attachment intended to be attached to a luminal device (e.g., catheter, intravenous administration or pressure-monitoring tubing, syringe) with a Luer connection to close the device lumen, typically to prevent fluid path contamination and/or spillage; it is not intended to disinfect/maintain disinfection. It is typically made of synthetic polymers and may incorporate a strap; it does not incorporate a filter or valve. This is a single-use device.