Perfusion Cannula

Product Details:

A femoral artery cannula is used for certain types of circulatory support to allow proximal and distal blood flow.

Additional Information:

• Item Code: EliteFemoralCannula
• Production Capacity: 100 pieces
• Delivery Time: 7 Days
• Packaging Details: Sterile Pouch Pack with 10 pcs in a carton

Product Details:

Blower Mister use in cardiovascular thoracic  open heart surgery

The Blower/Mister features:

• Two Separate Controller for Air and  Fluid Lines with Pinch Clamp Stopper

   

• Easy-to-hold design
• Malleable shaft
• Specialised nozzle, utilising a micro-orifice for fluid delivery and a separate orifice for gas delivery

 BLOWER/MISTER

The Blower/Mister is designed to improve visualisation of the surgical site. An irrigation mist gently clears blood from the site, improving visualisation without drying or desiccating delicate tissue.

Additional Information:

• Item Code: disposable
• Production Capacity: 100000 pic
• Delivery Time: 6 days
• Packaging Details: 10 pic in one box

Product Details:

An ECMO (Extracorporeal Membrane Oxygenation) perfusion cannula is a critical component used in ECMO therapy, where it facilitates the removal of blood from a patient’s body, oxygenates it outside the body through a membrane oxygenator, and then returns it to the body. ECMO is typically used for patients with severe cardiac or respiratory failure, providing life support when the heart or lungs can no longer meet the body's needs.

Key Features of ECMO Perfusion Cannulas:

1. Dual-Lumen Cannula:

   • Single Insertion Site: In ECMO, a dual-lumen cannula is often used, especially for venous drainage and return in veno-venous ECMO (VV ECMO) or veno-arterial ECMO (VA ECMO). This cannula has two lumens (tubes) within a single catheter: one for draining deoxygenated blood and the other for returning oxygenated blood. This design reduces the need for multiple insertion points and minimizes the trauma to the patient's blood vessels.

2. Material:

   • The cannulas are made from biocompatible materials such as silicone or polyurethane, designed to reduce the risk of thrombosis (clot formation) and other complications.

3. Sizes:

   • ECMO cannulas come in a variety of sizes based on the patient’s age, weight, and the specific ECMO application. Larger cannulas may be needed for adults, while smaller ones are used for neonatal or pediatric patients.

4. Insertion Sites:

   • Venous Cannula: For VV ECMO, a venous cannula is typically inserted into large veins like the femoral vein or internal jugular vein to drain blood.
   • Arterial Cannula: For VA ECMO, an arterial cannula is inserted into an artery (such as the femoral artery, subclavian artery, or aorta) to return oxygenated blood back into the body.

5. Lumen Configuration:

   • In dual-lumen cannulas, the proximal lumen typically drains blood from the venous side (i.e., from the body) to the ECMO circuit, while the distal lumen returns oxygenated blood to the patient. This design minimizes the need for multiple cannulas and insertion sites.

Product Details:

A perfusion cannula is a medical device used during cardiopulmonary bypass (CPB), ECMO (extracorporeal membrane oxygenation), and other procedures requiring blood circulation support. These cannulas are designed to connect a patient's vascular system to a heart-lung machine, ECMO system, or other extracorporeal support systems, allowing for the delivery or removal of blood during various treatments.

Key Features of Perfusion Cannulas:

1. Structure: Perfusion cannulas are typically made from materials like medical-grade silicone or polyurethane and are designed to be biocompatible. They feature a smooth, flexible design to minimize injury to blood vessels during insertion.

2. Types of Cannulas:

   • Arterial Cannula: Used to deliver oxygenated blood back into the patient's arterial circulation during CPB or ECMO. It is typically placed in the femoral, radial, or subclavian arteries.
   • Venous Cannula: Used to drain deoxygenated blood from the body to the oxygenator or heart-lung machine. It is typically placed in large veins like the femoral vein or superior vena cava.
   • Dual-Lumen Cannula: A type of venous cannula with two lumens (tubes) used for both draining and returning blood in situations where only one insertion site is preferred, commonly used in ECMO procedures.

3. Biocompatibility: Perfusion cannulas are designed with materials that are safe for long-term contact with blood, reducing the risk of clot formation, infection, or other complications.

4. Sizes: Cannulas come in various sizes, depending on the patient's age, body size, and the specific procedure being performed. They are chosen to ensure the optimal flow rate and minimal trauma during insertion.

Product Details:

An ECMO (Extracorporeal Membrane Oxygenation) perfusion cannula is a critical component used in ECMO therapy, where it facilitates the removal of blood from a patient’s body, oxygenates it outside the body through a membrane oxygenator, and then returns it to the body. ECMO is typically used for patients with severe cardiac or respiratory failure, providing life support when the heart or lungs can no longer meet the body's needs.

Key Features of ECMO Perfusion Cannulas:

1. Dual-Lumen Cannula:

   • Single Insertion Site: In ECMO, a dual-lumen cannula is often used, especially for venous drainage and return in veno-venous ECMO (VV ECMO) or veno-arterial ECMO (VA ECMO). This cannula has two lumens (tubes) within a single catheter: one for draining deoxygenated blood and the other for returning oxygenated blood. This design reduces the need for multiple insertion points and minimizes the trauma to the patient's blood vessels.

2. Material:

   • The cannulas are made from biocompatible materials such as silicone or polyurethane, designed to reduce the risk of thrombosis (clot formation) and other complications.

3. Sizes:

   • ECMO cannulas come in a variety of sizes based on the patient’s age, weight, and the specific ECMO application. Larger cannulas may be needed for adults, while smaller ones are used for neonatal or pediatric patients.

4. Insertion Sites:

   • Venous Cannula: For VV ECMO, a venous cannula is typically inserted into large veins like the femoral vein or internal jugular vein to drain blood.
   • Arterial Cannula: For VA ECMO, an arterial cannula is inserted into an artery (such as the femoral artery, subclavian artery, or aorta) to return oxygenated blood back into the body.

5. Lumen Configuration:

   • In dual-lumen cannulas, the proximal lumen typically drains blood from the venous side (i.e., from the body) to the ECMO circuit, while the distal lumen returns oxygenated blood to the patient. This design minimizes the need for multiple cannulas and insertion sites.

Product Details:

An ECMO (Extracorporeal Membrane Oxygenation) perfusion cannula is a critical component used in ECMO therapy, where it facilitates the removal of blood from a patient’s body, oxygenates it outside the body through a membrane oxygenator, and then returns it to the body. ECMO is typically used for patients with severe cardiac or respiratory failure, providing life support when the heart or lungs can no longer meet the body's needs.

Key Features of ECMO Perfusion Cannulas:

1. Dual-Lumen Cannula:

   • Single Insertion Site: In ECMO, a dual-lumen cannula is often used, especially for venous drainage and return in veno-venous ECMO (VV ECMO) or veno-arterial ECMO (VA ECMO). This cannula has two lumens (tubes) within a single catheter: one for draining deoxygenated blood and the other for returning oxygenated blood. This design reduces the need for multiple insertion points and minimizes the trauma to the patient's blood vessels.

2. Material:

   • The cannulas are made from biocompatible materials such as silicone or polyurethane, designed to reduce the risk of thrombosis (clot formation) and other complications.

3. Sizes:

   • ECMO cannulas come in a variety of sizes based on the patient’s age, weight, and the specific ECMO application. Larger cannulas may be needed for adults, while smaller ones are used for neonatal or pediatric patients.

4. Insertion Sites:

   • Venous Cannula: For VV ECMO, a venous cannula is typically inserted into large veins like the femoral vein or internal jugular vein to drain blood.
   • Arterial Cannula: For VA ECMO, an arterial cannula is inserted into an artery (such as the femoral artery, subclavian artery, or aorta) to return oxygenated blood back into the body.

5. Lumen Configuration:

   • In dual-lumen cannulas, the proximal lumen typically drains blood from the venous side (i.e., from the body) to the ECMO circuit, while the distal lumen returns oxygenated blood to the patient. This design minimizes the need for multiple cannulas and insertion sites.

Product Details:

An ECMO perfusion cannula is a specialized medical device used in Extracorporeal Membrane Oxygenation (ECMO) therapy, which is a life-saving intervention for patients with severe heart and/or lung failure. ECMO temporarily takes over the function of the heart and/or lungs by providing oxygenation and circulatory support while the patient's organs heal or recover.

Key Points about ECMO Perfusion Cannulas:

1. Function:

   • Venous cannula: Blood is drained from the patient's body (typically from a large vein such as the femoral or jugular vein).
   • Arterial cannula: Oxygenated blood is returned to the patient's circulation (typically into an artery, such as the femoral or carotid artery).

   The cannulas are connected to an ECMO machine, which includes a membrane oxygenator (the artificial lung) to add oxygen to the blood and remove carbon dioxide.

2. Types of ECMO:

   • Veno-venous ECMO (VV ECMO): Used for patients with severe respiratory failure, where only oxygenation support is required. The venous cannula drains blood from a vein, passes through the ECMO machine for oxygenation, and the arterial cannula returns oxygenated blood back to a vein.
   • Veno-arterial ECMO (VA ECMO): Provides both oxygenation and circulatory support, typically for patients with cardiac and respiratory failure. Blood is drained from a vein, oxygenated, and then returned to an artery to support both the heart and lungs.
   • Arterio-venous ECMO: A less common setup but used in some specialized situations, involving both venous and arterial blood flow through the ECMO circuit.

3. Cannula Size: The size of the cannula depends on the patient's size, weight, and the ECMO configuration being used. Larger cannulas are often required for adults, while smaller ones are used for pediatric patients. The cannula is designed to minimize trauma to the vessels, allowing smooth blood flow while reducing complications.

4. Placement:

   • The cannulas are usually placed percutaneously (via a needle or catheter through the skin) or surgically.
   • For VA ECMO, the venous cannula is typically inserted into a large central vein (e.g., the femoral vein), and the arterial cannula is placed in a large artery (e.g., the femoral artery).
   • For VV ECMO, both cannulas may be placed in central veins like the internal jugular or femoral veins, depending on the patient's anatomy and clinical condition.

5. Materials and Design: ECMO cannulas are usually made from biocompatible materials, such as silicone or polyurethane, which reduce the risk of blood clotting and endothelial damage. They are designed to minimize resistance to blood flow and be as flexible and durable as possible.

6. Complications:

   • Infection: As with any invasive procedure, there is a risk of infection at the cannula insertion sites.
   • Clotting: The cannulas must be carefully monitored to prevent blood clot formation inside the ECMO circuit, which can lead to serious complications like embolism or equipment malfunction.
   • Vascular injury: Improper placement or excessive cannula size can cause injury to the blood vessels.

7. Maintenance and Monitoring: Once the cannulas are inserted, the ECMO team continuously monitors the patient's hemodynamics, oxygenation status, and the functioning of the ECMO circuit. Regular checks are made to ensure the cannulas are properly positioned, the blood flow is adequate, and there are no signs of complications like infection or thrombosis.

Product Details:

An ECMO perfusion cannula is a specialized medical device used in Extracorporeal Membrane Oxygenation (ECMO) therapy, which is a life-saving intervention for patients with severe heart and/or lung failure. ECMO temporarily takes over the function of the heart and/or lungs by providing oxygenation and circulatory support while the patient's organs heal or recover.

Key Points about ECMO Perfusion Cannulas:

1. Function:

   • Venous cannula: Blood is drained from the patient's body (typically from a large vein such as the femoral or jugular vein).
   • Arterial cannula: Oxygenated blood is returned to the patient's circulation (typically into an artery, such as the femoral or carotid artery).

   The cannulas are connected to an ECMO machine, which includes a membrane oxygenator (the artificial lung) to add oxygen to the blood and remove carbon dioxide.

2. Types of ECMO:

   • Veno-venous ECMO (VV ECMO): Used for patients with severe respiratory failure, where only oxygenation support is required. The venous cannula drains blood from a vein, passes through the ECMO machine for oxygenation, and the arterial cannula returns oxygenated blood back to a vein.
   • Veno-arterial ECMO (VA ECMO): Provides both oxygenation and circulatory support, typically for patients with cardiac and respiratory failure. Blood is drained from a vein, oxygenated, and then returned to an artery to support both the heart and lungs.
   • Arterio-venous ECMO: A less common setup but used in some specialized situations, involving both venous and arterial blood flow through the ECMO circuit.

3. Cannula Size: The size of the cannula depends on the patient's size, weight, and the ECMO configuration being used. Larger cannulas are often required for adults, while smaller ones are used for pediatric patients. The cannula is designed to minimize trauma to the vessels, allowing smooth blood flow while reducing complications.

4. Placement:

   • The cannulas are usually placed percutaneously (via a needle or catheter through the skin) or surgically.
   • For VA ECMO, the venous cannula is typically inserted into a large central vein (e.g., the femoral vein), and the arterial cannula is placed in a large artery (e.g., the femoral artery).
   • For VV ECMO, both cannulas may be placed in central veins like the internal jugular or femoral veins, depending on the patient's anatomy and clinical condition.

5. Materials and Design: ECMO cannulas are usually made from biocompatible materials, such as silicone or polyurethane, which reduce the risk of blood clotting and endothelial damage. They are designed to minimize resistance to blood flow and be as flexible and durable as possible.

6. Complications:

   • Infection: As with any invasive procedure, there is a risk of infection at the cannula insertion sites.
   • Clotting: The cannulas must be carefully monitored to prevent blood clot formation inside the ECMO circuit, which can lead to serious complications like embolism or equipment malfunction.
   • Vascular injury: Improper placement or excessive cannula size can cause injury to the blood vessels.

7. Maintenance and Monitoring: Once the cannulas are inserted, the ECMO team continuously monitors the patient's hemodynamics, oxygenation status, and the functioning of the ECMO circuit. Regular checks are made to ensure the cannulas are properly positioned, the blood flow is adequate, and there are no signs of complications like infection or thrombosis.

Product Details:

Antegrade cannulae are designed to deliver cardioplegia solution to the heart via the coronary ostia in the normal direction of blood flow (antegrade perfusion). Medtronic offers both aortic root cannulae and coronary ostial cannulae. Aortic root cannulae are intended to infuse cardioplegia directly into the aortic root near the aortic valve while coronary ostial cannulae are held on or placed in the coronary ostia.

Product Details:

A perfusion cannula is a medical device used during cardiopulmonary bypass (CPB), ECMO (extracorporeal membrane oxygenation), and other procedures requiring blood circulation support. These cannulas are designed to connect a patient's vascular system to a heart-lung machine, ECMO system, or other extracorporeal support systems, allowing for the delivery or removal of blood during various treatments.

Key Features of Perfusion Cannulas:

1. Structure: Perfusion cannulas are typically made from materials like medical-grade silicone or polyurethane and are designed to be biocompatible. They feature a smooth, flexible design to minimize injury to blood vessels during insertion.

2. Types of Cannulas:

   • Arterial Cannula: Used to deliver oxygenated blood back into the patient's arterial circulation during CPB or ECMO. It is typically placed in the femoral, radial, or subclavian arteries.
   • Venous Cannula: Used to drain deoxygenated blood from the body to the oxygenator or heart-lung machine. It is typically placed in large veins like the femoral vein or superior vena cava.
   • Dual-Lumen Cannula: A type of venous cannula with two lumens (tubes) used for both draining and returning blood in situations where only one insertion site is preferred, commonly used in ECMO procedures.

3. Biocompatibility: Perfusion cannulas are designed with materials that are safe for long-term contact with blood, reducing the risk of clot formation, infection, or other complications.

4. Sizes: Cannulas come in various sizes, depending on the patient's age, body size, and the specific procedure being performed. They are chosen to ensure the optimal flow rate and minimal trauma during insertion.

Product Details:

A perfusion cannula is a medical device used during cardiopulmonary bypass (CPB), ECMO (extracorporeal membrane oxygenation), and other procedures requiring blood circulation support. These cannulas are designed to connect a patient's vascular system to a heart-lung machine, ECMO system, or other extracorporeal support systems, allowing for the delivery or removal of blood during various treatments.

Key Features of Perfusion Cannulas:

1. Structure: Perfusion cannulas are typically made from materials like medical-grade silicone or polyurethane and are designed to be biocompatible. They feature a smooth, flexible design to minimize injury to blood vessels during insertion.

2. Types of Cannulas:

   • Arterial Cannula: Used to deliver oxygenated blood back into the patient's arterial circulation during CPB or ECMO. It is typically placed in the femoral, radial, or subclavian arteries.
   • Venous Cannula: Used to drain deoxygenated blood from the body to the oxygenator or heart-lung machine. It is typically placed in large veins like the femoral vein or superior vena cava.
   • Dual-Lumen Cannula: A type of venous cannula with two lumens (tubes) used for both draining and returning blood in situations where only one insertion site is preferred, commonly used in ECMO procedures.

3. Biocompatibility: Perfusion cannulas are designed with materials that are safe for long-term contact with blood, reducing the risk of clot formation, infection, or other complications.

4. Sizes: Cannulas come in various sizes, depending on the patient's age, body size, and the specific procedure being performed. They are chosen to ensure the optimal flow rate and minimal trauma during insertion.

Product Details:

A perfusion cannula is a specialized medical device used to deliver fluids (such as blood, nutrients, or medications) or remove fluids from a specific part of the body during medical procedures. It is often used in surgeries, particularly in cardiovascular and organ transplant surgeries, to maintain circulation or oxygenation of tissues when normal blood flow is temporarily interrupted.

Product Details:

An ECMO (Extracorporeal Membrane Oxygenation) perfusion cannula is a critical component used in ECMO therapy, where it facilitates the removal of blood from a patient’s body, oxygenates it outside the body through a membrane oxygenator, and then returns it to the body. ECMO is typically used for patients with severe cardiac or respiratory failure, providing life support when the heart or lungs can no longer meet the body's needs.

Key Features of ECMO Perfusion Cannulas:

1. Dual-Lumen Cannula:

   • Single Insertion Site: In ECMO, a dual-lumen cannula is often used, especially for venous drainage and return in veno-venous ECMO (VV ECMO) or veno-arterial ECMO (VA ECMO). This cannula has two lumens (tubes) within a single catheter: one for draining deoxygenated blood and the other for returning oxygenated blood. This design reduces the need for multiple insertion points and minimizes the trauma to the patient's blood vessels.

2. Material:

   • The cannulas are made from biocompatible materials such as silicone or polyurethane, designed to reduce the risk of thrombosis (clot formation) and other complications.

3. Sizes:

   • ECMO cannulas come in a variety of sizes based on the patient’s age, weight, and the specific ECMO application. Larger cannulas may be needed for adults, while smaller ones are used for neonatal or pediatric patients.

4. Insertion Sites:

   • Venous Cannula: For VV ECMO, a venous cannula is typically inserted into large veins like the femoral vein or internal jugular vein to drain blood.
   • Arterial Cannula: For VA ECMO, an arterial cannula is inserted into an artery (such as the femoral artery, subclavian artery, or aorta) to return oxygenated blood back into the body.

5. Lumen Configuration:

   • In dual-lumen cannulas, the proximal lumen typically drains blood from the venous side (i.e., from the body) to the ECMO circuit, while the distal lumen returns oxygenated blood to the patient. This design minimizes the need for multiple cannulas and insertion sites.

Product Details:

• Longer body facilitates access during minimally invasive procedures
• Wire-bound body is kink-resistant and promotes flexibility; thin-walled construction maximizes flow rates
• Vented plug maintains hemostasis of the guidewire port
• Hemostasis cap allows bloodless introduction
• Adjustable suture ring allows pre-setting of insertion radiopaque depth and location fo

Additional Information:

• Item Code: EOPA
• Production Capacity: 10000
• Delivery Time: 7DAYS
• Packaging Details: 1 PIC ONE BOX