Integrity Filter Tips 125/300Ul

F6 According to market review F6 is one of the best dialyzer in its category. High clerance,more surface area and with dilysite flow 100 to 1000 normally(300 to 800 in 4008s)it gives efficient result in filtering Cretanine, excess of sodium potasium and other molecules. Though it is not recomended many hospital uses it for multiple use also.

Key features and characteristics of the Bard Denali DL950F Vena Cava Filter may include: Retrievable Design: The Bard Denali DL950F is often designed to be retrievable, allowing for potential removal when the risk of pulmonary embolism has decreased. Cone Design: Vena cava filters typically have a cone-shaped design that helps to trap and prevent blood clots from traveling to the pulmonary arteries. Biocompatible Materials: The filter is typically made of biocompatible materials suitable for long-term implantation. Ease of Deployment: The deployment mechanism is designed for ease of use during the implantation procedure. Radiopaque Markers: Radiopaque markers are often incorporated into the design to aid in accurate placement under fluoroscopy or other imaging modalities. Compatibility with Imaging: The device is designed to be compatible with various imaging technologies, allowing healthcare professionals to monitor its position and effectiveness.

Material Number: M0031681890 Description: Straight, 2-tip marker Total / Distal Length: 150cm/6.0cm The Excelsior SL-10 Microcatheter with Thin Wall Technology and Lubricious Hydrolene�® Outer Surface is designed to provide outstanding performance 1.7F (0.56mm) Low Profile Distal Shaft, Excelsior SL-10 Microcatheter is designed with a low profile tip to enhance access to distal vasculature and ease of passage of the catheter trip through stent interstices. Atraumatic Distal Tip, Specifically engineered for atraumatic access, the rounded, low-durometer, unbraided tip offers exceptional softness and flexibility. Variety of Tip Shapes, Offered in six clinically relevant shapes to improve access and navigability.

he Terumo Runthrough NS PTCA (Percutaneous Transluminal Coronary Angioplasty) guide wire is a product manufactured by Terumo Corporation, a global medical device company. Guide wires are essential tools used in cardiovascular procedures, particularly in angioplasty and stenting, to navigate through blood vessels and provide support for the delivery of catheters and other interventional devices. Key features and characteristics of the Terumo Runthrough NS PTCA guide wire may include: Hydrophilic Coating: Many Terumo guide wires, including the Runthrough NS, are known for their hydrophilic coating. This coating facilitates smoother navigation through blood vessels, reducing friction and enhancing steerability. Flexible Design: The guide wire is designed to be flexible, allowing it to navigate tortuous vessels and reach target locations with precision. Radiopaque Tip: The tip of the guide wire is often radiopaque, making it visible under fluoroscopy or other imaging modalities. This feature helps interventional cardiologists visualize the position of the guide wire during the procedure. Different Tip Configurations: Guide wires may come with different tip configurations, such as soft or floppy tips for ease of navigation or more supportive tips for crossing lesions. Various Lengths and Diameters: Terumo typically offers guide wires in various lengths and diameters to accommodate different patient anatomies and procedural requirements.

The Terumo Runthrough series refers to a range of guide wires manufactured by Terumo Corporation, a global medical device company. Guide wires are essential tools in interventional procedures, particularly in cardiology and radiology, where they are used to navigate through blood vessels and provide support for the delivery of catheters and other interventional devices. Key features of the Terumo Runthrough guide wires, which may vary depending on the specific model and application, include: Hydrophilic Coating: Many Terumo guide wires are known for their hydrophilic coating, which enhances lubricity and facilitates smooth navigation through blood vessels, reducing friction. Flexible Design: The guide wires are designed to be flexible, allowing them to navigate through tortuous vessels with precision. Radiopaque Tip: The tips of the guide wires are often radiopaque, making them visible under fluoroscopy or other imaging modalities. This feature aids interventionalists in visualizing the position of the guide wire during the procedure. Various Tip Configurations: Guide wires may come with different tip configurations, such as soft or floppy tips for ease of navigation or more supportive tips for crossing lesions. Different Lengths and Diameters: Terumo typically offers guide wires in various lengths and diameters to accommodate different patient anatomies and procedural requirements.

Guide wires are commonly used in medical procedures, particularly in cardiology and radiology, to guide catheters and other devices through blood vessels or other anatomical structures. The Terumo Radifocus Guide Wire M is likely designed for use in vascular interventions. Here are some general characteristics you might find in Terumo guide wires: Material: Guide wires are typically made of materials such as stainless steel or nitinol. Coating: Some guide wires may have hydrophilic or hydrophobic coatings to enhance their performance during navigation through blood vessels. Tip Design: The tip design may vary based on the intended application, with options like floppy or stiff tips. Diameter and Length: Guide wires come in various diameters and lengths to suit different procedures and anatomies. Radiopaque Markers: Radiopaque markers help visualize the position of the guide wire under fluoroscopy.

the Cordis Emerald Guidewire is a product developed by Cordis Corporation, a subsidiary of Cardinal Health. Guidewires are medical devices used in various interventional procedures to navigate through blood vessels, providing access for other devices and treatments. Key features of the Cordis Emerald Guidewire may include: Material: The guidewire is typically made from materials like stainless steel or nitinol, which offer flexibility and support for navigating through the vascular system. Coating: Guidewires may have hydrophilic or hydrophobic coatings to enhance their lubricity, making it easier for them to pass through blood vessels. Tip Design: The tip of the guidewire is often designed to be atraumatic, reducing the risk of vessel injury during navigation. Radiopacity: The guidewire is often designed with radiopaque markers to aid in fluoroscopic visualization during procedures. Length and Diameter: Guidewires come in various lengths and diameters to suit different procedures and anatomies.

he Haemonetics Cell Saver 5/5+ FastPack is a component of the Cell Saver autotransfusion system, produced by Haemonetics Corporation. The Cell Saver system is used in the medical field, particularly in surgical procedures, to collect and reinfuse a patient's own blood lost during surgery. This process is known as autologous blood transfusion. Here are some general features and considerations for the Haemonetics Cell Saver 5/5+ FastPack: Autotransfusion System: The Cell Saver system is designed to collect and process blood from the surgical field, filter out unwanted materials, and then return the washed and filtered blood back to the patient. FastPack Technology: The term "FastPack" likely indicates a feature related to the efficiency and speed of the blood processing within the system. Compatibility: The Cell Saver 5/5+ FastPack is typically designed to be compatible with the Cell Saver 5 and Cell Saver 5+ devices, which are part of the Cell Saver system. Safety and Efficiency: Autotransfusion systems aim to provide a safe and efficient means of reducing the need for allogeneic blood transfusions by using the patient's own blood. Usage in Various Surgeries: Cell Saver systems, including the FastPack component, can be used in a variety of surgical procedures where blood loss is expected