Smith & Nephew is a global medical technology company that manufactures a wide range of medical devices, including those used in orthopedics, sports medicine, wound management, and advanced surgical procedures. To obtain accurate and up-to-date information about the product with the code "ASC4250-01," I recommend the following steps: Official Smith & Nephew Channels: Check the official Smith & Nephew website or contact their customer support directly. The company's official channels are likely to provide the most accurate and current information about their products. Product Documentation: If you have access to the product documentation or packaging, it should contain detailed information about the product, its specifications, and its intended use. Medical Professionals or Facilities: If you are associated with a medical institution or healthcare facility, inquire within your organization. Medical professionals and facilities often have direct access to product information. Authorized Distributors or Suppliers: Reach out to authorized distributors or suppliers of Smith & Nephew products. They may be able to provide information about the product code in question. Online Medical Product Databases: Some online medical product databases or catalogs may provide information about specific medical devices. Check reputable medical supply platforms for details.
If "NOVOSYN VIOLETT" is a product or medical device, it may be associated with a manufacturer, such as a pharmaceutical or medical equipment company. To obtain the most accurate and up-to-date information, I recommend the following steps: Contact the Manufacturer: Try reaching out to the manufacturer associated with the product. They should be able to provide details about the product, its use, and any relevant specifications. Medical Professionals or Institutions: If you are a healthcare professional or associated with a medical institution, you may inquire within your organization for information about the specific product. Product Catalogs or Documentation: Check medical product catalogs, manuals, or documentation from relevant manufacturers or suppliers. This information is often available through official channels. Online Resources: Search online medical databases, catalogs, or supplier websites for the specific product code or name. Sometimes, product details are available on official websites or medical supply platforms.
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.
Surgicel is a brand of absorbable hemostats used in surgical procedures to control bleeding. Surgicel Absorbable Hemostat is often employed in various surgical specialties, including general surgery, cardiovascular surgery, neurosurgery, and orthopedic surgery. These products are designed to help surgeons achieve hemostasis (control bleeding) in various situations. Here are some key features of Surgicel Absorbable Hemostat: Material: Surgicel is often made from oxidized regenerated cellulose. Absorption: Surgicel is absorbable and eventually breaks down within the body. Application: It is typically applied directly to the bleeding site and conforms to the tissue to provide a physical barrier and help control bleeding. Varieties: Surgicel is available in different forms, including sheets, patches, and powder, to suit various surgical needs. Biocompatibility: Surgicel is designed to be biocompatible, meaning it is generally well-tolerated by the body.
The EV3 SpiderFX is commonly associated with the SpiderFX Embolic Protection Device, which is used in the field of interventional cardiology. The device is designed to capture and remove embolic debris that may be released during certain vascular procedures, particularly during carotid artery stenting. Key features of the EV3 SpiderFX Embolic Protection Device may include: Embolic Protection: The primary function of the device is to provide protection against embolic debris dislodged during the intervention. It helps prevent these debris from reaching and potentially blocking smaller blood vessels. Flexible Design: The SpiderFX typically has a flexible design that allows it to navigate through blood vessels, facilitating the deployment and retrieval process. Distal Protection: The device is designed to be positioned distal to the treatment site, capturing any embolic debris before it can travel downstream. Capture Basket: The device often includes a capture basket that traps and retains embolic debris, preventing it from causing harm in the circulation. Compatibility: The SpiderFX device is designed for compatibility with various catheters and guide wires commonly used in interventional procedures.
Biosensors is a medical device company known for its innovations in interventional cardiology, particularly in the field of coronary stents. The BioMatrix platform includes a range of drug-eluting stents (DES) designed to be used in the treatment of coronary artery disease. Key features of the BioMatrix stent platform, which may extend to the NeoFlex model if it's a part of the series, may include: Drug-Eluting Stent: The stents in the BioMatrix platform are drug-eluting, meaning they are coated with a medication (such as an anti-restenotic drug) designed to inhibit the regrowth of tissue inside the treated blood vessel. Biodegradable Polymer: Some versions of the BioMatrix stent use a biodegradable polymer to deliver the drug to the target site. The polymer gradually dissolves over time, leaving only the metallic stent behind. Flexible Design: The stents are designed to be flexible, allowing for easier navigation and deployment in the coronary arteries. Thin-Strut Technology: Thin struts can contribute to improved deliverability and conformability of the stent to the vessel wall. Various Sizes: The BioMatrix stent platform typically offers stents in various sizes to accommodate different patient anatomies and lesion characteristics.
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.
The Hem-o-lok Ligating Clip System, produced by Teleflex under the Weck brand, is a medical device used in surgical procedures for the ligation (closing off) of vessels or tissue structures. The Hem-o-lok clips are commonly utilized in laparoscopic and robotic surgeries. Key features and aspects of the Teleflex Weck Hem-o-lok Ligating Clip System include: Material: The clips are typically made from a polymer material, providing a secure and reliable closure when applied to vessels or tissues. Design: Hem-o-lok clips are designed to be easy to use, with a simple mechanism for application. They are available in various sizes to accommodate different surgical needs. Application: Surgeons use Hem-o-lok clips to occlude or ligate blood vessels or other structures during surgery. These clips are widely used in minimally invasive procedures, such as laparoscopic and robotic surgeries. Secure Closure: The design of the clips aims to provide a secure closure, preventing bleeding or leakage from the ligated structures. Color Coding: The clips are often color-coded according to size for easy identification during surgery, allowing surgeons to choose the appropriate clip for the vessel or tissue being ligated.
Specifications: Provides high conductive effect and clear, accurate recording without electrical artifacts* Has high resistance to drying (high viscosity) Provides proper adhesion for electrodes Chemically neutral (no interactions with electrode or skin of patient) Hypoallergenic Ultrasound gel is a conductive medium that creates a bond between the skin and the ultrasound transducer. The ultrasound sound waves have a hard time traveling through air, so the gel prevents any extra air space between the probe and your skin in order to create a clear image of the fetus.This transmission gel is water-soluble, non-greasy & will not irritate tissues or injure the ultrasound transducer or electrodes. It spreads easily & evenly & is an efficient coupling medium for electromedical transmission. DIRECTIONS: Apply directly to diagnostic or treatment area.
Product Code: EED 184 Size/Strength: Bottle of 5 Ltr and 250ml Bottle A non-staining high quality Scanning gel for ULTRASOUND Diagnostics. Hypo Allergic & water soluble allows excellent conductivity. Neutral pH-Gel is completely harmless to the patient's skin. Superior and acoustically correct for broad range of frequencies in medical ultrasound. Odorless