I can provide some general information based on the terms used: Asahi: Asahi Intecc Co., Ltd. is a company known for producing medical devices, particularly guidewires and microcatheters for interventional procedures in cardiology and radiology. Sion Blue: The term "Sion Blue" could refer to a specific type or model of guidewire produced by Asahi Intecc. Guidewires are thin, flexible wires used to navigate through blood vessels during various medical procedures.
the Boston Scientific Promus Elite is a coronary drug-eluting stent system. It is designed for use in patients undergoing percutaneous coronary intervention (PCI) procedures to treat coronary artery disease. Here are some key features and points related to the Boston Scientific Promus Elite coronary stent: Drug-Eluting Stent: The Promus Elite is a drug-eluting stent (DES), meaning it is coated with medication to help prevent the re-narrowing (restenosis) of the treated coronary artery. Drug Coating: The stent typically features a polymer coating containing an anti-proliferative drug. This drug is slowly released over time to inhibit the growth of tissue inside the stent, reducing the risk of restenosis. Cobalt Chromium Alloy: The stent is often made of a cobalt chromium alloy, known for its strength and flexibility. This material allows for a thin stent strut design, which can be beneficial in terms of deliverability and conformability. Delivery System: The stent is delivered to the target area using a catheter-based delivery system. The catheter is guided through the blood vessels to the site of the coronary artery lesion. Radiopaque Markers: Radiopaque markers on the stent aid in proper placement and visualization under X-ray guidance during the procedure.
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.
The Accu-Chek Performa Test Strips are used in conjunction with Accu-Chek Performa blood glucose meters. These test strips are an essential component for monitoring blood glucose levels in individuals with diabetes. Here are some key points about Accu-Chek Performa Test Strips: Compatibility: Accu-Chek Performa Test Strips are specifically designed to work with Accu-Chek Performa blood glucose meters. Blood Glucose Monitoring: These test strips are used to measure the concentration of glucose in a small blood sample. This helps individuals with diabetes manage their blood sugar levels. Quick Results: The test strips provide rapid and accurate results, allowing individuals to monitor their blood glucose levels conveniently at home. Capillary Action Technology: The strips often use capillary action technology, which helps to draw in a precise amount of blood for the test. Coding: Some blood glucose test strips require manual coding to match the code on the test strip vial with the code on the meter. It's important to follow the specific instructions provided by the manufacturer regarding coding. Storage: Proper storage of test strips is essential for accurate results. Test strips are typically stored in a cool, dry place, and users should check the expiration date before use.
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.
8410-0254 HyperSoft 3D Advanced, 2.5mm Large Loop Dia, 4cm INDICATIONS FOR USE: The MicroPlex�® Coil System (MCS) is intended for the endovascular embolization of intracranial aneurysms and other neurovascular abnormalities such as arteriovenous malformations and arteriovenous fistulae. The MCS is also intended for vascular occlusion of blood vessels within the neurovascular system to permanently obstruct blood flow to an aneurysm or other vascular malformation and for arterial and venous embolizations in the peripheral vasculature
Karl Storz is a renowned German medical device company that specializes in the production of endoscopy equipment and medical imaging devices. Endoscopy involves the use of specialized instruments and cameras to visualize the interior of organs and cavities within the body. Karl Storz is particularly known for its high-quality endoscopes and related equipment. Here are some key points about Karl Storz endoscopes: Endoscopy Equipment: Karl Storz offers a wide range of endoscopy equipment, including rigid and flexible endoscopes. These instruments are used in various medical specialties such as gastroenterology, urology, gynecology, otolaryngology, and arthroscopy. Innovation: Karl Storz has a history of innovation in the field of endoscopy. The company has been a pioneer in developing new technologies and improving existing ones to enhance the precision and capabilities of endoscopic procedures. Quality and Durability: The company is known for producing high-quality, durable endoscopic instruments. Karl Storz endoscopes are designed to meet stringent quality standards to ensure reliability and performance in medical settings. Wide Range of Applications: Karl Storz endoscopes are used in a broad spectrum of medical procedures. Whether it's diagnostic or therapeutic, these endoscopes play a crucial role in allowing medical professionals to visualize and treat conditions internally without the need for major surgery. Global Presence: Karl Storz is an internationally recognized brand, with a global presence. The company's products are used by healthcare professionals worldwide.
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.
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.
Wrist Splint (Conventional) AJY-S05 For wrist or proximal forearm fractures, functional position fixation in wrist arthroplasty, and rest position system for wrist arthritis and other lesions Dynamic or lunate dislocation and colles fracture fixation. 270*192*3.2mm LOW TEMPERATURE THERMOPLASTIC SHEET Product features: Low temperature thermoplastic sheet is a new type of material made of specially synthesized polymer polycaprolactone treated by a series of chemical methods. Molecules are in a stable state at room temperature (10-30C), and can be softened after being heated in 65-70C water for 1-3 minutes. Curing in 3-5 minutes at room temperature. It has the advantages of light weight, high strength, good air permeability, not afraid of water, non-toxic, odorless, non-irritating to the skin, etc., and has biodegradability. Scope of application: 1. Fixation after reduction of fractures and joint dislocations 2. Postoperative fixation of soft tissue injuries such as joint ligaments, nerve and tendon injuries 3. Bone, joint tuberculosis, acute and chronic osteomyelitis, septic arthritis, primary bone Fixation during conservative treatment such as tumor metastasis or after debridement 4. Joint deformity, nerve palsy, cerebral palsy, scoliosis correction and postoperative fixation in children and fixed 5. Fixation after burns and other plastic surgery operations 6. Production and application of rehabilitation braces and orthoses 7. Posture placement and fixation during radiotherapy
Wrist Splint (Stable) AJY-S10 For wrist or distal forearm fractures, functional fixation of wrist arthroplasty. However, the dorsal side of the wrist needs to be exposed (if there is a wound on the volar side). 275*175*3.2mm LOW TEMPERATURE THERMOPLASTIC SHEET Product features: Low temperature thermoplastic sheet is a new type of material made of specially synthesized polymer polycaprolactone treated by a series of chemical methods. Molecules are in a stable state at room temperature (10-30C), and can be softened after being heated in 65-70C water for 1-3 minutes. Curing in 3-5 minutes at room temperature. It has the advantages of light weight, high strength, good air permeability, not afraid of water, non-toxic, odorless, non-irritating to the skin, etc., and has biodegradability. Scope of application: 1. Fixation after reduction of fractures and joint dislocations 2. Postoperative fixation of soft tissue injuries such as joint ligaments, nerve and tendon injuries 3. Bone, joint tuberculosis, acute and chronic osteomyelitis, septic arthritis, primary bone Fixation during conservative treatment such as tumor metastasis or after debridement 4. Joint deformity, nerve palsy, cerebral palsy, scoliosis correction and postoperative fixation in children and fixed 5. Fixation after burns and other plastic surgery operations 6. Production and application of rehabilitation braces and orthoses 7. Posture placement and fixation during radiotherapy