Cytoplast™ TXT-200 Non-Resorbable High-Density PTFE Membrane - Oaks at Radford Hills

Feb 21, 2023
Physical Therapy

Introduction

Welcome to Oaks at Radford Hills, your trusted source for high-quality health products. In our commitment to providing the best solutions, we proudly introduce the Cytoplast™ TXT-200 Non-Resorbable High-Density PTFE Membrane. As a prominent player in the health industry, we understand the importance of advanced technologies for optimal results.

About Cytoplast™ TXT-200

Cytoplast™ TXT-200 is a state-of-the-art non-resorbable high-density PTFE (polytetrafluoroethylene) membrane designed for various medical applications. Crafted to deliver exceptional performance, this innovative product offers numerous benefits and applications.

Benefits

  • Durability: With its high-density composition, Cytoplast™ TXT-200 guarantees long-lasting durability, ensuring reliable results for extended periods.
  • Biocompatibility: The membrane is biocompatible, minimizing the risk of adverse reactions or complications during medical procedures.
  • Enhanced Tissue Regeneration: By acting as a barrier, Cytoplast™ TXT-200 promotes cell regeneration and prevents soft tissue infiltration, leading to improved healing outcomes.
  • Membrane Stability: The high stability of this PTFE membrane allows for precise contouring, making it an ideal choice for various surgical procedures.
  • Facilitated Handling: Its unique texture and structure enable easy manipulation and placement, enhancing overall surgical efficiency.

Applications

Cytoplast™ TXT-200 finds extensive applications in different medical disciplines. Some key areas where this exceptional product is commonly used include:

  • Periodontics: The membrane is effective in guided tissue regeneration (GTR), fostering bone growth and restoring function in periodontal treatments.
  • Dental Implantology: By aiding in socket preservation and ridge augmentation procedures, this PTFE membrane supports optimal implant placement.
  • Oral and Maxillofacial Surgery: Cytoplast™ TXT-200 is widely utilized in sinus floor augmentation, ridge splitting, and other reconstructive procedures, enhancing bone regeneration.
  • Ophthalmology: In ophthalmic surgery, this membrane serves as a barrier to prevent epithelial ingrowth, supporting corneal healing and visual recovery.
  • Plastic and Reconstructive Surgery: The high-density PTFE membrane finds applications in soft tissue augmentation, such as correcting facial defects and reconstructing damaged areas.

Specifications

When it comes to specifications, Cytoplast™ TXT-200 stands out as a leading choice for healthcare professionals. Some notable specifications of this remarkable product include:

  • Material: High-density PTFE (Polytetrafluoroethylene)
  • Thickness: 0.20mm
  • Size: Various sizes available to suit specific surgical requirements
  • Sterility: Sterile product, ready for immediate use
  • Handling: Easy manipulation and placement
  • Longevity: Designed for extended durability and stability

Order Your Cytoplast™ TXT-200 Now

At Oaks at Radford Hills, we take pride in offering top-notch health products like the Cytoplast™ TXT-200 Non-Resorbable High-Density PTFE Membrane. With its exceptional benefits, wide range of applications, and impressive specifications, this product is a game-changer in the medical industry. Place your order today and experience the difference it can make in your clinical practice.

Contact Us

If you have any questions or inquiries, our dedicated team is here to assist you. Feel free to reach out to us via our website or contact us directly. Oaks at Radford Hills is committed to delivering excellence in healthcare products and services.

Ilya Doronin
This innovative non-resorbable high-density PTFE membrane is a game-changer in health technology! Can't wait to explore its potential and benefits. Hoping it improves patient outcomes and sets a new standard in the industry. ??
Nov 10, 2023
Troy Wyatt
Looks like an incredible innovation in health technology! Can't wait to learn more! ?
Oct 9, 2023