ANNULUS-REDUCING SYSTEM HAVING INDEPENDENT ANCHOR LAUNCHERS

Organization Name

EDWARDS LIFESCIENCES CORPORATION

Inventor(s)

David Alon of Zichron Yaacov (IL)

ANNULUS-REDUCING SYSTEM HAVING INDEPENDENT ANCHOR LAUNCHERS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18664243 titled 'ANNULUS-REDUCING SYSTEM HAVING INDEPENDENT ANCHOR LAUNCHERS

Simplified Explanation: A device is delivered to the heart of a subject using a catheter, which includes a cord with multiple anchors distributed along it. The device is arranged in a specific way on the tissue, and anchors are driven into the tissue for successful anchoring.

• The device is delivered to the heart of a subject using a catheter.
• The device includes a cord with multiple anchors distributed along it.
• The device is arranged on the tissue in a specific manner corresponding to the tissue.
• Anchors are identified for successful anchoring and driven into the tissue using anchor launchers.
• Anchors that remain not driven into the tissue are repositioned and then driven into the tissue.

Potential Applications: 1. Cardiac procedures requiring anchoring devices. 2. Minimally invasive surgeries. 3. Treatment of heart conditions such as arrhythmias.

Problems Solved: 1. Ensures secure anchoring of devices in the heart. 2. Facilitates precise placement of anchors. 3. Minimizes the risk of displacement during procedures.

Benefits: 1. Improved accuracy in anchoring devices. 2. Enhanced safety during cardiac procedures. 3. Reduced chances of complications post-surgery.

Commercial Applications: Title: Innovative Cardiac Anchoring Device for Enhanced Surgical Precision This technology can be utilized in cardiac surgeries, interventional cardiology procedures, and research settings. It can potentially revolutionize the way cardiac devices are anchored and improve patient outcomes.

Prior Art: Prior art related to this technology may include patents or research on cardiac anchoring devices, catheter-based procedures, and minimally invasive cardiac surgeries.

Frequently Updated Research: Researchers are constantly exploring new materials for anchors, improving catheter design for better maneuverability, and enhancing imaging techniques for precise placement of devices in the heart.

Questions about Cardiac Anchoring Devices: 1. How do cardiac anchoring devices improve the success rate of procedures?

  - Cardiac anchoring devices ensure secure placement of devices in the heart, reducing the risk of displacement and improving the overall success of procedures.

2. What are the key considerations when developing cardiac anchoring devices?

  - Key considerations include biocompatibility, ease of deployment, precise anchoring mechanisms, and compatibility with imaging technologies.

Original Abstract Submitted

Using a catheter, a device is delivered to the heart of a subject. The device includes a cord and multiple anchors distributed along the cord. Subsequently, the device is arranged in an arrangement at the tissue such that the cord is positioned and laid out correspondingly to the tissue. While the device remains in the arrangement, (i) a first subset of the anchors which are positioned for successful anchoring is identified, and (ii) subsequent to the identifying, for each of the anchors of the first subset, a respective anchor launcher is actuated to drive the anchor into the tissue. Subsequently, for each of the anchors that remain not driven into the tissue, (i) the anchor is positioned for successful anchoring, and (ii) a respective anchor launcher is actuated to drive the anchor into the tissue. Other embodiments are also disclosed.