RF WIRE CONNECTION IN DILATOR

Organization Name

BOSTON SCIENTIFIC SCIMED, INC.

Inventor(s)

Spencer Fodness-bondhus of Columbia Heights MN (US)

RF WIRE CONNECTION IN DILATOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 18437600 titled 'RF WIRE CONNECTION IN DILATOR

Simplified Explanation:

The patent application describes a transseptal access system that includes a radiofrequency perforation device and a tubular dilator. The radiofrequency perforation device has an insulated proximal portion and a conductive distal portion ending in a functional tip. The tubular dilator has a dilator lumen to receive the radiofrequency perforation device and an electrical contact element to engage with the distal portion of the device.

• The system includes a radiofrequency perforation device with insulated and conductive portions.
• A tubular dilator is provided with a dilator lumen to accommodate the radiofrequency perforation device.
• An electrical contact element within the dilator engages with the conductive portion of the radiofrequency perforation device.

Key Features and Innovation:

• Radiofrequency perforation device with insulated and conductive portions.
• Tubular dilator with a dilator lumen to receive the radiofrequency perforation device.
• Electrical contact element within the dilator for engaging with the radiofrequency perforation device.

Potential Applications:

• Minimally invasive cardiac procedures.
• Transseptal access for various medical interventions.
• Catheter-based treatments requiring precise access.

Problems Solved:

• Facilitates transseptal access with improved precision.
• Reduces the risk of complications during cardiac procedures.
• Enhances the efficiency of catheter-based treatments.

Benefits:

• Improved safety and accuracy in transseptal procedures.
• Enhanced control and maneuverability during interventions.
• Potential for faster recovery and reduced hospital stays for patients.

Commercial Applications:

Title: Transseptal Access System for Minimally Invasive Cardiac Procedures

This technology could revolutionize the field of interventional cardiology by providing a safer and more efficient method for transseptal access during cardiac procedures. The market implications include increased demand for minimally invasive techniques and a potential shift towards catheter-based treatments in cardiology.

Prior Art:

Readers interested in prior art related to this technology may explore patents and research articles on transseptal access systems, radiofrequency perforation devices, and tubular dilators used in cardiac procedures.

Frequently Updated Research:

Researchers are continually exploring advancements in transseptal access systems, including new materials for radiofrequency perforation devices, improved designs for tubular dilators, and enhanced techniques for electrical contact elements.

Questions about Transseptal Access Systems:

1. What are the key advantages of using a radiofrequency perforation device in transseptal procedures? 2. How does the design of the tubular dilator contribute to the success of transseptal access systems?

Original Abstract Submitted

A transseptal access system is disclosed. The system includes a radiofrequency perforation device having a proximal portion and a distal portion. The proximal portion has an electrically insulated outer surface, the distal portion is electrically conductive and terminates at a functional tip, and at least part of the distal portion is uninsulated. A tubular dilator is further disclosed comprising an elongated body terminating in a distal tip, a hub at the proximal end of the body, and a dilator lumen extending through the hub and the body. The dilator lumen is dimensioned to slidingly receive the radiofrequency perforation device. An electrical contact element disposed within the hub adjacent to the dilator lumen is also disclosed. When the radiofrequency perforation device is in a first position within the dilator lumen, the electrical contact element is in electrical engagement with the distal portion of the radiofrequency perforation device.