18124825. FLEXIBLE IN BORE RECEIVING COIL ARRAY FOR A MAGNETIC RESONANCE IMAGING SYSTEM simplified abstract (GE Precision Healthcare LLC)

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FLEXIBLE IN BORE RECEIVING COIL ARRAY FOR A MAGNETIC RESONANCE IMAGING SYSTEM

Organization Name

GE Precision Healthcare LLC

Inventor(s)

Victor Taracila of Orange Village OH (US)

Ravi Shankar Jaiswal of Florence SC (US)

Victoria Poli Zemskov of Twinsburg OH (US)

Fraser John Laing Robb of Aurora OH (US)

Emily Rose Long of Milwaukee WI (US)

Jana Michelle Vincent of Aurora OH (US)

FLEXIBLE IN BORE RECEIVING COIL ARRAY FOR A MAGNETIC RESONANCE IMAGING SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18124825 titled 'FLEXIBLE IN BORE RECEIVING COIL ARRAY FOR A MAGNETIC RESONANCE IMAGING SYSTEM

The abstract describes an MRI system with a flexible RF receiving coil array integrated within the bore of the MRI scanner, allowing it to remain in place regardless of the position of the table.

  • The flexible RF receiving coil array is located underneath the table when the table is within the bore, and an automated mechanism moves the coil from underneath the table on one side of the subject to the other side, fastening it in place.
  • This innovation allows for more efficient and accurate imaging of subjects, as the RF receiving coil array can easily be repositioned without disrupting the imaging process.
  • By integrating the coil array within the bore, the system reduces the need for manual adjustments and ensures consistent imaging quality.
  • The automated mechanism streamlines the imaging process, saving time and improving patient comfort during MRI scans.
  • Overall, this system enhances the functionality and usability of MRI technology, benefiting both healthcare providers and patients.

Potential Applications: This technology can be used in medical facilities for various MRI imaging procedures, including but not limited to neurological, musculoskeletal, and cardiovascular imaging.

Problems Solved: This technology addresses the challenge of repositioning RF receiving coil arrays during MRI scans, improving efficiency and accuracy in imaging procedures.

Benefits: The system offers improved imaging quality, streamlined processes, and enhanced patient comfort during MRI scans.

Commercial Applications: This technology has significant commercial potential in the healthcare industry, particularly in hospitals, imaging centers, and research facilities.

Questions about the technology: 1. How does the integration of the flexible RF receiving coil array within the bore of the MRI scanner improve imaging efficiency? 2. What are the potential cost-saving benefits of using this automated coil repositioning system in MRI imaging procedures?


Original Abstract Submitted

An MRI system includes an MRI scanner having a bore and a table configured to move a subject to be imaged into and out of the bore. The MRI system includes a flexible RF receiving coil array integrated within the bore and electronically coupled directly to the MRI scanner, wherein the flexible RF receiving coil array remains in the bore regardless of a position of the table, and the flexible RF receiving coil array is located underneath the table when the table is located within the bore. The MRI system includes an automated mechanism configured to automatically move the flexible RF receiving coil array from underneath the table on a first side of the subject, to pull the flexible RF receiving coil array over the subject from the first side to a second side of the subject, and to fasten the flexible RF receiving coil on the second side.