Magnetic Resonance Facility Operation

Organization Name

Siemens Healthcare GmbH

Inventor(s)

Johann Sukkau of Herzogenaurach (DE)

George William Ferguson of Erlangen (DE)

Robert Rehner of Neunkirchen am Brand (DE)

[[:Category:Jens Th�ne of Lauf an der Pegnitz (DE)|Jens Th�ne of Lauf an der Pegnitz (DE)]][[Category:Jens Th�ne of Lauf an der Pegnitz (DE)]]

Julian Wohlers of Erlangen (DE)

Magnetic Resonance Facility Operation - A simplified explanation of the abstract

This abstract first appeared for US patent application 18519142 titled 'Magnetic Resonance Facility Operation

Simplified Explanation

The computer-implemented method described in the patent application involves operating an MR facility with a main magnet unit and a patient bore, where the field of view (FOV) is defined by the main magnetic field's homogeneity within the bore. The method includes positioning a patient bench within the bore and using a local coil arrangement to measure MR data, with the coil element freely positionable on the patient bench or the patient's body.

• The method involves ascertaining the position of the local coil arrangement in the longitudinal direction using a measuring device when the patient bench is partially outside the patient bore.
• Recording information describing the position of the local coil arrangement with respect to the FOV is also ascertained.
• The patient bench is automatically positioned in the longitudinal direction at an approach position determined from the position and recording information.

Potential Applications

This technology can be applied in medical imaging facilities to improve the accuracy and efficiency of MR imaging procedures.

Problems Solved

This technology solves the problem of accurately positioning the local coil arrangement for MR imaging while ensuring the patient is correctly positioned within the FOV.

Benefits

The benefits of this technology include improved image quality, reduced imaging time, and enhanced patient comfort during MR imaging procedures.

Potential Commercial Applications

Potential commercial applications of this technology include medical imaging centers, hospitals, and research institutions looking to upgrade their MR imaging capabilities.

Possible Prior Art

One possible prior art for this technology could be the use of automated patient positioning systems in MRI machines to improve imaging accuracy and efficiency.

Unanswered Questions

How does this technology impact patient safety during MR imaging procedures?

This technology can potentially improve patient safety by ensuring accurate positioning of the local coil arrangement and the patient within the FOV, leading to more precise imaging results.

What are the potential cost implications of implementing this technology in an MR facility?

The cost implications of implementing this technology may include initial setup costs, maintenance expenses, and potential savings from improved imaging efficiency and accuracy.

Original Abstract Submitted

A computer-implemented method for operating an MR facility having a main magnet unit with a patient bore. A field of view (FOV) of the MR facility, defined by a main magnetic field's homogeneity, lies within the bore. A patient bench to position the patient within the patient bore is longitudinally movable. Additionally, a local coil arrangement with at least one coil element to measure MR data is freely positionable on the patient bench and/or a patient's body to be measured with respect to the longitudinal direction. The method includes: ascertaining position information of the local coil arrangement in the longitudinal direction using a measuring device when the patient bench is partially outside the patient bore; ascertaining recording information describing the local coil arrangement's position with respect to the FOV; and automatically positioning the patient bench in the longitudinal direction at an approach position ascertained from the position and recording information.