MOTION CORRECTION AND MOTION REDUCTION DURING DEDICATED MAGNETIC RESONANCE IMAGING

Organization Name

Siemens Healthcare GmbH

Inventor(s)

David Grodzki of Erlangen (DE)

Mario Zeller of Erlangen (DE)

Carmel Hayes of München (DE)

René Kartmann of Nürnberg (DE)

MOTION CORRECTION AND MOTION REDUCTION DURING DEDICATED MAGNETIC RESONANCE IMAGING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240008820 titled 'MOTION CORRECTION AND MOTION REDUCTION DURING DEDICATED MAGNETIC RESONANCE IMAGING

Simplified Explanation

The patent application describes a method and system for reducing motion artifacts in magnetic resonance image data acquired from a facial region of a patient. The patient is positioned in an imaging region of a magnetic resonance imaging device, which performs a magnetic resonance measurement of the facial region to acquire image data. A motion correction technique is employed during the measurement, taking advantage of the accessibility to the facial region. This technique effectively reduces the influence of patient motion on the magnetic resonance image data.

• The patient is positioned in an imaging region of a magnetic resonance imaging device.
• Magnetic resonance measurement is performed to acquire image data of the facial region.
• A motion correction technique is employed during the measurement.
• The technique exploits the accessibility to the facial region of the patient.
• The motion correction technique reduces the influence of patient motion on the image data.

Potential applications of this technology:

• Medical imaging: This technology can be used in medical imaging applications, specifically for acquiring high-quality magnetic resonance images of the facial region. It can be beneficial for diagnosing and monitoring various facial conditions and diseases.
• Facial reconstruction: The motion correction technique can be applied in facial reconstruction procedures, where accurate and detailed magnetic resonance images of the facial region are required for planning and guiding the reconstruction process.

Problems solved by this technology:

• Motion artifacts: Patient motion during magnetic resonance imaging can lead to motion artifacts in the acquired image data, which can degrade the image quality and hinder accurate diagnosis. This technology effectively reduces the influence of patient motion, minimizing motion artifacts in the images.
• Incomplete image acquisition: Patient motion can also result in incomplete image acquisition, where certain parts of the facial region are not properly captured. The motion correction technique ensures a more comprehensive and complete acquisition of the facial region.

Benefits of this technology:

• Improved image quality: By reducing motion artifacts, the magnetic resonance image data obtained from the facial region of the patient will have improved quality and clarity. This can aid in accurate diagnosis and treatment planning.
• Time and cost savings: The motion correction technique allows for more efficient and reliable image acquisition, reducing the need for repeated scans due to motion artifacts. This can save time for both the patient and the medical staff, as well as reduce healthcare costs.

Original Abstract Submitted

in a method and system for reducing motion artifacts in magnetic resonance image data acquired from a facial region of a patient, the patient is positioned in an imaging region of a magnetic resonance imaging device configured to perform a magnetic resonance measurement of the facial region of the patient, the magnetic resonance measurement is performed to acquire magnetic resonance image data of the facial region of the patient, and a motion correction technique is employed exploiting an accessibility to the facial region of the patient during the magnetic resonance measurement. the motion correction technique advantageously reduces an influence of a patient motion on the magnetic resonance image data.