Multi-Directional X-Ray Imaging System

Organization Name

Mobius Imaging, LLC

Inventor(s)

Eugene A. Gregerson of Bolton MA (US)

Russell Stanton of Lunenberg MA (US)

Michael Connor of Dunstable MA (US)

Michael Allen of Littleton MA (US)

Paul Sebring of Townsend MA (US)

Robert Coughlin Powell of Stow MA (US)

Multi-Directional X-Ray Imaging System - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240008825 titled 'Multi-Directional X-Ray Imaging System

Simplified Explanation

The abstract describes an imaging system and methods that include a gantry, a bore, and an imaging axis. The gantry is supported by at least one support member, allowing for vertical displacement. The system can perform vertical imaging scans, such as helical x-ray CT scans, on weight-bearing patients. The gantry is also rotatable between a vertical and horizontal orientation, allowing for horizontal scans. The system can perform horizontal scans on patients or objects positioned within the bore.

• The imaging system includes a gantry, bore, and imaging axis.
• The gantry is supported by at least one support member, allowing for vertical displacement.
• The system can obtain vertical imaging scans, such as helical x-ray CT scans, on weight-bearing patients.
• The gantry is rotatable between a vertical and horizontal orientation.
• The system can perform horizontal scans on patients or objects positioned within the bore.

Potential Applications

• Medical imaging: The system can be used for various medical imaging applications, including vertical and horizontal scans of weight-bearing patients.
• Orthopedics: The system can provide valuable imaging information for orthopedic evaluations, such as assessing bone fractures or joint conditions in weight-bearing positions.
• Sports medicine: The system can aid in diagnosing and monitoring sports-related injuries, especially those that require weight-bearing imaging scans.
• Research: The system can be utilized in research studies that require vertical or horizontal imaging scans of patients or objects.

Problems Solved

• Limited imaging options: The system addresses the limitation of traditional imaging systems by providing the capability to perform vertical and horizontal scans on weight-bearing patients.
• Improved accuracy: By allowing weight-bearing scans, the system can provide more accurate imaging information, especially for conditions that are influenced by body position or load-bearing.
• Enhanced diagnostic capabilities: The system's ability to perform vertical and horizontal scans expands the range of diagnostic possibilities, enabling better evaluation and treatment planning.

Benefits

• Comprehensive imaging: The system offers both vertical and horizontal imaging scans, providing a more comprehensive view of the patient's condition.
• Improved patient comfort: Weight-bearing scans can be more comfortable for patients, as they can assume a natural standing or sitting position during the imaging process.
• Enhanced diagnostic accuracy: The system's ability to perform weight-bearing scans can lead to more accurate diagnoses and treatment plans, particularly for conditions influenced by body position or load-bearing.
• Versatile research tool: The system's flexibility in performing vertical and horizontal scans makes it a valuable tool for various research studies in the medical field.

Original Abstract Submitted

an imaging system and methods including a gantry defining a bore and an imaging axis extending through the bore, and at least one support member that supports the gantry such that the imaging axis has a generally vertical orientation, where the gantry is displaceable with respect to the at least one support member in a generally vertical direction. the imaging system may be configured to obtain a vertical imaging scan (e.g., a helical x-ray ct scan), of a patient in a weight-bearing position. the gantry may be rotatable between a first position, in which the gantry is supported such that the imaging axis has a generally vertical orientation, and a second position, such that the imaging axis has a generally horizontal orientation. the gantry may be displaceable in a horizontal direction and the system may perform a horizontal scan of a patient or object positioned within the bore.