Patient infusion system for use with MRI

a patient and infusion system technology, applied in the field of mri systems, can solve the problems of interference between high-power magnetic fields, mri systems which employ these solutions require substantial site dedication and are therefore not very portable, and the results are not good

Inactive Publication Date: 2000-04-11
MEDRAD INC.
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Benefits of technology

In the preferred embodiment, this communication link is made through a window in the isolation room barrier. These windows are typically in the form of a glass laminate containing a conductive wire mesh, or alternatively, a window that is coated with a thin sheet of conductive material such as gold to maintain the shielding characteristics of the isolation room. The communications link consists of electromagnetic transceivers which operate in a frequency range which permeates the window while maintaining the integrity of the isolation barrier. Infrared or electromagnetic energy in the visual range provide the best results. Alternatively, a fiberoptic communication link can be used to provide the communication link, since fiberoptics do not create electromagnetic radiation.
The present invention also incorporates a contrast media injection unit located within the shielded room which comprises separate contrast media injector head and injection head control unit. The contrast media injection head, and specifically the syringe pistons are located in close proximity to the patient and consequently are located within the powerful magnetic field used to generate the magnetic resonance image. The head control

Problems solved by technology

The external, isolated location of the system controller creates various problems associated with the installation and operation of these systems.
One such problem is the need to provide a communications link between the externally located controller and the contrast media injectors, without introducing extraneous electromagnetic radiation.
These alternatives have proven to be less than optimum, since spurious radiation arose from the presence of the various supply cables within the shielded imaging suite.
Additionally, MRI systems which employed these solutions required substantial site dedication and were therefore not very portable.
Another problem associated with conventional magnetic resonance imaging systems is the interference which occurs between the high power magnetic field used for generating the magnetic

Method used

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  • Patient infusion system for use with MRI
  • Patient infusion system for use with MRI

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Embodiment Construction

FIG. 1 illustrates an improved magnetic resonance imaging system according to the present invention and is shown generally at 10. The MRI system includes a system controller 12 which incorporates a computer 14 and a battery charging unit 16. The system controller 12 is located externally of the imaging room 17, the imaging room being shielded from electromagnetic interference by a shield 18. Isolation can be achieved by completely enclosing the room with copper sheet material or some other suitable, conductive layer such as wire mesh. Communication line 20, connects the system controller 12 with an external infrared / optical communications transceiver 22. The shielded imaging room 17 also incorporates a patient viewing window 24 in the shield 18 which allows an observer to view the room without breaching the electromagnetic shield 18. The window 24 can be formed by sandwiching a wire mesh material (not shown) between sheets of glass or coating the window with a thin coating of conduc...

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Abstract

This invention relates generally to the field of Magnetic Resonance Imaging (MRI) systems for generating diagnostic images of a patient's internal organs and more particularly, this invention relates to improved MRI systems with decreased interference between the magnetic field used for producing diagnostic images and the magnetic fields generated by the electric motors used for driving the pistons of the contrast media injectors. Additionally, the system employs an improved communication link between an externally located system controller and the injection head control unit located within the electromagnetic isolation barrier which defines the magnetic imaging room.

Description

BACKGROUND OF THE INVENTION1. Field of the InventionThis invention relates generally to the field of Magnetic Resonance Imaging (MRI) systems for generating diagnostic images of a patient's internal organs and more particularly, this invention relates to improved MRI systems exhibiting decreased interference between the magnetic field used for producing diagnostic images and spurious magnetic fields created by ancillary equipment, such as the electric motors used for driving the pistons of the contrast media injectors. Additionally, the system employs an improved communication link between an externally located system controller and the injection head control unit which is located within the electromagnetic isolation barrier of the magnetic imaging suite.2. Description of the Related ArtIt has become recognized that MRI systems require isolation from external sources of electromagnetic fields, if optimum image quality is to be obtained from MRI diagnostic procedures. Conventional MR...

Claims

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Application Information

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IPC IPC(8): A61M5/00A61M5/145G01R33/28A61B5/055G01R33/42G01R33/421
CPCA61M5/007A61M5/14546G01R33/28G01R33/285G01R33/421G01R33/283G01R33/281Y10S128/01
Inventor UBER, III, ARTHUR E.WADDELL, SEIDSTULEN, JOHNMANLEY, JON E.DEDOLA, SALVATORE J.NEWELL, GORDON C.
Owner MEDRAD INC.
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