Surgery – Diagnostic testing – Detecting nuclear – electromagnetic – or ultrasonic radiation
Reexamination Certificate
2000-12-04
2004-05-25
Schaetzle, Kennedy (Department: 3762)
Surgery
Diagnostic testing
Detecting nuclear, electromagnetic, or ultrasonic radiation
C128S899000
Reexamination Certificate
active
06741882
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to an MR device with means for localizing and/or visualizing a medical instrument inserted into an object to be examined, as well as to a corresponding MR method.
A device and a method of this kind are known from EP 928 972 A2. The cited document describes a microcoil which is attached to a medical instrument, for example a catheter, inserted into the object to be examined, for example the body of a patient. The microcoil does not have any connection leads and is tuned to the MR frequency of the MR device. In response to an RF pulse, the magnetic field locally increases in the direct vicinity of the microcoil, with the result that the nuclear magnetization at the area of the microcoil is influenced to a different degree in comparison with that in the remainder of the examination zone; this difference can be made visible in an MR image and the position of the microcoil, and hence also of the medical instrument, can be deduced therefrom.
The known device, however, has been found to have a drawback in that a microcoil with a resonant circuit must be integrated in the medical instruments; this increases the cost of the instruments which are usually used only once. Moreover, the field increase caused by the microcoil often is not strong enough to enable exact determination of the position of the medical instrument, because the volume in which such a field increase occurs is comparatively small.
OBJECTS AND SUMMARY OF THE INVENTION
Therefore, it is an object of the present invention to realize a more economical and more reliable MR device and MR method of the kind set forth.
This object is achieved by means of an MR device means for at least one of localizing and visualizing a medical instrument inserted into an object to be examined, the medical instrument is provided with a magnet device and that the magnet device can be controlled by means of a control unit in such a manner that information concerning the position of the magnet device in MR data sets can be changed in a specific manner; and an MR method least one of localizing and visualizing a medical instrument inserted into an object to be examined, wherein the medical instrument is provided with a magnet device whereby information concerning the position of the magnet device in MR data sets to be acquired can be changed in a specific manner and that the magnet device is controlled by means of a control unit in such a manner that for the localization and/or visualization of the medical instrument there is acquired an MR data set which contains information concerning the position of the magnet device and otherwise MR data sets without information, or with changed information, concerning the position of the device are acquired.
The invention is based on the recognition of the fact that it would be very advantageous if the effect realized in an MR data set by means of the microcoil in the known device could be deliberately controlled, for example, that it can be switched on and off. This is not possible in the known device, because the microcoil does not have a connection lead to the environment. Granted, MR devices are known in which such a microcoil is provided with an RF lead to a receiver via which the RF signals can be transferred. It has been found, however, that such known MR devices have a serious drawback since excess fields and hence so-called “hot spots” may occur along such RF leads; such hot spots cannot be described in a model and hence represent a risk to the patient that cannot be ignored. Moreover, solutions of this kind are comparatively expensive.
Therefore, in accordance with the invention the medical instrument is provided with a passive magnet device which can be controlled from the outside without an RF lead being fed out. Such a magnet device enables control as to if and to what extent information concerning the position of the magnet device is contained in an MR data set, for example in a projection or a slice image through the magnet device. For example, the magnet device can be controlled in such a manner that the information concerning the position of the magnet device is contained in a first MR data set so that the magnet device is clearly reproduced in a first MR image whereas no information concerning the position of the magnet device is contained in a second, directly subsequently acquired MR data set of the same anatomy, so that the magnet device is not visible either in an MR image formed from the second MR data set. Thus, a third MR data set that contains exclusively the information concerning the position of the magnet device can be derived from the difference between said two MR data sets; the position of the medical instrument can be derived from said third MR data set so as to be reproduced in an MR image in conformity with an advantageous embodiment of the invention.
The orientation and/or the position of the magnet device relative to the medical instrument can be changed by means of the control unit in a preferred embodiment of the invention. This enables, for example, the successive acquisition of two MR data sets of the same anatomy while changing only the orientation and/or the position of the magnet device but not the position of the medical instrument. A third MR data set which does not contain information concerning the anatomy but only information concerning the magnet device can then be derived again from the difference between the two MR data sets.
In an alternative embodiment of the invention the magnetic properties of the magnet device can be modified. This can be realized in a further embodiment in which the magnetic properties can be modified under the influence of mechanical pressure, temperature, light or magnetic or electric radiation. MR data sets with different information contents concerning the position of the magnet device can again be derived therefrom for use in the described manner.
The control commands for the control unit are advantageously integrated in the MR sequences for the control of the MR device and for the acquisition of the MR data sets, so that the control of the magnet device is automatic during the acquisition of the MR data sets. Thus, it is not necessary for the user to perform special operations or to input data so as to initiate the determination of the position of the medical instrument. In the known MR device, however, the user would have to change the position of the medical instrument, including the microcoil, by hand and hence perform an active operation, in order to acquire two MR data sets wherefrom the position of the microcoil could be determined. The control of the magnet device and the associated acquisition of the MR data sets according to the invention is automatic and realized by way of a program.
The invention thus offers a solution for the determination of the position of a medical instrument in an object to be examined so as to visualize it in an MR image while using comparatively simple and inexpensive means that nevertheless offer a high degree of reliability.
REFERENCES:
patent: 4989608 (1991-02-01), Ratner
patent: 5257636 (1993-11-01), White
patent: 5271400 (1993-12-01), Dumoulin et al.
patent: 5622169 (1997-04-01), Golden et al.
patent: 5951472 (1999-09-01), Van Vaals et al.
patent: 6263230 (2001-07-01), Haynor et al.
patent: 6522909 (2003-02-01), Garibaldi et al.
patent: 0928972 (1999-07-01), None
Schäffter Tobias
Weiss Steffen
Koninklijke Philips Electronics , N.V.
Schaetzle Kennedy
Vodopia John
LandOfFree
MR device and MR method for localizing and/or visualizing a... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with MR device and MR method for localizing and/or visualizing a..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and MR device and MR method for localizing and/or visualizing a... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-3254428