Intracavity probe and interface device for MRI imaging and spectroscopy
First Claim
1. A method for obtaining magnetic resonance information from a region of interest within a cavity of a patient using an insertable probe having a RF receiving coil between an inner and outer balloon, the method comprising the steps of:
- inserting the probe into a predetermined position in the cavity of the patient;
inflating the inner balloon and controlling the inflation of the inner balloon with a non-stretchable substantially planar member covering a surface on the inner balloon, thereby inflating the outer balloon against the cavity and positioning the coil proximate the region of interest;
inducing magnetic resonance RF signals in the region of interest; and
receiving the RF signals with the coil.
3 Assignments
0 Petitions
Accused Products
Abstract
An insertable pickup probe and interface network for magnetic resonance imaging and spectroscopy. The pickup probe in the preferred embodiment is for use in imaging the male prostate and comprises an elongated shaft supporting a patient interface balloon at its distal end which contains a RF receiving coil. The interface balloon comprises an inflatabe inner balloon enclosed by a flexible outer balloon. The receiving coil is positioned between the inner and outer balloons and placed intimately adjacent the region of interest by inflating the inner balloon to expand outwardly against the outer balloon. In addition, a non-stretchable planar material is provided on the surface on the inner balloon adjacent the receiving coil for ensuring that the receiving coil is placed adjacent the region of interest. The inner balloon is inflated by an inflator cuff connected to the shaft and communicated to the inner balloon by a first lumen in the shaft. The receiving coil is electrically connected to an interconnecting cable which is connected to the proximal end of the shaft and communicated to the receiving coil by a second lumen in the shaft. An interface network is also provided which receives the interconnecting cable of the pickup probe and includes impedance matching means, tuning means, and decoupling means for interfacing the probe with a magnetic resonance imaging scanner. In addition, the interface includes an electronic circuit for automatically adjusting the control voltage of a varactor diode in a Pi network which comprises the tuning means.
152 Citations
5 Claims
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1. A method for obtaining magnetic resonance information from a region of interest within a cavity of a patient using an insertable probe having a RF receiving coil between an inner and outer balloon, the method comprising the steps of:
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inserting the probe into a predetermined position in the cavity of the patient; inflating the inner balloon and controlling the inflation of the inner balloon with a non-stretchable substantially planar member covering a surface on the inner balloon, thereby inflating the outer balloon against the cavity and positioning the coil proximate the region of interest; inducing magnetic resonance RF signals in the region of interest; and receiving the RF signals with the coil.
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2. A method of magnetic resonance imaging of a region of interest within a cavity of a patient with an insertable probe having a RF receiving device movable with an inflatable interface device, the method comprising the steps of:
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inserting the probe into a predetermined position in the cavity of the patient; inflating the interface device into contact with the cavity, thereby causing an anterior saddle shaped surface of the interface device to conformally fit against a shaped portion of the cavity proximate the region of interest, and securely positioning the RF receiving device proximate the region of interest; inducing RF signals in the region of interest; receiving the RF signals with the RF receiving device; and producing a magnetic resonance image derived from the received RF signals. - View Dependent Claims (3)
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4. A method of magnetic resonance imaging of a region of interest within a cavity of a patient with an insertable probe having a RF receiving device movable with an inflatable interface device, the method comprising the steps of:
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inserting the probe into a predetermined position in the cavity of the patient; inflating the interface device into contact with the cavity, thereby causing an anterior saddle shaped surface of the interface device to conformally fit against a shaped portion of the cavity proximate the region of interest, and securely positioning the RF receiving device proximate the region of interest; inducing RF signals in the region of interest; receiving the RF signals with the RF receiving device; producing a magnetic resonance image derived from the received RF signals; and wherein the inflatable interface device comprises an inner and outer balloon, the RF receiving device being expandable with the inflating of the inner balloon, the method further comprising the step of controlling the inflation of the inner balloon with a non-stretchable substantially planar member covering a surface on the inner balloon.
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5. A method for obtaining magnetic resonance information from a region of interest within a cavity of a patient using an insertable probe, the method comprising the steps of:
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(a) providing a probe having an inflatable inner balloon and outer positioning means surrounding the inner balloon, the outer positioning means having undulating folds extending away from the region of interest; (b) providing an RF receiving coil between the inner balloon and the outer positioning means; (c) inserting the probe into a predetermined position in the cavity of a patient; (d) inflating the inner balloon to first unfold the undulating folds of the outer positioning means against a wall of the cavity generally opposite the region of interest; (e) continuing to inflate the inner balloon and securely position the RF receiving coil between the inner balloon and the outer positioning means and proximate the region of interest; (f) inducing RF signals in the region of interest; (g) receiving the RF signals with the RF receiving device; and (h) producing a magnetic resonance image derived from the received RF signals.
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Specification