Class / Patent application number | Description | Number of patent applications / Date published |
600423000 | With means for inserting into a body | 23 |
20080234569 | Mri Probe for Prostate Imaging - A rectal probe adapted for ultrasound and magnetic resonance imaging of the prostate, comprising: a) an ultrasound imaging probe; b) an MRI probe comprising a first magnetic field source for creating a static magnetic field in an MRI imaging region outside the rectal probe, a second magnetic field source for creating a time-varying magnetic field which excites nuclei in the MRI imaging region, and a receiver for receiving NMR signals from the excited nuclei and generating MRI imaging data indicative thereof; and c) a link joining the ultrasound probe and the MRI probe. | 09-25-2008 |
20090076378 | INTRACAVITY PROBES AND INTERFACES THEREFOR FOR USE IN OBTAINING IMAGES AND SPECTRA OF INTRACAVITY STRUCTURES USING HIGH FIELD MAGNETIC RESONANCE SYSTEMS - An intracavity probe for use with an MR system allows images or spectra of a region of interest within a cavity of a patient to be obtained. The probe includes a shaft, a balloon at one end thereof, and a coil loop within the balloon. The coil loop preferably includes two drive capacitors and a tuning capacitor, all of which in series. A junction node between the drive capacitors serves as a ground for electrically balancing the coil loop. Diametrically opposite the junction node, the tuning capacitor enables the coil loop to resonate at the operating frequency of the MR system. Across each drive capacitor is connected an output cable having an electrical length of S | 03-19-2009 |
20090264736 | DEVICE WITH 3D ARRAY OF STEERING COILS - Systems, methods, and other embodiments associated with remotely controlling a catheter configured with a 3D array of steering coils are described. One example magnetic resonance imaging (MRI) apparatus may include logic to remotely control a catheter. The 3D array of coils may include, for example, one axial coil and two side coils. The MRI apparatus may independently control current provided to members of the 3D array of coils. The MRI apparatus may also selectively produce different pulse sequences to mitigate and/or take advantage of signal voids present in an acquired image due to susceptibility effects from a field(s) generated by a member(s) of the 3D array of coils. Independently controlling the current provided to the 3D array of coils facilitates bending the catheter in a desired position as a result of a magnetic torque associated with a magnetic moment induced in a member of the 3D array of coils. | 10-22-2009 |
20100168555 | Interventional devices for chronic total occlusion recanalization under MRI guidance - Disclosed is a guide catheter that includes one or more RF antennas to enhance the visibility of the guide catheter in MR imagery. One embodiment of the guide catheter includes a loop coil at the distal end of the guide catheter and a loopless antenna between the distal end and the proximal end. By combining a loop coil and a loopless antenna on the catheter, the shaft of the catheter may be visible in MR imagery while the distal end may appear in the MR imagery more brightly than the shaft. | 07-01-2010 |
20110125005 | Interface Devices For Use With Intracavity Probes For High Field Strength Magnetic Resonance Systems - An MR system features an intracavity probe and associated interface device. The probe includes a shaft, a balloon at one end thereof, and a coil loop within the balloon. The loop has two drive capacitors and a tuning capacitor, all of which in series. A junction node between the drive capacitors serves as a ground for electrically balancing the loop. Diametrically opposite the node, the tuning capacitor enables the loop to resonate at the operating frequency of the MR system. The interface allows the MR system to couple the loop to a port of the MR system during a receive cycle thereof and decouple it from the port during a transmit cycle thereof. With its balloon inserted and inflated within a cavity of a patient, the probe allows the MR system to generate images and/or spectra of the region of interest using the MR signals received by the loop. | 05-26-2011 |
20110196229 | ADAPTATION PROBE FOR INSERTION INTO IMPLANTED ELECTRODE DEVICES OF ACTIVE MEDICAL IMPLANTS AND SET COMPOSED OF AN IMPLANTABLE ELECTRODE DEVICE AND AN ADAPTATION PROBE - An adaptation probe for insertion into implanted electrode devices of active medical implants to enable them for use in high-frequency magnetic alternating fields of MRI systems comprises an elongated, flexible probe body, and at least one electrical assembly, which has one or more electrical components connected to an interface, in the probe body, and which can be electrically connected to a supply lead of the electrode device such that the electrically properties of the electrode device can be adapted, in particular the frequency-dependent resistance, impedance, capacitance, or inductance thereof. | 08-11-2011 |
20110230757 | ACTIVE DEVICE TRACKING USING LIGHT WITH ORBITAL ANGULAR MOMENTUM TO INDUCE A HYPERPOLARIZED MRI - One or more light beam endowed with photonic orbital angular momentum generating devices ( | 09-22-2011 |
20120150020 | Microcoil Construction - A microcoil is manufactured by rolling a trace unit in such a way as to form at least one winding. The trace unit is comprised of a conductive trace attached to a flexible insulating film. A preferred embodiment of the microcoil contains both a first winding and a second winding electrically connected and spaced apart by ajoining portion. The microcoil may be used for internal magnetic resonance imaging of patient by attaching the microcoil to a catheter. | 06-14-2012 |
20120226143 | CATHETER ELECTRODE THAT CAN SIMULTANEOUSLY EMIT ELECTRICAL ENERGY AND FACILITATE VISUALIZATION BY MAGNETIC RESONANCE IMAGING - A catheter comprises an elongate body extending along a first longitudinal axis and having an outermost radial surface; a coil wound in a substantially cylindrical shape and extending along a second longitudinal axis that is coincident with the first longitudinal axis. At least a portion of the coil is proximate to the outermost radial surface of the elongate body. | 09-06-2012 |
20120310080 | Interventional Instrument Tracking Device Imageable with Magnetic Resonance Imaging and Method for Use Thereof - A tracking device configured to be coupled to an interventional instrument and tracked by a magnetic resonance imaging system is provided. The tracking device includes, for example, paramagnetic and diamagnetic components that form first and second tracking members. When the tracking device is adjusted into a first arrangement, the tracking device will produce a local magnetic field in the presence of the magnetic field of an MRI system that is measurable by the MRI system. However, when the tracking device is adjusted into a second arrangement, the local magnetic field produced by the tracking device is reduced relative to the first arrangement, wherein the reduced local magnetic field produces substantially no magnetic field disturbances detectable by the MRI system. Images may be acquired of a patient in which the tracking device has been introduced and, using a numerical fitting method, an accurate location of the tracking device can be determined. | 12-06-2012 |
20120316429 | Catheter Device with Local Magnetic Resonance Imaging Coil and Methods for Use Thereof - A catheter device for deploying a local magnetic resonance imaging (MRI) coil is provided. The catheter device includes an outer catheter shaft having a lumen extending from a proximal end to a distal end and an inner catheter shaft having a lumen extending from a proximal end to a distal end. The outer and inner catheter shafts are movably engaged such that one can move relative to the other. A plurality of non-metallic filaments are coupled on one end to the outer catheter shaft and coupled on another end to the inner catheter shaft. The plurality of non-metallic filaments are intertwined to form a braid, to which a local MRI coil is coupled. The local MRI coil is configured to have a circular shape when the braid is in a deployed position. Additionally, motion tracking coils can be coupled to the braid to provide motion tracking information for motion compensation. | 12-13-2012 |
20130023757 | INTERCONNECT FOR AN MRI DETECTOR COIL MOUNTED ON A CATHETER - An interconnect for an RF detector coil comprises a substrate comprising strip of insulating material, a conducting layer formed on a first side of the substrate, and a ground layer formed on a second side of the substrate. At least one of the layers has a periodic pattern so that the conducting layer alternates along its length between capacitive regions which are opposite regions of the ground layer, and non-capacitive regions. | 01-24-2013 |
20130324838 | Lead Electrode for Use in an MRI-Safe Implantable Medical Device - A medical lead is configured to be implanted into a patient's body and comprises a lead body, and an electrode coupled to the lead body. The electrode comprises a first section configured to contact the patient's body, and a second section electrically coupled to the first section and configured to be capacitively coupled to the patient's body. | 12-05-2013 |
20140005526 | CATHETER WITH SYNTHETIC APERTURE MRI SENSOR | 01-02-2014 |
20140094684 | MRI CATHETER WITH RESONANT FILTER - A medical probe includes a flexible insertion tube having a distal end for insertion into a body cavity and having a proximal end. The probe further includes an electrode attached to the distal end of the insertion tube and configured to make electrical contact with tissue in the body cavity. An electrical lead runs through the insertion tube between the distal and proximal ends. In addition a coil is electrically coupled between the electrode and the lead in the insertion tube so as to define a resonant circuit having a resonant frequency in a range between 1 MHz and 300 MHz. | 04-03-2014 |
20140275980 | TIP ASSEMBLY FOR MRI-COMPATIBLE MEDICAL DEVICES AND MRI-COMPATIBLE MEDICAL DEVICES INCORPORATING SAME - An MRI-compatible tip assembly for an MRI-compatible medical device includes a first tubular member, a second tubular member, a ring electrode, and a tip electrode. The tip electrode proximal end is secured to the first tubular member distal end. The second tubular member distal end is inserted through the ring electrode and is secured to the first tubular member proximal end. When assembled, the tip assembly is a substantially rigid structure. Each tubular member has a recessed portion for a tracking coil. | 09-18-2014 |
20150099965 | SYSTEM FOR HIGH RESOLUTION FAST ACQUISITION MAGNETIC RESONANCE IMAGING USING A CATHETER-MOUNTED COIL - A catheter-mounted, expandable or set in position, coil for magnetic resonance imaging. The coil having a catheter sheath including an elongated tube with a central axis, the catheter sheath having an opening at an end thereof; an expandable coil including a conductive material connected to an expansion mechanism which, when deployed, maintains the expandable receive coil shape; and a cable running through the catheter sheath, the cable being electrically connected to the coil inductive loop. | 04-09-2015 |
20150320325 | Devices, Systems, and Methods for Vessel Assessment - Devices, systems, and methods for visually depicting a vessel and evaluating a physiological condition of the vessel are disclosed. One embodiment includes obtaining, at a first time, a first image of the vessel, the image being in a first medical modality, and obtaining, at a second time subsequent to the first time, a second image of the vessel, the image being in the first medical modality. The method also includes spatially co-registering the first and second images and outputting a visual representation of the co-registered first and second images on a display. Further, the method includes determining a physiological difference between the vessel at the first time and the vessel at the second time based on the co-registered first and second images, and evaluating the physiological condition of the vessel of the patient based on the determined physiological difference. | 11-12-2015 |
20150323621 | RECTAL COIL FOR MAGNETIC-RESONANCE TOMOGRAPHY - The invention concerns a rectal coil for magnetic resonance tomography, with a coil for transmitting and/or receiving magnetic resonance tomography electromagnetic signals, an inflatable balloon for securing or positioning the coil in the intestine and a shaft by means of which the coil and balloon are connected and which is used to introduce the rectal coil into the rectum, the coil being attached outside the balloon. | 11-12-2015 |
20160018490 | BODY-INSERTABLE DEVICE WITH AN MR COIL AND A SHIN COIL - A medical device to be introduced into the body of a subject has at least one MR coil that can be introduced into the body at the same time and at least one shim coil that can be introduced into the body at the same time. The device can be formed as an endorectal probe, vaginal probe and transesophageal probe as well as an implant. | 01-21-2016 |
20160082285 | APPLICATOR APPARATUS FOR PERFORMING BRACHYTHERAPY AND/OR MAGNETIC RESONANCE IMAGING - An applicator apparatus for performing brachytherapy and/or magnetic resonance imaging has an application main body for receiving at least one radiation source, and at least one antenna element connected to the application main body as a reception unit for a magnetic resonance device. The applicator apparatus can also include a processing module for a preamplification and/or digitization, the processing module being radiation-resistant and embodied to be separably connected to the antenna element, and the antenna element includes at least one part of the application main body. | 03-24-2016 |
20160131725 | MULTI-CHANNEL ENDORECTAL COILS AND INTERFACE DEVICES THEREFOR - An intracavity probe for use with a magnetic resonance system includes: a pair of coil loops arranged in a phased array configuration; a pair of decoupling circuits; a pair of output cables; and a spacer material positioned adjacent to an anterior surface of the coil loops. Each coil loop has a drive capacitor and a tuning capacitor. Each decoupling circuit is connected across the tuning capacitor of one of the coil loops. Each output cable is connected at a first end thereof across the drive capacitor of one of the coil loops such that each of the drive capacitors is provided with a separate ground. The spacer material assures a predetermined distance between the pair of coil loops and the region of interest, which thereby reduces intensity of the magnetic resonance signals in proximity to the coil loops, maintains SNR at depth within the region of interest and reduces artifacts. | 05-12-2016 |
20160183838 | CATHETER WITH SYNTHETIC APERTURE MRI SENSOR - A medical probe, including a flexible insertion tube having a distal end for insertion into a body cavity. An array of spatially separated coils is positioned within the distal end. A processor is configured to process respective signals generated by the coils in response to magnetic resonance of tissue in the body cavity, and to process the signals while applying a phase delay responsive to a separation between the coils so as to image the tissue. | 06-30-2016 |