Calypso Medical Technologies, Inc. Patent applications |
Patent application number | Title | Published |
20130345561 | DELIVERY CATHETER FOR AND METHOD OF DELIVERING AN IMPLANT, FOR EXAMPLE, BRONCHOSCOPICALLY IMPLANTING A MARKER IN A LUNG - Systems and methods for treating a lung of a patient. One embodiment of a method comprises positioning a leadless marker in the lung of the patient relative to the target, and collecting position data of the marker. This method further comprises determining the location of the marker in an external reference frame outside of the patient based on the collected position data, and providing an objective output in the external reference frame that is responsive to movement of the marker. The objective output is provided at a frequency (i.e., periodicity) that results in a clinically acceptable tracking error. In addition, the objective output can also be provided at least substantially contemporaneously with collecting the position data used to determine the location of the marker. | 12-26-2013 |
20110308016 | PATIENT SUPPORT SYSTEMS FOR USE WITH RADIATION THERAPY SYSTEMS AND OTHER APPLICATIONS - An apparatus for supporting a patient in radiation therapy and other applications. In one embodiment, the apparatus includes a support structure and a panel carried by the support structure. The support structure can have first and second support members, such as rigid girders or other structures comprising substantially dielectric materials. The panel is also a rigid structure comprising substantially dielectric materials. The panel can further include a pass-through zone or other type of zone that is compatible with an ionizing radiation beam. For example, the panel can have a grid or solid low-density structure that mitigates beam contamination. The support structure and the panel together are configured to position a magnetic marker implanted in the patient in a navigational zone in which a magnetic field transmitted from the marker is not affected by conductive components or loops of conductive material in the pedestals or cantilevered support structures of conventional patient support systems. | 12-22-2011 |
20110283663 | PACKAGED SYSTEMS FOR IMPLANTING MARKERS IN A PATIENT AND METHODS FOR MANUFACTURING AND USING SUCH SYSTEMS - Packaged systems for implanting a marker in a patient and methods for manufacturing and using such systems. In one embodiment, a packaged system comprises an introducer having a cannula and a stylet configured to be received in the cannula, a marker in the cannula, and a package having a sterile compartment. The marker can have a casing configured to be implanted in a patient and a resonating circuit in the casing. The resonating circuit can comprise a coil configured to wirelessly transmit a target signal in response to a wirelessly transmitted excitation signal. The introducer is contained within the sterile compartment. In another embodiment, the marker is not loaded in the introducer within the compartment of the package. | 11-24-2011 |
20110046481 | GUIDED RADIATION THERAPY SYSTEM - A system and method for accurately locating and tracking the position of a target, such as a tumor or the like, within a body. In one embodiment, the system is a target locating and monitoring system usable with a radiation delivery source that delivers a selected doses of radiation to a target in a body. The system includes one or more excitable beacons positionable in or near the target, an external excitation source that remotely excites the beacons to produce an identifiable signal, and a plurality of sensors spaced apart in a known geometry relative to each other. A computer is coupled to the sensors and configured to use the beacon measurements to identify a target isocenter within the target. The computer compares the position of the target isocenter with the location of the machine isocenter. The computer also controls movement of the patient and a patient support device so the target isocenter is coincident with the machine isocenter before and during radiation therapy. | 02-24-2011 |
20100036241 | APPARATUS AND METHODS FOR IMPLANTING OBJECTS, SUCH AS BRONCHOSCOPICALLY IMPLANTING MARKERS IN THE LUNG OF PATIENTS - Apparatuses and methods for implanting objects, such as a marker, in the lungs of patients. In one embodiment, a bronchoscopic catheter assembly for implanting an object in the lung of a patient includes a handle, a delivery catheter projecting outwardly from the handle, and a push wire contained within the catheter In one aspect of this embodiment, the catheter can be configured to releasably hold a plurality of markers at a distal end. In another aspect of this embodiment, the push wire can be operably connected to the handle and axially moveable within the delivery catheter to eject the marker out of the catheter within the bronchi of the patient. In a further aspect of this embodiment, the marker can further include an anti-migration device associated with the marker for holding the marker in place once the marker is deployed in the bronchi. The anti-migration device can be integral with the marker or positioned proximate to the marker to prevent migration of the marker. | 02-11-2010 |
20090306728 | METHODS AND APPARATUS FOR STIMULATING AND/OR SENSING NEURONS IN A PATIENT - Instruments and method of using instruments for implanting electrodes into a patient. The instrument can include a body configured to be implanted into a patient, an electrode contact carried by the body, and a marker carried by the body. The electrode contact has an electrically conductive surface exposed at a location along the body to sense electrical activity and/or deliver electrical stimulation to the target neural structure. The marker can include a transponder configured to be energized by a wirelessly transmitted excitation energy and to wirelessly transmit a location signal in response to the excitation energy. The instrument is tracked as it is implanted into the patient by time multiplexing the wirelessly transmitted excitation energy and the location signal such that the absolute location of the marker can be determined in real time. | 12-10-2009 |
20090299174 | INSTRUMENTS WITH LOCATION MARKERS AND METHODS FOR TRACKING INSTRUMENTS THROUGH ANATOMICAL PASSAGEWAYS - Instruments and methods for tracking such instruments in a human patient. One embodiment of an instrument in accordance with the invention comprises an elongated body, such as an elongated flexible member, which has a distal section configured to be passed through a vessel or other passageway in a human. The instrument can further include a lumen through the distal section and a magnetic marker having a transponder at the distal section. The transponder includes a circuit configured to be energized by a wirelessly transmitted magnetic excitation energy and to wirelessly transmit a magnetic location signal in response to the excitation energy. The magnetic marker, for example, can be attached to or otherwise integral with the instrument. | 12-03-2009 |
20090216115 | Anchoring wirless markers within a human body - Apparatus and methods for anchoring implanted wireless markers in a patient's body to accurately locate a small target within a soft tissue region. One embodiment of the invention comprises a casing, a transponder partially encased in the casing, and an anchor protruding from the casing. The anchor can either be an extension of the casing or a separate component partly embedded in the casing. Different embodiments of the invention may be well suited for percutaneous implantation and/or surgical implantation. | 08-27-2009 |
20090211027 | Patient Support Systems for Use with Radiation Therapy Systems and Other Applications - An apparatus for supporting a patient in radiation therapy and other applications. In one embodiment, the apparatus includes a support structure and a panel carried by the support structure. The support structure can have first and second support members, such as rigid girders or other structures comprising substantially dielectric materials. The panel is also a rigid structure comprising substantially dielectric materials. The panel can further include a pass-through zone or other type of zone that is compatible with an ionizing radiation beam. For example, the panel can have a grid or solid low-density structure that mitigates beam contamination. The support structure and the panel together are configured to position a magnetic marker implanted in the patient in a navigational zone in which a magnetic field transmitted from the marker is not affected by conductive components or loops of conductive material in the pedestals or cantilevered support structures of conventional patient systems. | 08-27-2009 |
20090209852 | Systems and Methods for Treating a Patient Using Guided Radiation Therapy or Surgery - Systems and methods for locating and tracking a target, i.e., measuring the position and/or rotation of a target during setup and treatment of a patient in guided radiation therapy applications for the head and neck. One embodiment is directed toward a device having a body and markers, such as excitable transponders and/or radiographic fiducials, fixable in or on the body for localizing the body. For example, the body can be a mouthpiece body having a channel configured to receive a patient's teeth such that the mouthpiece is repeatedly and consistently placed in the same relative position in the patient when the patient bites down on the mouthpiece. The transponders can be alternating magnetic transponders and the fiducials can be gold seeds. Other embodiments include a device having a two-piece body, a first piece of the body having excitable transponders and a second piece of the body having radiographic fiducials. | 08-20-2009 |
20090209804 | Apparatuses and methods for percutaneously implanting objects in patients - Apparatuses and methods for percutaneously implanting objects, such as radioactive seeds or markers, in patients. In one embodiment, a device for percutaneously implanting an object in a patient includes a handle, a cannula projecting outwardly from the handle, and an actuator movably disposed relative to the handle. In one aspect of this embodiment, the cannula can be configured to releasably hold the object and percutaneously penetrate the patient. In another aspect of this embodiment, the actuator can be operably connected to the cannula and operable to move the cannula relative to the handle and release the object within the patient. In a further aspect of this embodiment, the cannula can include a tip portion having a restriction configured to releasably hold the object for implantation in the patient. | 08-20-2009 |
20080287779 | Packaged Systems for Implanting Markers in a Patient and Methods for Manufacturing and Using Such Systems - Packaged systems for implanting a marker in a patient and methods for manufacturing and using such systems. In one embodiment, a packaged system comprises an introducer having a cannula and a stylet configured to be received in the cannula, a marker in the cannula, and a package having a sterile compartment. The marker can have a casing configured to be implanted in a patient and a resonating circuit in the casing. The resonating circuit can comprise a coil configured to wirelessly transmit a target signal in response to a wirelessly transmitted excitation signal. The introducer is contained within the sterile compartment. In another embodiment, the marker is not loaded in the introducer within the compartment of the package. | 11-20-2008 |