Abstract: A system and method for tracking the position and orientation of a probe such as a catheter whose transverse inner dimension may be at most about two millimeters. Three planar antennas that at least partly overlap are used to transmit electromagnetic radiation simultaneously, with the radiation transmitted by each antenna having its own spectrum. In the case of single-frequency spectra, the antennas are provided with mechanisms for decoupling them from each other. A receiver inside the probe includes sensors of the three components of the transmitted field, with sensors for at least two of the three components being pairs of sensors, such as coils, disposed symmetrically with respect to a common reference point. In one variant of the receiver, the coils are collinear and are wound about cores that are mounted in pairs of diametrically opposed apertures in the housing of the probe.

Abstract: Systems and methods employing a small guage steerable catheter (30) including a locatable guide (32) with a sheath (40), particularly as an enhancement to a bronchoscope (14). A typical procedure is as follows. The location of a target in a reference coordinate system is detected or imported. The catheter (30) is navigated to the target which tracking the distal tip (34) of the guide (32) in the reference coordinate system. Insertion of the catheter is typically via a working channel of a convention bronchoscope. Once the tip of the catheter is positioned at the target, the guide (32) is withdrawn, leaving the sheath (40) secured in place. The sheath (40) is then used as a guide channel to direct a medical tool to target.

Abstract: A system and method of displaying at least one point-of-interest of a body during an intra-body medical procedure. The method is effected by (a) establishing a location of the body; (b) establishing a location of an imaging instrument being for imaging at least a portion of the body; (c) defining at least one projection plane being in relation to a projection plane of the imaging instrument; (d) acquiring at least one point-of-interest of the body; and (c) projection said at least one point-of-interest on said at least one projection plane; such that, in course of the procedure, the locations of the body and the imaging instrument are known, thereby the at least one point-of-interest is projectable on the at least one projection plane even in cases whereby a relative location of the body and the imaging instrument are changed.

Abstract: A steering configuration for facilitating steering of a catheter or the like provided with a rigid distal device employs a flexible support element to which a rigid device is attached at its distal end. At least one elongated flexible control element is configured such that tension applied to the control element causes flexing of the flexible support element. The control element is directly attached to the rigid device, thereby rendering the rigid device an operative extension of the steering mechanism.

Abstract: A method of displaying at least one point-of-interest of a body during an intra-body medical procedure. The method is effected by (a) establishing a location of the body; (b) establishing a location of an imaging instrument being for imaging at least a portion of the body; (c) defining at least one projection plane being in relation to a projection plane of the imaging instrument; (d) acquiring at least one point-of-interest of the body; and (e) projecting said at least one point-of-interest on said at least one projection plane; such that, in course of the procedure, the locations of the body and the imaging instrument are known, thereby the at least one point-of-interest is projectable on the at least one projection plane even in cases whereby a relative location of the body and the imaging instrument are changed.

Abstract: A system and method for tracking the position and orientation of a probe such as a catheter whose transverse inner dimension may be at most about two millimeters. Three planar antennas that at least partly overlap are used to transmit electromagnetic radiation simultaneously, with the radiation transmitted by each antenna having its own spectrum. In the case of single-frequency spectra, the antennas are provided with mechanisms for decoupling them from each other. A receiver inside the probe includes sensors of the three components of the transmitted field, with sensors for at least two of the three components being pairs of sensors, such as coils, disposed symmetrically with respect to a common reference point. In one variant of the receiver, the coils are collinear and are wound about cores that are mounted in pairs of diametrically opposed apertures in the housing of the probe.

Abstract: A multiple-electrode catheter assembly includes a hollow catheter having an internal elongated channel and a flexible distal portion. A number of electrodes are spaced along the flexible distal portion. An inner element, slidingly engaged within the elongated channel, has a steering mechanism configured for selectively deflecting a steerable distal portion of the inner element. According to additional, or alternative, features, the inner element includes sliding contacts for forming electrical connections with the electrodes, and displaceable locating elements for determining the position of an electrode during operation. Also provided is a method for operating such a catheter.

Abstract: A method and system for tracking a moving object. The object is provided with one or more single-component sensors of a vector field. Generators of the vector field also are provided. Parameters of equations that relate the generated fields, as measured by the sensors, to the position of the object, but not to the orientation of the object, are determined either empirically or theoretically. These equations are solved to determine the position of the object without having to determine the orientation of the object. The scope of the invention also includes a helical guide wire wherein are integrally included one or more single-component sensors of a quasistatic magnetic field.

Abstract: A system and method for tracking the position and orientation of a probe such as a catheter whose transverse inner dimension may be at most about two millimeters. Three planar antennas that at least partly overlap are used to transmit electromagnetic radiation simultaneously, with the radiation transmitted by each antenna having its own spectrum. In the case of single-frequency spectra, the antennas are provided with mechanisms for decoupling them from each other. A receiver inside the probe includes sensors of the three components of the transmitted field, with sensors for at least two of the three components being pairs of sensors, such as coils, disposed symmetrically with respect to a common reference point. In one variant of the receiver, the coils are collinear and are wound about cores that are mounted in pairs of diametrically opposed apertures in the housing of the probe.

Abstract: A system and method for tracking the position and orientation of a probe. Three at least partly overlapping planar antennas are used to transmit electromagnetic radiation simultaneously, with the radiation transmitted by each antenna having its own spectrum. A receiver inside the probe includes sensors of the three components of the transmitted field, with sensors for at least two of the three components being pairs of sensors, such as coils, on opposite sides of a common reference point. In one variant of the receiver, the coils are collinear and are wound about cores that are mounted in pairs of diametrically opposed apertures in the housing of the probe. Each member of a pair of coils that sense the same component of the transmitted field is connected to a different input of a differential amplifier. The position and orientation of the receiver relative to the antennas are determined noniteratively.

Abstract: A method, and system for determining the position, and optionally, the orientation of a work piece such as a catheter within a cavity of an opaque body such as a patient. The position, and orientation are to be determined relative to a primary coordinate system, for example, the coordinate system of an imaging device. Using a primary reference transducer (210) that interacts with a primary field, and several secondary reference transducers (310) that interact with a secondary field, the coordinates of the secondary reference transducers are determined in the primary coordinate system.

Abstract: The present invention provides a method of recording and displaying in context of an image a location of at least one point-of-interest in a body during an intra-body medical procedure. The method includes establishing locations of the body, an imaging instrument and a location implement included within a catheter, and allows at least one point-of-interest to be displayed in the context of an image of the portion of the body, even in cases in which a relative location of the body and the imaging instrument are changed.

Abstract: A method of displaying at least one point-of-interest of a body during an intra-body medical procedure. The method is effected by (a) establishing a location of the body; (b) establishing a location of an imaging instrument being for imaging at least a portion of the body; (c) defining at least one projection plane being in relation to a projection plane of the imaging instrument; (d) acquiring at least one point-of-interest of the body; and (e) projecting said at least one point-of-interest on said at least one projection plane; such that, in course of the procedure, the locations of the body and the imaging instrument are known, thereby the at least one point-of-interest is projectable on the at least one projection plane even in cases whereby a relative location of the body and the imaging instrument are changed.

Abstract: A catheter (26) is navigated within a body cavity (28) of a patient (24). This navigation is enabled by the provision of the transmitter (30) of electromagnetic radiation under platform (34), a receiver (40) of electromagnetic radiation rigidly attached to fluoroscope (22), and a receiver (32) of radiation rigidly attached to the catheter (26), all three of which are connected by wires (51) to a computer (50). The computer (50) displays, on a display unit (48), the image of the body cavity (28) acquired by the fluoroscope (22), with an icon representing the catheter (26) superposed on the image in the location and orientation of catheter (26) relative to the body (28). There is no representational imaging device equipped with a receiver in the apparatus of the current invention.

Abstract: A combined catheter and input device for use by a medical practitioner to designate points of interest reached by the device includes a catheter and a location sensing system. The location sensing system, which includes at least one element associated with a distal portion of the catheter, determines a position of at least one point on the distal portion. An input device is mounted at the proximal portion and configured to be manually actuated to designate a current position of the at least one point as a point of interest.

Abstract: A method and system for tracking a moving object. The object is provided with one or more single-component sensors of a vector field. Generators of the vector field also are provided. Parameters of equations that relate the generated fields, as measured by the sensors, to the position of the object, but not to the orientation of the object, are determined either empirically or theoretically. These equations are solved to determine the position of the object without having to determine the orientation of the object. The scope of the invention also includes a helical guide wire wherein are integrally included one or more single-component sensors of a quasistatic magnetic field.

Abstract: This invention discloses a system for tracking one or more objects (22) within a region of interest, including at least one electromagnetic field generator (20), fixed with respect to an external frame of reference, at least one passive transponder (30), fixed to an object (22) being tracked, wherein an electromagnetic field generated by the electromagnetic field generator (20) causes the transponder (30) to generate electromagnetic signals and at least one electromagnetic sensor (24), fixed with respect to the external frame of reference, which receives electromagnetic signals generated by the transponder (30) and determines the three-dimensional position and three-axis rotational orientation of the object (20) using these signals. A method of tracking translation and rotation of one or more objects within a region of interest is also disclosed.

Abstract: A catheter for intra-body navigation. The transverse inner dimension of the catheter is at most about two millimeters. A receiver inside the catheter includes sensors of three components of a transmitted electromagnetic field, with sensors for at least two of the three components being pairs of sensors, such as coils, disposed symmetrically with respect to a common reference point. In one variant of the receiver, the coils are collinear and are wound about cores that are mounted in pairs of diametrically opposed apertures in the housing of the catheter. In another variant of the receiver-catheter combination, the catheter is configured with an inner and outer sleeve connected at their ends by one or more flexible elements on which the coils are mounted. A scheme is provided for retrofitting an apparatus such as the receiver to a prior art catheter.

Abstract: This invention discloses a system for tracking one or more objects (22) within a region of interest, including at least one electromagnetic field generator (20), fixed with respect to an external frame of reference, at least one passive transponder (30), fixed to an object (22) being tracked, wherein an electromagnetic field generated by the electromagnetic field generator (20) causes the transponder (30) to generate electromagnetic signals and at least one electromagnetic sensor (24), fixed with respect to the external frame of reference, which receives electromagnetic signals generated by the transponder (30) and determines the three-dimensional position and three-axis rotational orientation of the object (20) using these signals. A method of tracking translation and rotation of one or more objects within a region of interest is also disclosed.

Abstract: A system and method for tracking the position and orientation of a probe such as a catheter whose transverse inner dimension may be at most about two millimeters. Three planar antennas that at least partly overlap are used to transmit electromagnetic radiation simultaneously, with the radiation transmitted by each antenna having its own spectrum. In the case of single-frequency spectra, the antennas are provided with mechanisms for decoupling them from each other. A receiver inside the probe includes sensors of the three components of the transmitted field, with sensors for at least two of the three components being pairs of sensors, such as coils, disposed symmetrically with respect to a common reference point. In one variant of the receiver, the coils are collinear and are wound about cores that are mounted in pairs of diametrically opposed apertures in the housing of the probe.