Abstract: A system for introducing vibrational waves into a body of a subject to treat sleep disorders is provided. The system includes a bed frame having a first vibration contact and a second vibration contact. The first vibration contact is in mechanical communication with a first location of the body of the subject, and the second vibration contact is in mechanical communication with a second location of the body of the subject. A first vibration source is connected to the first vibration contact and configured to cause a first vibration of the first vibration contact. A second vibration source is connected to the second vibration contact and configured to cause a second vibration of the second vibration contact. The location or orientation of the first vibration contact and the second vibration contact are configured such that the first vibration combines with the second vibration to generate a super-imposed vibration.

Abstract: This patent relates to the field of peripheral sensorimotor stimulation for the relief of symptoms and physical signs of distress including pain and anxiety and more specifically to addiction withdrawal. Peripheral stimulation of mechanoreceptors has been showed in a unique amplitude and frequency range to induce central effects of release of dopamine with a prolonged duration beyond stimulation in a model of addiction. Such stimulation can serve as an effective bridge during withdrawal from known addicting substances, including chemicals and behaviors, thus mitigating symptoms and potentially facilitating the cessation of drugs or substance seeking behavior. Interferential beat frequencies can be induced into the body using separately located sources of vibration to localize maxima and minima of stimulation.

Abstract: A sealing and/or cutting instrument having a thermally active surface or element which may be used to seal and then cut tissue, ducts, vessels, etc., apart. The instrument may include a thermally active surface or element comprised of a conductor covered with a ferromagnetic material. The instrument may contact tissue with one or more surfaces comprised of a non-stick material. A sensor in communication with the instrument may be used to monitor a therapeutic procedure and signal when sealing and/or cutting of a tissue is complete.

Abstract: A system for introducing vibrational waves into a body of a subject to treat sleep disorders is provided. The system includes a bed frame having a first vibration contact and a second vibration contact. The first vibration contact is in mechanical communication with a first location of the body of the subject, and the second vibration contact is in mechanical communication with a second location of the body of the subject. A first vibration source is connected to the first vibration contact and configured to cause a first vibration of the first vibration contact. A second vibration source is connected to the second vibration contact and configured to cause a second vibration of the second vibration contact. The location or orientation of the first vibration contact and the second vibration contact are configured such that the first vibration combines with the second vibration to generate a super-imposed vibration.

Abstract: A sealing and/or cutting instrument having a thermally active surface or element which may be used to seal and then cut tissue, ducts, vessels, etc., apart. The instrument may include a thermally active surface or element comprised of a conductor covered with a ferromagnetic material. The instrument may contact tissue with one or more surfaces comprised of a non-stick material. A sensor in communication with the instrument may be used to monitor a therapeutic procedure and signal when sealing and/or cutting of a tissue is complete.

Abstract: A sealing and/or cutting instrument having a thermally active surface or element which may be used to seal and then cut tissue, ducts, vessels, etc., apart. The instrument may include a thermally active surface or element comprised of a conductor covered with a ferromagnetic material. The instrument may contact tissue with one or more surfaces comprised of a non-stick material. A sensor in communication with the instrument may be used to monitor a therapeutic procedure and signal when sealing and/or cutting of a tissue is complete.

Abstract: A sealing and/or cutting instrument having a thermally active surface or element which may be used to seal and then cut tissue, ducts, vessels, etc., apart. The instrument may include a thermally active surface or element comprised of a conductor covered with a ferromagnetic material. The instrument may contact tissue with one or more surfaces comprised of a non-stick material. A sensor in communication with the instrument may be used to monitor a therapeutic procedure and signal when sealing and/or cutting of a tissue is complete.

Abstract: A surgical instrument guide for facilitating treatment of a target tissue is provided. The surgical instrument guide may be placed between two groups of tissue such that a first group of tissue is cut and a second group of tissue is protected from being cut. The surgical instrument guide may lift tissue and slide tissue along a surface so that a target tissue may be cut to a desired depth more easily during a surgical procedure. The surgical instrument guide may be releasably attachable to a surgical instrument or integrally formed therewith.

Abstract: A system, method and device for monitoring the condition of an internal organ, such as a brain, by providing an internal electrode. The internal electrode is operatively connected to at least one surface, external, electrode, and a system handler. A signal is generated between the electrodes such that the electrical properties, including conductivity and impedance among others, can be measured at and across the electrodes. The electrode arrangement allows for continuous monitoring of an internal organ and, where desired, mapping of the electrical properties thereof. The system obtains pressure readings, nodal conductivity and/or electrode impedance to monitor, map and report the condition of the internal organ. A correlation procedure is provided for generating a graphical representation of the condition of an internal organ from the gathered data.

Abstract: A sealing and/or cutting instrument having a thermally active surface or element which may be used to seal and then cut tissue, ducts, vessels, etc., apart. The instrument may include a thermally active surface or element comprised of a conductor covered with a ferromagnetic material. The instrument may contact tissue with one or more surfaces comprised of a non-stick material. A sensor in communication with the instrument may be used to monitor a therapeutic procedure and signal when sealing and/or cutting of a tissue is complete.

Abstract: A surgical instrument guide for facilitating treatment of a target tissue is provided. The surgical instrument guide may be placed between two groups of tissue such that a first group of tissue is cut and a second group of tissue is protected from being cut. The surgical instrument guide may lift tissue and slide tissue along a surface so that a target tissue may be cut to a desired depth more easily during a surgical procedure. The surgical instrument guide may be releasably attachable to a surgical instrument or integrally formed therewith.

Abstract: A system, method and device for monitoring the condition of an internal organ, such as a brain, by providing an internal electrode. The internal electrode is operatively connected to at least one surface, external, electrode, and a system handler. A signal is generated between the electrodes such that the electrical properties, including conductivity and impedance among others, can be measured at and across the electrodes. The electrode arrangement allows for continuous monitoring of an internal organ and, where desired, mapping of the electrical properties thereof. The system obtains pressure readings, nodal conductivity and/or electrode impedance to monitor, map and report the condition of the internal organ. A correlation procedure is provided for generating a graphical representation of the condition of an internal organ from the gathered data.

Abstract: A guidance system for guiding a surgical instrument without visual information to a target in tissue. The system centers the target upon the trajectory of an infinite family of zero-flux curvilinear lines emanating from either a fixed magnet or an ac or dc electromagnet which is mounted on the instrument. The approach to the target allows selection of straight and curved trajectories based on the zero-flux lines that intersect the target. A self-centering attachment that holds the magnet allows any straight instrument to be guided by the system. The zero-flux lines are measured by a magnetometer that is located on a remote location on or in the tissue. The transducers of the magnetometer measure the magnetic field strength that is present if the instrument deviates from the zero-flux line. The guidance information is plotted on a display that allows a user to guide the instrument along the zero-flux line to the target.

Abstract: A method and a surgical guidance system (20) direct an instrument to a target (40) located inside a patient (22). The surgical guidance system (20) includes a fixation frame (28), a first arc member (36), a second arc member (38), and first (78) and second (84) electromagnetic (EM) radiative sources. The first arc member (36) and the second arc member (38) are adjustably coupled to rotate about a common axis (48) and are adjusted in response to a target address and at least three marker addresses so that the target (40) is located at the center point of a virtual sphere defined by the arc members. A first electromagnetic (EM) radiative beam (80) and a second electromagnetic (EM) radiative beam (86) are projected from the system (20) and intersect at a line. The line forms a trajectory (146) along which an instrument can be directed to the target (40).

Abstract: A surgical guidance system includes a magnetic field generator carried by a support frame, a guidance system controller, at least one magnetic field sensor located at a surgical instrument, and a feedback display device. The guidance system indicates the position of the surgical instrument relative to a trajectory as the surgical instrument approaches a surgical target within a body. The magnetic field generator establishes a magnetic field having geometric characteristics that indicate the trajectory from an initial point to the target. The sensors detect the distinguishable orientation of the magnetic field along the trajectory, and the feedback display device indicates whether the surgical instrument is aligned or misaligned with the trajectory. The magnetic field generator is adjustable upon the support frame such that the approach angle and position of the trajectory may be selected.

Abstract: A system (10) presents a graphic guidance object (46) in a display screen (40) to aid a surgeon in guiding a probe (12) from an initial point (82) relative to a body (14) along a desired trajectory (54) to a target (52). The graphic object (46) may be presented simultaneously with a live video image (44) from an endoscope and with tomogram images (42). The graphic object (46) includes a probe tip indicator (88) and a trajectory indicator (94). These indicators (88, 94) are positioned relative to one another to graphically indicate how far and in which direction to move a probe tip (36) to cause the probe tip (36) to intersect the desired trajectory (54). A roll orientation feature (118) and a distance-to-target feature (126) are included in the graphic object (46). The graphic object (46) changes in real time to track movement of the probe (12).

Abstract: An apparatus for non-invasively stabilizing the head of a patient is provided. The apparatus includes a support frame, a rigid template mounted to the support frame, a plurality of fiducial marker housings located on the support frame, and a mounting assembly that attaches the support frame to a table or a bed. The rigid template is formed by molding a heat-activated sheet of plastic around the head or face of the patient. A method for treating the head of a patient is also provided. The method involves forming a rigid template that conforms to the head and/or face of a patient, positioning the head with the rigid template, performing a radiographic imaging procedure, and performing a subsequent surgical procedure. The imaging and surgical procedures are performed with the patient stabilized in the same position.

Abstract: A flexible tube having first and second ends and a hollow interior is insertable through an endoscopic instrument channel with the first end extending out of the viewing end of the endoscope and the second end extending out of the working end of the endoscope a sufficient distance to lie within the field of view of the endoscope observation port. The second end of the flexible tube defines a tube end face. A flexible electrical conductor having an outer surface sized to fit within the interior of the flexible tube and to define a gap between the conductor outer surface and the interior surface of the tube includes first and second ends. The first end of the conductor extends out of the endoscope viewing end while the second end is located within a recessed chamber extending between the tube end face and a spaced apart location within the interior of the tube to define a high impedance gap between the second end of the conductor and a nearby region including the tube end face and an adjacent tissue.

Abstract: A method and apparatus for performing electrosurgery with an ultra-sharp electrode composed of a refractory alloy, said electrode having a blunt end and a tip end, and a method for forming the ultra-sharp electrode by rotating about its axis a vertically held cylindrical rod composed of a refractory alloy and repeatedly withdrawing and replacing the rod into a pool of molten oxidizing agent.