Apparatus and method for locating an interventional medical device with a ultrasound color imaging system
First Claim
1. A vibrator (mechanism) apparatus for use with an ultrasound imaging system including signal processing means for detecting motion and including display means for displaying a structural image of an interior region of a body in which said motion is represented, said vibrator adapted to be positioned on an interventional medical device employed by a user of said imaging system to place and move said device within the interior of said body for observing areas of said interior, comprising:
- a annular vibrator member having a peripheral slot, with one side of said slot contiguous with a depending arm extending towards an inner surface of said member and having a larger mass at the end of said arm closest to said surface to form a pendulum like structure, with said other end of said slot contiguous with a vibratable wall which when vibrated causes vibrations to couple to said depending arm to cause said arm to vibrate about at least one of the axis, which vibrations are capable of propagating flexural waves, andmeans positioned on said depending arm adapted to accommodate said medical interventional device to cause said device when coupled to said vibrator member to exhibit flexural wave motions, whereby said motion can be detected by said ultrasound imaging system transducer means coupled to said wall to vibrate said wall at a given frequency to cause said depending arm to vibrate at at least one frequency.
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Accused Products
Abstract
A VIBER vibrating mechanism is coupled to a cannula or needle and operates to provide flexural vibrations to move the needle and to enable detection of the position of a needle within a body of interest by a color ultrasound imaging system. The VIBER mechanism exhibits multiple modes of oscillation when energized. The VIBER mechanism is excited to exhibit predetermined oscillations at a given frequency in the X plane, a predetermined oscillation at another frequency in the Y plane and still another frequency of oscillation in the Z plane. In this manner, the VIBER mechanism device exhibits motion in all three planes, which motion is detectable by a conventional color ultrasound imaging system. The frequency of oscillation is a function of the entire system, namely the VIBER mechanism, the needle or cannula which is attached to the VIBER mechanism and the tissue. The resonant frequency is preferred as it provides larger vibrational amplitudes. In this manner, a resonant frequency is controlled by means of a feedback control loop, whereby the frequency applied to the VIBER mechanism is monitored to determine resonance and is held at the resonant frequency as the VIBER mechanism or needle is moved. The vibration in the representative planes causes a typical conventional color ultrasound imaging system to display the vibration or movement by means of a color variation. By viewing the display, a system operator, such as a physician can visualize the location of the needle because of the color indication provided by the display.
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Citations
8 Claims
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1. A vibrator (mechanism) apparatus for use with an ultrasound imaging system including signal processing means for detecting motion and including display means for displaying a structural image of an interior region of a body in which said motion is represented, said vibrator adapted to be positioned on an interventional medical device employed by a user of said imaging system to place and move said device within the interior of said body for observing areas of said interior, comprising:
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a annular vibrator member having a peripheral slot, with one side of said slot contiguous with a depending arm extending towards an inner surface of said member and having a larger mass at the end of said arm closest to said surface to form a pendulum like structure, with said other end of said slot contiguous with a vibratable wall which when vibrated causes vibrations to couple to said depending arm to cause said arm to vibrate about at least one of the axis, which vibrations are capable of propagating flexural waves, and means positioned on said depending arm adapted to accommodate said medical interventional device to cause said device when coupled to said vibrator member to exhibit flexural wave motions, whereby said motion can be detected by said ultrasound imaging system transducer means coupled to said wall to vibrate said wall at a given frequency to cause said depending arm to vibrate at at least one frequency. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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Specification