Device and method for biopsy guidance using a tactile breast imager
First Claim
1. A device for guiding a needle of a soft tissue biopsy gun using a tactile imaging probe equipped with a pressure sensing surface, said device comprising:
- a guiding cannula adapted to accept said biopsy needle for a sliding reciprocal motion therein, a joint means supporting said guiding cannula at a center point in a fixed spatial relationship to said pressure sensing surface of said probe, said joint means adapted to allow said guiding cannula to rotate about said center point, said joint means equipped with a linear displacement sensor and an angular displacement sensor, a computing means for accepting real-time 2-D digital imaging data of said soft tissue from said pressure sensing surface and simultaneously accepting a linear displacement and angular displacement data of said biopsy needle within said guiding cannula from respectively said linear displacement and angular displacement sensors, said computing means further adapted to determine in real time a spatial location of a desired target site and a distance and angular deviation of a distal end of said biopsy needle from said target site, and an indicator means to continuously indicate said distance and said angular deviation as calculated by said computing means.
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Accused Products
Abstract
A biopsy guidance device is enclosed based on a tactile imaging probe adapted to accept a biopsy gun. The tactile imaging probe includes a pressure sensing surface providing real-time 2-D images of the underlying tissue structures allowing to detect a lesion. A cannula is provided supported at a center point by a ball and socket joint. The joint is equipped with linear and angular sensors and supports the cannula with the ability to rotate thereof about the center point. The position, linear and angular displacement and direction of the needle tip of a biopsy needle placed inside the cannula is therefore known at all times and provided as a feedback signal to a physician. Also provided to a physician is a position of the target site at a lesion, as well as a linear and angular deviation of the needle tip away from the target site. Such audio, light, or visual feedback allows the physician to correct the insertion angle and depth to confidently reach the target site to perform a biopsy. Method is also disclosed to guide the biopsy procedure.
152 Citations
20 Claims
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1. A device for guiding a needle of a soft tissue biopsy gun using a tactile imaging probe equipped with a pressure sensing surface, said device comprising:
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a guiding cannula adapted to accept said biopsy needle for a sliding reciprocal motion therein, a joint means supporting said guiding cannula at a center point in a fixed spatial relationship to said pressure sensing surface of said probe, said joint means adapted to allow said guiding cannula to rotate about said center point, said joint means equipped with a linear displacement sensor and an angular displacement sensor, a computing means for accepting real-time 2-D digital imaging data of said soft tissue from said pressure sensing surface and simultaneously accepting a linear displacement and angular displacement data of said biopsy needle within said guiding cannula from respectively said linear displacement and angular displacement sensors, said computing means further adapted to determine in real time a spatial location of a desired target site and a distance and angular deviation of a distal end of said biopsy needle from said target site, and an indicator means to continuously indicate said distance and said angular deviation as calculated by said computing means.
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2. A device for guiding a needle of a soft tissue biopsy gun, said needle having a distal end, said device comprising:
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a tactile imaging probe equipped with a pressure sensing surface, a guiding cannula adapted to accept said needle for a sliding reciprocal motion therein, a joint means supporting said guiding cannula at a center point in a fixed spatial relationship to said pressure sensing surface, said joint means adapted to allow said guiding cannula to rotate about said center point, said joint means equipped with a linear displacement sensor and an angular displacement sensor, a computing means for accepting real-time 2-D digital imaging data of said soft tissue from said pressure sensing surface and simultaneously accepting a linear displacement and angular displacement data of said biopsy needle within said guiding cannula from respectively said linear displacement and angular displacement sensors, said computing means further adapted to determine in real time a spatial location of a desired target site and a distance and angular deviation of said distal end of said needle from said target site, and an indicator means to continuously indicate said distance and said angular deviation as calculated by said computing means. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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18. A method for guiding a needle of a soft tissue biopsy gun comprising the steps of:
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a. providing a tactile imaging probe equipped with a pressure sensing surface, b. supporting said needle at a center point located in a fixed spatial relationship to said pressure sensing surface, c. pressing said tactile imaging probe against said soft tissue and moving its pressure sensing surface about thereof to acquire a series of 2-D pressure sensing images, d. determining a location of a target site within said soft tissue relative to said pressure sensing surface, e. determining of location of a distal end of said needle and its angular direction relative to location of said pressure sensing surface, f. calculating the angular deviation between the direction of said needle and the direction from said center point to said target site, g. calculating the distance between said distal end of said needle and said target site relative to said center point, h. continuously indicating in real time of said angular deviation and said distance to assist in guiding of said needle towards said target site.
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20. The method as in claim 20, wherein step ā
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further includes detecting a lesion and calculating its spatial position relative to said pressure sensing surface by analyzing spatial and temporal variations of said 2-D pressure sensing images. - View Dependent Claims (19)
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Specification