Energy guided apparatus and method with indication of alignment
First Claim
Patent Images
1. In a system comprising means for directing an energy beam at a preselected target within a body and wherein an invasive instrument is employed to access the preselected target by penetrating the surface of the body, and wherein the energy beam is incident upon the surface of the body at a desired penetration point, and wherein the direction of the energy beam indicates the desired angle and axis for the invasive instrument to penetrate the body, an the invasive instrument comprising:
- an elongate energy conducting portion having a distal end and a proximal end, said elongate energy conducting portion adapted to receive the energy beam at said proximal end and to conduct the energy beam to said distal end;
means for percutaneously accessing the target; and
energy responsive means interposed between said means for percutaneously accessing the target and said distal end of said energy conducting portion, said energy responsive means serving to disperse visible light whenever said means for percutaneously accessing the target is in axial alignment with the energy beam.
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Abstract
An invasive instrument, such as a biopsy needle, syringe or drill, is adapted to be guided by an energy beam such as a laser beam along a predefined line of sight path toward a subsurface target. The instrument is adapted for use in conjunction with an energy beam targeting and directing system which directs an energy beam in a line of sight path toward a target. The instrument includes a portion for percutaneously accessing a subsurface target, an energy conducting portion and an energy responsive means interposed between the means for percutaneously accessing a subsurface target and the energy conducting portion. In use of the instrument, whereby an operator monitors the energy responsive component for a visual indication of alignment of the instrument with the predefined line of sight path, while advancing the portion for percutaneously accessing the subsurface target along the line of sight path toward the target.
105 Citations
33 Claims
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1. In a system comprising means for directing an energy beam at a preselected target within a body and wherein an invasive instrument is employed to access the preselected target by penetrating the surface of the body, and wherein the energy beam is incident upon the surface of the body at a desired penetration point, and wherein the direction of the energy beam indicates the desired angle and axis for the invasive instrument to penetrate the body, an the invasive instrument comprising:
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an elongate energy conducting portion having a distal end and a proximal end, said elongate energy conducting portion adapted to receive the energy beam at said proximal end and to conduct the energy beam to said distal end; means for percutaneously accessing the target; and energy responsive means interposed between said means for percutaneously accessing the target and said distal end of said energy conducting portion, said energy responsive means serving to disperse visible light whenever said means for percutaneously accessing the target is in axial alignment with the energy beam. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. An instrument for insertion of a needle into a body for use with an imaging system having means for directing a light beam at a preselected target within the body and an instrument having an entry point of the light beam, the instrument comprising:
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an elongate light conducting portion having a distal end and a proximal end, said elongate light conducting portion adapted to receive the incident beam of light at said proximal end and to conduct the incident beam of light to said distal end; a needle portion collinear and coaxial with said elongate light conducting portion; and light responsive means interposed between said needle portion and said distal end of said elongate light conducting portion for dispersing the light beam whenever said elongate light conducting portion is in axial alignment with the light beam. - View Dependent Claims (14, 15)
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16. A method of monitoring the alignment of an instrument with a visible light beam, the method comprising the steps of:
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a) providing a visible light beam; b) providing an instrument having an elongate light conducting portion, said elongate light conducting portion having a distal end and a proximal end and adapted to receive the visible light beam at said proximal end and to conduct received light from said proximal end to said distal end;
a penetrating portion collinear and coaxial with said light conducting portion;
light dispersing means interposed between said penetrating portion and said distal end of said light conducting portion for dispersing visible light whenever the penetrating portion is in axial alignment with the visible light beam;c) monitoring said light dispersing means; d) adjusting the position of said instrument with respect to said visible light beam such that said light dispersing means disperses visible light. - View Dependent Claims (17, 18, 19)
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20. A device for penetrating a subsurface target along a predetermined path and at a predetermined penetration angle, the device comprising:
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means for penetrating a surface located at one end of said device; an elongate energy conducting portion located at the other end of said device and coupled to said penetrating means; means for dispersing visible light interposed between said elongate energy conducting portion and said means for penetrating a surface; said elongate energy conducting portion adapted to include a linearly extending energy conducting channel extending from the proximal end of said elongate energy conducting portion and terminating within said means for dispersing visible light, said linearly extending energy conducting channel being coaxial and collinear with said means for penetrating a surface. - View Dependent Claims (21, 22, 23, 24, 25, 26, 27)
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28. A method of providing accurate guidance along a predetermined path of an invasive instrument in invasive procedures in which the instrument is inserted axially into a body, the method comprising the steps of:
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illuminating the predetermined path with a light beam; aligning the instrument axially with the light beam such that visible light is emitted from the instrument; causing the light beam to enter the invasive instrument such that visible light is emitted from a sensing means carried by the instrument when the instrument is in axial alignment with the illuminated predetermined path; moving the aligned instrument along the predetermined path while maintaining the axial alignment of the instrument with the light beam by monitoring the visible light emitted from the instrument; and inserting the aligned instrument into the body while maintaining the axial alignment of the instrument with the light beam by monitoring the visible light emitted from the instrument.
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29. In a system comprising means for directing an energy beam at a preselected target within a body and wherein an invasive instrument is employed to access the preselected target by penetrating the surface of the body, and wherein the energy beam is incident upon the surface of the body at a desired penetration point, and wherein the direction of the energy beam indicates the desired angle and axis for the invasive instrument to penetrate the body, the invasive instrument comprising:
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an elongate energy conducting portion having a distal end and a proximal end, said elongate energy conducting portion adapted to receive the energy beam at said proximal end and to conduct the energy beam to said distal end; means for percutaneously accessing the target; and energy responsive means interposed between said means for percutaneously accessing the target and said distal end of said energy conducting portion, said energy responsive means indicating proper alignment of the energy beam to said means for percutaneously accessing the target.
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30. A method of aligning a light beam and an invasive instrument in a system comprising means for providing a light beam, the invasive instrument having a sensing means carried by the invasive instrument and an entry point for the light beam, the method comprising the steps of:
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providing the light beam; positioning the invasive instrument in a manner such that the light beam travels into the invasive instrument through the point of entry; and observing the response of the sensing means, the response being indicative of either alignment or misalignment of the light beam to the invasive instrument. - View Dependent Claims (31)
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32. An invasive instrument adapted for alignment with a light beam, the invasive instrument comprising:
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an invasive instrument body having a point of entry for the light beam; a sensing means carried by the invasive instrument body, the sensing means being spaced from the point of entry of the light beam and providing an indication of either alignment or misalignment of the light beam to the invasive instrument; and a conducting means associated with the invasive instrument body for directing the light beam from the point of entry to the sensing means. - View Dependent Claims (33)
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Specification
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Current AssigneeMinrad Incorporated (Piramal Enterprises Limited)
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Original AssigneeMinrad Incorporated (Piramal Enterprises Limited)
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InventorsMcNeirney, John C., Landi, Michael K.
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Primary Examiner(s)Kamm, William E.
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Assistant Examiner(s)EVANISKO, GEORGE ROBERT
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Application NumberUS08/859,380Time in Patent Office490 DaysField of Search600/424, 600/478, 600/114, 604/116, 604/606, 604/20, 604/10, 604/129, 604/130, 33/286, 33/DIG. 21, 356/153, 356/399US Class Current606/130CPC Class CodesA61B 17/3403 Needle locating or guiding ...A61B 90/13 guided by light, e.g. laser...Y10S 33/21 with laser
