Extracorporeal shock wave lithotripsy employing non-focused, spherical-sector shock waves
First Claim
1. An apparatus for treating one or more hardened accumulations in the body of a living patient, comprising:
- a source of shock wave energy, said energy being greater than a predetermined magnitude;
a sector shock tube, connected to said source, for generating sectors of classical diverging spherical shock waves from the shock wave energy generated by said source, one or more supplementary rims mounted on said sector shock tube whereby the width and duration of said sectors are determined, said sector shock tube comprising a surface adapted for channelling said sectors in a non-focused but directional manner into the body of the patient;
said predetermined magnitude being large enough so that when said surface channels said sectors, said sectors comprise sufficient shock wave energy to disintegrate the hardened accumulation; and
a coupling means adapted to be disposed between said sector shock tube and the body of the living patient, through which said sectors are channeled for transmitting shock wave energy between said sector shock tube and the body of the patient.
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Abstract
A conical sector shock tube generates a sector of a classical diverging spherical shock wave which emanates radially from an effective point source in a non-focusing but highly directional manner. A compression front having a radius of curvature equal to its separation from the apex of the sector shock tube defines the leading edge of a "cap shock" of accurately controllable and predictable intensity. A trailing rarefaction front of the cap shock is defined by the diffraction caused by the rim of the sector shock tube. The rarefaction front progressively erodes the cap shock as it is projected toward the target calculus, defining the width and duration of the propagating cap shock. The cap shock uniformly pulverizes the target calculus in a comparatively small quantity of shock wave applications, as compared with the larger (two orders of magnitude greater) number of shots employed in known ellipsoidal focused shock wave methods.
30 Citations
14 Claims
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1. An apparatus for treating one or more hardened accumulations in the body of a living patient, comprising:
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a source of shock wave energy, said energy being greater than a predetermined magnitude; a sector shock tube, connected to said source, for generating sectors of classical diverging spherical shock waves from the shock wave energy generated by said source, one or more supplementary rims mounted on said sector shock tube whereby the width and duration of said sectors are determined, said sector shock tube comprising a surface adapted for channelling said sectors in a non-focused but directional manner into the body of the patient;
said predetermined magnitude being large enough so that when said surface channels said sectors, said sectors comprise sufficient shock wave energy to disintegrate the hardened accumulation; anda coupling means adapted to be disposed between said sector shock tube and the body of the living patient, through which said sectors are channeled for transmitting shock wave energy between said sector shock tube and the body of the patient. - View Dependent Claims (2)
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3. An apparatus for treating one or more hardened accumulations in the body of a living patient, comprising:
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a source of shock wave energy, said energy being greater than a predetermined magnitude; sector shock tube means, connected to said source, for generating sectors of classical diverging spherical shock waves from the shock wave energy generated by said source, said sector shock tube means having characteristics chosen to produce converging compression-rarefaction intersection loci, and said shock waves having cap shocks whose trailing fronts are rarefaction fronts formed by rarefaction effects at least partially determined by the characteristics of said sector shock tube means; one or more supplementary rims mounted on said sector shock tube means whereby the width and duration of said sectors are determined, said sector shock tube means comprising a surface adapted for channelling said sectors in a non-focused but directional manner into the body of the patient; said predetermined magnitude being large enough so that when said surface channels said sectors, said sectors comprise sufficient shock wave energy to disintegrate the hardened accumulation; and a coupling means adapted to be disposed between said sector shock tube means and the body of the living patient, through which said sectors are channelled for transmitting shock wave energy between said sector shock tube means and the body of the patient.
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4. An apparatus for treating one or more hardened accumulations in the body of a living patient, comprising:
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means for providing a source of shock wave energy, said energy being greater than a predetermined magnitude; means for varying the intensity of said shock wave energy; a sector shock tube, connected to said source, for generating sectors of classical diverging spherical shock waves, said sector shock tube comprising a surface adapted for channelling said sectors in a non-focused but directional manner into the body of the patient;
said predetermined magnitude being large enough so that when said surface channels said sectors, said sectors comprise sufficient shock wave energy to disintegrate the hardened accumulation; anda coupling means adapted to be disposed between said sector shock tube and the body of the living patient, through which said sectors are channelled for transmitting shock wave energy between said sector shock tube and the body of the patient.
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5. An apparatus for treating one or more hardened accumulations in the body of a living patient, comprising:
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means for providing a source of shock wave energy said energy being greater than a predetermined magnitude; means for varying the intensity of said shock wave energy; sector shock tube means, connected to said source, for generating sectors of classical diverging spherical shock waves from the shock wave energy generated by said source, said sector shock tube means having characteristics chosen to produce converging compression-rarefaction intersection loci, and said shock waves having cap shocks whose trailing fronts are rarefaction fronts formed by rarefaction effects at least partially determined by the characteristics of said sector shock tube means; said predetermined magnitude being large enough so that when said surface channels said sectors, said sectors comprise sufficient shock wave energy to disintegrate the hardened accumulation; and a coupling means adapted to be disposed between said sector shock tube means and the body of the living patient, through which said sectors are channelled for transmitting shock wave energy between said sector shock tube means and the body of the patient.
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6. An apparatus for treating one or more hardened accumulations in the body of a living patient, comprising:
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a source of shock wave energy, said energy being greater than a predetermined magnitude; a sector shock tube, connected to said source, for generating sectors of classical diverging spherical shock waves from the shock wave energy generated by said source, one or more angle adjustment inserts mounted on said sector shock tube whereby the width and duration of said sectors are determined, said sector shock tube comprising a surface adapted for channelling said sectors in a non-focused but directional manner into the body of the patient; said predetermined magnitude being large enough so that when said surface channels said sectors, said sectors comprise sufficient shock wave energy to disintegrate the hardened accumulation; and a coupling means adapted to be disposed between said sector shock tube and the body of the living patient, through which said sectors are channelled for transmitting shock wave energy between said sector shock tube and the body of the patient. - View Dependent Claims (7)
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8. An apparatus for treating one or more hardened accumulations in the body of a living patient, comprising:
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a source of shock wave energy, said energy being greater than a predetermined magnitude; a sector shock tube means, connected to said source, for generating sectors of classical diverging spherical shock waves from the shock wave energy generated by said source, said sector shock tube means having characteristics chosen to produce converging compression-rarefaction intersection loci, and said shock waves having cap shocks whose trailing fronts are rarefaction fronts formed by rarefaction effects at least partially determined by the characteristics of said sector shock tube means; one or more angle adjustment inserts mounted on said sector shock tube means whereby the width and duration of said sectors are determined, said sector shock tube means comprising a surface adapted for channelling said sectors in a non-focused but directional manner into the body of the patient; said predetermined magnitude being large enough so that when said surface channels said sectors, said sectors comprise sufficient shock wave energy to disintegrate the hardened accumulation; and a coupling means adapted to be disposed between said sector shock tube means and the body of the living patient, through which said sectors are channelled for transmitting shock wave energy between said sector shock tube means and the body of the patient.
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9. A method of treating one or more hardened accumulations in the body of a living patient, comprising the steps of:
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positioning a shock wave generator with respect to the patient'"'"'s hardened accumulation; and generating one or more sectors of a classical diverging spherical shock wave so as to channel said one or more sectors in a non-focused but directional manner substantially through said hardened accumulation so as to substantially reduce its tensile and compressional strength, whereby said hardened accumulation may be destroyed. - View Dependent Claims (10, 11)
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12. A method of treating any of a variety of hardened accumulations in one or more living patients'"'"' bodies, comprising the steps of:
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choosing a shock source of a first magnitude, and a sector shock tube of a first angle and first length; generating a first sector of a classical diverging spherical shock wave so as to channel said first sector in a non-focused but directional manner substantially through a first hardened accumulation; choosing a shock wave source of a second magnitude, and a sector shock tube of a second angle and second length; and generating a second sector of a classical diverging spherical shock wave so as to channel said second sector in a non-focused but directional manner substantially through a second hardened accumulation; wherein at least one of said second magnitude, angle and length is different than a respective one of said first magnitude, angle and length.
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13. An apparatus for treating one or more hardened accumulations in the body of a living patient, comprising:
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a source of shock wave energy, said energy being greater than a predetermined magnitude; a sector shock tube, connected to said source, for generating sectors of classical diverging spherical shock waves from the shock wave energy generated by said source, said sector shock tube comprising a surface adapted for channelling said sectors in a non-focused but directional manner into the body of the patient; said predetermined magnitude being large enough so that when said surface channels said sectors, said sectors comprise sufficient shock wave energy to disintegrate the hardened accumulation; and a coupling means adapted to be disposed between said sector shock tube and the body of the living patient, through which said sectors are channelled for transmitting shock wave energy between said sector shock tube and the body of the patient.
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14. An apparatus for treating one or more hardened accumulations in the body of a living patient, comprising:
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a source of shock wave energy, said energy being greater than a predetermined magnitude; a cone-shaped sector shock tube, connected to said source,e for generating sectors of classical diverging spherical shock waves from the shock wave energy generated by said source, said sector shock tube having a cone-shaped interior surface adapted for channelling said sectors in a non-focused but directional manner into the body of the patient; said predetermined magnitude being large enough so that when said surface channels said sectors, said sectors comprise sufficient shock wave energy to disintegrate the hardened accumulation; and a coupling means adapted to be disposed between said sector shock tube and the body of the living patient, through which said sectors are channeled for transmitting shock wave energy between said sector shock tube and the body of the patient.
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Specification