Microsecond tandem-pulse electrohydraulic shock wave generator with confocal reflectors
First Claim
1. A microsecond tandem-pulse shock wave generator for comminuting, with reduced tissue injury, concretions in vivo, said microsecond tandem-pulse shock wave generator generating a primary shock wave pulse and also generating a secondary shock wave pulse separated in time from said primary shock wave pulse by a time delay with respect to said primary shock wave pulse, said microsecond tandem-pulse shock wave generator comprising:
- a point shock wave source for producing a spherically divergent shock wave pulse, having a speed in water, s, and;
a primary truncated ellipsoidal reflecting surface having a major axis, 2a1, a minor axis, 2b1, a focal length 2c1, and an eccentricity e1, said primary reflecting surface reflecting a primary portion of said spherically divergent shock wave pulse, and;
a secondary reflecting surface having at least one truncated ellipsoidal reflecting surface having a major axis, 2a2, a minor axis, 2b2, a focal length 2c2, and an eccentricity e2, wherein said 2c1 is equal to said 2c2, said secondary reflecting surface reflecting a secondary portion of said spherically divergent shock wave pulse to produce said secondary shock wave pulse, said major axis 2a2 being greater than said major axis 2a1, and said eccentricity e1 being greater than said eccentricity e2, whereby said secondary shock wave pulse is separated in time from said primary shock wave pulse by a time delay with respect to said primary shock wave pulse, said time delay being equal to (2a2 -2a1) divided by s,said primary and secondary reflecting surfaces having common first and second focal points, said first focal point coinciding with said point shock wave source and said second focal point corresponding with said concretions, whereby said primary shock wave arrives at said secondary focal point and said secondary shock wave pulse arrives at said second focal point after said time delay with respect to said primary shock wave, whereby said concretions are comminuted with reduced tissue injury.
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Abstract
The invention discloses a microsecond tandem-pulse electrohydraulic shock wave generator for the comminution of concretions in vivo by controlled, concentrated cavitation energy. This apparatus generates a primary and a secondary shock wave pulse with a specified time delay in microseconds and pressure relationships, with the primary shock wave pulse being used to induce a transient cavitation bubble cluster near the target concretion, and the secondary shock wave pulse consisting of a sequence of reflected pulses producing a pulse that is substantially compressive to control and force the collapse of the cavitation bubble cluster towards the target concretion. This microsecond tandem-pulse is produced by the use of a plurality of ellipsoidal reflecting surfaces of the same focal length, but different major and minor axes. These two microsecond shock wave pulses, one having a compressive and a tensile component and one having essentially only a compressive component have been found to give concentrated energy deposition on the target concretion, while avoiding injury to surrounding tissue caused by random collapse of the cavitation bubbles, thus enhancing the efficiency of fragmentation of the concretion using shock waves while reducing potential deleterious injury to surrounding tissue.
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Citations
7 Claims
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1. A microsecond tandem-pulse shock wave generator for comminuting, with reduced tissue injury, concretions in vivo, said microsecond tandem-pulse shock wave generator generating a primary shock wave pulse and also generating a secondary shock wave pulse separated in time from said primary shock wave pulse by a time delay with respect to said primary shock wave pulse, said microsecond tandem-pulse shock wave generator comprising:
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a point shock wave source for producing a spherically divergent shock wave pulse, having a speed in water, s, and; a primary truncated ellipsoidal reflecting surface having a major axis, 2a1, a minor axis, 2b1, a focal length 2c1, and an eccentricity e1, said primary reflecting surface reflecting a primary portion of said spherically divergent shock wave pulse, and; a secondary reflecting surface having at least one truncated ellipsoidal reflecting surface having a major axis, 2a2, a minor axis, 2b2, a focal length 2c2, and an eccentricity e2, wherein said 2c1 is equal to said 2c2, said secondary reflecting surface reflecting a secondary portion of said spherically divergent shock wave pulse to produce said secondary shock wave pulse, said major axis 2a2 being greater than said major axis 2a1, and said eccentricity e1 being greater than said eccentricity e2, whereby said secondary shock wave pulse is separated in time from said primary shock wave pulse by a time delay with respect to said primary shock wave pulse, said time delay being equal to (2a2 -2a1) divided by s, said primary and secondary reflecting surfaces having common first and second focal points, said first focal point coinciding with said point shock wave source and said second focal point corresponding with said concretions, whereby said primary shock wave arrives at said secondary focal point and said secondary shock wave pulse arrives at said second focal point after said time delay with respect to said primary shock wave, whereby said concretions are comminuted with reduced tissue injury. - View Dependent Claims (2, 3, 4)
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5. A microsecond tandem-pulse shock wave generator for comminuting, with reduced tissue injury, concretions in vivo, said microsecond tandem-pulse shock wave generator generating a primary shock wave pulse and also generating a secondary shock wave pulse separated in time from said primary shock wave pulse by a primary time delay with respect to said primary shock wave pulse, said microsecond tandem-pulse shock wave generator comprising:
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a point shock wave source for producing a spherically divergent shock wave pulse having a speed in water, s, and; a primary truncated ellipsoidal reflecting surface having a major axis, 2a1, a minor axis, 2b1, a focal length 2c1, and an eccentricity e1, said primary reflecting surface reflecting a primary portion of said spherically divergent shock wave pulse, and; a secondary reflecting surface consisting of a plurality of n truncated ellipsoidal reflecting surfaces each having a major axis, 2an, a minor axis, 2bn, a focal length 2cn, and an eccentricity en, said 2c1 is equal to said 2cn, said secondary reflecting surfaces reflecting secondary portions of said spherically divergent shock wave pulse to produce said secondary shock wave pulse, each said truncated ellipsoidal reflecting surface being separated from every other by a secondary time delay, said major axes 2an being greater than said major axis 2a1, and said eccentricity e1 being greater than each said eccentricity en, and each said major axis 2an being greater than each said major axis 2an-1 and each said eccentricity en-1 being greater than each said eccentricity en, where said n is an integer greater than 1, whereby said secondary shock wave pulse is separated in time from said primary shock wave pulse by a time delay with respect to said primary shock wave pulse, said time delay being equal to (2an -2a1) divided by s, said primary and secondary reflecting surfaces having common first and second focal points, said focal point coinciding with said point shock wave source and said second focal point corresponding with said concretions, whereby said primary shock wave arrives at said second focal point and said secondary shock wave pulse arrives at said second focal point after said primary time delay with respect to said primary shock wave, whereby said concretions are comminuted with reduced tissue injury. - View Dependent Claims (6, 7)
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Specification