Shock wave coupling adapter and method of use
First Claim
1. A spacer for positioning between a patient and the lens of a focused shock wave applicator, the spacer comprises;
- a membrane being in the form of a bag-like structure or housing adapted to be filled with a fluid, the membrane or housing being devoid of any air or gasses, and when filled forms a spacer volume for passing acoustic shock waves at low impedance, wherein the space between the lens and the tissue is varied by the amount of fluid in the membrane and the wave pattern passing from the lens of the shock wave applicator enters through an oil or gel coated layer on the bag-like structure or housing and the lens as converging to a focus inside the membrane and exits through the opposite side of the membrane through an oil or gel coated layer on the bag like structure or housing coupled to the tissue in a diverging wave form into the tissue to be treated, the membrane being a spacer positioned separate from but adjacent to the shock wave applicator between a lens of the shock wave applicator and the patient.
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Accused Products
Abstract
A shock wave adapter for use with a focused shock wave applicator has a flexible, rigid or semi-rigid membrane or housing adapted to be filled with a fluid. The membrane or housing is devoid of any air or gases and when filled forms a spacer volume for passing acoustic shock waves at low impedance. The wave pattern of the shock wave applicator enters the membrane or housing as a converging wave form to a focus inside the membrane or housing and exits through the membrane or housing in a diverging wave form into the patient to be treated. The spacer adapter may further include a gas filled shield around the perimeter of the fluid filled membrane or housing to block transmissions of acoustic shock waves.
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Citations
17 Claims
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1. A spacer for positioning between a patient and the lens of a focused shock wave applicator, the spacer comprises;
a membrane being in the form of a bag-like structure or housing adapted to be filled with a fluid, the membrane or housing being devoid of any air or gasses, and when filled forms a spacer volume for passing acoustic shock waves at low impedance, wherein the space between the lens and the tissue is varied by the amount of fluid in the membrane and the wave pattern passing from the lens of the shock wave applicator enters through an oil or gel coated layer on the bag-like structure or housing and the lens as converging to a focus inside the membrane and exits through the opposite side of the membrane through an oil or gel coated layer on the bag like structure or housing coupled to the tissue in a diverging wave form into the tissue to be treated, the membrane being a spacer positioned separate from but adjacent to the shock wave applicator between a lens of the shock wave applicator and the patient. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 16)
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9. A spacer for positioning between a patient and the lens of a focused shock wave applicator, the spacer comprises;
a membrane being in the form of a housing adapted to be filled with a fluid, the housing being devoid of any air or gasses, and when filled forms a spacer volume for passing acoustic shock waves at low impedance, wherein the space between the lens and the tissue is fixed by the size of the membrane and the wave pattern passing from the lens of the shock wave applicator enters through an oil or gel coated layer on the housing and the lens as converging to a focus inside the membrane and exits through the opposite side of the membrane through an oil or gel coated layer on the housing coupled to the tissue in a diverging wave form into the tissue to be treated, the membrane being a spacer positioned separate from but adjacent to the shock wave applicator between a lens of the shock wave applicator and the patient, wherein the housing is made of a thermoplastic material of low acoustic impedance. - View Dependent Claims (10, 11, 12, 13, 14, 15)
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17. A method of treating tissue with a focused shock wave generating source comprising:
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establishing a distance from a shock wave lens to a theoretical focal point; coating a fluid filled spacer with an oil or acoustic gel layer at locations between the lens and the spacer and similarly coating the fluid filled spacer a second location between the spacer and tissue to acoustically couple the two locations by placing the spacer between the lens and the tissue of the patient; adjusting the space between the lens and the tissue by the amount of fluid in the spacer; positioning the spacer between the tissue and the lens wherein the focal point when emitted is located inside the spacer; and activating the focused shock wave generating source having the focal point impinge inside the spacer and exit as a divergent wave pattern into the tissue to be treated.
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Specification