Device and method for removing gas and debris during the photodisruption of stromal tissue
First Claim
1. A device for removing gas and debris from inside the stroma of an eye caused by the photodisruption of stromal tissue during ophthalmic laser surgery which comprises:
- a contact lens formed with a recessed chamber for receiving and stabilizing the cornea of an eye therein;
a laser system for generating a laser beam, said laser beam being directed through said contact lens to photodisrupt tissue in the stroma of the cornea;
a cutting means for creating an external opening into the stroma to access the gas and debris caused by the photodisruption of tissue; and
a suction means positioned in fluid communication with the external opening for aspirating the gas and debris from the stroma through the opening and through the lens for removal therefrom.
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0 Petitions
Accused Products
Abstract
A device for removing gas and debris from the stroma of an eye during ophthalmic laser surgery includes a contact lens that is formed with a recessed chamber. The device also includes a suction pump that is connected in fluid communication with the recessed chamber. In operation, the stroma is stabilized in the recessed chamber of the contact lens and an opening into the stroma is created. This opening is created either by the laser beam, or by a probe that is mounted on the contact lens to penetrate the stroma while the stroma is stabilized in the recessed chamber of the contact lens. Then, simultaneously or subsequently, as a laser beam is directed through the contact lens to photodisrupt tissue in the stroma the suction pump is activated to aspirate the resultant gas and debris through the opening and out of the stroma.
180 Citations
20 Claims
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1. A device for removing gas and debris from inside the stroma of an eye caused by the photodisruption of stromal tissue during ophthalmic laser surgery which comprises:
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a contact lens formed with a recessed chamber for receiving and stabilizing the cornea of an eye therein;
a laser system for generating a laser beam, said laser beam being directed through said contact lens to photodisrupt tissue in the stroma of the cornea;
a cutting means for creating an external opening into the stroma to access the gas and debris caused by the photodisruption of tissue; and
a suction means positioned in fluid communication with the external opening for aspirating the gas and debris from the stroma through the opening and through the lens for removal therefrom. - View Dependent Claims (2, 3, 4, 5, 6, 7)
a lens member having an anterior surface and an aplanation surface, the aplanation surface being substantially parallel to the anterior surface;
a skirt surrounding the aplanation surface and extending outwardly therefrom to define the recessed chamber therebetween; and
a first suction line for connecting the suction means in fluid communication with the recessed chamber to create a partial vacuum therein between the aplanation surface and the cornea of the eye to stabilize the cornea against the contact lens.
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3. A device as recited in claim 2 wherein the skirt is formed with a groove to establish a suction channel between the aplanation surface and the skirt.
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4. A device as recited in claim 3 wherein the first suction line is connected in fluid communication with the recessed chamber through the suction channel.
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5. A device as recited in claim 1 wherein the cutting means for creating the external opening into the stroma is the laser system.
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6. A device as recited in claim 5 wherein the suction means is in fluid communication with the recessed chamber of the contact lens, and the recessed chamber is in fluid communication with the external opening into the stroma.
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7. A device as recited in claim 1 wherein the contact lens is made of a clear medical grade plastic.
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8. A device for removing gas and debris from inside the stroma of an eye caused by the photodisruption of stromal tissue during ophthalmic laser surgery which comprises:
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a means for stabilizing the cornea of an eye;
a cutting means for creating an external opening into the stroma of the cornea to access the gas and debris caused by the photodisruption of tissue;
a means for establishing a fluid channel, the fluid channel being in fluid communication with the opening into the stroma; and
a suction means positioned over said external opening in fluid communication with the fluid channel for aspirating the gas and debris from the stroma through the opening and through the fluid channel for removal of the gas and debris from the stroma. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
a lens member having an anterior surface and an aplanation surface, the aplanation surface being substantially parallel to the anterior surface;
a skirt surrounding the aplanation surface and extending outwardly therefrom to define a recessed chamber therebetween; and
a first suction line for connecting the suction means in fluid communication with the recessed chamber to create a partial vacuum therein between the aplanation surface and the cornea of the eye to stabilize the cornea against the contact lens.
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10. A device as recited in claim 9 wherein the skirt is formed with a groove to establish a suction channel between the aplanation surface and the skirt.
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11. A device as recited in claim 10 wherein the first suction line is connected in fluid communication with the recessed chamber through the suction channel.
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12. A device as recited in claim 9 wherein the means for establishing a fluid channel is the recessed chamber and the cutting means for creating the external opening into the stroma is the laser system.
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13. A device as recited in claim 12 wherein the suction means is in fluid communication with the recessed chamber of the contact lens, and the recessed chamber is in fluid communication with the opening into the stroma.
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14. A device as recited in claim 9 wherein the cutting means for creating the external opening into the stroma is a probe, the probe being mounted on the contact lens, and wherein the device further comprises a second suction line for connecting the probe in fluid communication with the suction means.
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15. A device as recited in claim 14 wherein the means for establishing a fluid channel is the probe.
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16. A method for removing gas and debris from the stroma caused by the photodisruption of stromal tissue during ophthalmic laser surgery which comprises the steps of:
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stabilizing the cornea of an eye with a contact lens, the contact lens being formed with a recessed chamber for receiving the cornea therein;
activating a laser system to generate a laser beam, the laser beam being directed through the contact lens to photodisrupt tissue in the stroma of the cornea;
creating an external opening into the stroma to access the gas and debris caused by the photodisruption of tissue; and
aspirating the gas and debris from the stroma through the external opening and through the lens for removal therefrom. - View Dependent Claims (17, 18, 19)
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20. A device for removing gas and debris caused by the photodisruption of stromal tissue during ophthalmic laser surgery which comprises:
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a contact lens formed with a recessed chamber for receiving and stabilizing the cornea of an eye therein;
a laser system for generating a laser beam, said laser beam being directed through said contact lens to photodisrupt tissue in the stroma of the cornea;
a probe for creating an external opening into the stroma to access the gas and debris caused by the photodisruption of tissue, the probe being mounted on the contact lens;
a suction means positioned in fluid communication with the external opening for aspirating the gas and debris from the stroma through the opening and through the lens for removal therefrom.
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Specification