IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0300721
(2002-11-19)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
30 |
초록
▼
Improved refractive eye surgery methods, apparatus and systems employ ablative photodecomposition of a cornea to mitigate and/or inhibit presbyopia with minimal vision degradation. A method for treating a cornea includes ablating a superior area of the cornea to enhance near-distance vision and abla
Improved refractive eye surgery methods, apparatus and systems employ ablative photodecomposition of a cornea to mitigate and/or inhibit presbyopia with minimal vision degradation. A method for treating a cornea includes ablating a superior area of the cornea to enhance near-distance vision and ablating an inferior area of the cornea to enhance far-distance vision. Typically, the inferior area corresponds to an area of the cornea that is blocked (generally by the lower eyelid and/or cheek) from viewing objects when the eye is facing downward. The superior area corresponds to an area of the cornea that is blocked from viewing objects (generally by the patient's upper eyelid) when the eye is facing forward or slightly above the horizon. In some embodiments, a transition zone is ablated between the superior and inferior areas, to enable a smoother visual transition between the two areas.
대표청구항
▼
1. An apparatus for use with a laser delivery system for treating presbyopia in a patient, the apparatus comprising a tangible medium having at least one machine readable code, the at least one machine readable code including instructions for a laser system to ablate a superior area of an optical zo
1. An apparatus for use with a laser delivery system for treating presbyopia in a patient, the apparatus comprising a tangible medium having at least one machine readable code, the at least one machine readable code including instructions for a laser system to ablate a superior area of an optical zone of the patient's cornea to provide a near-distance vision upper refractive shape and an inferior area of the optical zone of the cornea to provide a far-distance vision lower refractive shape, wherein the superior area is disposed toward the top of the patient's head, when the patient is in a substantially vertical position, such that vision from the superior area is predominantly blocked by one or more parts of the patient's body and the inferior area is predominantly exposed when the eye focuses towards the horizon, and the inferior area is disposed below the superior area such that vision from the inferior area is predominantly blocked by one or more other parts of the patient's body and the superior area is predominantly exposed when the eye focuses in a downward direction.2. An apparatus as in claim 1, wherein the at least one machine readable code further comprises instructions for the laser system to ablate a transition area of the optical zone of the cornea, the transition area being disposed between the superior area and the inferior area.3. An apparatus as in claim 2, wherein the transition area is ablated to achieve a refraction of about ?0.75 diopters in an area adjacent the superior area, a refraction of about ?0.25 diopters in an area adjacent the inferior area, and a refraction of about ?0.50 diopters in an area approximately midway between the superior area and the inferior area.4. An apparatus as in claim 1, wherein the optical zone has a diameter of approximately 4-8 mm.5. A system for treating a cornea of an eye to correct presbyopia, the cornea having an optical zone comprising a superior area primarily in an upper half of the optical zone and an inferior area primarily in a lower half of the optical zone the system comprising:a laser delivery system being operable to deliver ablative radiation to the cornea; and a processor coupled to the laser delivery system to direct the laser delivery system to ablate the superior area of the optical zone to provide a near-distance vision upper refractive shape and the inferior area of the optical zone to provide a far-distance vision lower refractive shape, such that vision from the superior area is predominantly blocked by one or more parts of the patient's body and the inferior area is predominantly exposed when the eye focuses towards the horizon, and vision from the inferior area is predominantly blocked by one or more other parts of the patient's body and the superior area is predominantly exposed when the eye focuses in a downward direction. 6. A system as in claim 5, wherein the processor is further adapted to direct the laser delivery system to ablate a transition area of the optical zone, the transition area being disposed between the superior area and the inferior area.7. A system as in claim 6, wherein the transition area is ablated to achieve a refraction of about ?0.75 diopters in an area adjacent the superior area, a refraction of about ?0.25 diopters in an area adjacent the inferior area, and a refraction of about ?0.50 diopters in an area approximately midway between the superior area and the inferior area.8. A system as in claim 5, wherein the optical zone has a diameter of approximately 4-8 mm.9. A method for treating a cornea of an eye to correct presbyopia, the cornea having an optical zone comprising a superior area primarily in an upper half of the optical zone and an inferior area primarily in a lower half of the optical zone, the method comprising:ablating the superior area of the optical zone to provide a near-distance vision upper refractive shape; and ablating the inferior area of the optical zone to provide a far-distance vision lower refractive shape. 10. The method as in claim 9, wherein the superior area is ablated to achieve a refraction of about ?1 diopter and the inferior area is ablated to achieve a refraction of about 0 diopters.11. A method as in claim 9, further comprising ablating a transition area of the optical zone, the transition area being disposed between the superior area and the inferior area.12. A method as in claim 11, wherein the transition area is ablated to achieve a refraction of about ?0.75 diopters in an area adjacent the superior area, a refraction of about ?0.25 diopters in an area adjacent the inferior area, and a refraction of about ?0.50 diopters in an area approximately midway between the superior area and the inferior area.13. A method as in claim 9, wherein the optical zone has a diameter of approximately 4-8 mm.14. A method as in claim 9, wherein vision from the superior area is predominantly blocked by one or more parts of the patient's body and the inferior area is predominantly exposed when the patient is in a substantial vertical position and when the eye focuses towards the horizon, and vision from the inferior area is predominantly blocked by one or more other parts of the patient's body and the superior area is predominantly exposed when the eye focuses in a downward direction.15. A method for reprofiling a cornea of an eye from an initial shape to a multifocal aspheric shape for correcting presbyopia, the cornea having an optical zone comprising a superior area primarily in an upper half of the optical zone and an inferior area primarily in a lower half of the optical zone, the method comprising:aligning a laser system with the eye, the laser system being operable to deliver ablative radiation to the cornea; ablating the cornea to an ablated shape by selectively exposing the cornea to the ablative radiation so that the optical zone extends across the pupil, wherein the superior area is ablated to provide a near-distance vision upper refractive shape having a refraction of about ?1 diopter and the inferior area is ablated to provide a far-distance vision lower refractive shape having a refraction of about 0 diopters; and covering the ablated surface to produce a final aspheric corneal surface. 16. A method as in claim 15, wherein the optical zone further comprises a transition area disposed between the superior and inferior areas.17. A method as in claim 16, wherein the transition area is ablated to achieve a refraction of about ?0.75 diopters in an area adjacent the superior area, a refraction of about ?0.25 diopters in an area adjacent the inferior area, and a refraction of about ?0.50 diopters in an area approximately midway between the superior area and the inferior area.
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