An improved method of controlling intraocular pressure with a microsurgical system using measured flow rate.
대표청구항▼
1. A microsurgical system for controlling intraocular pressure, comprising: a surgical cassette, said surgical cassette having a dual infusion chamber, said dual infusion chamber having a first chamber for holding an irrigating fluid and a second chamber for holding said irrigating fluid, said first
1. A microsurgical system for controlling intraocular pressure, comprising: a surgical cassette, said surgical cassette having a dual infusion chamber, said dual infusion chamber having a first chamber for holding an irrigating fluid and a second chamber for holding said irrigating fluid, said first chamber not fluidly coupled to said second chamber;an infusion source external to said surgical cassette and containing said irrigating fluid;a first fluid level sensor operatively coupled to said first chamber;a second fluid level sensor operatively coupled to said second chamber;a pressurized gas source;a first proportional solenoid valve;a second proportional solenoid valve;a first on/off solenoid valve;a second on/off solenoid valve;a first pressure transducer;a second pressure transducer;a first gas line fluidly coupling said pressurized gas source, said first proportional solenoid valve, said first on/off solenoid valve, said first pressure transducer, and said first chamber in said surgical cassette;a second gas line fluidly coupling said pressurized gas source, said second proportional solenoid valve, said second on/off solenoid valve, said second pressure transducer, and said second chamber in said surgical cassette;a surgical device for providing said irrigating fluid to an eye;a first fluid line fluidly coupling said first chamber in said surgical cassette and said surgical device;a first actuator operatively coupled with said first fluid line;a third on/off solenoid valve;a third gas line fluidly coupling said pressurized gas source, said third on/off solenoid valve, and said first actuator;a second fluid line fluidly coupling said second chamber in said surgical cassette and said surgical device;a second actuator operatively coupled with said second fluid line;a fourth on/off solenoid valve;a fourth gas line fluidly coupling said pressurized gas source, said fourth on/off solenoid valve, and said second actuator;a flow sensor operatively coupled to said first fluid line and said second fluid line between said dual infusion chamber in said surgical cassette and said surgical device;a user input;a third fluid line fluidly coupling said infusion source and said first chamber in said surgical cassette;a third actuator operatively coupled with said third fluid line;a fifth on/off solenoid valve;a fifth gas line fluidly coupling said pressurized gas source, said fifth on/off solenoid valve, and said third actuator;a fourth fluid line fluidly coupling said infusion source and said second chamber in said surgical cassette;a fourth actuator operatively coupled with said fourth fluid line;a sixth on/off solenoid valve;a sixth gas line fluidly coupling said pressurized gas source, said sixth on/off solenoid valve, and said fourth actuator; anda computer electrically coupled to said first proportional solenoid valve, said second proportional solenoid valve, said first fluid level sensor, said second fluid level sensor, said flow sensor, said user input, said first on/off solenoid valve, said second on/off solenoid valve, said third on/off solenoid valve, said fourth on/off solenoid valve, said fifth on/off solenoid valve, and said sixth on/off solenoid valve;whereby, after priming, said computer opens said first actuator and closes said second actuator so that said first chamber in said surgical cassette is initially active;whereby when a user selects a desired intraocular pressure via said input, said computer opens said first on/off solenoid valve and sends a first signal to said first proportional solenoid valve to provide an appropriate level of pressurized gas to said first chamber in said surgical cassette so as to provide said irrigating fluid from said first chamber to said surgical device and said eye via said first fluid line, said first pressure transducer senses the pressure within said first gas line, said flow sensor measures a flow rate of said irrigating fluid in said first fluid line and provides a second signal to said computer, said computer calculates a predicted intraocular pressure using said second signal and empirically determined impedance information for said microsurgical system, and said computer sends a third signal to said first proportional valve to maintain said predicted intraocular pressure proximate said desired intraocular pressure;whereby when said first fluid level sensor determines that a level of said irrigating fluid in said first chamber in said surgical cassette has reached a bottom limit level, said computer closes said first actuator and opens said second actuator so that said second chamber in said surgical cassette is active and provides said irrigating fluid in said second chamber to said surgical device and said eye via said second fluid line, and said computer also opens said third actuator so that said first chamber in said surgical cassette is refilled with said irrigating fluid from said infusion source via said third fluid line;whereby said computer closes said first on/off solenoid valve, opens said second on/off solenoid valve, and sends a fourth signal to said second proportional solenoid valve to provide an appropriate level of pressurized gas to said second chamber in said surgical cassette so as to provide said irrigating fluid from said second chamber to said surgical device and said eye via said second fluid line, said second pressure transducer senses the pressure within said second gas line, said flow sensor measures a flow rate of said irrigating fluid in said second fluid line and provides a fifth signal to said computer, said computer calculates a predicted intraocular pressure using said fifth signal and empirically determined impedance information for said microsurgical system, and said computer sends a sixth signal to said second proportional solenoid valve to maintain said predicted intraocular pressure proximate said desired intraocular pressure; andwhereby when said second fluid level sensor determines that a level of said irrigating fluid in said second chamber in said surgical cassette has reached a bottom limit level, said computer closes said second actuator and opens first second actuator so that said first chamber in said surgical cassette is again active and provides said irrigating fluid in said first chamber to said surgical device and said eye via said first fluid line, and said computer also opens said fourth actuator so that said second chamber in said surgical cassette is refilled with said irrigating fluid from said infusion source via said fourth fluid line.
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