In one embodiment, a phacoemulsification system includes a phacoemulsification probe configured to be inserted into an eye, and including a needle, a horn configured to support the needle, and an ultrasonic actuator connected to the horn and configured to vibrate the needle to emulsify a lens of the eye, an aspiration line partially disposed in the needle, a pumping sub-system connected to the aspiration line and configured to remove fluid and waste matter from the eye via the aspiration line, a valve disposed in the aspiration line and configured to control fluid connectivity in the aspiration line, a sensor configured to provide a signal indicative of a fluid metric in the aspiration line, and a controller configured to find an activation status of the ultrasonic actuator, and selectively control the valve responsively to the fluid metric and the activation status of the ultrasonic actuator.

A computer-based surgery support system and method for obtaining information of surgical procedures from networked equipment in an operating room, storing the retrieved information in a database, receiving a request for the stored information from a user terminal, and providing the stored information in accordance with the received request. The networked equipment may be configured for use in cataract surgical procedures, such as a phacoemulsification system.

A phacoemulsification handpiece for ocular surgery includes a housing including a grip for holding the phacoemulsification handpiece, a needle extending from the housing for removing ocular material from an eye, and a horn connected with the needle. The phacoemulsification handpiece also includes a driving circuit configured to vibrate the horn according to a multi-harmonic driving signal, to generate non-sinusoidal ultrasonic motion of a tip of the needle.

A device for ocular surgery includes a surgical handpiece including a power cord and an aspiration needle for removing ocular material from an eye, and co-extruded tubing. The tubing includes an aspiration tube for receiving the ocular material removed from the eye by the surgical handpiece, an irrigation tube integrally formed with the aspiration tube for supplying irrigation fluid to the surgical handpiece, and a ridge defined along at least a majority of a length of the co-extruded tubing, the ridge defining a groove for receiving the power cord of the surgical handpiece.

Systems and methods for monitoring for an occlusion in an aspiration line during an ophthalmic surgical procedure. An ophthalmic surgical system may include a first aspiration pump located in a handpiece, a second aspiration pump located away from the handpiece such as in a console, and a pressure sensor located between the first aspiration pump and the second aspiration pump. The pressure sensor is adapted to monitor for an occlusion in the aspiration line upstream of the first aspiration pump. The second aspiration pump may be operated at the same flow rate as the first aspiration pump and/or to maintain a constant pressure between the second aspiration pump and the first aspiration pump. Systems and methods as disclosed allow for a handpiece pump located close to the working tip while providing reliable occlusion detection with a pressure sensor located away from the handpiece.

A method for calibrating a probe includes applying respective harmonic electrical signals having respective amplitudes and respective phases to multiple piezoelectric crystals coupled with a tip of the probe so as to cause the tip to vibrate, observing a motion of the tip while applying the respective harmonic electrical signals, adjusting the respective amplitudes and the respective phases of the signals so as to cause the observed motion of the tip to conform to a predefined trajectory, and recording an indication of the respective, adjusted amplitudes and phases in a memory contained in the probe.

A surgical cassette for an ophthalmic surgical system includes an irrigation system, an aspiration system, and a computer. The irrigation system is in fluid communication with a handpiece and carries fluid toward a surgical site. The aspiration system is in fluid communication with the handpiece via an aspiration conduit and carries fluid away from the surgical site. The computer instructs the aspiration system to vibrate fluid back and forth within the aspiration conduit to perform a priming procedure.

A surgical cassette for an ophthalmic surgical system includes an irrigation system and an aspiration system. The irrigation system is in fluid communication with a handpiece and carries fluid toward a surgical site. The aspiration system is in fluid communication with the handpiece and carries fluid away from the surgical site. The aspiration system includes an aspiration pump and tubing of an aspiration conduit. The aspiration pump generates a normal vacuum pressure within the aspiration conduit to carry fluid away from the surgical site during normal operation. The tubing has a larger cross-sectional area in response to normal vacuum pressure. The tubing collapses from the larger cross-sectional area to a smaller cross-sectional area in response to an occlusion; maintains the smaller cross-sectional area during a post-occlusion break surge to mitigate the post-occlusion break surge; and returns to the larger cross-sectional area after the post-occlusion break surge.

A surgical cassette for an ophthalmic surgical system comprises an irrigation system and an aspiration system. The irrigation system is in fluid communication with a handpiece and carries fluid toward a surgical site. The aspiration system is in fluid communication with the handpiece via an aspiration conduit, and carries fluid away from the surgical site. The aspiration system comprises a chamber that expands to store fluid, and collapses to move the fluid to meet a volume demand in the aspiration conduit to mitigate a post-occlusion break surge.

A phacoemulsification device includes a needle, one or more piezoelectric crystals, and one or more thermocouples. The needle is configured for insertion into a lens capsule of an eye. The one or more piezoelectric crystals are configured to vibrate the needle. The one or more thermocouples are thermally coupled directly to the respective piezoelectric crystals and are configured to measure respective temperatures of the one or more piezoelectric crystals as the crystals vibrate, and to output indications of the respectively measured temperatures.