Patent application number | Description | Published |
20100130915 | APPLICATION OF VACUUM AS A METHOD AND MECHANISM FOR CONTROLLING EYE CHAMBER STABILITY - A phacoemulsification system for operating a surgical handpiece having a handpiece; an irrigation fluid source for supplying irrigation fluid to the eye; an aspiration source coupled to the handpiece in order to aspirate the irrigation fluid from the eye through the handpiece; and a controller for controlling a vacuum in the handpiece, the controller comprising: a sensor for sensing the vacuum in the handpiece; an occlusion parameter, the occlusion parameter being a vacuum level corresponding to an occlusion of the handpiece or a flow rate corresponding to an occlusion of the handpiece; a maximum allowable vacuum level in the handpiece, the maximum allowable vacuum level having at least a first predetermined level; and a trigger value that is set based in part on the occlusion parameter. | 05-27-2010 |
20100280434 | AUTOMATICALLY PULSING DIFFERENT ASPIRATION LEVELS TO AN OCULAR PROBE - Methods and systems for automatically pulsing different aspiration levels to an ocular probe are disclosed. The probe may be a phacoemulsification probe. A first aspiration level, supplied by a first pump, may be applied to the probe simultaneously with ultrasonic energy. A second aspiration level, supplied by a second pump, may be automatically switched from the first aspiration level, and applied to the probe in a pulsed manner. | 11-04-2010 |
20100280435 | AUTOMATICALLY SWITCHING DIFFERENT ASPIRATION LEVELS AND/OR PUMPS TO AN OCULAR PROBE - Methods and apparatuses for automatically switching different aspiration levels to an ocular probe are disclosed herein. The probe may be a phacoemulsification probe. A first aspiration level, supplied by a first pump, may be applied to the probe simultaneously with ultrasonic energy. A second aspiration level, supplied by a second pump, may be automatically switched from the first aspiration level. Control feed back of the pumps may be varied according to set thresholds. | 11-04-2010 |
20110087156 | APPLICATION OF A SYSTEM PARAMETER AS A METHOD AND MECHANISM FOR CONTROLLING EYE CHAMBER STABILITY - A controller for a phacoemulsification system having a handpiece; an irrigation fluid source configured to supply an irrigation fluid to the eye; an aspiration source configured to aspirate the irrigation fluid from the eye through the handpiece; and a controller comprising a duration timer configured to provide a duration of an occlusion, the controller configured to: sense a value of an occlusion indicating parameter corresponding to an occlusion of the handpiece; measure a time since the occlusion of the handpiece; and control the aspiration source to the handpiece based at least in part on the measured time since the occlusion. The occlusion indicating_parameter may be a vacuum level, an irrigation flow rate, and/or an aspiration flow rate. | 04-14-2011 |
20110092887 | METHOD FOR PROGRAMMING FOOT PEDAL SETTINGS AND CONTROLLING PERFORMANCE THROUGH FOOT PEDAL VARIATION - The present invention pertains to programming a foot pedal and switches located therewith that is used with a medical device and/or medical device system. A user may select any switch or directional movement available on the foot pedal for programming by activating the switch and/or moving a treadle located on the foot pedal or by selecting a foot pedal feature on a display. The programming options available for the selected switch or directional movement are displayed on the display screen. Using the foot pedal, the display screen, voice command or combinations thereof, the user can navigate through different options to select one or more options and confirm the chosen option(s) for the particular switch or directional movement. The control and feel of the movement of the treadle and/or switch provides the user with the ability to program custom settings that suit the user's foot position(s) and/or particular style of surgery. | 04-21-2011 |
20130072853 | SYSTEMS AND METHODS FOR CONTROLLING VACUUM WITHIN PHACOEMULSIFICATION SYSTEMS - The invention relates to systems and methods for controlling vacuum within phacoemulsification systems. The phacoemulsification system may include a handpiece having a needle. The needle is coupled to a power source configured to cause the needle to be ultrasonically vibrated during operation and an aspiration source. The system further includes a footpedal that defines a first position and a second position. The system also includes a computer program product operatively coupled to the handpiece and the footpedal, the computer program product having a computer-usable medium having a sequence of instructions which, when executed by a processor, causes said processor to execute a process that controls power from the power source and vacuum from the aspiration source applied to the handpiece. The process includes the steps of providing a vacuum at a first level to the handpiece when the footpedal is at the first position; providing power to the handpiece when the footpedal is at the second position; and reducing the vacuum to a second level when the footpedal transitions from the first position to the second position. | 03-21-2013 |
20130123680 | FLUID MANAGEMENT SYSTEM FOR USE IN A MEDICAL PROCEDURE - An apparatus and method for controlling fluid flow provided by an apparatus to a patient's eye during a surgical procedure. The method includes automatically adjusting an irrigation fluid source to a predetermined height during the surgical procedure using the apparatus, receiving a request either that the irrigation fluid source be moved to a different height from the predetermined height or that a manual adjustment mode be entered, and ceasing automatic adjusting and requiring manual adjustment of the height of the irrigation fluid source until the surgical procedure is completed or an indication received to resume automatic height adjustment of the irrigation fluid source. As an alternative, fluid flow rate or intraocular pressure may be maintained, and the design may include making adjustments to default values in other modes based on the adjustment made. | 05-16-2013 |
20130131611 | MEDICAL DEVICE RECEPTACLE FILLING METHOD AND APPARATUS - An apparatus and method for dispersing fluid from a fluid dispersal line is provided. The method comprises initiating operation of the medical apparatus, determining whether fluid has been dispersed from the medical apparatus via the fluid dispersal line since said initiating occurred, and assessing whether fluid is available in the fluid dispersal line. If fluid has not been dispersed from the medical apparatus since said initiating occurred and fluid is not available in the fluid dispersal line, the method includes distributing a commanded quantity of fluid plus an amount of fluid determined to fill the fluid dispersal line. Otherwise the method disperses only the commanded quantity of fluid. | 05-23-2013 |
20140142493 | APPLICATION OF VACUUM AS A METHOD AND MECHANISM FOR CONTROLLING EYE CHAMBER STABILITY - A phacoemulsification system for operating a surgical handpiece having a handpiece; an irrigation fluid source for supplying irrigation fluid to the eye; an aspiration source coupled to the handpiece in order to aspirate the irrigation fluid from the eye through the handpiece; and a controller for controlling a vacuum in the handpiece, the controller comprising: a sensor for sensing the vacuum in the handpiece; an occlusion parameter, the occlusion parameter being a vacuum level corresponding to an occlusion of the handpiece or a flow rate corresponding to an occlusion of the handpiece; a maximum allowable vacuum level in the handpiece, the maximum allowable vacuum level having at least a first predetermined level; and a trigger value that is set based in part on the occlusion parameter. | 05-22-2014 |
20150073816 | COMPUTER-BASED OPERATING ROOM SUPPORT SYSTEM - 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. | 03-12-2015 |