Surgery – Instruments – Means for removing – inserting or aiding in the removal or...
Reexamination Certificate
1997-08-28
2001-06-26
Dawson, Glenn K. (Department: 3761)
Surgery
Instruments
Means for removing, inserting or aiding in the removal or...
C606S001000, C604S022000
Reexamination Certificate
active
06251113
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention relates generally to microsurgical and ophthalmic systems and, particularly, to a control system for operating microsurgical instruments.
Present day ophthalmic microsurgical systems provide one or more surgical instruments connected to a control console. The instruments are often electrically or pneumatically operated and the control console provides electrical or fluid pressure control signals for operating the instruments. The control console usually includes several different types of human actuable controllers for generating the control signals supplied to the surgical instruments. Often, the surgeon uses a foot pedal controller to remotely control the surgical instruments.
The conventional console has push-button switches and adjustable knobs for setting the desired operating characteristics of the system. The conventional control system usually serves several different functions. For example, the typical ophthalmic microsurgical system has anterior and/or posterior segment capabilities and may include a variety of functions, such as irrigation/aspiration, vitrectomy, microscissor cutting, fiber optic illumination, and fragmentation/emulsification.
While conventional microsurgical systems and ophthalmic systems have helped to make microsurgery and ophthalmic surgery possible, these systems are not without drawbacks. Microsurgical and ophthalmic systems are relatively costly and are often purchased by hospitals and clinics for sharing among many surgeons with different specialties. In eye surgery, for example, some surgeons may specialize in anterior segment procedures, while other surgeons may specialize in posterior segment procedures. Due to differences in these procedures, the control system will not be set up with the same operating characteristics for both procedures. Also, due to the delicate nature of eye surgery, the response characteristics or “feel” of the system can be a concern to surgeons who practice in several different hospitals, using different makes and models of equipment.
U.S. Pat. Nos. 4,933,843, 5,157,603, 5,417,246 and 5,455,766, all of which are commonly assigned and the entire disclosures of which are incorporated herein by reference, disclose improved microsurgical control systems. For example, such systems provide improved uniformity of performance characteristics, while at the same time providing enough flexibility in the system to accommodate a variety of different procedures. The systems shown in these patents improve upon the prior art by providing a programmable and universal microsurgical control system, which can be readily programmed to perform a variety of different surgical procedures and which may be programmed to provide the response characteristics which any given surgeon may require. The control system is preprogrammed to perform a variety of different functions to provide a variety of different procedures. These preprogrammed functions can be selected by pressing front panel buttons.
In addition to the preprogrammed functions, these patents disclose providing each surgeon with a programming key, which includes a digital memory circuit loaded with particular response characteristic parameters and particular surgical procedure parameters selected by that surgeon. By inserting the key into the system console jack, the system is automatically set up to respond in a familiar way to each surgeon.
For maximum versatility, the console push buttons and. potentiometer knobs are programmable. Their functions and response characteristics can be changed to suit the surgeons' needs. An electronic display screen on the console displays the current function of each programmable button and knob as well as other pertinent information. The display screen is self-illuminating so that it can be read easily in darkened operating rooms.
Although the above-described systems provide improvements over the prior art, further improvements are needed to improve performance, simplify operation, simplify repair and replacement, reduce the time and cost of repairs, and so forth.
SUMMARY OF THE INVENTION
Among the several objects of this invention may be noted the provision of an improved system which permits network communications between its components; the provision of such a system which is modular; the provision of such a system which permits distributed control of its components; the provision of such a system which reconfigures itself automatically at power-up; the provision of such a system which permits operation in a number of different modes; the provision of such a system which operates in the different modes in a predefined sequence; the provision of such a system which permits adaptation to different configurations; the provision of such a system which is easily reprogrammable; and the provision of such a system circuit which is economically feasible and commercially practical.
Briefly described, a system embodying aspects of the invention controls a plurality of ophthalmic microsurgical instruments connected thereto. A user, such as a surgeon, uses the microsurgical instruments in performing ophthalmic surgical procedures. The system includes a data communications bus and a user interface connected to the data communications bus. The user interface provides information to the user and receives information from the user which is representative of operating parameters of the microsurgical instruments. The system also includes first and second surgical modules. Each surgical module is connected to and controls one of the microsurgical instruments as a function of at least one of the operating parameters. The surgical modules are also connected to the data communications bus which provides communication of data representative of the operating parameters between the user interface and the first and second surgical modules. In particular, data may be transmitted between the surgical modules and/or between the user interface and one or more of the surgical modules.
Another embodiment of the invention is a system for controlling a plurality of ophthalmic microsurgical instruments connected thereto. A user, such as a surgeon, uses the microsurgical instruments in performing ophthalmic surgical procedures. The system includes a data communications bus and a user interface connected to the data communications bus. The user interface provides information to the user and receives information from the user which is representative of operating parameters of the microsurgical instruments. The system also includes a surgical module and a remote control circuit. The surgical module is connected to and controls one of the microsurgical instruments as a function of at least one of the operating parameters. The remote control circuit is connected to and controls a remote control unit as a function of at least one of the operating parameters. The remote control unit operates to change the operating parameters of the microsurgical instruments during performance of the surgical procedures. Both the surgical module and the control circuit are also connected to the data communications bus which provides communication of data representative of the operating parameters between the user interface and the surgical module and the remote control circuit. In particular, data may be transmitted between the surgical module and the control circuit and/or between the user interface and either or both of the surgical module and control circuit.
Yet another embodiment of the invention is a system for controlling a plurality of ophthalmic microsurgical instruments connected thereto. A user, such as a surgeon, uses the microsurgical instruments in performing ophthalmic surgical procedures. The system includes a user interface providing information to the user and receives information from the user which is representative of operating parameters of the microsurgical instruments. The system also includes a memory storing a plurality of operating parameters. A central processor retrieves a set of the operating parameters from the memory for t
Appelbaum Peter Francis
Bisch Michael Evremonde
Cochran Bruce Robert
Eberhardt Christopher Michael
Knight Jeffery Alan
Bausch & Lomb Surgical, Inc.
Dawson Glenn K.
Kang Grant D.
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