Patent application number | Description | Published |
20130331873 | TEMPERATURE ESTIMATION AND TISSUE DETECTION OF AN ULTRASONIC DISSECTOR FROM FREQUENCY RESPONSE MONITORING - An ultrasonic surgical apparatus including a first signal generator outputting a drive signal at a predetermined voltage and frequency, a first oscillating structure receiving the drive signal and oscillating at the frequency of the drive signal, and a bridge circuit, detecting the mechanical motion of the first oscillating structure and outputting a signal representative of the mechanical motion. The apparatus also includes a second oscillating structure integrally formed within a portion of the first oscillating structure, the second oscillating structure outputting an electrical signal, and a microcontroller receiving the signal output by the bridge circuit and output by the second oscillating structure, the microcontroller determining an instantaneous frequency at which the first oscillating structure is oscillating based on the received signal, comparing the electrical signal from the second oscillating structure with a known signal value and determining the temperature of the second oscillating structure based on a the comparison. | 12-12-2013 |
20130331874 | TEMPERATURE ESTIMATION AND TISSUE DETECTION OF AN ULTRASONIC DISSECTOR FROM FREQUENCY RESPONSE MONITORING - An ultrasonic surgical apparatus and method, the apparatus including a signal generator outputting a drive signal having a frequency, an oscillating structure, receiving the drive signal and oscillating at the frequency of the drive signal, and a bridge circuit, detecting the mechanical motion of the oscillating structure and outputting a signal representative of the mechanical motion. The ultrasonic surgical apparatus also includes a microcontroller receiving the signal output by the bridge circuit, the microcontroller determining an instantaneous frequency at which the oscillating structure is oscillating based on the received signal, and determining a frequency adjustment necessary to maintain the oscillating structure oscillating at its resonance frequency, the microcontroller further determining the quality (Q value) of the signal received from the bridge circuit and determining material type contacting the oscillating structure. | 12-12-2013 |
20130331875 | TEMPERATURE ESTIMATION AND TISSUE DETECTION OF AN ULTRASONIC DISSECTOR FROM FREQUENCY RESPONSE MONITORING - An ultrasonic surgical apparatus and method of use including a signal generator outputting a drive signal having a frequency, an oscillating structure, receiving the drive signal and oscillating at the frequency of the drive signal, a bridge circuit, detecting the mechanical motion of the oscillating structure and outputting a signal representative of the mechanical motion, and a microcontroller receiving the signal output by the bridge circuit, the microcontroller determining an instantaneous frequency at which the oscillating structure is oscillating based on the received signal, and comparing the instantaneous frequency to a known frequency value and estimating a temperature of the oscillating structure based on the comparison. | 12-12-2013 |
20150032046 | ENERGY-BASED TREATMENT METHODS FOR REFRACTORY GOUT - A method of performing a medical procedure is disclosed. The method includes: positioning an energy delivery device configured to deliver energy adjacent uric acid (UA) crystals having a resonance frequency; applying energy to tissue through the energy delivery device at a predetermined frequency thereby resonating the UA crystals; debulking at least a portion of the UA crystals; and removing at least a portion of the debulked UA crystals. | 01-29-2015 |
20150088180 | ULTRASONIC DISSECTOR AND SEALER - A tool assembly includes an ultrasonic blade and a jaw member. The ultrasonic blade includes a proximal portion and a distal portion. The distal portion extends from the proximal portion and defines a longitudinal axis. The distal portion is configured to oscillate along the longitudinal axis to ultrasonically treat tissue. The distal portion includes a top portion, a bottom portion, a notch, and planar side segments. The notch is disposed on the bottom portion. One of the top portion, the bottom portion, or the notch is configured to dissect tissue. The top portion is configured to seal tissue. The jaw member is configured to move relative to the ultrasonic blade and is configured to contact the top portion. | 03-26-2015 |
20150088181 | ULTRASONIC DISSECTOR AND SEALER - A method for ultrasonically treating tissue includes accessing a surgical site with an ultrasonic surgical instrument, dissecting tissue with a first portion of the blade, and sealing tissue with a second portion of the blade. The instrument includes a blade that defines a longitudinal axis. The blade is configured to oscillate along the longitudinal axis to ultrasonically treat tissue. | 03-26-2015 |
20150092956 | DEVICES AND METHODS FOR AUDIBLE INDICATORS EMANATING FROM SELECTED LOCATIONS - Methods, systems, and devices are described for providing audio to one or more individuals in an operating room. An ultrasonic signal generator may be provided that generates two or more ultrasonic signals that combine to produce an audible signal at a desired location. The audio signal may be perceived by individuals in the operating room to emanate from a surface or location within the operating room, or the audio signal may be generated to provide an audible signal to one or more persons within a particular location within the operating room. Multiple audio signals may be generated to emanate from multiple different locations. Likewise, multiple audio signals may be generated to provide different audible signals in different locations in the operating room. | 04-02-2015 |
20150092958 | DEVICES AND METHODS FOR AUDIBLE INDICATORS EMANATING FROM SELECTED LOCATIONS - Methods, systems, and devices are described for providing audio to one or more individuals in an operating room. An ultrasonic signal generator may be provided that generates two or more ultrasonic signals that combine to produce an audible signal at a desired location. The audio signal may be perceived by individuals in the operating room to emanate from a surface or location within the operating room, or the audio signal may be generated to provide an audible signal to one or more persons within a particular location within the operating room. Multiple audio signals may be generated to emanate from multiple different locations. Likewise, multiple audio signals may be generated to provide different audible signals in different locations in the operating room. | 04-02-2015 |