Abstract: Devices with a motor that, when connected to a cannula, rotates the cannula while removing adipose tissue from a surgical site. The device provides a direct pathway, for aspirated adipose tissue, from a tip of the cannula to a location where tubing is attached to the device. The pathway does not pass through the motor that provides the angular rotation of the cannula. Instead, the path for the adipose tissue passes through a removable coupler that is connected to the cannula. The cannula may also have a direct flow path for adipose tissue that does not pass through the motor.

Abstract: An ultrasonic probe transmits ultrasonic energy along a shaft from a proximate end to a distal end. The ultrasonic probe includes at least one notch on its distal end. Fibrous tissue, such as septa that connect skin layers to muscle layers of animal tissue, can be positioned within the notch so that it is in contact with at least a portion of the distal end of the ultrasonic probe. The ultrasonic energy conducted through the ultrasonic probe to the distal end will sever the fibrous tissue in the notch. The ultrasonic probe is also designed, in embodiments, to fragment or emulsify adipose tissue, as part of an ultrasonic assisted lipoplasty (UAL) procedure.

Abstract: Described are embodiments that include a device with a motor that when connected to a cannula rotates the cannula while removing adipose tissue from a surgical site. The device provides a direct pathway, for aspirated adipose tissue, from a tip of the cannula to a location where tubing is attached to the device. The pathway does not pass through the motor that provides the angular rotation of the cannula. Instead, the path for the adipose tissue passes through a removable coupler that is connected to the cannula. The embodiments provide a cannula that rotates but also has a direct flow path for adipose tissue that does not pass through the motor.

Abstract: Described are embodiments including methods and devices for venting a handpiece of a medical device. These embodiments provide a vent for the handpiece. A porous membrane is positioned over an opening of the vent to allow gas, including steam, to enter and escape from the handpiece and prevent liquids from entering the handpiece. Other embodiments include methods and devices for holding an ultrasonic driver assembly within a handpiece and preventing the ultrasonic driver assembly from rotating within the handpiece. These embodiments include positioning the ultrasonic driver assembly such that the ultrasonic driver assembly is held in place at a node of the ultrasonic driver assembly and an anti-rotation mechanism is also located at the node.

Abstract: Described are embodiments that employ ultrasonic energy to selectively lyse larger adipose cells in a suspension containing adipose cells of different sizes resulting in a suspension in which the only viable cells are the small adipose cells and stem cells. Embodiments provide for generating an acoustic standing wave field of sufficient intensity and proper geometry, that high shear stress is induced on the cell membranes of cells larger than a predetermined size. The remaining small adipose cells can be physically separated from the suspension after the suspension is subjected to the acoustic standing wave field.

Abstract: An ultrasonic probe transmits ultrasonic energy along a shaft from a proximate end to a distal end. The ultrasonic probe includes at least one notch on its distal end. Fibrous tissue, such as septa that connect skin layers to muscle layers of animal tissue, can be positioned within the notch so that it is in contact with at least a portion of the distal end of the ultrasonic probe. The ultrasonic energy conducted through the ultrasonic probe to the distal end will sever the fibrous tissue in the notch. The ultrasonic probe is also designed, in embodiments, to fragment or emulsify adipose tissue, as part of an ultrasonic assisted lipoplasty (UAL) procedure.

Abstract: Described are embodiments that employ ultrasonic energy to selectively lyse larger adipose cells in a suspension containing adipose cells of different sizes resulting in a suspension in which the only viable cells are the small adipose cells and stem cells. Embodiments provide for generating an acoustic standing wave field of sufficient intensity and proper geometry, that high shear stress is induced on the cell membranes of cells larger than a predetermined size. The remaining small adipose cells can be physically separated from the suspension after the suspension is subjected to the acoustic standing wave field.

Abstract: A soundhead of a treatment device is provided that enables a volume of tissue located beneath the soundhead to simultaneously receive ultrasound and light stimulation. According to one embodiment, the soundhead includes an ultrasound transducer, a light source, and a faceplate extending across a face of the transducer for providing a tissue contacting and ultrasound energy coupling surface of the soundhead. The faceplate is transparent or translucent to the light generated by the light source. Alternate embodiments including externally mounted light sources are also disclosed.

Abstract: A soundhead of a treatment device is provided that enables a volume of tissue located beneath the soundhead to simultaneously receive ultrasound and light stimulation. According to one embodiment, the soundhead includes an ultrasound transducer, a light source, and a faceplate extending across a face of the transducer for providing a tissue contacting and ultrasound energy coupling surface of the soundhead. The faceplate is transparent or translucent to the light generated by the light source. Alternate embodiments including externally mounted light sources are also disclosed.

Abstract: Described are embodiments of methods and devices for removing adipose tissue from a surgical site or location in a patient's body. The embodiments include a device that is used for infiltration, ultrasound, and aspiration of the surgical site. The device includes a cannula which serves to provide infiltration, conduct ultrasonic energy from an ultrasound generating device, and also provide a conduit for aspiration to a fluid system used for infiltration and collection of fluids. Embodiments provide for a fixed amount of infiltration fluid to be injected into the surgical site in specific ratio with the amount of lipoaspirate to be removed. The fixed amount of ultrasonic energy, both in amplitude and time, is delivered to the surgical site commensurate with the amount of infiltration and aspiration. The device also includes, in embodiments, a guide that limits the depth to which the cannula can be inserted into a patient.

Abstract: Described are embodiments that employ ultrasonic energy to selectively lyse larger adipose cells in a suspension containing adipose cells of different sizes resulting in a suspension in which the only viable cells are the small adipose cells and stem cells. Embodiments provide for generating an acoustic standing wave field of sufficient intensity and proper geometry, that high shear stress is induced on the cell membranes of cells larger than a predetermined size. The remaining small adipose cells can be physically separated from the suspension after the suspension is subjected to the acoustic standing wave field.

Abstract: An ultrasonic surgical device for the coagulation of animal tissue having an ultrasonic applicator and a movable jaw with a jaw surface adjacent the distal portion of the ultrasonic applicator for movement toward the applicator to a closed position at a predefined clearance of between about 0.075 to about 1.9 millimeters from the applicator. The device may also include a mechanical cutting element that can be extended into the clearance to cut the tissue and means to vary the predefined clearance without removing the applicator from the patient. Tissue coagulating and cutting can be maximized and performed separately and can be easily monitored by the surgeon.

Abstract: An ultrasonic frequency surgical dissecting device including a handpiece with a surgical blade that vibrates in a direction transverse to a long axis passing through the handpiece and blade for improved cutting and coagulation

Abstract: This invention relates to an improved method and apparatus for generating profiled pulses of ultrasonic frequency vibratory energy at a distal surface of an ultrasonic applicator of an ultrasonic surgical instrument for application to tissues of a patient, including the providing of a profiled pulse signal with a first profile and a maximum magnitude during a first time portion and a second profile and a minimum magnitude during a second time portion, the second time portion being greater than or equal to the duration of the first time portion, the first time portion being between one millisecond and fifty milliseconds in duration, and the maximum magnitude in the range between two and twenty times the minimum magnitude.