Abstract: Scanning speed detection for freehand high frequency ultrasound transducers using a multiple element moving array transducer using a pair of elements as a Doppler scanning speed detector. Various aspects of the invention are disclosed.
Abstract: This invention relates to a non-invasive, safer alternative to current lipoplasty procedures. The preferred embodiment of the invention is a multi-channel system that focuses the low mega Hertz ultrasound at user selectable depths, where fat cells are to be emulsified. The system offers independent user control of the main emulsifying property, cavitation, and thermal heating, which can independently be used for skin tightening. One part of the system is a handheld transducer, in shape similar to a typical small diagnostic ultrasound transducer. The other part of the system includes a transmitter with, for example, internal tracking of procedure time and with a disabling feature.
Abstract: This invention relates to a non-invasive, safer alternative to current lipoplasty procedures. The preferred embodiment of the invention is a multi-channel system that focuses the low mega Hertz ultrasound at user selectable depths, where fat cells are to be emulsified. The system has independent user control of the main emulsifying property, cavitation, and thermal heating, which can independently be used for skin tightening. One part of the system is a handheld transducer, in shape similar to a typical small diagnostic ultrasound transducer. The other part of the system includes a transmitter with internal tracking of procedure time and with a disabling feature.
Abstract: Methods for controlling and monitoring speed and position of a handheld medical transducer. Three methods are presented of various means, two of which include the user in the feedback loop and the third is fully automatic. In the third, an optical position sensor similar to an optical computer mouse provides enough information that the system can respond to and correct for a freehand scanning motion by the user.
Type:
Application
Filed:
September 29, 2008
Publication date:
October 7, 2010
Applicant:
NivaSonix, LLC
Inventors:
Laust G. Pedersen, Constantine C. Davlantes