Handheld Transducer Scanning Speed Guides and Position Detectors
First Claim
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1. Apparatus for guiding the scanning speed of a user moving a handheld external ultrasound treatment transducer across a body comprising:
- a plurality of light sources spaced apart in a row;
a light source driver for sequentially illuminating the light sources;
the light sources being disposed to be viewable by the user of the external ultrasound treatment transducer for visual reference of the speed at which the light appears to progress along the row.
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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.
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Citations
22 Claims
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1. Apparatus for guiding the scanning speed of a user moving a handheld external ultrasound treatment transducer across a body comprising:
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a plurality of light sources spaced apart in a row; a light source driver for sequentially illuminating the light sources; the light sources being disposed to be viewable by the user of the external ultrasound treatment transducer for visual reference of the speed at which the light appears to progress along the row. - View Dependent Claims (2, 3, 4, 5)
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6. Apparatus for guiding the scanning speed a user moves a handheld device across a body comprising:
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a plurality of light sources spaced apart in a row; a light source driver for sequentially illuminating the light sources; the light sources being disposed to be viewable by the user for visual reference of the speed at which the light appears to progress along the row. - View Dependent Claims (7, 8, 9)
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10. Apparatus comprising:
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an optical sensor for sensing relative position and velocity while a user moves a handheld external ultrasound treatment transducer across a patient'"'"'s body having; a handheld external ultrasound lipoplasty transducer for scanning across a patient'"'"'s body; a light source in the handheld external ultrasound lipoplasty transducer disposed to illuminate skin of the patient'"'"'s body; a lens disposed to collimate light reflected from the skin; an optical sensor array disposed to receive the light collimated by the lens; an output of the optical sensor array being coupled through a cable associated with the handheld external ultrasound lipoplasty transducer or coupled wirelessly to a system console; and
,the system console being configured to process the output of the optical sensor array.
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11. A method for guiding the scanning speed a user moves a handheld external ultrasound lipoplasty transducer across a body comprising:
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providing a plurality of light sources spaced apart and disposed in a row viewable by the user of the external ultrasound lipoplasty transducer; sequentially switching the light sources on at a rate selected to appear to progress at a desired scanning speed. - View Dependent Claims (12, 13, 14, 15, 16)
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17. A method for guiding the scanning speed a user moves a handheld device across a body comprising:
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providing a plurality of light sources spaced apart and disposed in a row viewable by the user of the external ultrasound treatment transducer; sequentially switching the light sources on at a rate selected to appear to progress at a desired scanning speed. - View Dependent Claims (18, 19, 20, 21)
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22. A method for detecting relative position and scanning speed of a handheld external ultrasound treatment transducer with a system providing real-time parameter adjustment to adhere to a treatment plan during free-hand scanning across a body comprising:
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an optical sensor for sensing motion and velocity when a user moves a handheld external ultrasound treatment transducer across a patient'"'"'s body attached to; a handheld external ultrasound treatment transducer for scanning across a patient'"'"'s body; an output of the optical sensor array being coupled through a cable associated with the handheld external ultrasound treatment transducer or coupled wirelessly to a system console; the system console being configured to process the output of the optical sensor array; and
,the system console also being configured to adjust critical acoustic parameters in real time based on the detected transducer position and scanning speed in order to adhere to a procedure plan.
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Specification