Measuring transducer movement methods and systems for multi-dimensional ultrasound imaging
First Claim
1. A method for measuring transducer movement for multi-dimensional ultrasound imaging, the method comprising:
- moving, by free-hand motion, a transducer across a patient'"'"'s skin;
positioning the transducer at an angle other than perpendicular to the patient'"'"'s skin;
scanning a plurality of planes below the patients skin with ultrasound from the transducer, the plurality of planes at different locations within the patient due to the moving;
translating at least a portion of the transducer on the patient'"'"'s skin during the scanning wherein translating comprises translating the transducer while substantially maintaining the angle;
measuring, from ultrasound data, a first distance of the transducer translation during translating, the first distance being a function of the angle;
directing an optical sensor and a blue-green light source at the patients skin during the moving;
determining the different locations of the plurality of planes from the first distance and with the optical sensor responsive to blue-green light from the blue-green light source reflected from the patient skin; and
rendering, from ultrasound data responsive to the scanning of the plurality of planes, a three-dimensional representation, the rendering using positions of the planes, represented by the ultrasound data, that are a function of the different locations.
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Abstract
Methods and systems for measuring transducer movement are provided. For example, free-hand scanning for three-dimensional imaging is provided. An optical sensor within the transducer measures motion along the skin surface similar to measuring movement of a personal computer mouse with an optical sensor. Alternatively or additionally, the transducer is tilted at an angle other than perpendicular to the skin surface generally towards or away from the direction in which the transducer is translated. The transducer is then translated while maintaining the angle. Motion to or from the transducer is measured, and a component of the motion measured while the transducer is maintained at an angle is parallel to the direction of translation. The component of motion is angle corrected and used to determine a distance of travel.
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Citations
15 Claims
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1. A method for measuring transducer movement for multi-dimensional ultrasound imaging, the method comprising:
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moving, by free-hand motion, a transducer across a patient'"'"'s skin;
positioning the transducer at an angle other than perpendicular to the patient'"'"'s skin;scanning a plurality of planes below the patients skin with ultrasound from the transducer, the plurality of planes at different locations within the patient due to the moving; translating at least a portion of the transducer on the patient'"'"'s skin during the scanning wherein translating comprises translating the transducer while substantially maintaining the angle; measuring, from ultrasound data, a first distance of the transducer translation during translating, the first distance being a function of the angle; directing an optical sensor and a blue-green light source at the patients skin during the moving; determining the different locations of the plurality of planes from the first distance and with the optical sensor responsive to blue-green light from the blue-green light source reflected from the patient skin; and rendering, from ultrasound data responsive to the scanning of the plurality of planes, a three-dimensional representation, the rendering using positions of the planes, represented by the ultrasound data, that are a function of the different locations. - View Dependent Claims (2, 3, 4)
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5. A system for measuring transducer movement for multi-dimensional ultrasound imaging, the system comprising:
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a transducer positioned adjacent a housing surface of a probe such that the transducer is operable to transmit acoustic energy through the housing surface and into a patient; an optical sensor connected with the transducer, the optical sensor comprising a blue-green light source and a camera, the camera directed to receive light reflected of patient skin from the blue-green light; and a processor operable to determine, in response to a signal from the optical sensor, relative locations of scan planes due to movement of the transducer wherein the processor is operable to determine the relative locations as a function of a substantially maintained transducer angle other than perpendicular to the patient skin and as a function of measured motion from ultrasound data. - View Dependent Claims (6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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Specification