Concave ultrasound transducers and 3D arrays

摘要

A Multiple Aperture Ultrasound Imaging (MAUI) probe or transducer is uniquely capable of simultaneous imaging of a region of interest from separate apertures of ultrasound arrays. Some embodiments provide systems and methods for designing, building and using ultrasound probes having continuous arrays of ultrasound transducers which may have a substantially continuous concave curved shape in two or three dimensions (i.e., concave relative to an object to be imaged). Other embodiments herein provide systems and methods for designing, building and using ultrasound imaging probes having other unique configurations, such as adjustable probes and probes with variable configurations.

主权项

1. A method of producing a volumetric data set representing a region of interest within an object to be imaged, the method comprising:
placing an ultrasound probe having an array of transducer elements in contact with the object to be imaged; transmitting an un-focused ultrasound pulse into the object with the ultrasound probe from a first transmit aperture comprising a first single transducer element; adjusting a size or shape of a first receive aperture by assigning a first plurality of transducer elements to the first receive aperture; adjusting a size or shape of a second receive aperture by assigning a second plurality of transducer elements to the second receive aperture; receiving volumetric data from the un-focused ultrasound pulse at each of the first plurality of transducer elements of the first receive aperture; receiving volumetric data from the un-focused ultrasound pulse at each of the second plurality of transducer elements of the second receive aperture; storing the volumetric data received by each of the first and second plurality of transducer elements of the first and second receive apertures; coherently averaging the volumetric data from each of the first plurality of transducer elements of the first receive aperture to create a first volume; coherently averaging the volumetric data from each of the second plurality of transducer elements of the second receive aperture to create a second volume; and incoherently averaging the first and second volumes to create a 3D volume.