Conventional ultrasound (US) devices use the time of flight (TOF) of reflected US pulses to calculate distances inside the scanned tissues and thus create images. The speed of sound (SOS) is assumed to be constant in all human soft tissues at a generally accepted average value of 1540 m s(-1). This assumption is a source of systematic errors up to several millimeters and of image distortion in quantitative US imaging. In this work, an extension of a method recently published by Fontanarosa et al (2011 Med. Phys. 38 2665-73) is presented: the aim is to correct SOS aberrations in three-dimensional (3D) US images in those cases where a spatially co-registered computerized tomography (CT) scan is also available; the algorithm is then applicable...
Medical ultrasound imaging is in widespread use today due to its low cost, portability, lack of side...
Despite many uses of ultrasound, some pathologies such as breast cancer still cannot reliably be dia...
Image based registration techniques were developed, evaluated, and applied to 2D and 3D ultrasound (...
Conventional ultrasound (US) devices use the time of flight (TOF) of reflected US pulses to calculat...
Purpose To introduce a correction for speed of sound (SOS) aberrations in three dimensional (3D) ult...
Purpose: The purpose of this work is to assess the magnitude of speed of sound (SOS) aberrations in ...
To investigate the clinical impact of a recently introduced speed of sound (SOS) aberration correcti...
To investigate the clinical impact of a recently introduced <i>speed of sound</i> (SOS) aberration c...
Abstract—Our experimental setup for ultrasound computer tomography (USCT) has a cylindrical aperture...
Purpose: To show the effect of speed of sound (SOS) aberration on ultrasound guided radiotherapy (US...
Purpose: To show the effect of speed of sound (SOS) aberration on ultrasound guided radiotherapy (US...
US systems assume that speed of sound (SOS) is constant in human soft tissues (at a value of 1540 m/...
PurposeBy measuring the discrepancy of distance in electromagnetic tracking (EM) versus ultrasound i...
Most ultrasound imaging techniques necessitate the fundamental step of converting temporal signals r...
Most ultrasound imaging techniques necessitate the fundamental step of converting temporal signals r...
Medical ultrasound imaging is in widespread use today due to its low cost, portability, lack of side...
Despite many uses of ultrasound, some pathologies such as breast cancer still cannot reliably be dia...
Image based registration techniques were developed, evaluated, and applied to 2D and 3D ultrasound (...
Conventional ultrasound (US) devices use the time of flight (TOF) of reflected US pulses to calculat...
Purpose To introduce a correction for speed of sound (SOS) aberrations in three dimensional (3D) ult...
Purpose: The purpose of this work is to assess the magnitude of speed of sound (SOS) aberrations in ...
To investigate the clinical impact of a recently introduced speed of sound (SOS) aberration correcti...
To investigate the clinical impact of a recently introduced <i>speed of sound</i> (SOS) aberration c...
Abstract—Our experimental setup for ultrasound computer tomography (USCT) has a cylindrical aperture...
Purpose: To show the effect of speed of sound (SOS) aberration on ultrasound guided radiotherapy (US...
Purpose: To show the effect of speed of sound (SOS) aberration on ultrasound guided radiotherapy (US...
US systems assume that speed of sound (SOS) is constant in human soft tissues (at a value of 1540 m/...
PurposeBy measuring the discrepancy of distance in electromagnetic tracking (EM) versus ultrasound i...
Most ultrasound imaging techniques necessitate the fundamental step of converting temporal signals r...
Most ultrasound imaging techniques necessitate the fundamental step of converting temporal signals r...
Medical ultrasound imaging is in widespread use today due to its low cost, portability, lack of side...
Despite many uses of ultrasound, some pathologies such as breast cancer still cannot reliably be dia...
Image based registration techniques were developed, evaluated, and applied to 2D and 3D ultrasound (...