Conditions of bone health such as variations of the thickness of cortical layer, intracortical porosity and low mineralization were simulated by a series of phantoms made of hard plastics using 3D printing. The phantoms presented edge-type strips mimicking cortical layer of long bones with a known gradient of the thickness by the length. Ultrasonic testing was performed as profiling by the phantoms' length in the axial transmission mode at frequencies 75 and 500 kHz through a covering soft layer and building time-distance plots of acquired signals. The results demonstrated ability of the axial transmission technique to discriminate between different simulated bone conditions in the presence of soft layers of varied thickness, as well as alt...
Purpose: Human cortical bone has a rapid T2 - decay, and it can be visualized using ultrashort echo ...
International audienceCortical bone loss is not fully assessed by current X-ray methods, and there i...
International audienceUltrasonic guided-wave technologies are powerful nondestructive testing techni...
Conditions of bone health such as variations of the thickness of cortical layer, intracortical poros...
Human soft tissue is an important factor that influences the assessment of human long bones using qu...
The axial transmission technique is used clinically for cortical bone assessment. However, the ultra...
International audienceIn this paper, ultrasound measurements of 1:1 scale three-dimensional (3D) pri...
Several studies showed the ability of the cortex of long bones such as the radius and tibia to guide...
Understanding the velocity and attenuation characteristics of ultrasonic waves in cortical bone and ...
International audienceIn this paper, the issue of the determination of both thickness and elastic ch...
The axial transmission technique is dedicated to cortical bone assessment. Ultrasonic wave velocity ...
Purpose Human cortical bone has a rapid T2* decay, and it can be visualized using ultrashort echo ti...
The influence of soft tissues coupled with cortical bones on precision of quantitative ultrasound (Q...
6th World Congress of Biomechanics, WCB 2010 - In Conjunction with 14th International Conference on ...
The purpose of this paper is the construction of an uncertain probabilistic model for the me-chanica...
Purpose: Human cortical bone has a rapid T2 - decay, and it can be visualized using ultrashort echo ...
International audienceCortical bone loss is not fully assessed by current X-ray methods, and there i...
International audienceUltrasonic guided-wave technologies are powerful nondestructive testing techni...
Conditions of bone health such as variations of the thickness of cortical layer, intracortical poros...
Human soft tissue is an important factor that influences the assessment of human long bones using qu...
The axial transmission technique is used clinically for cortical bone assessment. However, the ultra...
International audienceIn this paper, ultrasound measurements of 1:1 scale three-dimensional (3D) pri...
Several studies showed the ability of the cortex of long bones such as the radius and tibia to guide...
Understanding the velocity and attenuation characteristics of ultrasonic waves in cortical bone and ...
International audienceIn this paper, the issue of the determination of both thickness and elastic ch...
The axial transmission technique is dedicated to cortical bone assessment. Ultrasonic wave velocity ...
Purpose Human cortical bone has a rapid T2* decay, and it can be visualized using ultrashort echo ti...
The influence of soft tissues coupled with cortical bones on precision of quantitative ultrasound (Q...
6th World Congress of Biomechanics, WCB 2010 - In Conjunction with 14th International Conference on ...
The purpose of this paper is the construction of an uncertain probabilistic model for the me-chanica...
Purpose: Human cortical bone has a rapid T2 - decay, and it can be visualized using ultrashort echo ...
International audienceCortical bone loss is not fully assessed by current X-ray methods, and there i...
International audienceUltrasonic guided-wave technologies are powerful nondestructive testing techni...