«This is the first demonstration of all -
optical ultrasound imaging in a clinically realistic environment.
The team developed the all -
optical ultrasound imaging technology for use in a clinical setting over four years.
Not exact matches
Reflections of these ultrasonic pulses from tissue are detected by a sensor on a second
optical fibre, giving real - time
ultrasound imaging to guide surgery.
According to Xiao, photoacoustic
imaging (PAI) is a hybrid
optical imaging technique that combines the high
optical contrast of pure
optical imaging with the high spatial resolution and the deep
imaging depth of
ultrasound.
Advanced mouse
imaging techniques including MRI, micro-CT, high frequency ultrasound, and optical methods to understand human health and disease through the Mouse Imaging Centre
imaging techniques including MRI, micro-CT, high frequency
ultrasound, and
optical methods to understand human health and disease through the Mouse
Imaging Centre
Imaging Centre (MICe).
The Animal and Human
Imaging Shared Resource enables Cancer Center investigators to execute high throughput, quantitative and noninvasive in vivo imaging studies on animal models, apply and validate MRI, optical, CT, PET, SPECT and ultrasound methods for noninvasive detection and characterization in small animals and incorporate emerging and clinical relevant quantitative MRI and PET protocols into Phase I, II and III clinical trials in a centralized, cost effective
Imaging Shared Resource enables Cancer Center investigators to execute high throughput, quantitative and noninvasive in vivo
imaging studies on animal models, apply and validate MRI, optical, CT, PET, SPECT and ultrasound methods for noninvasive detection and characterization in small animals and incorporate emerging and clinical relevant quantitative MRI and PET protocols into Phase I, II and III clinical trials in a centralized, cost effective
imaging studies on animal models, apply and validate MRI,
optical, CT, PET, SPECT and
ultrasound methods for noninvasive detection and characterization in small animals and incorporate emerging and clinical relevant quantitative MRI and PET protocols into Phase I, II and III clinical trials in a centralized, cost effective manner.
Illuminating Sound:
Imaging Tissue
Optical Properties with
Ultrasound — Todd W. Murray and Ronald A. Roy
If required, advanced ocular
imaging, including digital slit lamp photography, spectral domain
optical coherence tomography (non-contact
imaging),
ultrasound biomicroscopy and fundus photography to image the retina