Mild hyperthermia has been successfully employed to induce reversible physiological changes that can directly treat cancer and enhance local drug delivery. In this approach, temperature monitoring is essential to avoid undesirable biological effects that result from thermal damage. For thermal therapies, Magnetic Resonance Imaging (MRI) has been employed to control real-time Focused Ultrasound (FUS) therapies. However, combined ultrasound imaging and therapy systems offer the benefits of simple, low-cost devices that can be broadly applied. To facilitate such technology, ultrasound thermometry has potential to reliably monitor temperature. Control of mild hyperthermia was previously achieved using a proportional-integral-derivative (PID) co...
In order to quantify ultrasound therapy it is important to measure the tissue temperature during the...
We demonstrate a non-invasive technique, based on the modal frequency shift of a region insonified b...
Focused ultrasound is a unique and non-invasive technique for the local deposition of thermal energy...
<div><p>Mild hyperthermia has been successfully employed to induce reversible physiological changes ...
Mild hyperthermia has been successfully employed to induce reversible physiological changes that can...
<div><p>While Magnetic Resonance Thermometry (MRT) has been extensively utilized for non-invasive te...
Abstract — An MR-based thermal treatment controller that delivers a specified thermal dose to a sele...
While Magnetic Resonance Thermometry (MRT) has been extensively utilized for non-invasive temperatur...
Noninvasive thermotherapy through the application of high intensity focused ultrasound offers an att...
While Magnetic Resonance Thermometry (MRT) has been extensively utilized for non-invasive temperatur...
By virtue of advantages including no exposure to radiation and low toxicity and side effects, hypert...
AbstractMonitoring the temperature during a hyperthermia therapy allows optimizing the heat supply t...
Raising temperature of human cells (hyperthermia) is an ancient tool for tumor masses reduction and ...
Aiming at time-spatial characterization of tissue temperature when ultrasound is applied for thermal...
Ultrasound is an attractive modality for temperature monitoring because it is non-ionizing, convenie...
In order to quantify ultrasound therapy it is important to measure the tissue temperature during the...
We demonstrate a non-invasive technique, based on the modal frequency shift of a region insonified b...
Focused ultrasound is a unique and non-invasive technique for the local deposition of thermal energy...
<div><p>Mild hyperthermia has been successfully employed to induce reversible physiological changes ...
Mild hyperthermia has been successfully employed to induce reversible physiological changes that can...
<div><p>While Magnetic Resonance Thermometry (MRT) has been extensively utilized for non-invasive te...
Abstract — An MR-based thermal treatment controller that delivers a specified thermal dose to a sele...
While Magnetic Resonance Thermometry (MRT) has been extensively utilized for non-invasive temperatur...
Noninvasive thermotherapy through the application of high intensity focused ultrasound offers an att...
While Magnetic Resonance Thermometry (MRT) has been extensively utilized for non-invasive temperatur...
By virtue of advantages including no exposure to radiation and low toxicity and side effects, hypert...
AbstractMonitoring the temperature during a hyperthermia therapy allows optimizing the heat supply t...
Raising temperature of human cells (hyperthermia) is an ancient tool for tumor masses reduction and ...
Aiming at time-spatial characterization of tissue temperature when ultrasound is applied for thermal...
Ultrasound is an attractive modality for temperature monitoring because it is non-ionizing, convenie...
In order to quantify ultrasound therapy it is important to measure the tissue temperature during the...
We demonstrate a non-invasive technique, based on the modal frequency shift of a region insonified b...
Focused ultrasound is a unique and non-invasive technique for the local deposition of thermal energy...