Focused ultrasound therapy (FUS) is a modern and promising modality for minimally invasive cancer therapy. However, clinical routine still faces major problems in exploiting its full curative potential. The need for suitable mathematical concepts for FUS plan computation provides an urgent and important topic of current research. This work introduces a novel FUS plan computation method, which mimics the clinical planning workow in form of a hybrid optimization method. This method combines practically sound heuristics with goal-oriented continuous optimization methods based on optimal control. It thereby provides a suitable compromise between the required numerical expense and the achieved plan quality
This PhD thesis describes methods for the support of the planning process for minimally- and non-inv...
Low-intensity focused ultrasound is emerging as a high-resolution highly selective alternative to st...
In recent years, phased arrays have been employed with reasonable success to apply high intensity fo...
Focused ultrasound therapy (FUS) is a modern and promising way for minimally invasive cancer treatme...
The thesis studies selected evolution systems to use in planning of high intensity focused ultrasoun...
We present new results in stochastic multi-objective optimization applied to focused ultrasonic ther...
In noninvasive abdominal tumor treatment, research has focused on canceling organ motion either by g...
Focused ultrasound (FUS) is a non-invasive therapeutic technology that could revolutionize the treat...
Focused ultrasound (FUS) is a noninvasive method for tissue ablation that has the potential for comp...
In hyperthermia for cancer treatments, tumors are heated to improve the outcome of radio-and chemoth...
High Intensity Focused Ultrasound (HIFU) has demonstrated its effectiveness in killing small tumors ...
International audienceTreatment time reduction is a key issue to expand the use of high intensity fo...
Thesis (Ph.D.)--University of Washington, 2021Underlying all cancer therapy protocols are the compet...
Scanned, focused ultrasound systems (SFUS) have considerable flexibility in shaping the power deposi...
Focused ultrasound in combination with magnetic resonance tomography is a well established method fo...
This PhD thesis describes methods for the support of the planning process for minimally- and non-inv...
Low-intensity focused ultrasound is emerging as a high-resolution highly selective alternative to st...
In recent years, phased arrays have been employed with reasonable success to apply high intensity fo...
Focused ultrasound therapy (FUS) is a modern and promising way for minimally invasive cancer treatme...
The thesis studies selected evolution systems to use in planning of high intensity focused ultrasoun...
We present new results in stochastic multi-objective optimization applied to focused ultrasonic ther...
In noninvasive abdominal tumor treatment, research has focused on canceling organ motion either by g...
Focused ultrasound (FUS) is a non-invasive therapeutic technology that could revolutionize the treat...
Focused ultrasound (FUS) is a noninvasive method for tissue ablation that has the potential for comp...
In hyperthermia for cancer treatments, tumors are heated to improve the outcome of radio-and chemoth...
High Intensity Focused Ultrasound (HIFU) has demonstrated its effectiveness in killing small tumors ...
International audienceTreatment time reduction is a key issue to expand the use of high intensity fo...
Thesis (Ph.D.)--University of Washington, 2021Underlying all cancer therapy protocols are the compet...
Scanned, focused ultrasound systems (SFUS) have considerable flexibility in shaping the power deposi...
Focused ultrasound in combination with magnetic resonance tomography is a well established method fo...
This PhD thesis describes methods for the support of the planning process for minimally- and non-inv...
Low-intensity focused ultrasound is emerging as a high-resolution highly selective alternative to st...
In recent years, phased arrays have been employed with reasonable success to apply high intensity fo...