Flexible Body-Conformal Ultrasound Systems for Autonomous Image-Guided Neuromodulation

Pashaei, Vida

21 June 2021

No description available.

Biomedical Engineering

Electrical Engineering

Medical Imaging

Neurosciences

Acoustics

Radiology

Systems Design

Health Care

Wearable Biomedical Devices

Flexible Ultrasound Arrays

Image-Guided Therapy

Acoustic Neuromodulation

Ultrasound Systems

Closed-Loop Systems

Flexible Electronics

Image Registration for the Prostate

FEI, Baowei

29 October 2008

No description available.

Computer Science

Engineering

Radiology

Scientific Imaging

image registration

deformable registration

non-rigid registration

thin plate spline

finite element model

prostate cancer

image-guided therapy

magnetic resonance imaging (MRI)

positron emission tomography (PET)

molecular imaging

3D segmentation and registration for minimal invasive prostate cancer therapy

Wu, Ke

05 March 2014

The work of this Thesis is focused on image guided focal therapy of prostate cancer by High Intensity Focused Ultrasound (HIFU). Currently MRI is the only imaging technique that can locate the tumor in prostate. In contrast, the tumor is not visible in the ultrasound image which is used to guide the HIFU planning and therapy. The aim of the Thesis is to provide registration techniques of T2 MRI to ultrasound. Two approaches were explored: 1) Region-based registration. More particularly, we studied an ultrasound texture descriptors based on moments invariant to rotation and scaling. These descriptors are sensitive to speckle distribution regardless of the scale or the orientation. As we expected, some of these descriptors can be used to characterize regions sharing a similar speckle spatial distribution. But, we also found that some other descriptors were sensitive to the contours of these regions. This property seems very useful to adapt the classical boundary-based or mixed region/boundary-based segmentation methods (active contours, graph cut, etc.) to process US images. 2) Surface-based registration approach.. We adapted the Optimal Definition Surface (OSD) method to the segmentation of the prostate in T2 MRI, Furthermore, we proposed the multiple-objects OSD which is a concurrent segmentation of the prostate, bladder and rectum. Finally we used the prostate surface extracted from the ultrasound volume and from T2 MRI in a surface-to-surface elastic registration scheme. This registration allowed us to merge the preoperative MR information in the peroperative US volume.

Image processing

Prostate therapy

Image guided therapy

Registration

Texture analysis

Segmentation

Minimal access therapy