Application of ultrasound characteristics in the accurate prediction of benign versus malignant solid breast nodules

Janse van Rensburg, Mariska

16 October 2012

M.Tech. / To determine whether a combination of real-time B-Mode ultrasound, Doppler Color flow and Power Doppler flow mapping would be reliable in differentiating benign from malignant breast nodules in an attempt to avoid unnecessary biopsies, where after ultrasound guidelines would be formulated. A quantitative cross-sectional comparative descriptive design in a study population which consisted of 62 women over the age of 35 years who came to Klerksdorp Radiology services for mammography. Both breast ultrasound imaging and mammography was used as a routine procedure as part of the workup for the classification of breast nodules, before histologic specimens were obtained. All nodules were classified according to the ultrasonographic BI-RADS lexicon and compared with the pathologic results. Of the 63 patients, 63 breast nodules were detected and confirmed by biopsy. Thirty seven (59%) nodules were found to be malignant and 26 (41%) were benign according to biopsy results. Mammography had 87% sensitivity and ultrasound 60% sensitivity in detecting malignancy. It is recommended that B-mode, Color Doppler flow and Power Doppler flow mapping be used in combination with mammography for screening as a gold standard.

Breast radiography

Breast - Ultrasonic imaging

Breast cancer - Ultrasonic imaging

The role of endoscopic ultrasonography in the management of acute pancreatitis

Liu, Chi-leung., 廖子良.

January 2005

published_or_final_version / Medicine / Master / Doctor of Medicine

Pancreas - Ultrasonic imaging.

Pancreatitis - Diagnosis.

ULTRASONIC DETERMINATION OF URINARY BLADDER WALL LOCATIONS.

McIntosh, Michael Philip.

January 1982

No description available.

Ultrasonics in medicine.

Ultrasonic imaging.

Bladder.

Feasibility study of ultrasound measurements on the human lumbar spine

Pothuganti Virabadra, Phani, Raju, P. K.

January 2006

Thesis--Auburn University, 2006. / Abstract. Vita. Includes bibliographic references (p.108-111, etc.).

A generalized programmable system and efficient algorithms for ultrasound backend processing /

Basoglu, Chris.

January 1997

Thesis (Ph. D.)--University of Washington, 1997. / Vita. Includes bibliographical references (leaves [273]-288).

Design space exploration of real-time bedside and portable medical ultrasound adaptive beamformer acceleration

Chen, Junying, 陈俊颖

January 2012

This work explored the design considerations on the real-time medical ultrasound adaptive beamformer implementations using different computing platforms: CPU, GPU and FPGA. Adaptive beamforming has been well considered as an advanced solution for improving the image quality of medical ultrasound imaging machines. Although it provides promising improvements in lateral resolution, image contrast and imaging penetration depth, the use of adaptive beamforming is substantially more computationally demanding than conventional delay-and-sum beamformers. In order not to compromise the real-time performance of medical ultrasound systems, an accelerated solution is desirable. In this work, CPU implementation was used as a baseline implementation, based on which the intrinsic characteristics of the algorithm were analyzed. After the analysis of a particular adaptive beamforming algorithm, minimum-variance adaptive beamforming, two design parameters M and L were found to affect the implementation performance in two aspects: computational demand and image quality. The trends of the two aspects were contradictory with respect to the increment of M and L values. In our experiments, when M and L increased, the computational demand increased in a cubic curve; meanwhile, the image quality did not have much improvement when the increased values of M and L entered certain ranges. Since we targeted at a real-time solution without sacrificing the good image quality that adaptive beamforming proposed, a tradeoff was made on the selection of M and L values to balance the two contradictory requirements. Built upon the theoretical algorithmic analysis of the real-time adaptive beamformer realization, the implementations were developed with FPGA and GPU. While a dedicated hardware solution might be able to address the computational demand of the particular design, the need for an efficient algorithm exploration framework demanded a reprogrammable platform solution that was high-performance and easily reconfigurable. Besides, although a simple processor could provide convenient algorithm exploration via software development environment, real-time performance was usually not achievable. As a result, a reprogrammable medical ultrasound research platform for investigating advanced imaging algorithms was constructed in our project. The use of FPGA and GPU for implementing the real-time adaptive beamformer on our platform was explored. In our test cases, both FPGA- and GPUbased solutions achieved real-time throughput exceeding 80 frames-per-second, and over 38x improvement when compared to our baseline CPU implementation. Moreover, the implementations were also evaluated in terms of portability, data accuracy, programmability, and system integration. Due to its high power consumption, high-performance GPU solution is best suited for bedside applications, while FPGAs are more suitable for portable and hand-held medical ultrasound machines. Besides, while the development time on GPU platform remains much lower than its FPGA counterpart, the FPGA solution is effective in providing the necessary I/O bandwidth to enable an end-to-end real-time reconfigurable medical ultrasound image formation system. / published_or_final_version / Electrical and Electronic Engineering / Doctoral / Doctor of Philosophy

Beamforming.

Adaptive antennas.

Ultrasonic imaging.

Investigation of a catheter-based forward-looking ultrasound imaging transducer

Lee, Chankil

05 1900

No description available.

Ultrasonic imaging

Electric power distribution

A 3D ultrasonic camera for subsea applications

Ashraf, Muhammad

January 1994

No description available.

534

Ultrasonic imaging; Acoustic transducers

Multiresolution analysis of ultrasound images of the prostate /

Zhao, Fangwei.

January 2003

Thesis (Ph.D.)--University of Western Australia, 2004.

Detection of particles and estimation of size distribution in process fluids /

Li, Bo.

January 1992

Thesis (M.S.)--Rochester Institute of Technology, 1992. / Typescript. Includes bibliographical references.