Journal ArticleDOI
Three-Dimensional Ultrasound Imaging
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TLDR
A review article describes the developments of a number of 3D ultrasound imaging systems using mechanical, free-hand and 2D array scanning techniques and the sources of errors in the reconstruction techniques as well as formulae relating design specification to geometric errors.Abstract:
Ultrasound is an inexpensive and widely used imaging modality for the diagnosis and staging of a number of diseases. In the past two decades, it has benefited from major advances in technology and has become an indispensable imaging modality, due to its flexibility and non-invasive character. In the last decade, research investigators and commercial companies have further advanced ultrasound imaging with the development of 3D ultrasound. This new imaging approach is rapidly achieving widespread use with numerous applications. The major reason for the increase in the use of 3D ultrasound is related to the limitations of 2D viewing of 3D anatomy, using conventional ultrasound. This occurs because: (a) Conventional ultrasound images are 2D, yet the anatomy is 3D, hence the diagnostician must integrate multiple images in his mind. This practice is inefficient, and may lead to variability and incorrect diagnoses. (b) The 2D ultrasound image represents a thin plane at some arbitrary angle in the body. It is difficult to localize the image plane and reproduce it at a later time for follow-up studies. In this review article we describe how 3D ultrasound imaging overcomes these limitations. Specifically, we describe the developments of a number of 3D ultrasound imaging systems using mechanical, free-hand and 2D array scanning techniques. Reconstruction and viewing methods of the 3D images are described with specific examples. Since 3D ultrasound is used to quantify the volume of organs and pathology, the sources of errors in the reconstruction techniques as well as formulae relating design specification to geometric errors are provided. Finally, methods to measure organ volume from the 3D ultrasound images and sources of errors are described.read more
Citations
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Journal ArticleDOI
Review of ultrasound image guidance in external beam radiotherapy: I. Treatment planning and inter-fraction motion management
Davide Fontanarosa,Skadi van der Meer,Jeffrey C. Bamber,Emma J. Harris,Tuathan O'Shea,Frank Verhaegen,Frank Verhaegen +6 more
TL;DR: O'Shea et al. as mentioned in this paper presented an overview of the historical and current use of two-dimensional and three-dimensional US imaging for treatment verification in radiotherapy, and the use of US guidance in the treatment planning process is discussed.
Journal ArticleDOI
Compressive 3D ultrasound imaging using a single sensor
Pieter Kruizinga,Pieter Kruizinga,Pim van der Meulen,Andrejs Fedjajevs,Frits Mastik,Geert Springeling,Nico de Jong,Nico de Jong,Johannes G. Bosch,Geert Leus +9 more
TL;DR: This work designs a simple ultrasound imaging device that can perform three-dimensional imaging using just a single ultrasound sensor and makes a compressed measurement of the spatial ultrasound field using a plastic aperture mask placed in front of the ultrasound sensor.
Journal ArticleDOI
Three-dimensional ultrasound scanning.
TL;DR: The various techniques that are in current use in three-dimensional US imaging systems are reviewed, with a particular emphasis placed on the geometric accuracy of the generation of three- dimensional images.
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Ultrasound imaging velocimetry : A review
TL;DR: An overview of the history, typical components and challenges of ultrasound image velocimetry can be found in this paper, where the basic principles of ultrasound imaging image formation are summarized, as well as various techniques to estimate flow velocities; the emphasis is on correlation-based techniques.
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Multimodal Molecular Imaging: Current Status and Future Directions.
TL;DR: The classic molecular imaging technology is described and its key advantages are described, and then, some of the latest multimodal molecular imaging modes are offered.
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