Название | Point-of-Care Ultrasound Techniques for the Small Animal Practitioner |
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Автор произведения | Группа авторов |
Жанр | Биология |
Серия | |
Издательство | Биология |
Год выпуска | 0 |
isbn | 9781119461029 |
References
1 Feldman MK, Katyal, S, Blackwood MS. 2009. Ultrasound artifacts. RadioGraphics 29:1179–1189.
2 Lichtenstein DA, Meziere GA. 2008. Relevance of lung ultrasound in the diagnosis of acute respiratory failure: the BLUE protocol. Chest 134(1):117–125.
3 Lichtenstein DA, Meziere GA, Lagoueyte J, et al. 2009. A‐lines and B‐lines. Lung ultrasound as a bedside tool for predicting pulmonary artery occlusion pressure in the critically ill. Chest 136(4):1014–1020.
4 Lisciandro GR. 2011. Abdominal and thoracic focused assessment with sonography for trauma, triage, and monitoring in small animals. J Vet Emerg Crit Care 21(2):104–122.
5 Nyland TG, Mattoon JS, Herrgesell EJ, et al. 2002. Physical principles, instrumentation, and safety of diagnostic ultrasound. In: Small Animal Diagnostic Ultrasound, 2nd edition, edited by Nyland TG, Mattoon JS. Philadelphia: WB Saunders, pp 1–18.
6 Penninck DG. 2002. Artifacts. In: Small Animal Diagnostic Ultrasound, 2nd edition, edited by Nyland TG, Mattoon JS. Philadelphia: WB Saunders, pp 19–29.
7 Reef V. 1998. Thoracic ultrasonography: noncardiac imaging. In: Equine Diagnostic Ultrasound, edited by Reef V. Philadelphia: WB Saunders, pp 187–214.
8 Volpicelli G, Elbarbary M, Blaivas M, et al. 2012. International evidence‐based recommendations for point‐of‐care lung ultrasound. Intensive Care Med 38:577–591.
Chapter Four POCUS: Basic Ultrasound Scanning
Robert M. Fulton
Introduction
Ultrasound is a user‐dependent imaging modality, with the quality of the image obtained directly dependent on the skill of the ultrasonographer. Many of the POCUS studies are not highly reliant on advanced skill or knowledge. Still, one must have a basic understanding of how to manipulate the probe and machine settings to obtain the prescribed images and optimize image quality.
What POCUS Basic Scanning Can Do
Provide a basic tutorial on ultrasound physics, image acquisition, and storage, and discuss basic ultrasound systematics.
What POCUS Basic Scanning Cannot Do
Cannot provide an in‐depth tutorial on how to learn ultrasound techniques.
Cannot replace experience and continued learning.
Indications
Provide a basic understanding of ultrasound principles and image acquisition, including probe type, probe manipulations and orientations, and ultrasound machine features to maximize accurate image interpretation.
Objectives
Provide a basic understanding of ultrasound image acquisition.
Provide a review of basic ultrasound techniques and systematics including:image planesimage orientationprobe maneuversimage optimizationimage documentationbasic machine selection and care.
Understanding Features of the Ultrasound Image
Imaging Planes
Understanding how the two‐dimensional image is formed from scanning through a three‐dimensional object is crucial not only to image interpretation but also communication of that information. The first piece of information is the imaging or scanning plane. The imaging plane may refer to the whole body, a part of the body (such as a leg or the head), or to a specific structure within the body, the left kidney, for instance (Figures 4.1 and 4.2).
The first of these, transverse, is any plane along the short axis of the structure being imaged.
Figure 4.1. Longitudinal and transverse orientation shown on anatomical planes.
Source: Illustration courtesy of Randi Taggart, Richmond, VA.
Figure 4.2. Examples of image planes for the kidney. In (A) the kidney is shown with longitudinal (sagittal) and transverse planes. In (B) the longitudinal (sagittal) plane is contrasted to (C) in transverse orientation on actual B‐mode ultrasound images. For most nonradiologist sonographers, the kidney is more readily recognized in the longitudinal (sagittal) orientation.
Source: Courtesy of Robert M. Fulton, DVM, Richmond, VA.
The second, longitudinal, is any plane that is perpendicular to the transverse plane or the long axis of the structure. Technically, the longitudinal plane has several specific types.
Median – this plane splits a symmetrical structure into equal left and right halves along the long axis.
Sagittal or paramedian – this plane is any plane that is parallel to the median plane. While technically incorrect, many will use sagittal interchangeably with longitudinal.
Dorsal – this plane splits a structure into dorsal and ventral segments and is analogous to the coronal plane in biped scanning terminology.
Commonly, veterinary sonographers tend to talk about only two planes, transverse and longitudinal, and this suffices for most communication and image understanding (see Figures 4.1 and 4.2).
Image Orientation
Any part of a medical record must contain the essentials of basic medical communication to have value. As veterinarians, we are taught how to communicate with each other in such a way regardless of our individual personality and training. One veterinarian can describe a lesion to another half a world away and pass along vital