Extraction of instantaneous changes in arterial walls with sequential ultrasound images

Purpose Many structural and dynamic properties of the arterial wall, e.g., lumen diameter and wall thickness, can be measured with non-invasive ultrasound techniques. We present a new computerized analysis method for measurement of instantaneous changes in far and near arterial walls in sequential u...

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Published in	Journal of medical ultrasonics (2001) Vol. 38; no. 2; pp. 81 - 87
Main Authors	Rahmani-Cherati, Tavoos, Mokhtari-Dizaji, Manijhe, Vajhi, Alireza, Rostami, Abdorrazzagh
Format	Journal Article
Language	English
Published	Japan Springer Japan 01.04.2011 Springer Springer Nature B.V
Subjects	Abdomen Algorithms Aorta Arterial wall Atherosclerosis Automation Cardiovascular disease Coronary vessels Cost function Diameters Dynamic programming Heart beat Heart rate Image processing Imaging Mathematical analysis Maximum gradient algorithm Medicine Medicine & Public Health Motion detection Original Article Rabbits Radiology Software Thickness measurement Tracing Ultrasonic imaging Ultrasonic methods Ultrasonic testing Ultrasound Veins & arteries Wall thickness Iran Motion detection Arterial wall Maximum gradient algorithm Ultrasound
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ISSN	1346-4523 1613-2254
DOI	10.1007/s10396-011-0299-6

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Abstract	Purpose Many structural and dynamic properties of the arterial wall, e.g., lumen diameter and wall thickness, can be measured with non-invasive ultrasound techniques. We present a new computerized analysis method for measurement of instantaneous changes in far and near arterial walls in sequential ultrasound images. Methods In this method, two algorithms, i.e., maximum gradient and dynamic programming, were composed and implemented. Reference points and cost function were based on dynamic programming and maximum gradient, respectively. To evaluate this method, B-mode abdominal aorta ultrasound examinations were obtained for ten New Zealand White rabbits. Approximately 70 sequential ultrasound images spanning three cardiac cycles were analyzed from each examination to detect instantaneous changes in the far and near walls and lumen diameter of rabbit abdominal aorta. The maximum, minimum, and mean diameters extracted by the automated method were compared with the same parameters measured by manual tracing. Results There was no significant differences between the manual and automated methods according to paired t test analysis ( p > 0.05). In a verification study, the correlation between the two methods was calculated ( R 2 = 0.98, p < 0.05). Agreement between the automated and manual methods as determined by the Bland-Altman approach was excellent. Conclusion It is concluded that the new computerized analysis method is a reliable technique to assess instantaneous changes in the rabbit arterial wall in sequential B-mode images. The variability between different laboratories will be reduced if the same analysis program is used. By using this method, not only was variation in the results of manual tracing by several observers eliminated, but the duration of image processing was also considerably reduced.
AbstractList	Purpose Many structural and dynamic properties of the arterial wall, e.g., lumen diameter and wall thickness, can be measured with non-invasive ultrasound techniques. We present a new computerized analysis method for measurement of instantaneous changes in far and near arterial walls in sequential ultrasound images. Methods In this method, two algorithms, i.e., maximum gradient and dynamic programming, were composed and implemented. Reference points and cost function were based on dynamic programming and maximum gradient, respectively. To evaluate this method, B-mode abdominal aorta ultrasound examinations were obtained for ten New Zealand White rabbits. Approximately 70 sequential ultrasound images spanning three cardiac cycles were analyzed from each examination to detect instantaneous changes in the far and near walls and lumen diameter of rabbit abdominal aorta. The maximum, minimum, and mean diameters extracted by the automated method were compared with the same parameters measured by manual tracing. Results There was no significant differences between the manual and automated methods according to paired t test analysis ( p > 0.05). In a verification study, the correlation between the two methods was calculated ( R 2 = 0.98, p < 0.05). Agreement between the automated and manual methods as determined by the Bland-Altman approach was excellent. Conclusion It is concluded that the new computerized analysis method is a reliable technique to assess instantaneous changes in the rabbit arterial wall in sequential B-mode images. The variability between different laboratories will be reduced if the same analysis program is used. By using this method, not only was variation in the results of manual tracing by several observers eliminated, but the duration of image processing was also considerably reduced. Many structural and dynamic properties of the arterial wall, e.g., lumen diameter and wall thickness, can be measured with non-invasive ultrasound techniques. We present a new computerized analysis method for measurement of instantaneous changes in far and near arterial walls in sequential ultrasound images. In this method, two algorithms, i.e., maximum gradient and dynamic programming, were composed and implemented. Reference points and cost function were based on dynamic programming and maximum gradient, respectively. To evaluate this method, B-mode abdominal aorta ultrasound examinations were obtained for ten New Zealand White rabbits. Approximately 70 sequential ultrasound images spanning three cardiac cycles were analyzed from each examination to detect instantaneous changes in the far and near walls and lumen diameter of rabbit abdominal aorta. The maximum, minimum, and mean diameters extracted by the automated method were compared with the same parameters measured by manual tracing. There was no significant differences between the manual and automated methods according to paired t test analysis (p > 0.05). In a verification study, the correlation between the two methods was calculated (R.sup.2 = 0.98, p < 0.05). Agreement between the automated and manual methods as determined by the Bland-Altman approach was excellent. It is concluded that the new computerized analysis method is a reliable technique to assess instantaneous changes in the rabbit arterial wall in sequential B-mode images. The variability between different laboratories will be reduced if the same analysis program is used. By using this method, not only was variation in the results of manual tracing by several observers eliminated, but the duration of image processing was also considerably reduced. Many structural and dynamic properties of the arterial wall, e.g., lumen diameter and wall thickness, can be measured with non-invasive ultrasound techniques. We present a new computerized analysis method for measurement of instantaneous changes in far and near arterial walls in sequential ultrasound images.PURPOSEMany structural and dynamic properties of the arterial wall, e.g., lumen diameter and wall thickness, can be measured with non-invasive ultrasound techniques. We present a new computerized analysis method for measurement of instantaneous changes in far and near arterial walls in sequential ultrasound images.In this method, two algorithms, i.e., maximum gradient and dynamic programming, were composed and implemented. Reference points and cost function were based on dynamic programming and maximum gradient, respectively. To evaluate this method, B-mode abdominal aorta ultrasound examinations were obtained for ten New Zealand White rabbits. Approximately 70 sequential ultrasound images spanning three cardiac cycles were analyzed from each examination to detect instantaneous changes in the far and near walls and lumen diameter of rabbit abdominal aorta. The maximum, minimum, and mean diameters extracted by the automated method were compared with the same parameters measured by manual tracing.METHODSIn this method, two algorithms, i.e., maximum gradient and dynamic programming, were composed and implemented. Reference points and cost function were based on dynamic programming and maximum gradient, respectively. To evaluate this method, B-mode abdominal aorta ultrasound examinations were obtained for ten New Zealand White rabbits. Approximately 70 sequential ultrasound images spanning three cardiac cycles were analyzed from each examination to detect instantaneous changes in the far and near walls and lumen diameter of rabbit abdominal aorta. The maximum, minimum, and mean diameters extracted by the automated method were compared with the same parameters measured by manual tracing.There was no significant differences between the manual and automated methods according to paired t test analysis (p > 0.05). In a verification study, the correlation between the two methods was calculated (R (2) = 0.98, p < 0.05). Agreement between the automated and manual methods as determined by the Bland-Altman approach was excellent.RESULTSThere was no significant differences between the manual and automated methods according to paired t test analysis (p > 0.05). In a verification study, the correlation between the two methods was calculated (R (2) = 0.98, p < 0.05). Agreement between the automated and manual methods as determined by the Bland-Altman approach was excellent.It is concluded that the new computerized analysis method is a reliable technique to assess instantaneous changes in the rabbit arterial wall in sequential B-mode images. The variability between different laboratories will be reduced if the same analysis program is used. By using this method, not only was variation in the results of manual tracing by several observers eliminated, but the duration of image processing was also considerably reduced.CONCLUSIONIt is concluded that the new computerized analysis method is a reliable technique to assess instantaneous changes in the rabbit arterial wall in sequential B-mode images. The variability between different laboratories will be reduced if the same analysis program is used. By using this method, not only was variation in the results of manual tracing by several observers eliminated, but the duration of image processing was also considerably reduced. Many structural and dynamic properties of the arterial wall, e.g., lumen diameter and wall thickness, can be measured with non-invasive ultrasound techniques. We present a new computerized analysis method for measurement of instantaneous changes in far and near arterial walls in sequential ultrasound images. In this method, two algorithms, i.e., maximum gradient and dynamic programming, were composed and implemented. Reference points and cost function were based on dynamic programming and maximum gradient, respectively. To evaluate this method, B-mode abdominal aorta ultrasound examinations were obtained for ten New Zealand White rabbits. Approximately 70 sequential ultrasound images spanning three cardiac cycles were analyzed from each examination to detect instantaneous changes in the far and near walls and lumen diameter of rabbit abdominal aorta. The maximum, minimum, and mean diameters extracted by the automated method were compared with the same parameters measured by manual tracing. There was no significant differences between the manual and automated methods according to paired t test analysis (p > 0.05). In a verification study, the correlation between the two methods was calculated (R (2) = 0.98, p < 0.05). Agreement between the automated and manual methods as determined by the Bland-Altman approach was excellent. It is concluded that the new computerized analysis method is a reliable technique to assess instantaneous changes in the rabbit arterial wall in sequential B-mode images. The variability between different laboratories will be reduced if the same analysis program is used. By using this method, not only was variation in the results of manual tracing by several observers eliminated, but the duration of image processing was also considerably reduced. Purpose Many structural and dynamic properties of the arterial wall, e.g., lumen diameter and wall thickness, can be measured with non-invasive ultrasound techniques. We present a new computerized analysis method for measurement of instantaneous changes in far and near arterial walls in sequential ultrasound images. Methods In this method, two algorithms, i.e., maximum gradient and dynamic programming, were composed and implemented. Reference points and cost function were based on dynamic programming and maximum gradient, respectively. To evaluate this method, B-mode abdominal aorta ultrasound examinations were obtained for ten New Zealand White rabbits. Approximately 70 sequential ultrasound images spanning three cardiac cycles were analyzed from each examination to detect instantaneous changes in the far and near walls and lumen diameter of rabbit abdominal aorta. The maximum, minimum, and mean diameters extracted by the automated method were compared with the same parameters measured by manual tracing. Results There was no significant differences between the manual and automated methods according to paired t test analysis (p > 0.05). In a verification study, the correlation between the two methods was calculated (R.sup.2 = 0.98, p < 0.05). Agreement between the automated and manual methods as determined by the Bland-Altman approach was excellent. Conclusion It is concluded that the new computerized analysis method is a reliable technique to assess instantaneous changes in the rabbit arterial wall in sequential B-mode images. The variability between different laboratories will be reduced if the same analysis program is used. By using this method, not only was variation in the results of manual tracing by several observers eliminated, but the duration of image processing was also considerably reduced. PurposeMany structural and dynamic properties of the arterial wall, e.g., lumen diameter and wall thickness, can be measured with non-invasive ultrasound techniques. We present a new computerized analysis method for measurement of instantaneous changes in far and near arterial walls in sequential ultrasound images.MethodsIn this method, two algorithms, i.e., maximum gradient and dynamic programming, were composed and implemented. Reference points and cost function were based on dynamic programming and maximum gradient, respectively. To evaluate this method, B-mode abdominal aorta ultrasound examinations were obtained for ten New Zealand White rabbits. Approximately 70 sequential ultrasound images spanning three cardiac cycles were analyzed from each examination to detect instantaneous changes in the far and near walls and lumen diameter of rabbit abdominal aorta. The maximum, minimum, and mean diameters extracted by the automated method were compared with the same parameters measured by manual tracing.ResultsThere was no significant differences between the manual and automated methods according to paired t test analysis (p > 0.05). In a verification study, the correlation between the two methods was calculated (R2 = 0.98, p < 0.05). Agreement between the automated and manual methods as determined by the Bland-Altman approach was excellent.ConclusionIt is concluded that the new computerized analysis method is a reliable technique to assess instantaneous changes in the rabbit arterial wall in sequential B-mode images. The variability between different laboratories will be reduced if the same analysis program is used. By using this method, not only was variation in the results of manual tracing by several observers eliminated, but the duration of image processing was also considerably reduced.
Audience	Academic
Author	RAHMANI-CHERATI Tavoos VAJHI Alireza MOKHTARI-DIZAJI Manijhe ROSTAMI Abdorrazzagh
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Keywords	Motion detection Arterial wall Maximum gradient algorithm Ultrasound
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Snippet	Purpose Many structural and dynamic properties of the arterial wall, e.g., lumen diameter and wall thickness, can be measured with non-invasive ultrasound... Many structural and dynamic properties of the arterial wall, e.g., lumen diameter and wall thickness, can be measured with non-invasive ultrasound techniques.... Purpose Many structural and dynamic properties of the arterial wall, e.g., lumen diameter and wall thickness, can be measured with non-invasive ultrasound... PurposeMany structural and dynamic properties of the arterial wall, e.g., lumen diameter and wall thickness, can be measured with non-invasive ultrasound...
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SubjectTerms	Abdomen Algorithms Aorta Arterial wall Atherosclerosis Automation Cardiovascular disease Coronary vessels Cost function Diameters Dynamic programming Heart beat Heart rate Image processing Imaging Mathematical analysis Maximum gradient algorithm Medicine Medicine & Public Health Motion detection Original Article Rabbits Radiology Software Thickness measurement Tracing Ultrasonic imaging Ultrasonic methods Ultrasonic testing Ultrasound Veins & arteries Wall thickness
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Title	Extraction of instantaneous changes in arterial walls with sequential ultrasound images
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