Measuring tortuosity of the intracerebral vasculature from MRA images

Bullitt, Elizabeth; Gerig, Guido; Pizer, Stephen M.; Lin, Weili; Aylward, S.R.

doi:10.1109/tmi.2003.816964

Cited by 361 publications

(373 citation statements)

References 32 publications

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“…The clinical consequences of the lower level of agreement with the manual raters cannot be fully explored due to the limited number of cases. The results have been used in the analysis of vessel attributes in tumor volumes (21,22). Compared to the results obtained with manual tumor segmentations, we observed no significant difference.…”

Section: Resultsmentioning

confidence: 61%

Automatic brain tumor segmentation by subject specific modification of atlas priors1

Prastawa¹,

Bullitt

Moon³

et al. 2003

Academic Radiology

186

143

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Rationale and Objectives-Manual segmentation of brain tumors from magnetic resonance (MR) images is a challenging and time-consuming task. The authors have developed an automated system for brain tumor segmentation that provides objective, reproducible segmentations that are close to the manual results. Additionally, the method segments white matter, grey matter, cerebrospinal fluid, and edema. The segmentation of pathology and healthy structures is crucial for surgical planning and intervention.Material and Methods-The method performs the segmentation of a registered set of MR images using an Expectation-Maximization scheme. The segmentation is guided by a spatial probabilistic atlas that contains expert prior knowledge about brain structures. This atlas is modified with the subject specific brain tumor prior that is computed based on contrast enhancement. Conclusion-The automated method can be applied to different types of tumors. Although the semi-automated method generates results that have higher level of agreement with the manual raters, the automatic method has the advantage of requiring no user supervision. Results-Five

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Section: Resultsmentioning

confidence: 61%

Automatic brain tumor segmentation by subject specific modification of atlas priors1

Prastawa¹,

Bullitt

Moon³

et al. 2003

Academic Radiology

186

143

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“…This earlier study concluded via discriminant analysis of multiple vessel shape parameters that only a combination of two tortuosity metrics appeared effective in generically separating benign from malignant disease [9]. One of these metrics, the "Sum of Angles Metric" (SOAM), sums curvature along a space curve and normalizes by vessel length [10]. The second metric, the "Inflection Count Metric" (ICM), multiplies the total path length of a space curve by the number of inflection points and divides by the distance between endpoints [10].…”

Section: Methodsmentioning

confidence: 99%

Tumor Therapeutic Response and Vessel Tortuosity: Preliminary Report in Metastatic Breast Cancer

Bullitt

Lin

Ewend

et al. 2006

Medical Image Computing and Computer-Assisted Intervention – MICCAI 2006

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Abstract.No current non-invasive method is capable of assessing the efficacy of brain tumor therapy early during treatment. We outline an approach that evaluates tumor activity via statistical analysis of vessel shape using vessels segmented from MRA. This report is the first to describe the changes in vessel shape that occur during treatment of metastatic brain tumors as assessed by sequential MRA. In this preliminary study of 16 patients undergoing treatment for metastatic breast cancer we conclude that vessel shape may predict tumor response several months in advance of traditional methods.

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“…The index may be useful in selecting infants with Plus disease, one of the most important prognostic indicators in ROP. However, the clinical definition of abnormal tortuosity can vary from disease to disease [7]; therefore, extensive testing on a large number of infants with vessels ranging widely in tortuosity is needed to further validate the index. The tortuosity values that have been computed thus far apply to vessel segments.…”

Section: Resultsmentioning

confidence: 99%

“…However, it failed in differentiating the tortuosity of structures that visually appear to be different in tortuosity. For better accuracy of tortuosity calculation, Bullitt et al [7] generalized Harts estimates to 3D images obtained by means of the Magnetic Resonance Angiography. Measurement of tortuosity using relative length variation was proposed by Kylstra et al [8].…”

Section: Introductionmentioning

confidence: 99%

PCA-Based Retinal Vessel Tortuosity Quantification

Turior

Onkaew

Uyyanonvara

2013

IEICE Trans. Inf. & Syst.

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Rashmi TURIOR †a) , Student Member, Danu ONKAEW †b) , and Bunyarit UYYANONVARA †c) , Nonmembers SUMMARYAutomatic vessel tortuosity measures are crucial for many applications related to retinal diseases such as those due to retinopathy of prematurity (ROP), hypertension, stroke, diabetes and cardiovascular diseases. An automatic evaluation and quantification of retinal vascular tortuosity would help in the early detection of such retinopathies and other systemic diseases. In this paper, we propose a novel tortuosity index based on principal component analysis. The index is compared with three existant indices using simulated curves and real retinal images to demonstrate that it is a valid indicator of tortuosity. The proposed index satisfies all the tortuosity properties such as invariance to translation, rotation and scaling and also the modulation properties. It is capable of differentiating the tortuosity of structures that visually appear to be different in tortuosity and shapes. The proposed index can automatically classify the image as tortuous or non tortuous. For an optimal set of training parameters, the prediction accuracy is as high as 82.94% and 86.6% on 45 retinal images at segment level and image level, respectively. The test results are verified against the judgement of two expert Ophthalmologists. The proposed index is marked by its inherent simplicity and computational attractiveness, and produces the expected estimate, irrespective of the segmentation approach. Examples and experimental results demonstrate the fitness and effectiveness of the proposed technique for both simulated curves and retinal images. key words: tortuosity, retinopathy of prematurity (ROP), principal component analysis

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Measuring tortuosity of the intracerebral vasculature from MRA images

Cited by 361 publications

References 32 publications

Automatic brain tumor segmentation by subject specific modification of atlas priors1

Automatic brain tumor segmentation by subject specific modification of atlas priors1

Tumor Therapeutic Response and Vessel Tortuosity: Preliminary Report in Metastatic Breast Cancer

PCA-Based Retinal Vessel Tortuosity Quantification

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