Intensity-based visual servoing for non-rigid motion compensation of soft tissue structures due to physiological motion using 4D ultrasound

Abstract Introduction This pilot study explores whether a human Thiel-embalmed temporal bone is suitable for generating an accurate and complete data set with micro-computed tomography (micro-CT) and whether solid iodine-staining improves visualization and facilitates segmentation of middle ear structures. Methods A temporal bone was used to verify the accuracy of the imaging by first digitally measuring the stapes on the tomography images and then physically under the microscope after removal from the temporal bone. All measurements were compared with literature values. The contralateral temporal bone was used to evaluate segmentation and three-dimensional (3D) modeling after iodine staining and micro-CT scanning. Results The digital and physical stapes measurements differed by 0.01–0.17 mm or 1–19%, respectively, but correlated well with the literature values. Soft tissue structures were visible in the unstained scan. However, iodine staining increased the contrast-to-noise ratio by a factor of 3.7 on average. The 3D model depicts all ossicles and soft tissue structures in detail, including the chorda tympani, which was not visible in the unstained scan. Conclusions Micro-CT imaging of a Thiel-embalmed temporal bone accurately represented the entire anatomy. Iodine staining considerably increased the contrast of soft tissues, simplified segmentation and enabled detailed 3D modeling of the middle ear.

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Online 4D ultrasound guidance for real-time motion compensation by MLC tracking

Medical Physics ◽

10.1118/1.4962932 ◽

2016 ◽

Vol 43 (10) ◽

pp. 5695-5704 ◽

Cited By ~ 21

Author(s):

Svenja Ipsen ◽

Ralf Bruder ◽

Rick O’Brien ◽

Paul J. Keall ◽

Achim Schweikard ◽

...

Keyword(s):

Real Time ◽

Motion Compensation ◽

Ultrasound Guidance ◽

Time Motion ◽

4D Ultrasound

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Optical-Based Analysis of Soft Tissue Structures

Annual Review of Biomedical Engineering ◽

10.1146/annurev-bioeng-071114-040625 ◽

2016 ◽

Vol 18 (1) ◽

pp. 357-385 ◽

Cited By ~ 10

Author(s):

Will Goth ◽

John Lesicko ◽

Michael S. Sacks ◽

James W. Tunnell

Keyword(s):

Soft Tissue ◽

Tissue Structures

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Evaluation of a Nonrigid Motion Compensation Technique Based on Spatiotemporal Features for Small Lesion Detection in Breast MRI

Advances in Artificial Neural Systems ◽

10.1155/2012/808602 ◽

2012 ◽

Vol 2012 ◽

pp. 1-10 ◽

Cited By ~ 1

Author(s):

F. Steinbruecker ◽

A. Meyer-Baese ◽

T. Schlossbauer ◽

D. Cremers

Keyword(s):

Breast Cancer ◽

Motion Compensation ◽

Rigid Motion ◽

Breast Mri ◽

Lesion Detection ◽

Nonrigid Motion ◽

Small Lesion ◽

Spatiotemporal Features ◽

Optical Flow Method ◽

Compensation Technique

Motion-induced artifacts represent a major problem in detection and diagnosis of breast cancer in dynamic contrast-enhanced magnetic resonance imaging. The goal of this paper is to evaluate the performance of a new nonrigid motion correction algorithm based on the optical flow method. For each of the small lesions, we extracted morphological and dynamical features describing both global and local shape, and kinetics behavior. In this paper, we compare the performance of each extracted feature set under consideration of several 2D or 3D motion compensation parameters for the differential diagnosis of enhancing lesions in breast MRI. Based on several simulation results, we determined the optimal motion compensation parameters. Our results have shown that motion compensation can improve the classification results. The results suggest that the computerized analysis system based on the non-rigid motion compensation technique and spatiotemporal features has the potential to increase the diagnostic accuracy of MRI mammography for small lesions and can be used as a basis for computer-aided diagnosis of breast cancer with MR mammography.

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Rigid and Non-rigid Motion Compensation in Weight-bearing CBCT of the Knee using Simulated Inertial Measurements

IEEE Transactions on Biomedical Engineering ◽

10.1109/tbme.2021.3123673 ◽

2021 ◽

pp. 1-1

Author(s):

Jennifer Maier ◽

Marlies Nitschke ◽

Jang-Hwan Choi ◽

Garry Gold ◽

Rebecca Fahrig ◽

...

Keyword(s):

Motion Compensation ◽

Weight Bearing ◽

Rigid Motion ◽

Inertial Measurements

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3DMRI Modeling of Thin and Spatially Complex Soft Tissue Structures without Shrinkage: Lamprey Myosepta as an Example

The Anatomical Record ◽

10.1002/ar.23857 ◽

2018 ◽

Vol 301 (10) ◽

pp. 1745-1763

Author(s):

Bradley M. Wood ◽

Guang Jia ◽

Owen Carmichael ◽

Kevin Mcklveen ◽

Dominique G. Homberger

Keyword(s):

Soft Tissue ◽

Tissue Structures

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Rigid Motion Compensation in Interventional C-arm CT Using Consistency Measure on Projection Data

Lecture Notes in Computer Science - Medical Image Computing and Computer-Assisted Intervention -- MICCAI 2015 ◽

10.1007/978-3-319-24553-9_37 ◽

2015 ◽

pp. 298-306 ◽

Cited By ~ 8

Author(s):

Robert Frysch ◽

Georg Rose

Keyword(s):

Motion Compensation ◽

Rigid Motion ◽

Projection Data ◽

Consistency Measure

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Defining Norms for the Upper and Lower Lips of the Himachali Ethnic Population: A Cephalometric Study

Dental Journal of Advance Studies ◽

10.1055/s-0038-1672068 ◽

2016 ◽

Vol 04 (03) ◽

pp. 189-194

Author(s):

Isha Aggarwal ◽

Manu Wadhawan

Keyword(s):

Soft Tissue ◽

Ethnic Groups ◽

Normal Subjects ◽

Facial Features ◽

Ethnic Population ◽

Soft Tissue Profile ◽

Lateral Cephalograms ◽

Males And Females ◽

Tissue Structures ◽

Cephalometric Study

Abstract Introduction: The great variance in soft-tissue drape of the human face complicates accurate assessment of the soft-tissue profile and it is a known fact that facial features of different ethnic groups differ significantly. This study was undertaken to establish soft tissue norms for Himachali ethnic population. Method: The sample comprised lateral cephalograms taken in natural head position of 100 normal subjects (50 males, 50 females). The cephalograms were analyzed by Arnett soft tissue cephalometric analysis for orthodontic diagnosis and treatment planning. The Student t test was used to compare the means of the 2 groups. Results: Statistically significant differences were found between Himachali males and females in certain key parameters. Males have thicker soft-tissue structures than females. Whereas females have greater interlabial gap when compared with Himachali males. When compared with other ethnic groups, Himachali subjects have thicker soft tissue structures. Conclusions: Statistically significant differences were found between Himachali males and females in certain key parameters. Differences were also noted between other ethnic groups and Himachali faces.

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