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1. Recurrent Inference Machines as inverse problem solvers for MR relaxometry

Author

Sabidussi, E. R., Klein, S., Caan, M. W. A., Bazrafkan, S., Dekker, A. J. den, Sijbers, J., Niessen, W. J., and Poot, D. H. J.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

In this paper, we propose the use of Recurrent Inference Machines (RIMs) to perform T1 and T2 mapping. The RIM is a neural network framework that learns an iterative inference process based on the signal model, similar to conventional statistical methods for quantitative MRI (QMRI), such as the Maximum Likelihood Estimator (MLE). This framework combines the advantages of both data-driven and model-based methods, and, we hypothesize, is a promising tool for QMRI. Previously, RIMs were used to solve linear inverse reconstruction problems. Here, we show that they can also be used to optimize non-linear problems and estimate relaxometry maps with high precision and accuracy. The developed RIM framework is evaluated in terms of accuracy and precision and compared to an MLE method and an implementation of the ResNet. The results show that the RIM improves the quality of estimates compared to the other techniques in Monte Carlo experiments with simulated data, test-retest analysis of a system phantom, and in-vivo scans. Additionally, inference with the RIM is 150 times faster than the MLE, and robustness to (slight) variations of scanning parameters is demonstrated. Hence, the RIM is a promising and flexible method for QMRI. Coupled with an open-source training data generation tool, it presents a compelling alternative to previous methods., Comment: 12 pages, 9 figures

Published
2021

6. A multi-level preconditioned Krylov method for the efficient solution of algebraic tomographic reconstruction problems

Author

Cools, S, Ghysels, P, Van Aarle, W, Sijbers, J, and Vanroose, W

Subjects
Tomography, Algebraic reconstruction, Krylov methods, Preconditioning, Multigrid, Wavelets, math.NA, Numerical & Computational Mathematics, Applied Mathematics, Numerical and Computational Mathematics, Electrical and Electronic Engineering
Abstract

Classical iterative methods for tomographic reconstruction include the class of Algebraic Reconstruction Techniques (ART). Convergence of these stationary linear iterative methods is however notably slow. In this paper we propose the use of Krylov solvers for tomographic linear inversion problems. These advanced iterative methods feature fast convergence at the expense of a higher computational cost per iteration, causing them to be generally uncompetitive without the inclusion of a suitable preconditioner. Combining elements from standard multigrid (MG) solvers and the theory of wavelets, a novel wavelet-based multi-level (WMG) preconditioner is introduced, which is shown to significantly speed-up Krylov convergence. The performance of the WMG-preconditioned Krylov method is analyzed through a spectral analysis, and the approach is compared to existing methods like the classical Simultaneous Iterative Reconstruction Technique (SIRT) and unpreconditioned Krylov methods on a 2D tomographic benchmark problem. Numerical experiments are promising, showing the method to be competitive with the classical Algebraic Reconstruction Techniques in terms of convergence speed and overall performance (CPU time) as well as precision of the reconstruction.

Published
2015

7. A multi-level preconditioned Krylov method for the efficient solution of algebraic tomographic reconstruction problems

Author

Cools, Siegfried, Ghysels, Pieter, van Aarle, Wim, Sijbers, J., and Vanroose, Wim

Subjects
Mathematics - Numerical Analysis
Abstract

Classical iterative methods for tomographic reconstruction include the class of Algebraic Reconstruction Techniques (ART). Convergence of these stationary linear iterative methods is however notably slow. In this paper we propose the use of Krylov solvers for tomographic linear inversion problems. These advanced iterative methods feature fast convergence at the expense of a higher computational cost per iteration, causing them to be generally uncompetitive without the inclusion of a suitable preconditioner. Combining elements from standard multigrid (MG) solvers and the theory of wavelets, a novel wavelet-based multi-level (WMG) preconditioner is introduced, which is shown to significantly speed-up Krylov convergence. The performance of the WMG-preconditioned Krylov method is analyzed through a spectral analysis, and the approach is compared to existing methods like the classical Simultaneous Iterative Reconstruction Technique (SIRT) and unpreconditioned Krylov methods on a 2D tomographic benchmark problem. Numerical experiments are promising, showing the method to be competitive with the classical Algebraic Reconstruction Techniques in terms of convergence speed and overall performance (CPU time) as well as precision of the reconstruction., Comment: Journal of Computational and Applied Mathematics (2014), 26 pages, 13 figures, 3 tables

Published
2013

9. On parameter estimation in the physics lab based on inverting a slope regression coefficient

Author

Jacquet, W., Nyssen, E. Ir., and Sijbers, J.

Subjects
Physics - Physics Education
Abstract

Measurement uncertainty is a non trivial aspect of the laboratory component of most undergraduate physics courses. Confusion about the application of statistical tools calls for the elaboration of guidelines and the elimination of inconsistencies were possible. Linear regression is one of the fundamental statistical tool often used in a first year physics laboratory setting. In what follows we present an argument that leads to an unambiguous choice of (a) variable(s) to be used as predictor(s) and variable to be predicted., Comment: 1 figure

Published
2012

10. Imprecise k-space sampling and central brightening

Author

Hanel, R. A., De Backer, S., Sijbers, J., and Scheunders, P.

Subjects
Condensed Matter - Other Condensed Matter, Condensed Matter - Statistical Mechanics
Abstract

In real-world sampling of k-space data, one generally makes a stochastic error not only in the value of the sample but in the effective position of the drawn sample. We refer to the latter as imprecise sampling and apply this concept to the fourier-based acquisition of magnetic resonance data. The analysis shows that the effect of such imprecisely sampled data accounts for contributions to noise, blurring, and intensity-bias in the image. Under general circumstances, the blur and the bias may depend on the scanned specimen itself. We show that for gaussian distributed imprecision of k-vector samples the resulting intensity inhomogeneity can be explicitly computed. The presented mechanism of imprecise k-space sampling (IKS) provides a complementary explanation for the phenomenon of central brightening in high-field magnetic resonance imaging. In computed experiments, we demonstrate the adequacy of the IKS effect for explaining central brightening. Furthermore, the experiments show that basic properties of IKS can in principle be inferred from real MRI data by the analysis on the basis of bias fields in magnitude images and information contained in the phase-images., Comment: 11 pages, 3 figures

Published
2006

14. Probability of detection applied to X-ray inspection using numerical simulations

Author

Yosifov M., Reiter M., Heupl S., Gusenbauer C., Fröhler B., Fernández- Gutiérrez R., De Beenhouwer J., Sijbers J., Kastner J., and C. Heinzl

Subjects
FOS: Computer and information sciences, Physics, 29999 Physical Sciences not elsewhere classified, Mechanical Engineering, Biophysics, FOS: Physical sciences, General Physics and Astronomy, Cell Biology, 80699 Information Systems not elsewhere classified, FOS: Sociology, Inorganic Chemistry, Space Science, Sociology, FOS: Chemical sciences, Mechanics of Materials, FOS: Biological sciences, Genetics, FOS: Mathematics, Medicine, 19999 Mathematical Sciences not elsewhere classified, General Materials Science, Probability of detection, X-ray computed tomography, numerical simulation, hit/miss approach, 69999 Biological Sciences not elsewhere classified, Developmental Biology
Abstract

In this work, we apply and adapt established probability of detection (POD) methods on the in-line inspection of aluminium cylinder heads using X-ray computed tomography (XCT). We propose to use the XCT simulation tool SimCT to simulate virtual X-ray radiographs from the specimen including artificial defects, which avoids the manufacturing of specimens with calibrated defects of known type (e.g. pores, inclusions, cracks) and characteristics (e.g. size, shape, location). To quantify the POD, these virtual images are analysed using ZEISS automated defect detection (ZADD) to determine defects automatically. ZADD is a deep learning application for anomaly defect detection, classification and segmentation. To create respective POD curves, we apply a hit/miss approach. We demonstrate our method on artificial defects of different sizes, location and material types. Eight representative defects are discussed in detail together with the generated POD curves as well as their characteristics. We finally discuss the advantages of numerical simulations with respect to the probability of detection in order to quantify and improve detection limits.

Published
2022

16. General and Efficient Super-Resolution Method for Multi-slice MRI

Author

Poot, D. H. J., Van Meir, V., Sijbers, J., Hutchison, David, Kanade, Takeo, Kittler, Josef, Kleinberg, Jon M., Mattern, Friedemann, Mitchell, John C., Naor, Moni, Nierstrasz, Oscar, Pandu Rangan, C., Steffen, Bernhard, Sudan, Madhu, Terzopoulos, Demetri, Tygar, Doug, Vardi, Moshe Y., Weikum, Gerhard, Jiang, Tianzi, editor, Navab, Nassir, editor, Pluim, Josien P. W., editor, and Viergever, Max A., editor

Published
2010
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18. Grey Level Estimation for Discrete Tomography

Author

Batenburg, K. J., van Aarle, W., Sijbers, J., Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Sudan, Madhu, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Vardi, Moshe Y., Series editor, Weikum, Gerhard, Series editor, Brlek, Srečko, editor, Reutenauer, Christophe, editor, and Provençal, Xavier, editor

Published
2009
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19. Threshold Selection for Segmentation of Dense Objects in Tomograms

Author

van Aarle, W., Batenburg, K. J., Sijbers, J., Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Doug, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Bebis, George, editor, Boyle, Richard, editor, Parvin, Bahram, editor, Koracin, Darko, editor, Remagnino, Paolo, editor, Porikli, Fatih, editor, Peters, Jörg, editor, Klosowski, James, editor, Arns, Laura, editor, Chun, Yu Ka, editor, Rhyne, Theresa-Marie, editor, and Monroe, Laura, editor

Published
2008
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20. Selection of Local Thresholds for Tomogram Segmentation by Projection Distance Minimization

Author

Batenburg, K. J., Sijbers, J., Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Doug, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Coeurjolly, David, editor, Sivignon, Isabelle, editor, Tougne, Laure, editor, and Dupont, Florent, editor

Published
2008
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21. Investigating Tissue-Specific Abnormalities in Alzheimer's Disease with Multi-Shell Diffusion MRI

Author

Arfanakis, K, Giraldo, DL, Smith, RE, Struyfs, H, Niemantsverdriet, E, De Roeck, E, Bjerke, M, Engelborghs, S, Romero, E, Sijbers, J, Jeurissen, B, Arfanakis, K, Giraldo, DL, Smith, RE, Struyfs, H, Niemantsverdriet, E, De Roeck, E, Bjerke, M, Engelborghs, S, Romero, E, Sijbers, J, and Jeurissen, B

Abstract

BACKGROUND: Most studies using diffusion-weighted MRI (DW-MRI) in Alzheimer's disease (AD) have focused their analyses on white matter (WM) microstructural changes using the diffusion (kurtosis) tensor model. Although recent works have addressed some limitations of the tensor model, such as the representation of crossing fibers and partial volume effects with cerebrospinal fluid (CSF), the focus remains in modeling and analyzing the WM. OBJECTIVE: In this work, we present a brain analysis approach for DW-MRI that disentangles multiple tissue compartments as well as micro- and macroscopic effects to investigate differences between groups of subjects in the AD continuum and controls. METHODS: By means of the multi-tissue constrained spherical deconvolution of multi-shell DW-MRI, underlying brain tissue is modeled with a WM fiber orientation distribution function along with the contributions of gray matter (GM) and CSF to the diffusion signal. From this multi-tissue model, a set of measures capturing tissue diffusivity properties and morphology are extracted. Group differences were interrogated following fixel-, voxel-, and tensor-based morphometry approaches while including strong FWE control across multiple comparisons. RESULTS: Abnormalities related to AD stages were detected in WM tracts including the splenium, cingulum, longitudinal fasciculi, and corticospinal tract. Changes in tissue composition were identified, particularly in the medial temporal lobe and superior longitudinal fasciculus. CONCLUSION: This analysis framework constitutes a comprehensive approach allowing simultaneous macro and microscopic assessment of WM, GM, and CSF, from a single DW-MRI dataset.

Published
2022

25. Recurrent inference machines as inverse problem solvers for MR relaxometry

Author

Sabidussi, E. R. (author), Klein, S. (author), Caan, M. W.A. (author), Bazrafkan, S. (author), den Dekker, A. J. (author), Sijbers, J. (author), Niessen, W.J. (author), Poot, D.H.J. (author), Sabidussi, E. R. (author), Klein, S. (author), Caan, M. W.A. (author), Bazrafkan, S. (author), den Dekker, A. J. (author), Sijbers, J. (author), Niessen, W.J. (author), and Poot, D.H.J. (author)

Abstract

In this paper, we propose the use of Recurrent Inference Machines (RIMs) to perform T1 and T2 mapping. The RIM is a neural network framework that learns an iterative inference process based on the signal model, similar to conventional statistical methods for quantitative MRI (QMRI), such as the Maximum Likelihood Estimator (MLE). This framework combines the advantages of both data-driven and model-based methods, and, we hypothesize, is a promising tool for QMRI. Previously, RIMs were used to solve linear inverse reconstruction problems. Here, we show that they can also be used to optimize non-linear problems and estimate relaxometry maps with high precision and accuracy. The developed RIM framework is evaluated in terms of accuracy and precision and compared to an MLE method and an implementation of the Residual Neural Network (ResNet). The results show that the RIM improves the quality of estimates compared to the other techniques in Monte Carlo experiments with simulated data, test-retest analysis of a system phantom, and in-vivo scans. Additionally, inference with the RIM is 150 times faster than the MLE, and robustness to (slight) variations of scanning parameters is demonstrated. Hence, the RIM is a promising and flexible method for QMRI. Coupled with an open-source training data generation tool, it presents a compelling alternative to previous methods., ImPhys/Medical Imaging, ImPhys/Computational Imaging

Published
2021
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26. Recurrent inference machines as inverse problem solvers for MR relaxometry

Author

Sabidussi, E.R., Klein, S., Caan, M. W.A., Bazrafkan, S., den Dekker, A.J. (Arjan), Sijbers, J., Niessen, W. J., Poot, D. H.J., Sabidussi, E.R., Klein, S., Caan, M. W.A., Bazrafkan, S., den Dekker, A.J. (Arjan), Sijbers, J., Niessen, W. J., and Poot, D. H.J.

Abstract

In this paper, we propose the use of Recurrent Inference Machines (RIMs) to perform T1 and T2 mapping. The RIM is a neural network framework that learns an iterative inference process based on the signal model, similar to conventional statistical methods for quantitative MRI (QMRI), such as the Maximum Likelihood Estimator (MLE). This framework combines the advantages of both data-driven and model-based methods, and, we hypothesize, is a promising tool for QMRI. Previously, RIMs were used to solve linear inverse reconstruction problems. Here, we show that they can also be used to optimize non-linear problems and estimate relaxometry maps with high precision and accuracy. The developed RIM framework is evaluated in terms of accuracy and precision and compared to an MLE method and an implementation of the Residual Neural Network (ResNet). The results show that the RIM improves the quality of estimates compared to the other techniques in Monte Carlo experiments with simulated data, test-retest analysis of a system phantom, and in-vivo scans. Additionally, inference with the RIM is 150 times faster than the MLE, and robustness to (slight) variations of scanning parameters is demonstrated. Hence, the RIM is a promising and flexible method for QMRI. Coupled with an open-source training data generation tool, it presents a compelling alternative to previous methods.

Published
2021

28. Optimal experimental design for diffusion kurtosis imaging

Author

Poot, D.H.J., den Dekker, A.J., Achten, E., and Verhoye, M. Sijbers, J.

Subjects
Kurtosis -- Analysis, Magnetic resonance imaging -- Analysis, Business, Electronics, Electronics and electrical industries, Health care industry
Published
2010

29. Optimal threshold selection for tomogram segmentation by projection distance minimization

Author

Batenburg, K.J. and Sijbers, J.

Subjects
Tomography -- Research, Business, Electronics, Electronics and electrical industries, Health care industry
Abstract

Grey value thresholding is a segmentation technique commonly applied to tomographic image reconstructions. Many procedures have been proposed to optimally select the grey value thresholds based on the tomogram data only (e.g., using the image histogram). In this paper, a projection distance minimization (PDM) method is presented that uses the tomographic projection data to determine optimal thresholds. These thresholds are computed by minimizing the distance between the forward projection of the segmented image and the measured projection data. An important contribution of the current paper is the efficient implementation of the forward projection method, which makes the use of the original projection data as a segmentation criterion feasible. Simulation experiments applied to various phantom images show that our proposed method obtains superior results compared to established histogram-based methods. Index Terms--Forward projection, segmentation, sinogram, thresholding, tomography.

Published
2009

30. Likelihood-based hypothesis tests for brain activation detection from MRI data disturbed by colored noise: a simulation study

Author

den Dekker, A.J., Poot, D.H.J., Bos, R., and Sijbers, J.

Subjects
Brain -- Physiological aspects, Magnetic resonance imaging -- Usage, Maximum likelihood estimates (Statistics) -- Usage, Statistical hypothesis testing -- Usage, Business, Electronics, Electronics and electrical industries, Health care industry
Abstract

Functional magnetic resonance imaging (fMRI) data that are corrupted by temporally colored noise are generally preprocessed (i.e., prewhitened or precolored) prior to functional activation detection. In this paper, we propose likelihood-based hypothesis tests that account for colored noise directly within the framework of functional activation detection. Three likelihood-based tests are proposed: the generalized likelihood ratio (GLR) test, the Wald test, and the Rao test. The fMRI time series is modeled as a linear regression model, where one regressor describes the task-related hemodynamic response, one regressor accounts for a constant baseline and one regressor describes potential drift. The temporal correlation structure of the noise is modeled as an autoregressive (AR) model. The order of the AR model is determined from practical null data sets using Akaike's information criterion (with penalty factor 3) as order selection criterion. The tests proposed are based on exact expressions for the likelihood function of the data. Using Monte Carlo simulation experiments, the performance of the proposed tests is evaluated in terms of detection rate and false alarm rate properties and compared to the current general linear model (GLM) test, which estimates the coloring of the noise in a separate step. Results show that theoretical asymptotic distributions of the GLM, GLR, and Wald test statistics cannot be reliably used for computing thresholds for activation detection from finite length time series. Furthermore, it is shown that, for a fixed false alarm rate, the detection rate of the proposed GLR test statistic is slightly, but (statistically) significantly improved compared to that of the common GLM-based tests. Finally, simulations results reveal that all tests considered show seriously inferior performance if the order of the AR model is not chosen sufficiently high to give an adequate description of the correlation structure of the noise, whereas the effects of (slightly) overmodeling are observed to be less harmful. Index Terms--Functional magnetic resonance imaging (fMRI), generalized likelihood ratio test, Rao test, statistical parametric maps, time series analysis, Wald test.

Published
2009

32. PAPPI: Personalized analysis of plantar pressure images using statistical modelling and parametric mapping

Author

Booth, B.G., Hoefnagels, E., Huysmans, T., Sijbers, J., Keijsers, N.L.W., Booth, B.G., Hoefnagels, E., Huysmans, T., Sijbers, J., and Keijsers, N.L.W.

Abstract

Contains fulltext : 218784.pdf (publisher's version ) (Open Access), Quantitative analyses of plantar pressure images typically occur at the group level and under the assumption that individuals within each group display homogeneous pressure patterns. When this assumption does not hold, a personalized analysis technique is required. Yet, existing personalized plantar pressure analysis techniques work at the image level, leading to results that can be unintuitive and difficult to interpret. To address these limitations, we introduce PAPPI: the Personalized Analysis of Plantar Pressure Images. PAPPI is built around the statistical modelling of the relationship between plantar pressures in healthy controls and their demographic characteristics. This statistical model then serves as the healthy baseline to which an individual's real plantar pressures are compared using statistical parametric mapping. As a proof-of-concept, we evaluated PAPPI on a cohort of 50 hallux valgus patients. PAPPI showed that plantar pressures from hallux valgus patients did not have a single, homogeneous pattern, but instead, 5 abnormal pressure patterns were observed in sections of this population. When comparing these patterns to foot pain scores (i.e. Foot Function Index, Manchester-Oxford Foot Questionnaire) and radiographic hallux angle measurements, we observed that patients with increased pressure under metatarsal 1 reported less foot pain than other patients in the cohort, while patients with abnormal pressures in the heel showed more severe hallux valgus angles and more foot pain. Also, incidences of pes planus were higher in our hallux valgus cohort compared to the modelled healthy controls. PAPPI helped to clarify recent discrepancies in group-level plantar pressure studies and showed its unique ability to produce quantitative, interpretable, and personalized analyses for plantar pressure images.

Published
2020

34. Generalized likelihood ratio tests for complex fMRI data: a simulation study

Author

Sijbers, J. and den Dekker, A.J.

Subjects
Magnetic resonance imaging -- Research, Business, Electronics, Electronics and electrical industries, Health care industry
Abstract

Statistical tests developed for the analysis of (intrinsically complex valued) functional magnetic resonance time series, are generally applied to the data's magnitude components. However, during the past five years, new tests were developed that incorporate the complex nature of fMRI data. In particular, a generalized likelihood ratio test (GLRT) was proposed based on a constant phase model [19]. In this work, we evaluate the sensitivity of GLRTs for complex data to small misspecifications of the phase model by means of simulation experiments. It is argued that, in practical situations, GLRTs based on magnitude data are likely to perform better compared to GLRTs based on complex data in terms of detection rate and constant false alarm rate properties. Index Terms--fMRI, generalized likelihood ratio test, magnitude data, statistical parametric maps.

Published
2005

42. Assessment of Anterior Cruciate Ligament Graft Maturity With Conventional Magnetic Resonance Imaging: A Systematic Literature Review

Author

Janssens T, Smekens C, Heusdens Chw, Van Dyck P, Zazulia K, and Sijbers J

Subjects
Anterior cruciate ligament reconstruction, Economics, Anterior cruciate ligament, medicine.medical_treatment, Article, 03 medical and health sciences, 0302 clinical medicine, Sociology, Medicine, magnetic resonance imaging, Orthopedics and Sports Medicine, graft healing, Orthodontics, 030222 orthopedics, medicine.diagnostic_test, business.industry, signal intensity, anterior cruciate ligament reconstruction, anterior cruciate ligament, Magnetic resonance imaging, 030229 sport sciences, musculoskeletal system, Maturity (finance), Graft maturity, medicine.anatomical_structure, Systematic review, surgical procedures, operative, Research studies, Human medicine, Signal intensity, business, human activities
Abstract

Background: Magnetic resonance imaging (MRI) signal intensity (SI) measurements are being used increasingly in both clinical and research studies to assess the maturity of anterior cruciate ligament (ACL) grafts in humans. However, SI in conventional MRI with weighted images is a nonquantitative measure dependent on hardware and software. Purpose: To conduct a systematic review of studies that have used MRI SI as a proxy for ACL graft maturity and to identify potential confounding factors in assessing the ACL graft in conventional MRI studies. Study Design: Systematic review; Level of evidence, 4. Methods: A systematic review was conducted by searching the MEDLINE/PubMed, Scopus, and Cochrane Library electronic databases according to the PRISMA (Preferred Reporting Items for Systematic Reviews and Meta-Analyses) guidelines to identify studies that examined the healing of the intra-articular portion of the ACL graft by assessing SI on MRIs. Results: A total of 34 studies were selected for inclusion in this systematic review. The MRI acquisition techniques and methods to evaluate the ACL graft SI differed greatly across the studies. No agreement was found regarding the time frames of SI changes in MRI reflecting normal healing of the ACL tendon graft, and the graft SI and clinical outcomes after ACL reconstruction were found to be poorly correlated. Conclusion: The MRI acquisition and evaluation methods used to assess ACL grafts are very heterogeneous, impeding comparisons of SI between successive scans and between independent studies. Therefore, quantitative MRI-based biomarkers of ACL graft healing are greatly needed to guide the appropriate time of returning to sports after ACL reconstruction.

Published
2019

45. An assessment of the information lost when applying data reduction techniques to dynamic plantar pressure measurements

Author

Booth, B.G., Keijsers, N.L.W., Sijbers, J., Huysmans, T., Booth, B.G., Keijsers, N.L.W., Sijbers, J., and Huysmans, T.

Abstract

Contains fulltext : 203261.pdf (publisher's version ) (Open Access), Data reduction techniques are commonly applied to dynamic plantar pressure measurements, often prior to the measurement's analysis. In performing these data reductions, information is discarded from the measurement before it can be evaluated, leading to unkonwn consequences. In this study, we aim to provide the first assessment of what impact data reduction techniques have on plantar pressure measurements. Specifically, we quantify the extent to which information of any kind is discarded when performing common data reductions. Plantar pressure measurements were collected from 33 healthy controls, 8 Hallux Valgus patients, and 10 Metatarsalgia patients. Eleven common data reductions were then applied to the measurements, and the resulting datasets were compared to the original measurement in three ways. First, information theory was used to estimate the information content present in the original and reduced datasets. Second, principal component analysis was used to estimate the number of intrinsic dimensions present. Finally, a permutational multivariate ANOVA was performed to evaluate the significance of group differences between the healthy controls, Hallux Valgus, and Metatarsalgia groups. The evaluated data reductions showed a minimum of 99.1% loss in information content and losses of dimensionality between 20.8% and 83.3%. Significant group differences were also lost after each of the 11 data reductions (alpha=0.05), but these results may differ for other patient groups (especially those with highly-deformed footprints) or other region of interest definitions. Nevertheless, the existence of these results suggest that the diagnostic content of dynamic plantar pressure measurements is yet to be fully exploited.

Published
2019

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