Your search keyword '"A C Bunck"' showing total 5 results

1. In vitro evaluation of cerebrospinal fluid velocity measurement in type I Chiari malformation: repeatability, reproducibility, and agreement using 2D phase contrast and 4D flow MRI

Author

Gwendolyn Williams, Suraj Thyagaraj, Audrey Fu, John Oshinski, Daniel Giese, Alexander C. Bunck, Eleonora Fornari, Francesco Santini, Mark Luciano, Francis Loth, and Bryn A. Martin

Subjects

Cerebrospinal fluid, Phase contrast, Magnetic resonance imaging, Chiari malformation, Spinal cord, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Phase contrast magnetic resonance imaging, PC MRI, is a valuable tool allowing for non-invasive quantification of CSF dynamics, but has lacked adoption in clinical practice for Chiari malformation diagnostics. To improve these diagnostic practices, a better understanding of PC MRI based measurement agreement, repeatability, and reproducibility of CSF dynamics is needed. Methods An anatomically realistic in vitro subject specific model of a Chiari malformation patient was scanned three times at five different scanning centers using 2D PC MRI and 4D Flow techniques to quantify intra-scanner repeatability, inter-scanner reproducibility, and agreement between imaging modalities. Peak systolic CSF velocities were measured at nine axial planes using 2D PC MRI, which were then compared to 4D Flow peak systolic velocity measurements extracted at those exact axial positions along the model. Results Comparison of measurement results showed good overall agreement of CSF velocity detection between 2D PC MRI and 4D Flow (p = 0.86), fair intra-scanner repeatability (confidence intervals ± 1.5 cm/s), and poor inter-scanner reproducibility. On average, 4D Flow measurements had a larger variability than 2D PC MRI measurements (standard deviations 1.83 and 1.04 cm/s, respectively). Conclusion Agreement, repeatability, and reproducibility of 2D PC MRI and 4D Flow detection of peak CSF velocities was quantified using a patient-specific in vitro model of Chiari malformation. In combination, the greatest factor leading to measurement inconsistency was determined to be a lack of reproducibility between different MRI centers. Overall, these findings may help lead to better understanding for application of 2D PC MRI and 4D Flow techniques as diagnostic tools for CSF dynamics quantification in Chiari malformation and related diseases.

Published

2021

2. Compressed-sensing accelerated 4D flow MRI of cerebrospinal fluid dynamics

Author

Elena Jaeger, Kristina Sonnabend, Frank Schaarschmidt, David Maintz, Kilian Weiss, and Alexander C. Bunck

Subjects

Compressed sensing, 4D flow MRI, Cerebrospinal fluid, CSF, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background 4D flow magnetic resonance imaging (MRI) of CSF can make an important contribution to the understanding of hydrodynamic changes in various neurological diseases but remains limited in clinical application due to long acquisition times. The aim of this study was to evaluate the accuracy of compressed SENSE accelerated MRI measurements of the spinal CSF flow. Methods In 20 healthy subjects 4D flow MRI of the CSF in the cervical spine was acquired using compressed sensitivity encoding [CSE, a combination of compressed sensing and parallel imaging (SENSE) provided by the manufacturer] with acceleration factors between 4 and 10. A conventional scan using SENSE was used as reference. Extracted parameters were peak velocity, absolute net flow, forward flow and backward flow. Bland–Altman analysis was performed to determine the scan-rescan reproducibility and the agreement between SENSE and compressed SENSE. Additionally, a time accumulated flow error was calculated. In one additional subject flow of the spinal canal at the level of the entire spinal cord was assessed. Results Averaged acquisition times were 10:21 min (SENSE), 9:31 min (CSE4), 6:25 min (CSE6), 4:53 min (CSE8) and 3:51 min (CSE10). Acquisition of the CSF flow surrounding the entire spinal cord took 14:40 min. Bland–Altman analysis showed good agreement for peak velocity, but slight overestimations for absolute net flow, forward flow and backward flow (

Published

2020

3. Cerebellar tonsil ectopia measurement in type I Chiari malformation patients show poor inter-operator reliability

Author

Braden J. Lawrence, Aintzane Urbizu, Philip A. Allen, Francis Loth, R. Shane Tubbs, Alexander C. Bunck, Jan-Robert Kröger, Brandon G. Rocque, Casey Madura, Jason A. Chen, Mark G. Luciano, Richard G. Ellenbogen, John N. Oshinski, Bermans J. Iskandar, and Bryn A. Martin

Subjects

Cerebellar tonsil, Inter-operator reliability, Morphometric, MRI, Syringomyelia, Type 1 Chiari malformation, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Type 1 Chiari malformation (CM-I) has been historically defined by cerebellar tonsillar position (TP) greater than 3–5 mm below the foramen magnum (FM). Often, the radiographic findings are highly variable, which may influence the clinical course and patient outcome. In this study, we evaluate the inter-operator reliability (reproducibility) of MRI-based measurement of TP in CM-I patients and healthy controls. Methods Thirty-three T2-weighted MRI sets were obtained for 23 CM-I patients (11 symptomatic and 12 asymptomatic) and 10 healthy controls. TP inferior to the FM was measured in the mid-sagittal plane by seven expert operators with reference to McRae’s line. Overall agreement between the operators was quantified by intraclass correlation coefficient (ICC). Results The mean and standard deviation of cerebellar TP measurements for asymptomatic (CM-Ia) and symptomatic (CM-Is) patients in mid-sagittal plane was 6.38 ± 2.19 and 9.57 ± 2.63 mm, respectively. TP measurements for healthy controls was 0.48 ± 2.88 mm. The average range of TP measurements for all data sets analyzed was 7.7 mm. Overall operator agreement for TP measurements was relatively high with an ICC of 0.83. Conclusion The results demonstrated a large average range (7.7 mm) of measurements among the seven expert operators and support that, if economically feasible, two radiologists should make independent measurements before radiologic diagnosis of CM-I and surgery is contemplated. In the future, an objective diagnostic parameter for CM-I that utilizes automated algorithms and results in smaller inter-operator variation may improve patient selection.

Published

2018

4. In vitro evaluation of cerebrospinal fluid velocity measurement in type I Chiari malformation: repeatability, reproducibility, and agreement using 2D phase contrast and 4D flow MRI

Author

Eleonora Fornari, Audrey Qiuyan Fu, Gwendolyn Williams, Suraj Thyagaraj, Francesco Santini, Francis Loth, Alexander C. Bunck, John N. Oshinski, Bryn A. Martin, Mark G. Luciano, and Daniel Giese

Subjects

Models, Anatomic, Phase contrast microscopy, Chiari malformation, lcsh:RC346-429, 030218 nuclear medicine & medical imaging, law.invention, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Cerebrospinal fluid, Magnetic resonance imaging, Meta-Analysis as Topic, Developmental Neuroscience, law, Phase contrast, Humans, Medicine, Velocity measurement, Type I Chiari malformation, lcsh:Neurology. Diseases of the nervous system, Reproducibility, Spinal cord, medicine.diagnostic_test, business.industry, Research, Reproducibility of Results, General Medicine, Repeatability, medicine.disease, Arnold-Chiari Malformation, Review Literature as Topic, Neurology, Child, Preschool, Hydrodynamics, business, Nuclear medicine, 030217 neurology & neurosurgery

Abstract

Background Phase contrast magnetic resonance imaging, PC MRI, is a valuable tool allowing for non-invasive quantification of CSF dynamics, but has lacked adoption in clinical practice for Chiari malformation diagnostics. To improve these diagnostic practices, a better understanding of PC MRI based measurement agreement, repeatability, and reproducibility of CSF dynamics is needed. Methods An anatomically realistic in vitro subject specific model of a Chiari malformation patient was scanned three times at five different scanning centers using 2D PC MRI and 4D Flow techniques to quantify intra-scanner repeatability, inter-scanner reproducibility, and agreement between imaging modalities. Peak systolic CSF velocities were measured at nine axial planes using 2D PC MRI, which were then compared to 4D Flow peak systolic velocity measurements extracted at those exact axial positions along the model. Results Comparison of measurement results showed good overall agreement of CSF velocity detection between 2D PC MRI and 4D Flow (p = 0.86), fair intra-scanner repeatability (confidence intervals ± 1.5 cm/s), and poor inter-scanner reproducibility. On average, 4D Flow measurements had a larger variability than 2D PC MRI measurements (standard deviations 1.83 and 1.04 cm/s, respectively). Conclusion Agreement, repeatability, and reproducibility of 2D PC MRI and 4D Flow detection of peak CSF velocities was quantified using a patient-specific in vitro model of Chiari malformation. In combination, the greatest factor leading to measurement inconsistency was determined to be a lack of reproducibility between different MRI centers. Overall, these findings may help lead to better understanding for application of 2D PC MRI and 4D Flow techniques as diagnostic tools for CSF dynamics quantification in Chiari malformation and related diseases.

Published

2021

5. Cerebellar tonsil ectopia measurement in type I Chiari malformation patients show poor inter-operator reliability

Author

Mark G. Luciano, Francis Loth, Brandon G. Rocque, Bermans J. Iskandar, R. Shane Tubbs, Philip A. Allen, Braden J. Lawrence, Jason A. Chen, Alexander C. Bunck, Aintzane Urbizu, Casey Madura, Jan Robert Kröger, John N. Oshinski, Bryn A. Martin, and Richard G. Ellenbogen

Subjects

Adult, Male, Type 1 Chiari malformation, Intraclass correlation, Radiography, Cerebellar tonsil, Asymptomatic, lcsh:RC346-429, Standard deviation, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Developmental Neuroscience, Cerebellum, medicine, Image Processing, Computer-Assisted, Humans, lcsh:Neurology. Diseases of the nervous system, Observer Variation, Reproducibility, Foramen magnum, Morphometric, business.industry, Research, Reproducibility of Results, General Medicine, medicine.disease, Magnetic Resonance Imaging, Syringomyelia, 3. Good health, Arnold-Chiari Malformation, medicine.anatomical_structure, Neurology, medicine.symptom, Inter-operator reliability, business, Nuclear medicine, 030217 neurology & neurosurgery, MRI

Abstract

Background Type 1 Chiari malformation (CM-I) has been historically defined by cerebellar tonsillar position (TP) greater than 3–5 mm below the foramen magnum (FM). Often, the radiographic findings are highly variable, which may influence the clinical course and patient outcome. In this study, we evaluate the inter-operator reliability (reproducibility) of MRI-based measurement of TP in CM-I patients and healthy controls. Methods Thirty-three T2-weighted MRI sets were obtained for 23 CM-I patients (11 symptomatic and 12 asymptomatic) and 10 healthy controls. TP inferior to the FM was measured in the mid-sagittal plane by seven expert operators with reference to McRae’s line. Overall agreement between the operators was quantified by intraclass correlation coefficient (ICC). Results The mean and standard deviation of cerebellar TP measurements for asymptomatic (CM-Ia) and symptomatic (CM-Is) patients in mid-sagittal plane was 6.38 ± 2.19 and 9.57 ± 2.63 mm, respectively. TP measurements for healthy controls was 0.48 ± 2.88 mm. The average range of TP measurements for all data sets analyzed was 7.7 mm. Overall operator agreement for TP measurements was relatively high with an ICC of 0.83. Conclusion The results demonstrated a large average range (7.7 mm) of measurements among the seven expert operators and support that, if economically feasible, two radiologists should make independent measurements before radiologic diagnosis of CM-I and surgery is contemplated. In the future, an objective diagnostic parameter for CM-I that utilizes automated algorithms and results in smaller inter-operator variation may improve patient selection.

Published

2018