[120378] |
Title: Determining Perfusion Parameters using Magnetic Particle Imaging: A Phantom Study using a Human-Sized Flow Phantom. <em>9th International Workshop on Magnetic Particle Imaging (IWMPI 2019)</em> |
Written by: N. Gdaniec, M. Graeser, F. Thieben, P Szwargulski, F. Werner, M. Boberg, F. Griese, M. Möddel, P. Ludewig, D. van de Ven, O. M. Weber, O. Woywode, B. Gleich, and T. Knopp |
in: (2019). |
Volume: Number: |
on pages: 151-152 |
Chapter: |
Editor: |
Publisher: |
Series: |
Address: |
Edition: |
ISBN: |
how published: |
Organization: |
School: |
Institution: |
Type: |
DOI: |
URL: |
ARXIVID: |
PMID: |
Note: inproceedings, brainimager
Abstract: The determination of brain perfusion is an important issue for the diagnosis and treatment of vascular diseases. We designed a human-sized dynamic flow phantom mimicking the perfusion properties of the brain and used the human-sized MPI head scanner to acquire data from dynamic bolus injection experiments. A stroke was simulated by occluding one of the feeding hoses. We derived perfusion parameter maps from these data and were able to detect the simulated stroke.
[120378] |
Title: Determining Perfusion Parameters using Magnetic Particle Imaging: A Phantom Study using a Human-Sized Flow Phantom. <em>9th International Workshop on Magnetic Particle Imaging (IWMPI 2019)</em> |
Written by: N. Gdaniec, M. Graeser, F. Thieben, P Szwargulski, F. Werner, M. Boberg, F. Griese, M. Möddel, P. Ludewig, D. van de Ven, O. M. Weber, O. Woywode, B. Gleich, and T. Knopp |
in: (2019). |
Volume: Number: |
on pages: 151-152 |
Chapter: |
Editor: |
Publisher: |
Series: |
Address: |
Edition: |
ISBN: |
how published: |
Organization: |
School: |
Institution: |
Type: |
DOI: |
URL: |
ARXIVID: |
PMID: |
Note: inproceedings, brainimager
Abstract: The determination of brain perfusion is an important issue for the diagnosis and treatment of vascular diseases. We designed a human-sized dynamic flow phantom mimicking the perfusion properties of the brain and used the human-sized MPI head scanner to acquire data from dynamic bolus injection experiments. A stroke was simulated by occluding one of the feeding hoses. We derived perfusion parameter maps from these data and were able to detect the simulated stroke.