Magnetic Particle / Magnetic Resonance Imaging: In-Vitro MPI-Guided Real Time Catheter Tracking and 4D Angioplasty Using a Road Map and Blood Pool Tracer Approach

Johannes Salamon; Martin Hofmann; Caroline Jung; Michael Gerhard Kaul; Franziska Werner; Kolja Them; Rudolph Reimer; Peter Nielsen; Annika Vom Scheidt; Gerhard Adam; Tobias Knopp; Harald Ittrich

doi:10.1371/journal.pone.0156899

Magnetic Particle / Magnetic Resonance Imaging: In-Vitro MPI-Guided Real Time Catheter Tracking and 4D Angioplasty Using a Road Map and Blood Pool Tracer Approach

Standard

Magnetic Particle / Magnetic Resonance Imaging: In-Vitro MPI-Guided Real Time Catheter Tracking and 4D Angioplasty Using a Road Map and Blood Pool Tracer Approach. / Salamon, Johannes ; Hofmann, Martin; Jung, Caroline; Kaul, Michael Gerhard; Werner, Franziska; Them, Kolja; Reimer, Rudolph; Nielsen, Peter; Vom Scheidt, Annika; Adam, Gerhard ; Knopp, Tobias; Ittrich, Harald.

In: PLOS ONE, Vol. 11, No. 6, 2016, p. e0156899.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Salamon, J , Hofmann, M, Jung, C, Kaul, MG, Werner, F, Them, K, Reimer, R, Nielsen, P, Vom Scheidt, A, Adam, G , Knopp, T & Ittrich, H 2016, 'Magnetic Particle / Magnetic Resonance Imaging: In-Vitro MPI-Guided Real Time Catheter Tracking and 4D Angioplasty Using a Road Map and Blood Pool Tracer Approach', PLOS ONE, vol. 11, no. 6, pp. e0156899. https://doi.org/10.1371/journal.pone.0156899

APA

Salamon, J., Hofmann, M., Jung, C., Kaul, M. G., Werner, F., Them, K., Reimer, R., Nielsen, P., Vom Scheidt, A., Adam, G., Knopp, T., & Ittrich, H. (2016). Magnetic Particle / Magnetic Resonance Imaging: In-Vitro MPI-Guided Real Time Catheter Tracking and 4D Angioplasty Using a Road Map and Blood Pool Tracer Approach. PLOS ONE, 11(6), e0156899. https://doi.org/10.1371/journal.pone.0156899

Vancouver

Salamon J , Hofmann M, Jung C, Kaul MG, Werner F, Them K et al. Magnetic Particle / Magnetic Resonance Imaging: In-Vitro MPI-Guided Real Time Catheter Tracking and 4D Angioplasty Using a Road Map and Blood Pool Tracer Approach. PLOS ONE. 2016;11(6):e0156899. https://doi.org/10.1371/journal.pone.0156899

Bibtex

@article{a038a20342844d759c93bba7bdf975a8,

title = "Magnetic Particle / Magnetic Resonance Imaging: In-Vitro MPI-Guided Real Time Catheter Tracking and 4D Angioplasty Using a Road Map and Blood Pool Tracer Approach",

abstract = "PURPOSE: In-vitro evaluation of the feasibility of 4D real time tracking of endovascular devices and stenosis treatment with a magnetic particle imaging (MPI) / magnetic resonance imaging (MRI) road map approach and an MPI-guided approach using a blood pool tracer.MATERIALS AND METHODS: A guide wire and angioplasty-catheter were labeled with a thin layer of magnetic lacquer. For real time MPI a custom made software framework was developed. A stenotic vessel phantom filled with saline or superparamagnetic iron oxide nanoparticles (MM4) was equipped with bimodal fiducial markers for co-registration in preclinical 7T MRI and MPI. In-vitro angioplasty was performed inflating the balloon with saline or MM4. MPI data were acquired using a field of view of 37.3×37.3×18.6 mm3 and a frame rate of 46 volumes/sec. Analysis of the magnetic lacquer-marks on the devices were performed with electron microscopy, atomic absorption spectrometry and micro-computed tomography.RESULTS: Magnetic marks allowed for MPI/MRI guidance of interventional devices. Bimodal fiducial markers enable MPI/MRI image fusion for MRI based roadmapping. MRI roadmapping and the blood pool tracer approach facilitate MPI real time monitoring of in-vitro angioplasty. Successful angioplasty was verified with MPI and MRI. Magnetic marks consist of micrometer sized ferromagnetic plates mainly composed of iron and iron oxide.CONCLUSIONS: 4D real time MP imaging, tracking and guiding of endovascular instruments and in-vitro angioplasty is feasible. In addition to an approach that requires a blood pool tracer, MRI based roadmapping might emerge as a promising tool for radiation free 4D MPI-guided interventions.",

author = "Johannes Salamon and Martin Hofmann and Caroline Jung and Kaul, {Michael Gerhard} and Franziska Werner and Kolja Them and Rudolph Reimer and Peter Nielsen and {Vom Scheidt}, Annika and Gerhard Adam and Tobias Knopp and Harald Ittrich",

year = "2016",

doi = "10.1371/journal.pone.0156899",

language = "English",

volume = "11",

pages = "e0156899",

journal = "PLOS ONE",

issn = "1932-6203",

publisher = "Public Library of Science",

number = "6",

}

RIS

TY - JOUR

T1 - Magnetic Particle / Magnetic Resonance Imaging: In-Vitro MPI-Guided Real Time Catheter Tracking and 4D Angioplasty Using a Road Map and Blood Pool Tracer Approach

AU - Salamon, Johannes

AU - Hofmann, Martin

AU - Jung, Caroline

AU - Kaul, Michael Gerhard

AU - Werner, Franziska

AU - Them, Kolja

AU - Reimer, Rudolph

AU - Nielsen, Peter

AU - Vom Scheidt, Annika

AU - Adam, Gerhard

AU - Knopp, Tobias

AU - Ittrich, Harald

PY - 2016

Y1 - 2016

N2 - PURPOSE: In-vitro evaluation of the feasibility of 4D real time tracking of endovascular devices and stenosis treatment with a magnetic particle imaging (MPI) / magnetic resonance imaging (MRI) road map approach and an MPI-guided approach using a blood pool tracer.MATERIALS AND METHODS: A guide wire and angioplasty-catheter were labeled with a thin layer of magnetic lacquer. For real time MPI a custom made software framework was developed. A stenotic vessel phantom filled with saline or superparamagnetic iron oxide nanoparticles (MM4) was equipped with bimodal fiducial markers for co-registration in preclinical 7T MRI and MPI. In-vitro angioplasty was performed inflating the balloon with saline or MM4. MPI data were acquired using a field of view of 37.3×37.3×18.6 mm3 and a frame rate of 46 volumes/sec. Analysis of the magnetic lacquer-marks on the devices were performed with electron microscopy, atomic absorption spectrometry and micro-computed tomography.RESULTS: Magnetic marks allowed for MPI/MRI guidance of interventional devices. Bimodal fiducial markers enable MPI/MRI image fusion for MRI based roadmapping. MRI roadmapping and the blood pool tracer approach facilitate MPI real time monitoring of in-vitro angioplasty. Successful angioplasty was verified with MPI and MRI. Magnetic marks consist of micrometer sized ferromagnetic plates mainly composed of iron and iron oxide.CONCLUSIONS: 4D real time MP imaging, tracking and guiding of endovascular instruments and in-vitro angioplasty is feasible. In addition to an approach that requires a blood pool tracer, MRI based roadmapping might emerge as a promising tool for radiation free 4D MPI-guided interventions.

AB - PURPOSE: In-vitro evaluation of the feasibility of 4D real time tracking of endovascular devices and stenosis treatment with a magnetic particle imaging (MPI) / magnetic resonance imaging (MRI) road map approach and an MPI-guided approach using a blood pool tracer.MATERIALS AND METHODS: A guide wire and angioplasty-catheter were labeled with a thin layer of magnetic lacquer. For real time MPI a custom made software framework was developed. A stenotic vessel phantom filled with saline or superparamagnetic iron oxide nanoparticles (MM4) was equipped with bimodal fiducial markers for co-registration in preclinical 7T MRI and MPI. In-vitro angioplasty was performed inflating the balloon with saline or MM4. MPI data were acquired using a field of view of 37.3×37.3×18.6 mm3 and a frame rate of 46 volumes/sec. Analysis of the magnetic lacquer-marks on the devices were performed with electron microscopy, atomic absorption spectrometry and micro-computed tomography.RESULTS: Magnetic marks allowed for MPI/MRI guidance of interventional devices. Bimodal fiducial markers enable MPI/MRI image fusion for MRI based roadmapping. MRI roadmapping and the blood pool tracer approach facilitate MPI real time monitoring of in-vitro angioplasty. Successful angioplasty was verified with MPI and MRI. Magnetic marks consist of micrometer sized ferromagnetic plates mainly composed of iron and iron oxide.CONCLUSIONS: 4D real time MP imaging, tracking and guiding of endovascular instruments and in-vitro angioplasty is feasible. In addition to an approach that requires a blood pool tracer, MRI based roadmapping might emerge as a promising tool for radiation free 4D MPI-guided interventions.

U2 - 10.1371/journal.pone.0156899

DO - 10.1371/journal.pone.0156899

M3 - SCORING: Journal article

C2 - 27249022

VL - 11

SP - e0156899

JO - PLOS ONE

JF - PLOS ONE

SN - 1932-6203

IS - 6

ER -