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Dental MRI using wireless intraoral coils

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Dental MRI using wireless intraoral coils. / Ludwig, Ute; Eisenbeiss, Anne-Katrin; Scheifele, Christian; Nelson, Katja; Bock, Michael; Hennig, Jürgen; von Elverfeldt, Dominik; Herdt, Olga; Flügge, Tabea; Hövener, Jan-Bernd.

in: SCI REP-UK, Jahrgang 6, 26.03.2016, S. 23301.

Publikationen: SCORING: Beitrag in Fachzeitschrift/ZeitungSCORING: ZeitschriftenaufsatzForschungBegutachtung

Harvard

Ludwig, U, Eisenbeiss, A-K, Scheifele, C, Nelson, K, Bock, M, Hennig, J, von Elverfeldt, D, Herdt, O, Flügge, T & Hövener, J-B 2016, 'Dental MRI using wireless intraoral coils', SCI REP-UK, Jg. 6, S. 23301. https://doi.org/10.1038/srep23301

APA

Ludwig, U., Eisenbeiss, A-K., Scheifele, C., Nelson, K., Bock, M., Hennig, J., von Elverfeldt, D., Herdt, O., Flügge, T., & Hövener, J-B. (2016). Dental MRI using wireless intraoral coils. SCI REP-UK, 6, 23301. https://doi.org/10.1038/srep23301

Vancouver

Ludwig U, Eisenbeiss A-K, Scheifele C, Nelson K, Bock M, Hennig J et al. Dental MRI using wireless intraoral coils. SCI REP-UK. 2016 Mär 26;6:23301. https://doi.org/10.1038/srep23301

Bibtex

@article{c1f34e38ed19465d8f5b7cfc2e282e8e,
title = "Dental MRI using wireless intraoral coils",
abstract = "Currently, the gold standard for dental imaging is projection radiography or cone-beam computed tomography (CBCT). These methods are fast and cost-efficient, but exhibit poor soft tissue contrast and expose the patient to ionizing radiation (X-rays). The need for an alternative imaging modality e.g. for soft tissue management has stimulated a rising interest in dental magnetic resonance imaging (MRI) which provides superior soft tissue contrast. Compared to X-ray imaging, however, so far the spatial resolution of MRI is lower and the scan time is longer. In this contribution, we describe wireless, inductively-coupled intraoral coils whose local sensitivity enables high resolution MRI of dental soft tissue. In comparison to CBCT, a similar image quality with complementary contrast was obtained ex vivo. In-vivo, a voxel size of the order of 250∙250∙500 μm(3) was achieved in 4 min only. Compared to dental MRI acquired with clinical equipment, the quality of the images was superior in the sensitive volume of the coils and is expected to improve the planning of interventions and monitoring thereafter. This method may enable a more accurate dental diagnosis and avoid unnecessary interventions, improving patient welfare and bringing MRI a step closer to becoming a radiation-free alternative for dental imaging.",
author = "Ute Ludwig and Anne-Katrin Eisenbeiss and Christian Scheifele and Katja Nelson and Michael Bock and J{\"u}rgen Hennig and {von Elverfeldt}, Dominik and Olga Herdt and Tabea Fl{\"u}gge and Jan-Bernd H{\"o}vener",
year = "2016",
month = mar,
day = "26",
doi = "10.1038/srep23301",
language = "English",
volume = "6",
pages = "23301",
journal = "SCI REP-UK",
issn = "2045-2322",
publisher = "NATURE PUBLISHING GROUP",

}

RIS

TY - JOUR

T1 - Dental MRI using wireless intraoral coils

AU - Ludwig, Ute

AU - Eisenbeiss, Anne-Katrin

AU - Scheifele, Christian

AU - Nelson, Katja

AU - Bock, Michael

AU - Hennig, Jürgen

AU - von Elverfeldt, Dominik

AU - Herdt, Olga

AU - Flügge, Tabea

AU - Hövener, Jan-Bernd

PY - 2016/3/26

Y1 - 2016/3/26

N2 - Currently, the gold standard for dental imaging is projection radiography or cone-beam computed tomography (CBCT). These methods are fast and cost-efficient, but exhibit poor soft tissue contrast and expose the patient to ionizing radiation (X-rays). The need for an alternative imaging modality e.g. for soft tissue management has stimulated a rising interest in dental magnetic resonance imaging (MRI) which provides superior soft tissue contrast. Compared to X-ray imaging, however, so far the spatial resolution of MRI is lower and the scan time is longer. In this contribution, we describe wireless, inductively-coupled intraoral coils whose local sensitivity enables high resolution MRI of dental soft tissue. In comparison to CBCT, a similar image quality with complementary contrast was obtained ex vivo. In-vivo, a voxel size of the order of 250∙250∙500 μm(3) was achieved in 4 min only. Compared to dental MRI acquired with clinical equipment, the quality of the images was superior in the sensitive volume of the coils and is expected to improve the planning of interventions and monitoring thereafter. This method may enable a more accurate dental diagnosis and avoid unnecessary interventions, improving patient welfare and bringing MRI a step closer to becoming a radiation-free alternative for dental imaging.

AB - Currently, the gold standard for dental imaging is projection radiography or cone-beam computed tomography (CBCT). These methods are fast and cost-efficient, but exhibit poor soft tissue contrast and expose the patient to ionizing radiation (X-rays). The need for an alternative imaging modality e.g. for soft tissue management has stimulated a rising interest in dental magnetic resonance imaging (MRI) which provides superior soft tissue contrast. Compared to X-ray imaging, however, so far the spatial resolution of MRI is lower and the scan time is longer. In this contribution, we describe wireless, inductively-coupled intraoral coils whose local sensitivity enables high resolution MRI of dental soft tissue. In comparison to CBCT, a similar image quality with complementary contrast was obtained ex vivo. In-vivo, a voxel size of the order of 250∙250∙500 μm(3) was achieved in 4 min only. Compared to dental MRI acquired with clinical equipment, the quality of the images was superior in the sensitive volume of the coils and is expected to improve the planning of interventions and monitoring thereafter. This method may enable a more accurate dental diagnosis and avoid unnecessary interventions, improving patient welfare and bringing MRI a step closer to becoming a radiation-free alternative for dental imaging.

U2 - 10.1038/srep23301

DO - 10.1038/srep23301

M3 - SCORING: Journal article

C2 - 27021387

VL - 6

SP - 23301

JO - SCI REP-UK

JF - SCI REP-UK

SN - 2045-2322

ER -