Three-dimensional accurate detection of lung emphysema in rats using ultra-short and zero echo time MRI

Andrea Bianchi; Marta Tibiletti; Åsmund Kjørstad; Gerald Birk; Lothar R Schad; Birgit Stierstorfer; Volker Rasche; Detlef Stiller

doi:10.1002/nbm.3417

Three-dimensional accurate detection of lung emphysema in rats using ultra-short and zero echo time MRI

Standard

Three-dimensional accurate detection of lung emphysema in rats using ultra-short and zero echo time MRI. / Bianchi, Andrea; Tibiletti, Marta; Kjørstad, Åsmund; Birk, Gerald; Schad, Lothar R; Stierstorfer, Birgit; Rasche, Volker; Stiller, Detlef.

in: NMR BIOMED, Jahrgang 28, Nr. 11, 11.2015, S. 1471-9.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Bianchi, A, Tibiletti, M, Kjørstad, Å, Birk, G, Schad, LR, Stierstorfer, B, Rasche, V & Stiller, D 2015, 'Three-dimensional accurate detection of lung emphysema in rats using ultra-short and zero echo time MRI', NMR BIOMED, Jg. 28, Nr. 11, S. 1471-9. https://doi.org/10.1002/nbm.3417

APA

Bianchi, A., Tibiletti, M., Kjørstad, Å., Birk, G., Schad, L. R., Stierstorfer, B., Rasche, V., & Stiller, D. (2015). Three-dimensional accurate detection of lung emphysema in rats using ultra-short and zero echo time MRI. NMR BIOMED, 28(11), 1471-9. https://doi.org/10.1002/nbm.3417

Vancouver

Bianchi A, Tibiletti M, Kjørstad Å, Birk G, Schad LR, Stierstorfer B et al. Three-dimensional accurate detection of lung emphysema in rats using ultra-short and zero echo time MRI. NMR BIOMED. 2015 Nov;28(11):1471-9. https://doi.org/10.1002/nbm.3417

Bibtex

@article{c3a46d72c6a547b0aeaf7f26ba94ace7,

title = "Three-dimensional accurate detection of lung emphysema in rats using ultra-short and zero echo time MRI",

abstract = "Emphysema is a life-threatening pathology that causes irreversible destruction of alveolar walls. In vivo imaging techniques play a fundamental role in the early non-invasive pre-clinical and clinical detection and longitudinal follow-up of this pathology. In the present study, we aimed to evaluate the feasibility of using high resolution radial three-dimensional (3D) zero echo time (ZTE) and 3D ultra-short echo time (UTE) MRI to accurately detect lung pathomorphological changes in a rodent model of emphysema.Porcine pancreas elastase (PPE) was intratracheally administered to the rats to produce the emphysematous changes. 3D ZTE MRI, low and high definition 3D UTE MRI and micro-computed tomography images were acquired 4 weeks after the PPE challenge. Signal-to-noise ratios (SNRs) were measured in PPE-treated and control rats. T2* values were computed from low definition 3D UTE MRI. Histomorphometric measurements were made after euthanizing the animals. Both ZTE and UTE MR images showed a significant decrease in the SNR measured in PPE-treated lungs compared with controls, due to the pathomorphological changes taking place in the challenged lungs. A significant decrease in T2* values in PPE-challenged animals compared with controls was measured using UTE MRI. Histomorphometric measurements showed a significant increase in the mean linear intercept in PPE-treated lungs. UTE yielded significantly higher SNR compared with ZTE (14% and 30% higher in PPE-treated and non-PPE-treated lungs, respectively).This study showed that optimized 3D radial UTE and ZTE MRI can provide lung images of excellent quality, with high isotropic spatial resolution (400 µm) and SNR in parenchymal tissue (>25) and negligible motion artifacts in freely breathing animals. These techniques were shown to be useful non-invasive instruments to accurately and reliably detect the pathomorphological alterations taking place in emphysematous lungs, without incurring the risks of cumulative radiation exposure typical of micro-computed tomography.",

author = "Andrea Bianchi and Marta Tibiletti and {\AA}smund Kj{\o}rstad and Gerald Birk and Schad, {Lothar R} and Birgit Stierstorfer and Volker Rasche and Detlef Stiller",

note = "Copyright {\textcopyright} 2015 John Wiley & Sons, Ltd.",

year = "2015",

month = nov,

doi = "10.1002/nbm.3417",

language = "English",

volume = "28",

pages = "1471--9",

journal = "NMR BIOMED",

issn = "0952-3480",

publisher = "John Wiley and Sons Ltd",

number = "11",

}

RIS

TY - JOUR

T1 - Three-dimensional accurate detection of lung emphysema in rats using ultra-short and zero echo time MRI

AU - Bianchi, Andrea

AU - Tibiletti, Marta

AU - Kjørstad, Åsmund

AU - Birk, Gerald

AU - Schad, Lothar R

AU - Stierstorfer, Birgit

AU - Rasche, Volker

AU - Stiller, Detlef

PY - 2015/11

Y1 - 2015/11

N2 - Emphysema is a life-threatening pathology that causes irreversible destruction of alveolar walls. In vivo imaging techniques play a fundamental role in the early non-invasive pre-clinical and clinical detection and longitudinal follow-up of this pathology. In the present study, we aimed to evaluate the feasibility of using high resolution radial three-dimensional (3D) zero echo time (ZTE) and 3D ultra-short echo time (UTE) MRI to accurately detect lung pathomorphological changes in a rodent model of emphysema.Porcine pancreas elastase (PPE) was intratracheally administered to the rats to produce the emphysematous changes. 3D ZTE MRI, low and high definition 3D UTE MRI and micro-computed tomography images were acquired 4 weeks after the PPE challenge. Signal-to-noise ratios (SNRs) were measured in PPE-treated and control rats. T2* values were computed from low definition 3D UTE MRI. Histomorphometric measurements were made after euthanizing the animals. Both ZTE and UTE MR images showed a significant decrease in the SNR measured in PPE-treated lungs compared with controls, due to the pathomorphological changes taking place in the challenged lungs. A significant decrease in T2* values in PPE-challenged animals compared with controls was measured using UTE MRI. Histomorphometric measurements showed a significant increase in the mean linear intercept in PPE-treated lungs. UTE yielded significantly higher SNR compared with ZTE (14% and 30% higher in PPE-treated and non-PPE-treated lungs, respectively).This study showed that optimized 3D radial UTE and ZTE MRI can provide lung images of excellent quality, with high isotropic spatial resolution (400 µm) and SNR in parenchymal tissue (>25) and negligible motion artifacts in freely breathing animals. These techniques were shown to be useful non-invasive instruments to accurately and reliably detect the pathomorphological alterations taking place in emphysematous lungs, without incurring the risks of cumulative radiation exposure typical of micro-computed tomography.

AB - Emphysema is a life-threatening pathology that causes irreversible destruction of alveolar walls. In vivo imaging techniques play a fundamental role in the early non-invasive pre-clinical and clinical detection and longitudinal follow-up of this pathology. In the present study, we aimed to evaluate the feasibility of using high resolution radial three-dimensional (3D) zero echo time (ZTE) and 3D ultra-short echo time (UTE) MRI to accurately detect lung pathomorphological changes in a rodent model of emphysema.Porcine pancreas elastase (PPE) was intratracheally administered to the rats to produce the emphysematous changes. 3D ZTE MRI, low and high definition 3D UTE MRI and micro-computed tomography images were acquired 4 weeks after the PPE challenge. Signal-to-noise ratios (SNRs) were measured in PPE-treated and control rats. T2* values were computed from low definition 3D UTE MRI. Histomorphometric measurements were made after euthanizing the animals. Both ZTE and UTE MR images showed a significant decrease in the SNR measured in PPE-treated lungs compared with controls, due to the pathomorphological changes taking place in the challenged lungs. A significant decrease in T2* values in PPE-challenged animals compared with controls was measured using UTE MRI. Histomorphometric measurements showed a significant increase in the mean linear intercept in PPE-treated lungs. UTE yielded significantly higher SNR compared with ZTE (14% and 30% higher in PPE-treated and non-PPE-treated lungs, respectively).This study showed that optimized 3D radial UTE and ZTE MRI can provide lung images of excellent quality, with high isotropic spatial resolution (400 µm) and SNR in parenchymal tissue (>25) and negligible motion artifacts in freely breathing animals. These techniques were shown to be useful non-invasive instruments to accurately and reliably detect the pathomorphological alterations taking place in emphysematous lungs, without incurring the risks of cumulative radiation exposure typical of micro-computed tomography.

U2 - 10.1002/nbm.3417

DO - 10.1002/nbm.3417

M3 - SCORING: Journal article

C2 - 26403226

VL - 28

SP - 1471

EP - 1479

JO - NMR BIOMED

JF - NMR BIOMED

SN - 0952-3480

IS - 11

ER -