Using MRI to measure aerosol deposition.

This article provides a concise review of the use of magnetic resonance imaging (MRI) for measurement of regional aerosol deposition in the lungs. Basic aspects of MRI and its use in lung imaging and measurement of regional ventilation are introduced. Imaging of hydrogen protons (water) and inhaled hyperpolarized gases as the MRI source signals are discussed. The addition of contrast agents to aerosol particles in order to allow measurement of regional aerosol deposition is considered. Existing in vitro human and in vivo animal model measurements of regional aerosol deposition in the respiratory tract demonstrate the capability of MRI in this regard. However, as a tool for human deposition studies, current approaches require contrast agent doses that are too high to be considered competitive with traditional radionuclide aerosol deposition measurement methods. Thus, future use of MRI in human studies of regional aerosol deposition is predicated on improvement over present approaches.

[1]  J. Murray,et al.  Aerosolized gadolinium-DTPA enhances the magnetic resonance signal of extravascular lung water. , 1987, Investigative radiology.

[2]  M. Moseley,et al.  Contrast-enhanced MR imaging of the lung: assessments of ventilation and perfusion. , 1992, Radiology.

[3]  N L Müller,et al.  MR imaging of the lungs: value of short TE spin-echo pulse sequences. , 1992, AJR. American journal of roentgenology.

[4]  R. Brasch,et al.  Safety aspects and pharmacokinetics of inhaled aerosolized gadolinium , 1993, Journal of magnetic resonance imaging : JMRI.

[5]  C J Bergin,et al.  Magnetic resonance imaging of lung parenchyma , 1993, Journal of thoracic imaging.

[6]  Y. Okuhata,et al.  Inhalation MR lymphography: a new method for selective enhancement of the lung hilar and mediastinal lymph nodes. , 1994, Magnetic resonance imaging.

[7]  Human respiratory tract model for radiological protection. A report of a Task Group of the International Commission on Radiological Protection. , 1994, Annals of the ICRP.

[8]  P Bachert,et al.  Nuclear magnetic resonance imaging with hyperpolarised helium-3 , 1996, The Lancet.

[9]  Robert R. Edelman,et al.  Noninvasive assessment of regional ventilation in the human lung using oxygen–enhanced magnetic resonance imaging , 1996, Nature Medicine.

[10]  H C Charles,et al.  Human lung air spaces: potential for MR imaging with hyperpolarized He-3. , 1996, Radiology.

[11]  H. Weinmann,et al.  Magnetic resonance imaging of pulmonary ventilation. Initial experiences with a gadolinium-DTPA-based aerosol. , 1997, Investigative radiology.

[12]  R R Edelman,et al.  Oxygen‐enhanced magnetic resonance ventilation imaging of the human lung at 0.2 and 1.5 T , 1999, Journal of magnetic resonance imaging : JMRI.

[13]  R R Edelman,et al.  MR imaging of pulmonary parenchyma with a half-Fourier single-shot turbo spin-echo (HASTE) sequence. , 1999, European journal of radiology.

[14]  R. Reddy,et al.  An MR imaging method for simultaneous measurement of gaseous diffusion constant and longitudinal relaxation time. , 1999, Magnetic resonance imaging.

[15]  H. Kauczor,et al.  MRI of the pulmonary parenchyma , 1999, European Radiology.

[16]  L W Hedlund,et al.  Spatially resolved measurements of hyperpolarized gas properties in the lung in vivo. Part I: Diffusion coefficient , 1999, Magnetic resonance in medicine.

[17]  H. Kauczor,et al.  3He‐MRI‐based measurements of intrapulmonary p O2 and its time course during apnea in healthy volunteers: first results, reproducibility, and technical limitations , 2000, NMR in biomedicine.

[18]  G. Adam,et al.  Mechanical Delivery of Aerosolized Gadolinium-DTPA for Pulmonary Ventilation Assessment in MR Imaging , 2001, Investigative radiology.

[19]  R R Edelman,et al.  Pulmonary ventilation: dynamic MRI with inhalation of molecular oxygen. , 2001, European journal of radiology.

[20]  H. Kauczor,et al.  Assessment of a single‐acquisition imaging sequence for oxygen‐sensitive 3He‐MRI , 2002, Magnetic resonance in medicine.

[21]  Wei Li,et al.  Influence of oxygen flow rate on signal and T1 changes in oxygen‐enhanced ventilation imaging , 2002, Journal of magnetic resonance imaging : JMRI.

[22]  K. Suga,et al.  Regional Lung Functional Impairment in Acute Airway Obstruction and Pulmonary Embolic Dog Models Assessed With Gadolinium-Based Aerosol Ventilation and Perfusion Magnetic Resonance Imaging , 2002, Investigative radiology.

[23]  Dmitriy A Yablonskiy,et al.  Quantitative in vivo assessment of lung microstructure at the alveolar level with hyperpolarized 3He diffusion MRI , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[24]  K. Suga,et al.  Assessment of regional lung ventilation in dog lungs with Gd-DTPA aerosol ventilation MR imaging , 2002 .

[25]  Boyd M. Goodson Nuclear magnetic resonance of laser-polarized noble gases in molecules, materials, and organisms. , 2002 .

[26]  Eduard E de Lange,et al.  MRI of the lungs using hyperpolarized noble gases , 2002, Magnetic resonance in medicine.

[27]  Wei Li,et al.  Computing oxygen‐enhanced ventilation maps using correlation analysis , 2003, Magnetic resonance in medicine.

[28]  K. Suga,et al.  Assessment of regional lung function impairment in airway obstruction and pulmonary embolic dogs with combined noncontrast electrocardiogram‐gated perfusion and gadolinium diethylenetriaminepentaacetic acid aerosol magnetic resonance images , 2004, Journal of magnetic resonance imaging : JMRI.

[29]  H Benoit-Cattin,et al.  The SIMRI project: a versatile and interactive MRI simulator. , 2005, Journal of magnetic resonance.

[30]  Markus Barth,et al.  T1 mapping of the entire lung parenchyma: Influence of the respiratory phase in healthy individuals , 2005, Journal of magnetic resonance imaging : JMRI.

[31]  M. Paley,et al.  3D volume‐localized pO2 measurement in the human lung with 3He MRI , 2005, Magnetic resonance in medicine.

[32]  R. Günther,et al.  Feasibility of Pulmonary Ventilation Visualization With Aerosolized Magnetic Resonance Contrast Media , 2005, Investigative radiology.

[33]  Bernhard Geiger,et al.  Magnetic resonance lung function – a breakthrough for lung imaging and functional assessment? A phantom study and clinical trial , 2006, Respiratory research.

[34]  Laurence Vial,et al.  Phase‐contrast velocimetry with hyperpolarized 3He for in vitro and in vivo characterization of airflow , 2006, Magnetic resonance in medicine.

[35]  Aaron Fenster,et al.  Hyperpolarized 3He Ventilation Defects and Apparent Diffusion Coefficients in Chronic Obstructive Pulmonary Disease: Preliminary Results at 3.0 Tesla , 2007, Investigative radiology.

[36]  E. Haacke,et al.  Aerosol Delivery in Ventilated Newborn Pigs: An MRI Evaluation , 2008, Pediatric Research.

[37]  Yannick Crémillieux,et al.  Aerosols and gaseous contrast agents for magnetic resonance imaging of the lung. , 2008, Contrast media & molecular imaging.

[38]  Richard B Thompson,et al.  MRI measurement of regional lung deposition in mice exposed nose-only to nebulized superparamagnetic iron oxide nanoparticles. , 2008, Journal of aerosol medicine and pulmonary drug delivery.

[39]  Michael Deimling,et al.  Non‐contrast‐enhanced perfusion and ventilation assessment of the human lung by means of fourier decomposition in proton MRI , 2009, Magnetic resonance in medicine.

[40]  Dmitriy A Yablonskiy,et al.  Quantification of lung microstructure with hyperpolarized 3He diffusion MRI. , 2009, Journal of applied physiology.

[41]  D. McRobbie,et al.  In vivo-in vitro correlations: predicting pulmonary drug deposition from pharmaceutical aerosols. , 2010, Journal of aerosol medicine and pulmonary drug delivery.

[42]  I. Dmochowski,et al.  Functionalized 129Xe contrast agents for magnetic resonance imaging. , 2010, Current opinion in chemical biology.

[43]  E. Haacke,et al.  Effective aerosol delivery during high‐frequency ventilation in neonatal pigs , 2010, Respirology.

[44]  J. Fleming,et al.  Deposition, imaging, and clearance: what remains to be done? , 2010, Journal of aerosol medicine and pulmonary drug delivery.

[45]  G. Prisk,et al.  Lung perfusion measured using magnetic resonance imaging: New tools for physiological insights into the pulmonary circulation , 2010, Journal of magnetic resonance imaging : JMRI.

[46]  Yi Wang,et al.  Quantitative susceptibility map reconstruction from MR phase data using bayesian regularization: Validation and application to brain imaging , 2010, Magnetic resonance in medicine.

[47]  Andrew R. Martin,et al.  Pilot study of inhaled aerosols targeted via magnetic alignment of high aspect ratio particles in rabbits , 2011 .

[48]  W. W. Hansen,et al.  Nuclear Induction , 2011 .