Your search keyword '"de Lange, Eduard E."' showing total 8 results

1. Regional anisotropy of airspace orientation in the lung as assessed with hyperpolarized helium-3 diffusion MRI.

Author

Komlosi P, Altes TA, Qing K, Mooney KE, Miller GW, Mata JF, de Lange EE, Tobias WA, Cates GD Jr, Brookeman JR, and Mugler JP 3rd

Subjects

Adult, Anisotropy, Computer Simulation, Female, Humans, Isotopes, Magnetic Fields, Male, Radiopharmaceuticals, Reference Values, Reproducibility of Results, Sensitivity and Specificity, Contrast Media, Diffusion Magnetic Resonance Imaging methods, Helium, Image Interpretation, Computer-Assisted methods, Lung anatomy & histology, Models, Biological

Abstract

Purpose: To evaluate regional anisotropy of lung-airspace orientation by assessing the dependence of helium-3 ((3) He) apparent diffusion coefficient (ADC) values on the direction of diffusion sensitization at two field strengths., Materials and Methods: Hyperpolarized (3) He diffusion-weighted magnetic resonance imaging (MRI) of the lung was performed at 0.43T and 1.5T in 12 healthy volunteers. A gradient-echo pulse sequence was used with a bipolar diffusion-sensitization gradient applied separately along three orthogonal directions. ADC maps, median ADC values, and signal-to-noise ratios were calculated from the diffusion-weighted images. Two readers scored the ADC maps for increased values at lung margins, major fissures, or within focal central regions., Results: ADC values were found to depend on the direction of diffusion sensitization (P < 0.01, except for craniocaudal vs. anteroposterior directions at 1.5T) and were increased at the lateral and medial surfaces for left-right diffusion sensitization (12 of 12 subjects); at the apex and base (9 of 12), and along the major fissure (8 of 12), for craniocaudal diffusion sensitization; and at the most anterior and posterior lung (10 of 12) for anteroposterior diffusion sensitization. Median ADC values at 0.43T (0.201 ± 0.017, left-right; 0.193 ± 0.019, craniocaudal; and 0.187 ± 0.017 cm(2) /s, anteroposterior) were slightly lower than those at 1.5T (0.205 ± 0.017, 0.197 ± 0.017 and 0.194 ± 0.016 cm(2) /s, respectively; P < 0.05)., Conclusion: These findings indicate that diffusion-weighted hyperpolarized (3) He MRI can detect regional anisotropy of lung-airspace orientation, including that associated with preferential orientation of terminal airways near pleural surfaces., (© 2015 Wiley Periodicals, Inc.)

Published

2015

2. Pulmonary kinematics from tagged hyperpolarized helium-3 MRI.

Author

Tustison NJ, Awate SP, Cai J, Altes TA, Miller GW, de Lange EE, Mugler JP 3rd, and Gee JC

Subjects

Administration, Inhalation, Female, Humans, Isotopes administration & dosage, Male, Reproducibility of Results, Sensitivity and Specificity, Contrast Media administration & dosage, Helium administration & dosage, Lung pathology, Magnetic Resonance Imaging methods, Respiratory Function Tests methods

Abstract

Purpose: To propose and test the feasibility of a novel method for quantifying 3D regional pulmonary kinematics from hyperpolarized helium-3 tagged MRI in human subjects using a tailored image processing pipeline and a recently developed nonrigid registration framework., Materials and Methods: Following image acquisition, inspiratory and expiratory tagged (3)He magnetic resonance (MR) images were preprocessed using various image filtering techniques to enhance the tag surfaces. Segmentation of the three orthogonal sets of tag planes in each lung produced distinct point-set representations of the tag surfaces. Using these labeled point-sets, deformation fields and corresponding strain maps were obtained via nonrigid point-set registration. Kinematic analysis was performed on three volunteers., Results: Tag lines in inspiratory and expiratory images were coregistered producing a continuous 3D correspondence mapping. Average displacement and directional strains were calculated in three subjects in the inferior, mid, and superior portions of the right and left lungs. As expected, the predominant direction of displacements with expiration is from inferior to superior., Conclusion: Kinematic quantitation of pulmonary motion using tagged (3)He MRI is feasible using the applied image preprocessing filtering techniques and nonrigid point-set registration. Potential benefits from regional pulmonary kinematic quantitation include the facilitation of diagnosis and local assessment of disease progression., (Copyright 2010 Wiley-Liss, Inc.)

Published

2010

3. Direct measurement of lung motion using hyperpolarized helium-3 MR tagging.

Author

Cai J, Miller GW, Altes TA, Read PW, Benedict SH, de Lange EE, Cates GD, Brookeman JR, Mugler JP 3rd, and Sheng K

Subjects

Administration, Inhalation, Adult, Female, Humans, Image Enhancement methods, Isotopes administration & dosage, Lung anatomy & histology, Male, Radiopharmaceuticals administration & dosage, Sensitivity and Specificity, Contrast Media administration & dosage, Helium administration & dosage, Image Interpretation, Computer-Assisted methods, Lung physiology, Magnetic Resonance Imaging methods, Movement physiology, Respiratory Mechanics physiology

Abstract

Purpose: To measure lung motion between end-inhalation and end-exhalation using a hyperpolarized helium-3 (HP (3)He) magnetic resonance (MR) tagging technique., Methods and Materials: Three healthy volunteers underwent MR tagging studies after inhalation of 1 L HP (3)He gas diluted with nitrogen. Multiple-slice two-dimensional and volumetric three-dimensional MR tagged images of the lungs were obtained at end-inhalation and end-exhalation, and displacement vector maps were computed., Results: The grids of tag lines in the HP (3)He MR images were well defined at end-inhalation and remained evident at end-exhalation. Displacement vector maps clearly demonstrated the regional lung motion and deformation that occurred during exhalation. Discontinuity and differences in motion pattern between two adjacent lung lobes were readily resolved., Conclusions: Hyperpolarized helium-3 MR tagging technique can be used for direct in vivo measurement of respiratory lung motion on a regional basis. This technique may lend new insights into the regional pulmonary biomechanics and thus provide valuable information for the deformable registration of lung.

Published

2007

4. Ventilation imaging of the lung: comparison of hyperpolarized helium-3 MR imaging with Xe-133 scintigraphy.

Author

Altes TA, Rehm PK, Harrell F, Salerno M, Daniel TM, and De Lange EE

Subjects

Adolescent, Adult, Aged, Child, Humans, Isotopes, Lung Diseases diagnosis, Lung Diseases diagnostic imaging, Middle Aged, Radionuclide Imaging, Retrospective Studies, Contrast Media, Helium, Lung diagnostic imaging, Lung pathology, Magnetic Resonance Imaging, Ventilation-Perfusion Ratio, Xenon Radioisotopes

Abstract

Rationale and Objectives: To compare hyperpolarized helium-3 (HHe) magnetic resonance imaging (MRI) of the lung with standard Xe-133 lung ventilation scintigraphy., Materials and Methods: We performed a retrospective review of 15 subjects who underwent HHe MRI and Xe-133 lung ventilation imaging. Coronal MRI sections were acquired after a single inhalation of HHe gas, and standard posterior planar lung ventilation scintigraphy was performed during continuous breathing of Xe-133 gas. The first breath scintigram of each patient was compared with a composite MR image composed of the sum of the individual MR images and with the individual helium-3 MR images. Ventilation defects on the two imaging modalities were compared for size, conspicuity, and concordance in presence and location. Assessment was done separately for each of four lung quadrants., Results: Comparing the composite HHe MR images with Xe-133 scintigraphy, ventilation defect size, conspicuity and concordance were the same in 67% (40/60), 63% (38/60), and 62% (37/60) quadrants, respectively. Comparing the individual HHe MR image sections with the Xe-133 ventilation scan, there was concordance between the ventilation defects in 27% (16/60) of quadrants. More defects were identified on the individual HHe MR images in 62% (37/60) of quadrants., Conclusion: There was good agreement between composite HHe MR image and first breath Xe-133 scintigraphic images, supporting the widely held assumption that HHe MRI likely depicts first breath lung ventilation.

Published

2004

5. Hepatic MR imaging with ferumoxides: multicenter study of safety and effectiveness of direct injection protocol.

Author

Bluemke DA, Weber TM, Rubin D, de Lange EE, Semelka R, Redvanly RD, Chezmar J, Outwater E, Carlos R, Saini S, Holland GA, Mammone JF, Brown JJ, Milestone B, Javitt MC, and Jacobs P

Subjects

Adult, Aged, Aged, 80 and over, Contrast Media adverse effects, Dextrans, Female, Ferrosoferric Oxide, Humans, Infusions, Intravenous, Injections, Iron adverse effects, Magnetite Nanoparticles, Male, Middle Aged, Oxides adverse effects, Sensitivity and Specificity, Statistics, Nonparametric, Contrast Media administration & dosage, Iron administration & dosage, Liver Neoplasms diagnosis, Magnetic Resonance Imaging, Oxides administration & dosage

Abstract

Purpose: To compare the safety and effectiveness of an undiluted direct injection of ferumoxides with those of a diluted slow infusion of ferumoxides during 30 minutes in patients with known liver lesions or in those suspected of having them., Materials and Methods: Two hundred thirty-three patients at 16 institutions were randomized to receive either an undiluted direct injection of 0.56 mg of iron per kilogram of body weight of ferumoxides administered during 2 minutes (2 mL/min) or a diluted slow infusion administered during 30 minutes. Safety was assessed with monitoring for adverse events and laboratory tests. For sensitivity, specificity, and accuracy analysis, two independent blinded observers identified and classified lesions as benign or malignant with precontrast images and with pre- and postcontrast images combined., Results: There was no statistically significant difference in adverse events in the group with direct injection compared with those in the group with infusion (21 [18%] of 114 patients vs 19 [17%] of 112 patients, respectively). No serious adverse events were observed. The most common adverse events in the group with direct injection versus the group with infusion were headache (five [4%] of 114 vs three [3%] of 112, respectively) and back pain (five [4%] of 114 vs three [3%] of 112, respectively). Overall, in 68 (62%) of 109 patients with direct injection and 71 (66%) of 108 patients with infusion, additional magnetic resonance (MR) imaging information was obtained after ferumoxides administration (P =.67). Sensitivity, specificity, and accuracy for the diagnosis of malignancy were significantly improved by adding images obtained after ferumoxides administration to the images obtained before contrast agent administration (P <.05 for all comparisons)., Conclusion: Direct injection of ferumoxides has safety and effectiveness profiles similar to those of slow infusion of the agent. Further findings indicate that the addition of ferumoxides increases the sensitivity and specificity of hepatic MR evaluation when compared with unenhanced MR imaging., (Copyright RSNA, 2003.)

Published

2003

6. Rapid hyperpolarized 3He diffusion MRI of healthy and emphysematous human lungs using an optimized interleaved-spiral pulse sequence.

Author

Salerno M, Altes TA, Brookeman JR, de Lange EE, and Mugler JP 3rd

Subjects

Adult, Aged, Female, Humans, Image Processing, Computer-Assisted, Lung pathology, Male, Middle Aged, Models, Theoretical, Contrast Media, Emphysema diagnosis, Helium, Lung anatomy & histology, Magnetic Resonance Imaging methods

Abstract

Purpose: To develop and validate an interleaved-spiral diffusion pulse sequence capable of hyperpolarized (3)He MR imaging of the whole lung in less than 10 seconds., Materials and Methods: Hyperpolarized (3)He diffusion measurements were performed in seven healthy volunteers and five patients with emphysema using an interleaved-spiral pulse sequence that provided 11 contiguous 15-mm thick coronal ADC maps, with an in-plane resolution of 3.9 mm, covering the whole lung in 5.5 seconds. The resulting means and SDs of ADC values were compared statistically to those from a gradient-echo pulse sequence with identical resolution and diffusion-weighting gradients that acquired five ADC maps in 10.5 seconds., Results: High-quality diffusion-weighted interleaved-spiral images covering the whole lung were obtained, and showed no significant susceptibility-induced image degradation compared to corresponding gradient-echo images. On a subject-by-subject basis, the means and SDs of ADC values for the interleaved-spiral technique were not statistically different from those for the gradient-echo technique. The mean ADC values from the two techniques were highly correlated on a section-by-section basis (R = 0.99)., Conclusion: The interleaved-spiral diffusion pulse sequence permits rapid acquisition of contiguous ADC maps covering the whole lung during a short breath-hold period, and provides ADC values that are statistically equivalent to those from standard gradient-echo techniques., (Copyright 2003 Wiley-Liss, Inc.)

Published

2003

7. Regional Anisotropy of Airspace Orientation in the Lung as Assessed with Hyperpolarized Helium-3 Diffusion MRI

Author

Komlosi, Peter, Altes, Talissa A., Qing, Kun, Mooney, Karen E., Miller, G. Wilson, Mata, Jaime F., de Lange, Eduard E., Tobias, William A., Cates, Gordon D., Brookeman, James R., and Mugler, John P.

Subjects

Adult, Male, Contrast Media, Reproducibility of Results, Helium, Models, Biological, Sensitivity and Specificity, Article, Diffusion Magnetic Resonance Imaging, Magnetic Fields, Isotopes, Reference Values, Image Interpretation, Computer-Assisted, Anisotropy, Humans, Computer Simulation, Female, Radiopharmaceuticals, Lung

Abstract

To evaluate regional anisotropy of lung-airspace orientation by assessing the dependence of helium-3 ((3) He) apparent diffusion coefficient (ADC) values on the direction of diffusion sensitization at two field strengths.Hyperpolarized (3) He diffusion-weighted magnetic resonance imaging (MRI) of the lung was performed at 0.43T and 1.5T in 12 healthy volunteers. A gradient-echo pulse sequence was used with a bipolar diffusion-sensitization gradient applied separately along three orthogonal directions. ADC maps, median ADC values, and signal-to-noise ratios were calculated from the diffusion-weighted images. Two readers scored the ADC maps for increased values at lung margins, major fissures, or within focal central regions.ADC values were found to depend on the direction of diffusion sensitization (P0.01, except for craniocaudal vs. anteroposterior directions at 1.5T) and were increased at the lateral and medial surfaces for left-right diffusion sensitization (12 of 12 subjects); at the apex and base (9 of 12), and along the major fissure (8 of 12), for craniocaudal diffusion sensitization; and at the most anterior and posterior lung (10 of 12) for anteroposterior diffusion sensitization. Median ADC values at 0.43T (0.201 ± 0.017, left-right; 0.193 ± 0.019, craniocaudal; and 0.187 ± 0.017 cm(2) /s, anteroposterior) were slightly lower than those at 1.5T (0.205 ± 0.017, 0.197 ± 0.017 and 0.194 ± 0.016 cm(2) /s, respectively; P0.05).These findings indicate that diffusion-weighted hyperpolarized (3) He MRI can detect regional anisotropy of lung-airspace orientation, including that associated with preferential orientation of terminal airways near pleural surfaces.

Published

2015

8. Merging Parametric Active Contours Within Homogeneous Image Regions for MRI-Based Lung Segmentation.

Author

Ray, Nilanjay, Acton, Scott T., Altes, Talissa, de Lange, Eduard E., and Brookeman, James R.

Subjects

MAGNETIC resonance, CONTRAST media, HELIUM, LUNG disease diagnosis

Abstract

Inhaled hyperpolarized helium-3 (³He) gas is a new magnetic resonance (MR) contrast agent that is being used to study lung functionality. To evaluate the total lung ventilation from the hyperpolarized ³He MR images, it is necessary to segment the lung cavities. This is difficult to accomplish using only the hyperpolarized ³He MR images, so traditional proton (¹H) MR images are frequently obtained concurrent with the hyperpolarized ³He MR examination. Segmentation of the lung cavities from traditional proton (¹H) MRI is a necessary first step in the analysis of hyperpolarized ³He MR images. In this paper, we develop an active contour model that provides a smooth boundary and accurately captures the high curvature features of the lung cavities from the ¹H MR images. This segmentation method is the first parametric active contour model that facilitates straightforward merging of multiple contours. The proposed method of merging computes an external force field that is based on the solution of partial differential equations with boundary condition defined by the initial positions of the evolving contours. A theoretical connection with fluid flow in porous media and the proposed force field is established. Then by using the properties of fluid flow we prove that the proposed method indeed achieves merging and the contours stop at the object boundary as well. Experimental results involving merging in synthetic images are provided. The segmentation technique has been employed in lung ¹H MR imaging for segmenting the total lung air space. This technology plays a key role in computing the functional air space from MR images that use hyperpolarized ³He gas as a contrast agent. [ABSTRACT FROM AUTHOR]

Published

2003