Regional Pulmonary Function Studied With Xenon133*

Ball, Wilmot C.; Stewart, Paul; Newsham, L. G. S.; Bates, David V.

doi:10.1172/jci104505

Cited by 367 publications

(139 citation statements)

References 13 publications

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“…Errors will be introduced by the process of coalescing the spatially localized information into a global index for comparison with spirometry. In clinical practice, radionuclide ventilation scintigraphy is the only means of assessing regional dynamic ventilation (22,23). However, it has poor temporal resolution and involves the use of radioactive substances, albeit with low radiation exposure for the patient.…”

Section: Discussionmentioning

confidence: 99%

Quantitative analysis of regional airways obstruction using dynamic hyperpolarized ³He MRI—Preliminary results in children with cystic fibrosis

Koumellis

Beek

Woodhouse

et al. 2005

Magnetic Resonance Imaging

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Purpose: To investigate regional airways obstruction in patients with cystic fibrosis (CF) with quantitative analysis of dynamic hyperpolarized (HP) 3 He MRI. Materials and Methods:Dynamic radial projection MRI of HP 3 He gas was used to study respiratory dynamics in a group of eight children with CF. Signal kinetics in a total of seven regions of interest (ROIs; three in each lung, and one in the trachea) were compared with the results of spirometric pulmonary function tests (PFTs). The tracheal signal intensity was used as a form of "input function" to normalize for input flow effects.Results: A pattern of low flow rate in the upper lobes was observed. When the flow measurements from the peripheral ROIs were averaged to obtain an index of flow in the peripheral lung, a good correlation was found (P ϭ 3.74 ϫ 10 -5 ) with the forced expired volume in one second (FEV1). Conclusion:These results suggest that a quantitative measurement of localized airways obstruction in the early stages of CF may be obtained from dynamic 3 He MRI by using the slope of the signal rise as a measure of air flow into the peripheral lung. This study also demonstrates that children can cooperate well with the 3 He MRI technique.

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Section: Discussionmentioning

confidence: 99%

Quantitative analysis of regional airways obstruction using dynamic hyperpolarized ³He MRI—Preliminary results in children with cystic fibrosis

Koumellis

Beek

Woodhouse

et al. 2005

Magnetic Resonance Imaging

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“…Invasive techniques, including the retrograde catheter (4,5), alveolar capsule (6), and implanted radiopaque markers (7), added greatly to our understanding of regional lung function but obviously could not be applied in human disease. The use of noninvasive imaging methods, initially with lowresolution planar detectors and radioactive tracer gases (8) and then by tomographic methods of increasing resolution and volumetric data acquisition (9-13) (again, enhanced by coupling to models of distributed lung function [14]), now provides an unprecedented capability for understanding regional lung mechanical function in general as well as in individual patients.…”

mentioning

confidence: 99%

Computed Tomography Studies of Lung Mechanics

Simon

Christensen²,

Low³

et al. 2005

Proceedings of the American Thoracic Society

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The study of lung mechanics has progressed from global descriptions of lung pressure and volume relationships to the highresolution, three-dimensional, quantitative measurement of dynamic regional mechanical properties and displacements. X-ray computed tomography (CT) imaging is ideally suited to the study of regional lung mechanics in intact subjects because of its high spatial and temporal resolution, correlation of functional data with anatomic detail, increasing volumetric data acquisition, and the unique relationship between CT density and lung air content. This review presents an overview of CT measurement principles and limitations for the study of regional mechanics, reviews some of the early work that set the stage for modern imaging approaches and impacted the understanding and management of patients with acute lung injury, and presents evolving novel approaches for the analysis and application of dynamic volumetric lung image data. Keywords: computed tomography; mathematical modeling; physiologyThe phenomena covered by the word "respiration" are very diverse. When a person is seen to breathe, what is observed is a movement of the chest and abdomen by which air is alternately drawn into his lungs and again expelled. This constitutes the mechanical aspect of respiration.-August Krogh, 1941 In the 60-odd years since A. Krogh (1) opened his treatise on the comparative physiology of respiration with these words, an enormous amount of work has explored the relationship between lung expansion or deformation and the forces that drive such changes. Most recently, advances in imaging techniques have extended the study of lung mechanical behavior to the regional level, and currently evolving technologies permit the threedimensional characterization of dynamic lung volume changes in intact subjects. X-ray computed tomography (CT), because of its speed, widespread availability, high-resolution anatomic visualization, and unique ability to quantify regional air and tissue volumes, provides a particularly powerful tool for the noninvasive measurement of lung mechanics in experimental models as well as human subjects. This review presents relevant CT measurement principles for regional mechanics, presents examples of static and dynamic approaches to lung mechanics, and emphasizes some exciting and promising new high-resolution, vol-

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“…Attempts have been made to quantify regional ventilation both directly and indirectly with a variety of invasive techniques or radioisotope imaging (87)(88)(89)(90)(91)(92)(93)(94)(95)(96), but these methods have been limited by invasiveness, poor spatial and temporal resolution, qualitative nature, and/or complexity. Xenon-enhanced MDCT (Xe-MDCT) is a method for the non-invasive measurement of regional pulmonary ventilation, determined from the wash-in and/or wash-out rates of the radiodense, non-radioactive gas xenon as measured in serially acquired, axial MDCT scans.…”

Section: Ventilation Assessed By Ctmentioning

confidence: 99%

Functional Imaging: CT and MRI

Beek

Hoffman

2008

Clinics in Chest Medicine

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Synopsis-Numerous imaging techniques permit evaluation of regional pulmonary function. Contrast-enhanced CT methods now allow assessment of vasculature and lung perfusion. Techniques using spirometric controlled MDCT allow for quantification of presence and distribution of parenchymal and airway pathology, Xenon gas can be employed to assess regional ventilation of the lungs and rapid bolus injections of iodinated contrast agent can provide quantitative measure of regional parenchymal perfusion. Advances in magnetic resonance imaging (MRI) of the lung include gadolinium-enhanced perfusion imaging and hyperpolarized helium imaging, which can allow imaging of pulmonary ventilation and .measurement of the size of emphysematous spaces.

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Regional Pulmonary Function Studied With Xenon133*

Cited by 367 publications

References 13 publications

Quantitative analysis of regional airways obstruction using dynamic hyperpolarized ³He MRI—Preliminary results in children with cystic fibrosis

Quantitative analysis of regional airways obstruction using dynamic hyperpolarized ³He MRI—Preliminary results in children with cystic fibrosis

Computed Tomography Studies of Lung Mechanics

Functional Imaging: CT and MRI

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Regional Pulmonary Function Studied With Xenon133*

Cited by 367 publications

References 13 publications

Quantitative analysis of regional airways obstruction using dynamic hyperpolarized 3He MRI—Preliminary results in children with cystic fibrosis

Quantitative analysis of regional airways obstruction using dynamic hyperpolarized 3He MRI—Preliminary results in children with cystic fibrosis

Computed Tomography Studies of Lung Mechanics

Functional Imaging: CT and MRI

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Product

Resources

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Quantitative analysis of regional airways obstruction using dynamic hyperpolarized ³He MRI—Preliminary results in children with cystic fibrosis

Quantitative analysis of regional airways obstruction using dynamic hyperpolarized ³He MRI—Preliminary results in children with cystic fibrosis