Quantification of Diaphragm Mechanics in Pompe Disease Using Dynamic 3D MRI

Diaphragm weakness is the main reason for respiratory dysfunction in patients with Pompe disease, a progressive metabolic myopathy affecting respiratory and limb-girdle muscles. Since respiratory failure is the major cause of death among adult patients, early identification of respiratory muscle inv...

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Veröffentlicht in:	PloS one 2016-07, Vol.11 (7), p.e0158912-e0158912
Hauptverfasser:	Mogalle, Katja, Perez-Rovira, Adria, Ciet, Pierluigi, Wens, Stephan C A, van Doorn, Pieter A, Tiddens, Harm A W M, van der Ploeg, Ans T, de Bruijne, Marleen
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Schlagworte:	Adult Aged Biology and Life Sciences Breathing Care and treatment Complications and side effects Damage prevention Data processing Departments Development and progression Diaphragm Diaphragm (anatomy) Diaphragm - diagnostic imaging Diaphragm - physiopathology Disease Feature extraction Female Geometry Glycogen Storage Disease Type II - diagnostic imaging Glycogen Storage Disease Type II - physiopathology Glycogen storage diseases Health informatics Humans Image analysis Image detection Image processing Image registration Imaging, Three-Dimensional - methods Kinematics Lungs Magnetic resonance imaging Magnetic Resonance Imaging - methods Male Mechanics (physics) Medical imaging Medical treatment Medicine Medicine and Health Sciences Metabolic disorders Middle Aged Motion perception Movement Muscles Myopathy NMR Nuclear magnetic resonance Patients Pediatrics Pulmonary functions Radiology Research and Analysis Methods Respiration Respiratory function Respiratory Mechanics Respiratory system Thorax Three dimensional imaging
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description	Diaphragm weakness is the main reason for respiratory dysfunction in patients with Pompe disease, a progressive metabolic myopathy affecting respiratory and limb-girdle muscles. Since respiratory failure is the major cause of death among adult patients, early identification of respiratory muscle involvement is necessary to initiate treatment in time and possibly prevent irreversible damage. In this paper we investigate the suitability of dynamic MR imaging in combination with state-of-the-art image analysis methods to assess respiratory muscle weakness. The proposed methodology relies on image registration and lung surface extraction to quantify lung kinematics during breathing. This allows for the extraction of geometry and motion features of the lung that characterize the independent contribution of the diaphragm and the thoracic muscles to the respiratory cycle. Results in 16 3D+t MRI scans (10 Pompe patients and 6 controls) of a slow expiratory maneuver show that kinematic analysis from dynamic 3D images reveals important additional information about diaphragm mechanics and respiratory muscle involvement when compared to conventional pulmonary function tests. Pompe patients with severely reduced pulmonary function showed severe diaphragm weakness presented by minimal motion of the diaphragm. In patients with moderately reduced pulmonary function, cranial displacement of posterior diaphragm parts was reduced and the diaphragm dome was oriented more horizontally at full inspiration compared to healthy controls. Dynamic 3D MRI provides data for analyzing the contribution of both diaphragm and thoracic muscles independently. The proposed image analysis method has the potential to detect less severe diaphragm weakness and could thus be used to determine the optimal start of treatment in adult patients with Pompe disease in prospect of increased treatment response.
doi_str_mv	10.1371/journal.pone.0158912
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Results in 16 3D+t MRI scans (10 Pompe patients and 6 controls) of a slow expiratory maneuver show that kinematic analysis from dynamic 3D images reveals important additional information about diaphragm mechanics and respiratory muscle involvement when compared to conventional pulmonary function tests. Pompe patients with severely reduced pulmonary function showed severe diaphragm weakness presented by minimal motion of the diaphragm. In patients with moderately reduced pulmonary function, cranial displacement of posterior diaphragm parts was reduced and the diaphragm dome was oriented more horizontally at full inspiration compared to healthy controls. Dynamic 3D MRI provides data for analyzing the contribution of both diaphragm and thoracic muscles independently. 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T</au><au>de Bruijne, Marleen</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Quantification of Diaphragm Mechanics in Pompe Disease Using Dynamic 3D MRI</atitle><jtitle>PloS one</jtitle><addtitle>PLoS One</addtitle><date>2016-07-08</date><risdate>2016</risdate><volume>11</volume><issue>7</issue><spage>e0158912</spage><epage>e0158912</epage><pages>e0158912-e0158912</pages><issn>1932-6203</issn><eissn>1932-6203</eissn><abstract>Diaphragm weakness is the main reason for respiratory dysfunction in patients with Pompe disease, a progressive metabolic myopathy affecting respiratory and limb-girdle muscles. 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Results in 16 3D+t MRI scans (10 Pompe patients and 6 controls) of a slow expiratory maneuver show that kinematic analysis from dynamic 3D images reveals important additional information about diaphragm mechanics and respiratory muscle involvement when compared to conventional pulmonary function tests. Pompe patients with severely reduced pulmonary function showed severe diaphragm weakness presented by minimal motion of the diaphragm. In patients with moderately reduced pulmonary function, cranial displacement of posterior diaphragm parts was reduced and the diaphragm dome was oriented more horizontally at full inspiration compared to healthy controls. Dynamic 3D MRI provides data for analyzing the contribution of both diaphragm and thoracic muscles independently. 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subjects	Adult Aged Biology and Life Sciences Breathing Care and treatment Complications and side effects Damage prevention Data processing Departments Development and progression Diaphragm Diaphragm (anatomy) Diaphragm - diagnostic imaging Diaphragm - physiopathology Disease Feature extraction Female Geometry Glycogen Storage Disease Type II - diagnostic imaging Glycogen Storage Disease Type II - physiopathology Glycogen storage diseases Health informatics Humans Image analysis Image detection Image processing Image registration Imaging, Three-Dimensional - methods Kinematics Lungs Magnetic resonance imaging Magnetic Resonance Imaging - methods Male Mechanics (physics) Medical imaging Medical treatment Medicine Medicine and Health Sciences Metabolic disorders Middle Aged Motion perception Movement Muscles Myopathy NMR Nuclear magnetic resonance Patients Pediatrics Pulmonary functions Radiology Research and Analysis Methods Respiration Respiratory function Respiratory Mechanics Respiratory system Thorax Three dimensional imaging
title	Quantification of Diaphragm Mechanics in Pompe Disease Using Dynamic 3D MRI
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