Visualization of neonatal lung injury associated with mechanical ventilation using x-ray dark-field radiography

被引：35

作者：

Yaroshenko, Andre ^{[1
,2
]}

Pritzke, Tina ^{[3
]}

Koschlig, Markus ^{[3
]}

Kamgari, Nona ^{[3
]}

Willer, Konstantin ^{[1
,2
]}

Gromann, Lukas ^{[1
,2
]}

Auweter, Sigrid ^{[4
]}

Hellbach, Katharina ^{[4
]}

Reiser, Maximilian ^{[4
]}

Eickelberg, Oliver ^{[3
]}

Pfeiffer, Franz ^{[1
,2
]}

Hilgendorff, Anne ^{[3
,5
]}

机构：

[1] Tech Univ Munich, Dept Phys, Lehrstuhl Biomed Phys, Garching, Germany

[2] Tech Univ Munich, Inst Med Tech, Garching, Germany

[3] Helmholtz Zentrum Muenchen, Comprehens Pneumol Ctr, Munich, Germany

[4] Ludwig Maximilians Univ Hosp Munich, Inst Clin Radiol, Munich, Germany

[5] Univ Munich, Dept Neonatol, Perinatal Ctr, Dr von Haunersches Childrens Hosp, Munich, Germany

来源：

SCIENTIFIC REPORTS | 2016年 / 6卷

基金：

欧洲研究理事会;

关键词：

PHASE-CONTRAST; BRONCHOPULMONARY DYSPLASIA; PRETERM INFANTS; DIAGNOSIS; CT; MAMMOGRAPHY; DISEASE;

D O I：

10.1038/srep24269

中图分类号：

O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];

学科分类号：

07 ; 0710 ; 09 ;

摘要：

Mechanical ventilation (MV) and supplementation of oxygen-enriched gas, often needed in postnatal resuscitation procedures, are known to be main risk factors for impaired pulmonary development in the preterm and term neonates. Unfortunately, current imaging modalities lack in sensitivity for the detection of early stage lung injury. The present study reports a new imaging approach for diagnosis and staging of early lung injury induced by MV and hyperoxia in neonatal mice. The imaging method is based on the Talbot-Lau x-ray grating interferometry that makes it possible to quantify the x-ray small-angle scattering on the air-tissue interfaces. This so-called dark-field signal revealed increasing loss of x-ray small-angle scattering when comparing images of neonatal mice undergoing hyperoxia and MV-O-2 with animals kept at room air. The changes in the dark field correlated well with histologic findings and provided superior differentiation than conventional x-ray imaging and lung function testing. The results suggest that x-ray dark-field radiography is a sensitive tool for assessing structural changes in the developing lung. In the future, with further technical developments x-ray dark-field imaging could be an important tool for earlier diagnosis and sensitive monitoring of lung injury in neonates requiring postnatal oxygen or ventilator therapy.

引用

页数：8

共 50 条

[21] Early detection of radiation-induced lung damage with X-ray dark-field radiography in mice
Rico Burkhardt
Thomas Gora
Alexander A. Fingerle
Andreas P. Sauter
Felix Meurer
Stephan Umkehrer
Maximilian von Teuffenbach
Severin Kampfer
Daniela Schilling
Annette Feuchtinger
Axel K. Walch
Ernst Rummeny
Stephanie E. Combs
Thomas E. Schmid
Franz Pfeiffer
Jan J. Wilkens
Julia Herzen
European Radiology, 2021, 31 : 4175 - 4183
[22] Dark-field X-ray ptychography
Suzuki, Akihiro
Takahashi, Yukio
OPTICS EXPRESS, 2015, 23 (12): : 16429 - 16438
[23] Improved In vivo Assessment of Pulmonary Fibrosis in Mice using X-Ray Dark-Field Radiography
Yaroshenko, Andre
Hellbach, Katharina
Yildirim, Ali Oender
Conlon, Thomas M.
Fernandez, Isis Enlil
Bech, Martin
Velroyen, Astrid
Meinel, Felix G.
Auweter, Sigrid
Reiser, Maximilian
Eickelberg, Oliver
Pfeiffer, Franz
SCIENTIFIC REPORTS, 2015, 5
[24] Early detection of radiation-induced lung damage with X-ray dark-field radiography in mice
Burkhardt, Rico
Gora, Thomas
Fingerle, Alexander A.
Sauter, Andreas P.
Meurer, Felix
Umkehrer, Stephan
von Teuffenbach, Maximilian
Kampfer, Severin
Schilling, Daniela
Feuchtinger, Annette
Walch, Axel K.
Rummeny, Ernst
Combs, Stephanie E.
Schmid, Thomas E.
Pfeiffer, Franz
Wilkens, Jan J.
Herzen, Julia
EUROPEAN RADIOLOGY, 2021, 31 (06) : 4175 - 4183
[25] Observing the setting and hardening of cementitious materials by X-ray dark-field radiography
Prade, F.
Chabior, M.
Malm, F.
Grosse, C. U.
Pfeiffer, F.
CEMENT AND CONCRETE RESEARCH, 2015, 74 : 19 - 25
[26] Improved In vivo Assessment of Pulmonary Fibrosis in Mice using X-Ray Dark-Field Radiography
Andre Yaroshenko
Katharina Hellbach
Ali Önder Yildirim
Thomas M. Conlon
Isis Enlil Fernandez
Martin Bech
Astrid Velroyen
Felix G. Meinel
Sigrid Auweter
Maximilian Reiser
Oliver Eickelberg
Franz Pfeiffer
Scientific Reports, 5
[27] Whole-body x-ray dark-field radiography of a human cadaver
Andrejewski, Jana
De Marco, Fabio
Willer, Konstantin
Noichl, Wolfgang
Gustschin, Alex
Koehler, Thomas
Meyer, Pascal
Kriner, Fabian
Fischer, Florian
Braun, Christian
Fingerle, Alexander A.
Herzen, Julia
Pfeiffer, Franz
Pfeiffer, Daniela
EUROPEAN RADIOLOGY EXPERIMENTAL, 2021, 5 (01)
[28] First experience with x-ray dark-field radiography for human chest imaging
Noel, Peter B.
Willer, Konstantin
Fingerle, Alexander A.
Gromann, Lukas B.
De Marco, Fabio
Scherer, Kai H.
Herzen, Julia
Achterhold, Klaus
Gleich, Bernhard
Munzel, Daniela
Renz, Martin
Renger, Bernhard C.
Fischer, Florian
Braun, Christian
Auweter, Sigrid
Hellbach, Katharina
Reiser, Maximilian F.
Schroter, Tobias
Mohr, Jurgen
Yaroshenko, Andre
Maack, Hanns-Ingo
Pralow, Thomas
Van der Heijden, Hendrik
Proksa, Roland
Kohler, Thomas
Wieberneit, Nataly
Rindt, Karsten
Rummeny, Ernst J.
Pfeiffer, Franz
MEDICAL IMAGING 2017: PHYSICS OF MEDICAL IMAGING, 2017, 10132
[29] Whole-body x-ray dark-field radiography of a human cadaver
Jana Andrejewski
Fabio De Marco
Konstantin Willer
Wolfgang Noichl
Alex Gustschin
Thomas Koehler
Pascal Meyer
Fabian Kriner
Florian Fischer
Christian Braun
Alexander A. Fingerle
Julia Herzen
Franz Pfeiffer
Daniela Pfeiffer
European Radiology Experimental, 5
[30] Non-invasive Differentiation of Kidney Stone Types using X-ray Dark-Field Radiography
Scherer, Kai
Braig, Eva
Willer, Konstantin
Willner, Marian
Fingerle, Alexander A.
Chabior, Michael
Herzen, Julia
Eiber, Matthias
Haller, Bernhard
Straub, Michael
Schneider, Heike
Rummeny, Ernst J.
Noel, Peter B.
Pfeiffer, Franz
SCIENTIFIC REPORTS, 2015, 5

← 1 2 3 4 5 →