Literature DB >> 18601546

In vivo optical coherence tomography detection of differences in regional large airway smoke inhalation induced injury in a rabbit model.

Matthew Brenner1, Kelly Kreuter, Johnny Ju, Sari Mahon, Lillian Tseng, David Mukai, Tanya Burney, Shuguang Guo, Jianping Su, Andrew Tran, Andriy Batchinsky, Leopoldo C Cancio, Navneet Narula, Zhongping Chen.   

Abstract

Smoke inhalation injury causes acute airway injury that may result in airway compromise with significant morbidity and mortality. We investigate the ability of high resolution endobronchial optical coherence tomography (OCT) to obtain real-time images for quantitatively assessing regional differences between upper tracheal versus lower tracheal and bronchial airway injury responses to smoke inhalation in vivo using a prototype spectral domain (SLD)-OCT system we constructed, and flexible fiber optic probes. 33 New Zealand White rabbits are intubated and mechanically ventilated. The treatment groups are exposed to inhaled smoke. The OCT probe is introduced through the endotracheal tube and maintained in place for 5 to 6 h. Images of airway mucosa and submucosa are obtained at baseline and at specified intervals postexposure. Starting within less than 15 min after smoke inhalation, there is significant airway thickening in the smoke-exposed animals. This is maintained over 5 h of imaging studies. The lower tracheal airway changes, correlating closely with carboxyhemoglobin levels, are much greater than upper tracheal changes. Significant differences are seen in lower trachea and bronchi after acute smoke inhalation compared to upper trachea as measured in vivo by minimally invasive OCT. OCT is capable of quantitatively detecting regional changes in airway swelling following inhalation injury.

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Year:  2008        PMID: 18601546      PMCID: PMC2778034          DOI: 10.1117/1.2939400

Source DB:  PubMed          Journal:  J Biomed Opt        ISSN: 1083-3668            Impact factor:   3.170


  26 in total

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3.  Inhalation injury: pathophysiology and clinical care proceedings of a symposium conducted at the Trauma Institute of San Antonio, San Antonio, TX, USA on 28 March 2006.

Authors:  Leopoldo C Cancio; Andriy I Batchinsky; Michael A Dubick; Myung S Park; Ian H Black; Rubén Gómez; Jeffrey A Faulkner; Travis J Pfannenstiel; Steven E Wolf
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4.  Efficacy of fiberoptic laryngoscopy in the diagnosis of inhalation injuries.

Authors:  T Muehlberger; D Kunar; A Munster; M Couch
Journal:  Arch Otolaryngol Head Neck Surg       Date:  1998-09

Review 5.  The pathophysiology of inhalation injury--a review.

Authors:  D L Traber; H A Linares; D N Herndon; T Prien
Journal:  Burns Incl Therm Inj       Date:  1988-10

6.  Pulmonary responses to smoke inhalation: morphologic changes in rabbits exposed to pine wood smoke.

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8.  Detection of acute smoke-induced airway injury in a New Zealand white rabbit model using optical coherence tomography.

Authors:  Matthew Brenner; Kelly Kreuter; David Mukai; Tanya Burney; Shuguang Guo; Jianping Su; Sari Mahon; Andrew Tran; Lillian Tseng; Johnny Ju; Zhongping Chen
Journal:  J Biomed Opt       Date:  2007 Sep-Oct       Impact factor: 3.170

9.  Fiberoptic bronchoscopy for the early diagnosis of subglottal inhalation injury: comparative value in the assessment of prognosis.

Authors:  M J Masanes; C Legendre; N Lioret; D Maillard; R Saizy; B Lebeau
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10.  Dose dependence and time course of smoke inhalation injury in a rabbit model.

Authors:  A Bidani; H K Hawkins; C Z Wang; T A Heming
Journal:  Lung       Date:  1999       Impact factor: 2.584
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  13 in total

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Authors:  Randy Hou; Tho Le; Septimiu D Murgu; Zhongping Chen; Matt Brenner
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3.  Prophylactic sequential bronchoscopy after inhalation injury: results from a three-year prospective randomized trial.

Authors:  J A Carr; N Crowley
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4.  Automatic airway wall segmentation and thickness measurement for long-range optical coherence tomography images.

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6.  In vivo detection of inhalation injury in large airway using three-dimensional long-range swept-source optical coherence tomography.

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7.  In vivo early detection of smoke-induced airway injury using three-dimensional swept-source optical coherence tomography.

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Journal:  J Biomed Opt       Date:  2009 Nov-Dec       Impact factor: 3.170

8.  In vivo three-dimensional imaging of normal tissue and tumors in the rabbit pleural cavity using endoscopic swept source optical coherence tomography with thoracoscopic guidance.

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9.  Detection and monitoring of early airway injury effects of half-mustard (2-chloroethylethylsulfide) exposure using high-resolution optical coherence tomography.

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10.  Quantification of airway thickness changes in smoke-inhalation injury using in-vivo 3-D endoscopic frequency-domain optical coherence tomography.

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Journal:  Biomed Opt Express       Date:  2011-01-05       Impact factor: 3.732
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