Comparison of Pulsatile and Nonpulsatile Perfusion of the Lung in an Extracorporeal Large Animal Model

Brandes, Harald; Albes, Johannes M.; Conzelmann, A.; Wehrmann, Martin; Ziemer, Gerhard

doi:10.1159/000063067

Cited by 34 publications

(30 citation statements)

References 16 publications

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“…(15)(16)(17)(18)(19) (20)(21)(22). However, past attempts at prolonged machine preservation have largely failed due to inability to maintain the integrity and normal barrier functions of the vasculature and epithelial beds leading to progressive deterioration in vascular flow and the concurrent development of edema (23)(24)(25). We have recently demonstrated successful application of an acellular EVLP technique in maintaining lung viability ex vivo for an extended period of time (26).…”

Section: The Shortage Of Healthy Lungs For Transplantation Demands Opmentioning

confidence: 99%

Normothermic Ex Vivo Perfusion Prevents Lung Injury Compared to Extended Cold Preservation for Transplantation

Cypel

Rubacha

Yeung

et al. 2009

American Journal of Transplantation

233

164

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Treatment of injured donor lungs ex vivo to accelerate organ recovery and ameliorate reperfusion injury could have a major impact in lung transplantation.We have recently demonstrated a feasible technique for prolonged (12 h) normothermic ex vivo lung perfusion (EVLP). This study was performed to examine the impact of prolonged EVLP on ischemic injury. Pig donor lungs were cold preserved in Perfadex R for 12 h and subsequently divided into two groups: cold static preservation (CSP) or EVLP at 37• C with Steen TM solution for a further 12 h (total 24 h preservation). Lungs were then transplanted and reperfused for 4 h. EVLP preservation resulted in significantly better lung oxygenation (PaO 2 531 ± 43 vs. 244 ± 49 mmHg, p < 0.01) and lower edema formation rates after transplantation. Alveolar epithelial cell tight junction integrity, evaluated by zona occludens-1 protein staining, was disrupted in the cell membranes after prolonged CSP but not after EVLP. The maintenance of integrity of barrier function during EVLP translates into significant attenuation of reperfusion injury and improved graft performance after transplantation. Integrity of functional metabolic pathways during normothermic perfusion was confirmed by effective gene transfer and GFP protein synthesis by lung alveolar cells. In conclusion, EVLP prevents ongoing injury associated with prolonged ischemia and accelerates lung recovery.

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Section: The Shortage Of Healthy Lungs For Transplantation Demands Opmentioning

confidence: 99%

Normothermic Ex Vivo Perfusion Prevents Lung Injury Compared to Extended Cold Preservation for Transplantation

Cypel

Rubacha

Yeung

et al. 2009

American Journal of Transplantation

233

164

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“…[7][8][9][10][11][12] However, success with prolonged EVLP has been elusive and deterioration of lung function in the circuit has been the hallmark of the procedure. [13][14][15] Rather than focusing on short-term EVLP solely for evaluation of donor lungs, we have adapted the technique to provide an improved strategy for protective donor lung maintenance. The primary objective of this study was to develop a reliable and reproducible technique of EVLP and to confirm excellent lung performance during 12-hour EVLP and after transplantation.…”

mentioning

confidence: 99%

Technique for Prolonged Normothermic Ex Vivo Lung Perfusion

Cypel

Yeung

Hirayama

et al. 2008

The Journal of Heart and Lung Transplantation

460

417

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“…Experimental animal models are intrinsically limited; although, analogous experiments would be very difficult to perform clinically. In terms of model selection, both canines and pigs tolerate such procedures well; however, the structure of lung tissues, distribution of pulmonary segments and vasculature morphology of canines are more similar to humans, 27 and canines are more cost effective. Compared with rats and rabbits, the vasculature of canines and pigs are thicker, which is better suited for interventional procedures.…”

Section: Discussionmentioning

confidence: 99%

Lung ischaemia–reperfusion injury in a canine model: dual-energy CT findings with pathophysiological correlation

Lü

Xu²,

Zhang³

et al. 2014

BJR

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both contributed equally to this article.Objective: To evaluate dual-energy CT (DECT) findings of pulmonary ischaemic-reperfusion injury (PIRI) and its pathophysiological correlation in the canine model. Methods: A PIRI model was established in 11 canines, utilizing closed pectoral balloon occlusion. Two control canines were also included. For the PIRI model, the left pulmonary artery was occluded with a balloon, which was deflated and removed after 2 h. DECT was performed before, during occlusion and at 2, 3 and 4 h thereafter and was utilized to construct pulmonary perfusion maps. Immediately after the CT scan at the fourth hour post reperfusion, the canines were sacrificed, and lung specimens were harvested for pathological analysis. CT findings, pulmonary artery pressure and blood gas results were then analysed. Results: Data at every time point were available for 10 animals (experimental group, n 5 8; control group, n 5 2).Quantitative measurements from DECT pulmonary perfusion maps found iodine attenuation values of the left lung to be the lowest at 2 h post embolization and the highest at 1 h post reperfusion. In the contralateral lung, perfusion values also peaked at 1 h post reperfusion. Continuous hypoxia and acid-based disorders were observed during PIRI, and comprehensive analysis showed physiological changes to be worst at 3 h post reperfusion. Conclusion: DECT pulmonary perfusion mapping demonstrated pulmonary perfusion of the bilateral lungs to be the greatest at 1 h post reperfusion. These CT findings corresponded with pathophysiological changes. Advances in knowledge: DECT pulmonary perfusion mapping can be used to evaluate lung ischaemiareperfusion injury.Ischaemia-reperfusion injury (IRI) occurs under a variety of clinical conditions, including lung and/or cardiac transplantation, cardiopulmonary bypass, pulmonary resection, re-expansion pulmonary oedema, shock, cardiopulmonary resuscitation and pulmonary embolism.1-3 Pulmonary embolism is a common cause of pulmonary IRI (PIRI), and the incidence of pulmonary embolism is increasing 4,5 with a mortality rate of up to 30%. 6 With timely identification and treatment of pulmonary embolism, mortality rates can be reduced to ,10%.7 However, reperfusion after treatment for lung ischaemia can also cause serious complications, such as haemorrhage and pulmonary oedema.8 Therefore, it is important to understand both the pathophysiological and imaging appearances of pulmonary IRI. Lung transplantation is also a common cause for PIRI following pulmonary arterial occlusion. Currently, the incidence of PIRI following transplantation is estimated at up to 25%. Post transplantation, PIRI can lead to insufficiency of the primary lung graft, delayed graft function, acute or chronic rejection (e.g. pulmonary oedema and acute respiratory failure), and increased early post-operative mortality and graft failure. 9,10 CT is currently the predominant modality for the imaging assessment of thoracic disorders, including PIRI. Dual-energy CT (DECT) allows simultaneous ac...

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Comparison of Pulsatile and Nonpulsatile Perfusion of the Lung in an Extracorporeal Large Animal Model

Cited by 34 publications

References 16 publications

Normothermic Ex Vivo Perfusion Prevents Lung Injury Compared to Extended Cold Preservation for Transplantation

Normothermic Ex Vivo Perfusion Prevents Lung Injury Compared to Extended Cold Preservation for Transplantation

Technique for Prolonged Normothermic Ex Vivo Lung Perfusion

Lung ischaemia–reperfusion injury in a canine model: dual-energy CT findings with pathophysiological correlation

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