Pulmonary reimplantation response

CCR5 drives NK cell-associated airway damage in pulmonary ischemia-reperfusion injury

Primary graft dysfunction (PGD) limits clinical benefit after lung transplantation, a life-prolonging therapy for patients with end-stage disease. PGD is the clinical syndrome resulting from pulmonary ischemia-reperfusion injury (IRI), driven by innate immune inflammation. We recently demonstrated a key role for NK cells in the airways of mouse models and human tissue samples of IRI. Here, we used 2 mouse models paired with human lung transplant samples to investigate the mechanisms whereby NK cells migrate to the airways to mediate lung injury. We demonstrate that chemokine receptor ligand transcripts and proteins are increased in mouse and human disease. CCR5 ligand transcripts were correlated with NK cell gene signatures independently of NK cell CCR5 ligand secretion. NK cells expressing CCR5 were increased in the lung and airways during IRI and had increased markers of tissue residency and maturation. Allosteric CCR5 drug blockade reduced the migration of NK cells to the site of injury. CCR5 blockade also blunted quantitative measures of experimental IRI. Additionally, in human lung transplant bronchoalveolar lavage samples, we found that CCR5 ligand was associated with increased patient morbidity and that the CCR5 receptor was increased in expression on human NK cells following PGD. These data support a potential mechanism for NK cell migration during lung injury and identify a plausible preventative treatment for PGD.

Natural killer cells activated through NKG2D mediate lung ischemia-reperfusion injury

Pulmonary ischemia-reperfusion injury (IRI) is a clinical syndrome of acute lung injury that occurs after lung transplantation or remote organ ischemia. IRI causes early mortality and has no effective therapies. While NK cells are innate lymphocytes capable of recognizing injured cells, their roles in acute lung injury are incompletely understood. Here, we demonstrated that NK cells were increased in frequency and cytotoxicity in 2 different IRI mouse models. We showed that NK cells trafficked to the lung tissue from peripheral reservoirs and were more mature within lung tissue. Acute lung ischemia-reperfusion injury was blunted in a NK cell-deficient mouse strain but restored with adoptive transfer of NK cells. Mechanistically, NK cell NKG2D receptor ligands were induced on lung endothelial and epithelial cells following IRI, and antibody-mediated NK cell depletion or NKG2D stress receptor blockade abrogated acute lung injury. In human lung tissue, NK cells were increased at sites of ischemia-reperfusion injury and activated NK cells were increased in prospectively collected human bronchoalveolar lavage in subjects with severe IRI. These data support a causal role for recipient peripheral NK cells in pulmonary IRI via NK cell NKG2D receptor ligation. Therapies targeting NK cells may hold promise in acute lung injury.

Postoperative management of lung transplant recipients

Despite advances in surgical technique, lung transplantation is associated with worse survival when compared with other solid organ transplantations. Graft dysfunction and infection are the leading causes of mortality in the first 30 days following transplantation. Primary graft dysfunction (PGD) is a form of reperfusion injury that occurs early after transplantation. Management of PGD is mainly supportive with use of lung protective ventilation. Inhaled nitric oxide (iNO) and extracorporeal membrane oxygenation may be used in severe cases. Bacterial pneumonias are the most common infectious complication in the immediate post transplant period, but invasive fungal infections may also occur. Other potential complications in the postoperative period include atrial arrhythmias and neurologic complications such as stroke. There is a lack of multicenter, randomized trials to guide ventilation strategies, infection prophylaxis, and treatment of atrial arrhythmias, therefore prevention and management of post-transplant complications vary by transplant center.

Pleural catheter placement and intrapleural fibrinolysis following lung transplantation

BACKGROUND

This study aimed to investigate the characteristics of lung transplant recipients requiring additional pleural drainage catheters early post-lung transplantation and to determine the safety and efficacy of intrapleural fibrinolytics in these patients.

METHODS

A retrospective review of lung transplant recipients at a single center was performed. Patient and transplant characteristics, placement of pleural drainage catheters within 90 days of transplant, and use of intrapleural fibrinolytics were determined.

RESULTS

Out of 128 patients who underwent lung transplantation, 54 patients required 86 additional chest tubes, the majority of which were size 14 French or smaller. Pleural effusion was the most common indication for tube placement. Patients who required additional chest tubes were more likely to have chronic obstructive pulmonary disease than those who did not. Use of intrapleural fibrinolytics led to radiographic improvement in 77.8% of patients and was not associated with bleeding, pneumothorax, or mortality within 30 days.

CONCLUSIONS

Use of small-bore chest tubes and intrapleural fibrinolytics can be safe and effective in lung transplant recipients with persistent pleural effusions.

Animal models of acute lung injury

Acute lung injury in humans is characterized histopathologically by neutrophilic alveolitis, injury of the alveolar epithelium and endothelium, hyaline membrane formation, and microvascular thrombi. Different animal models of experimental lung injury have been used to investigate mechanisms of lung injury. Most are based on reproducing in animals known risk factors for ARDS, such as sepsis, lipid embolism secondary to bone fracture, acid aspiration, ischemia-reperfusion of pulmonary or distal vascular beds, and other clinical risks. However, none of these models fully reproduces the features of human lung injury. The goal of this review is to summarize the strengths and weaknesses of existing models of lung injury. We review the specific features of human ARDS that should be modeled in experimental lung injury and then discuss specific characteristics of animal species that may affect the pulmonary host response to noxious stimuli. We emphasize those models of lung injury that are based on reproducing risk factors for human ARDS in animals and discuss the advantages and disadvantages of each model and the extent to which each model reproduces human ARDS. The present review will help guide investigators in the design and interpretation of animal studies of acute lung injury.

Pulmonary Complications of Transplantation: Radiographic Considerations

The aim of this article is to clarify radiographic definitions associated with common parenchymal patterns encountered in the transplant population and to discuss the most common pathologic causes responsible for each pattern. The article also touches on radiographic findings signifying complications of other intrathoracic structures, including the airways, pleural space, and mediastinum.

Acute and chronic pleural complications in lung transplantation

BACKGROUND

Lung transplant recipients may have pleural complications. However, the influence of these complications on the prognosis is not well known.

METHODS

We analyzed pleural complications and clinical and radiologic data from 100 patients who underwent lung transplantation in a general hospital in a 9-year period. Pre-operative evaluation, surgical protocol, immunosuppressive regimen, and follow-up were carried out systematically. Chest computerized tomography (CT) was performed at 3 and 12 months after transplantation.

RESULTS

All patients had early post-operative pleural effusion ipsilateral to the graft, which required drainage for a mean of 19.3 days (range, 5-52 days). Thirty-four patients had 43 acute pleural complications: 15 hemothoraxes, 10 persistent air leaks, 8 pneumothoraxes, 7 transient air leaks, and 3 empyemas. Multivariate analysis showed hemothorax and persistent air leak were associated with increased post-operative mortality (p = 0.024, p = 0.011, respectively). Post-operative mortality was not associated with any pre-transplant variable. Chest CT findings at 3 months revealed > or =1 pleural alteration in 58 of 70 patients (83%): 34 post-operative residual ipsilateral pleural effusions; 36 pleural thickenings; and 3 residual pneumothoraxes, 1 with a coexisting bronchial dehiscence. Chest CT at 12 months showed pleural alterations in 50 of 58 patients (86%): pleural thickening in 48, calcification in 4, and residual pleural effusion in 4.

CONCLUSIONS

Pleural complications are common in lung transplant recipients. Hemothorax and persistent air leak are associated with increased post-operative mortality. Chest CT showed pleural alterations in most patients 12 months after transplantation.

Clinical risk factors for primary graft failure following lung transplantation

STUDY OBJECTIVE

s: Primary graft failure (PGF) is a devastating acute lung injury syndrome following lung transplantation. We sought to identify donor, recipient, and operative risk factors for its development.

DESIGN

We conducted a cohort study of 255 consecutive lung transplant procedures performed between October 1991 and July 2000. We defined PGF as follows: (1) diffuse alveolar opacities exclusively involving allograft(s) and developing within 72 h of transplant, (2) a ratio of PaO(2) to fraction of inspired oxygen < 200 beyond 48 h postoperatively, and (3) no other secondary cause of graft dysfunction identified. Risk factors were assessed individually and adjusted for confounding using multivariable logistic regression models.

SETTING

Tertiary-care academic medical center.

RESULTS

The overall incidence was 11.8% (95% confidence interval [CI], 7.9 to 15.9). Following multivariable analysis, the risk factors independently associated with development of PGF were as follows: a recipient diagnosis of primary pulmonary hypertension (PPH; adjusted odds ratio [OR], 4.52; 95% CI, 1.29 to 15.9; p = 0.018), donor female gender (adjusted OR, 4.11; 95% CI, 1.17 to 14.4; p = 0.027), donor African-American race (adjusted OR, 5.56; 95% CI, 1.57 to 19.8; p = 0.008), and donor age < 21 years (adjusted OR, 4.06; 95% CI, 1.34 to 12.3; p = 0.013) and > 45 years (adjusted OR, 6.79; 95% CI, 1.61 to 28.5; p = 0.009).

CONCLUSIONS

Recipient diagnosis of PPH, donor African-American race, donor female gender, and donor age are independently and strongly associated with development of PGF.

Pleural effusions in lung transplant recipients: image-guided small-bore catheter drainage

PURPOSE

To assess the efficacy of treating pleural effusions in lung transplant recipients with small-bore catheter drainage.

MATERIALS AND METHODS

Chest radiographs and computed tomographic (CT) scans obtained in 31 lung transplant recipients who had pleural effusions treated with catheter drainage were retrospectively reviewed. Duration of drainage and volume of fluid drained were recorded. Results were evaluated 1 and 3 months after chest tube removal. There was complete response (CR) when no pleural fluid remained, partial response (PR) when fluid remaining was less than the pretreatment level, and no response (NR) when fluid recurred to a level at or above the pretreatment level. Associations between cause of effusion (empyema, parapneumonic effusion, rejection, other), response (CR, PR, NR), and type of transplantation (unilateral, bilateral) were examined by using chi2 tests.

RESULTS

Of 31 patients, 25 had bilateral effusions; eight of these 25 patients had small-bore catheters inserted bilaterally. Nine patients had multiple sequential catheter insertions. Duration of drainage ranged from 2 to 44 days (median, 6 days). Fluid output was 110-9,726 mL (median, 1,350 mL). One-month follow-up data were available for 31 of 39 treated pleural effusions: 11 (35%) had CR, 18 (58%) had PR, and two (6%) had NR (percentages do not add up to 100% due to rounding). Three-month follow-up data were available for 28 of 39 treated effusions: 22 (79%) had CR, five (18%) had PR, and one (4%) had NR (percentages do not add up to 100% due to rounding). One- and 3-month response rates, respectively, were not related to cause of effusion (P =.82 and.535) or type of transplantation (P =.568 and >.999).

CONCLUSION

Small-bore catheter drainage of persistent pleural effusions in lung transplant recipients is usually successful, but drainage is often prolonged and may require multiple catheter placements.

Late postoperative pleural effusion following lung transplantation: characteristics and clinical implications

OBJECTIVE

Pleural effusions are extremely common in the early postoperative period after lung transplantation (LTX). It occurs in all transplant recipients, and like pleural fluid following other cardiothoracic surgery is bloody, exudative and neutrophil predominant. There was no information, however, on the characteristics of the late (14-45 days) postoperative pleural fluid after LTX. The purpose of this study was to describe the characteristics and the clinical implications of late postoperative pleural effusion after LTX.

METHODS

Thirty-five patients underwent TX between May 1997 and May 2001. Seven patients (20%) developed late postoperative pleural effusion. Thoracentesis were performed in these patients and the white blood cell counts, cell differential as well as biochemical parameters were determined.

RESULTS

The median time for late pleural effusion appearance was 23 days (range, 14-34 days) after TX. The pleural effusions were medium in size (700 ml, range, 100-1300), exudative in all the patients and had lymphocyte predominance. No evidence of fluid recurrence or clinical deterioration was noted in these patients.

CONCLUSION

Late-onset exudative lymphocytic pleural effusion after LTX is not uncommon. When there is no evidence of rejection or infection, it usually has a benign, favorable outcome.

FR167653 ameliorates pulmonary damage in ischemia-reperfusion injury in a canine lung transplantation model

BACKGROUND

Interleukin (IL)-1 and tumor necrosis factor-alpha (TNF-alpha) are recognized as important factors in ischemia-reperfusion (I/R) injury. FR167653 has been characterized as a potent suppressant of IL-1 and TNF-alpha production. We previously reported that FR167653 suppressed the expression of IL-1 beta mRNA after reperfusion and ameliorated pulmonary I/R injury following 3-hour left lung warm ischemia in dogs. The aim of this study was to investigate the effects of FR167653 on I/R injury in a canine left, single, lung transplantation model.

METHODS

We used 10 pairs of weight-matched dogs. We assigned 5 pairs to the FR group, in which each animal received FR167653 (1 mg/kg/hr) IV from 30 minutes before ischemia until 2 hours after reperfusion; we treated the transplanted lungs with FR167653 after the onset of reperfusion. The others were assigned to the control group. After 8-hour preservation with 4 degrees C Euro-Collins solution, orthotopic left, single, lung transplantation was performed. During a 5-minute clamping test at the right pulmonary artery of each recipient, the left (transplanted) pulmonary arterial pressure (L-PAP), left (transplanted) pulmonary vascular resistance (L-PVR), arterial oxygen pressure (PaO(2)), and alveolar-arterial oxygen pressure difference (A-aDO(2)) were measured. We harvested transplanted lung specimens for histologic study, and we counted polymorphonuclear neutrophils (PMNs), which were identified by staining with naphthol AS-D cholroacetate esterase. Pulmonary perfusion and ventilation scintigraphy (Tc-99m-MAA and Xe-133) were performed. We observed the animals for 3 days after transplantation.

RESULTS

The PAP, L-PVR, PaO(2), and A-aDO(2) revealed significantly (p < 0.05) better function in the FR group than in the control group. Histologically, lung edema was milder, and PMN infiltration was significantly (p < 0.05) lower in the FR group than in the control group. Xe-133 and Tc-99m-MAA were widely distributed throughout the graft lung in the FR group. Three-day survival rates in FR and control groups were 60% and 20%, respectively.

CONCLUSIONS

FR167653 appears to generate a protective effect on I/R injury in lung transplantation in dogs.

Lung deflation impairs alveolar epithelial fluid transport in ischemic rabbit and rat lungs

BACKGROUND

Because the fluid transport capacity of the alveolar epithelium after lung ischemia with and without lung deflation has not been well studied, we carried out experimental studies to determine the effect of lung deflation on alveolar fluid clearance.

METHODS

After 1 or 2 hr of ischemia, we measured alveolar fluid clearance using 125I-albumin and Evans blue-labeled albumin concentrations in in vivo rabbit lungs in the presence of pulmonary blood flow and in ex vivo rat lungs in the absence of any pulmonary perfusion, respectively.

RESULTS

The principal results were: (1) lung deflation decreased alveolar fluid clearance while inflation of the lungs during ischemia preserved alveolar fluid clearance in both in vivo and ex vivo studies; (2) alveolar fluid clearance was normal in the rat lungs inflated with nitrogen (thus, alveolar gas composition did not affect alveolar fluid clearance); (3) amiloride-dependent alveolar fluid clearance was preserved when the lungs were inflated during ischemia; (4) terbutaline-simulated alveolar fluid clearance was preserved in the hypoxic rat lungs inflated with nitrogen; (5) lecithinized superoxide dismutase, a scavenger of superoxide anion, and N(omega)-nitro-L-arginine methyl ester, an inhibitor of nitric oxide, preserved normal alveolar fluid clearance in the deflated rat lungs.

CONCLUSION

Lung deflation decreases alveolar fluid clearance by superoxide anion- and nitric oxide-dependent mechanisms.

Effects of gabexate mesilate (FOY) on ischemia-reperfusion-induced acute lung injury in dogs

BACKGROUND

To assess the effects of gabexate mesilate (FOY), a protease inhibitor, on a canine model of pulmonary ischemia-reperfusion injury. FOY has been applied clinically to treat acute pancreatitis and disseminated intravascular coagulation (DIC) and has been found to suppress some leukocyte-mediated tissue injuries in both in vitro and in vivo studies.

MATERIALS AND METHODS

DESIGN

Comparison of four experimental groups: group 1 (untreated control, n = 8), unilateral (left) pulmonary ischemia due to perfusion and ventilation obstruction followed by reperfusion, without receiving any specific treatment; group 2 (negative control, sham operation, n = 8), left pulmonary hilar dissection without ischemia; group 3 (FOY posttreatment, n = 8), FOY treatment during the reperfusion stage only; and group 4 (FOY pretreatment, n = 8), FOY treatment before ischemia and then continued during reperfusion.

SETTING

University animal laboratory.

SUBJECTS

Heart-worm-free mongrel dogs (12 to 15 kg body wt) were anesthetized with pentobarbital and mechanically ventilated.

INVESTIGATIONS

Lung ischemia was made by snaring the left pulmonary artery and veins and clamping the bronchus with peribronchial tissue for 90 min followed by reperfusion for 18 h. Animals of the two treatment groups received a 1 mg/kg bolus of FOY at the beginning of reperfusion, with infusion of 2 mg/kg/h of FOY continuously starting 30 min before ischemia (group 4) or after reperfusion (group 3). During this study the following were measured: hemodynamics and aerodynamics, blood gas, bronchoalveolar lavage (BAL) fluid neutrophil percentage and protein concentration, lung wet to dry weight ratio (W/D ratio), myeloperoxidase (MPO) activity of the lung tissue, alveolar neutrophil infiltration, and degree of injury.

RESULTS

This model of lung ischemia-reperfusion induced significant pulmonary hypertension, increased pulmonary vascular resistance, decreased pulmonary dynamic compliance and arterial hypoxemia, increased BAL fluid total protein amount and neutrophil percentage, and increased alveolar neutrophil infiltration, histological injury score, and lung tissue MPO assay (group 1). Animals of the sham operation (negative control, group 2) showed only minimal changes in the above parameters. Treatment with FOY significantly attenuated the injury by decreasing the lung W/D ratio, alveolar neutrophil infiltration, histological injury score, lung tissue MPO assay, BAL fluid neutrophil percentage, and protein amount. Pretreatment with FOY (group 4) attenuated the injury to a significantly greater degree than it did when administered at the reperfusion stage only (group 3), which was reflected by the above-mentioned parameters, and as well significantly improved gas exchange function. FOY treatment was found to have little effect in altering hemodynamics and aerodynamics at most time points in this model of lung injury.

CONCLUSIONS

FOY can attenuate the ischemia-reperfusion-induced acute lung injury in dogs by ameliorating the degree of alveolar membrane permeability change, neutrophil aggregation, and activation. FOY treatment starting before ischemia attenuated this injury to a significantly higher degree than its use after ischemia. However, the effect of FOY may be partial because it cannot alter the hemodynamics or aerodynamics as prominently as other parameters in this type of lung injury. Concomitant use of FOY with other agents will have additive or synergic effects in preventing lung ischemia-reperfusion injury.

Imaging of lung transplantation

Lung transplantation is an accepted treatment for a large number of end-stage pulmonary diseases. There are several complications that pertain specifically to lung transplant recipients, including airway ischemia, reperfusion edema, infections, acute rejection, obliterative bronchiolitis, and other postoperative problems relating to surgical technique and immuno-suppressive therapy. Imaging procedures play an important role in the diagnosis and management of these problems.

Acute pulmonary edema after lung transplantation: the pulmonary reimplantation response

BACKGROUND

Although the development of noncardiogenic pulmonary edema or pulmonary reimplantation response (PRR) after lung transplantation has been well described, the incidence has not been established and the relationship of PRR to clinical risk factors has not been analyzed.

STUDY OBJECTIVES

(1) To describe the incidence of PRR in lung transplant recipients, (2) to identify the predictors of PRR, (3) to examine the correlation of suspected predictors with the severity of PRR, and (4) to evaluate the impact of PRR on morbidity and mortality of lung transplant recipients.

DESIGN

Retrospective review of clinical records and radiographic studies.

SETTING

Tertiary care referral center.

PATIENTS

Ninety-nine consecutive patients with end-stage lung disease undergoing lung transplantation between February 1990 and October 1995.

METHODS

Review of clinical records and postoperative chest radiographs of all lung transplant recipients to identify patients who experienced PRR. Chest radiographs of patients with PRR were graded for severity on a scale of 0 (none) to 5 (very severe). Demographic, pre- and perioperative factors were also evaluated along with short- and long-term survival of patients with PRR.

RESULTS

Fifty-six of 99 lung transplant recipients (57%) experienced PRR. The median ischemia time of patients with and without PRR was 168 and 180 min, respectively (p = 0.62). The incidence of PRR was 51% in patients without preoperative pulmonary hypertension, 78% in mild to moderate pulmonary hypertension, and 58% in patients with severe pulmonary hypertension (p = 0.10). Incidence and severity of PRR was similar in patients receiving right, left, or double-lung transplantation. Similarly, age and sex of the recipients and underlying lung disease did not affect the incidence or severity of PRR. The incidence and severity of PRR was higher in patients undergoing cardiopulmonary bypass during lung transplantation. Patients with PRR had prolonged duration of mechanical ventilation and ICU stay. Overall, PRR did not affect the survival of the patients. However, survival of female lung transplant recipients was significantly better than male recipients (median survival, 60 vs 21 months; p = 0.02).

CONCLUSIONS

Acute pulmonary edema or PRR occurs frequently (57%) after lung transplantation. In this series, PRR was not associated with a prolonged ischemia time, preoperative pulmonary hypertension, the type of lung transplant, underlying lung disease, or age or sex of recipients. However, use of cardiopulmonary bypass during surgery was associated with increased incidence and severity of PRR. Also, the development of PRR resulted in prolonged mechanical ventilation and a longer ICU stay, but did not affect survival. Female lung transplant recipients survived significantly longer than male recipients. The reason for this difference in survival is unclear.

Twenty-four-hour preservation in gamma-hydroxybutyrate improves lung function in a canine single-lung allotransplantation

BACKGROUND

We investigated the effect of gamma-hydroxybutyrate (GHB) when added to the low-potassium University of Wisconsin (LPUW) solution used for the preservation of canine lung for 24 hr. We also examined the effect of pretreatment of donor and recipient dogs with GHB on lung function after transplantation.

METHODS

Two groups were investigated. In the LPUW group, donor lungs were flushed with LPUW solution without GHB. In the GHB group, donor and recipient dogs were pretreated with GHB, and donor lungs were flushed with LPUW containing GHB.

RESULTS

Posttransplant graft function was best in the GHB group. At 1 hr after reperfusion, PaO2 in the GHB group (475.7+/-96.2 mmHg) was significantly higher than in the LPUW group (188.3+/-102.7 mmHg, P<0.05). Furthermore, the use of GHB resulted in a significant increase in lung compliance (28.3+/-6.5 ml/cm H2O) compared with LPUW group (21.5+/-2.8 ml/cm H2O).

CONCLUSIONS

Our results suggest that GHB is potentially useful for functional improvement of hypothermically preserved canine lung allografts after reperfusion.

Pulmonary artery occlusion and reperfusion causes microvascular constriction in the rabbit lung

INTRODUCTION

Reperfusion injury of the lung after ischemia is associated with altered alveolar blood flow and ventilation-perfusion mismatch, which is a significant cause of morbidity and mortality after lung transplantation. We examined the effect of ischemia and reperfusion on the tone of individual subpleural arterioles in the pulmonary circulation by using video microscopy with polarized epiillumination.

METHODS

In 11 open-chested rabbits anesthetized with pentobarbital (2.3 to 2.5 kg), we ventilated the lungs through the lower trachea (air or 50% oxygen) and examined the response of subpleural arterioles (diameter 75 +/- 13 microm) to ischemia (76 +/- 32 min) of the right lung caused by occluding the right main pulmonary artery. Observations were made during baseline, occlusion, and during early (20 to 32 min) and late (48 to 63 min) reperfusion using a long working distance lens (550x) with a dipping cone held at the pleural surface while the lungs were statically inflated (10 cm H2O) with oxygen for brief periods. Data are expressed as mean +/- standard deviation.

RESULTS

Arteriolar diameter was decreased 57% +/- 19% during early reperfusion. There was a decrease in blood flow and alveolar walls were pale, indicating reduced capillary perfusion. During late reperfusion, arteriolar diameter was diminished (19% +/- 26%); flow was still reduced. Overall pulmonary vascular resistance increased during early reperfusion but returned to baseline level during late reperfusion. Arterial partial pressure of oxygen averaged 200 mm Hg during ischemia and reperfusion.

CONCLUSIONS

Constriction of small arterioles by ischemia and reperfusion can have a significant effect on the early phase of ventilation-perfusion mismatch and pulmonary dysfunction by altering alveolar perfusion. This response does not appear to be mediated by hypoxia because it was not prevented by ventilation with oxygen.

The correlation of the radiologic extent of lung transplantation edema with pulmonary oxygenation

OBJECTIVE

The study set out to evaluate the relationship between the efficiency of pulmonary oxygenation and the extent of the reimplantation response as revealed on chest radiography after bilateral lung transplantation.

MATERIALS AND METHODS

Postoperative chest radiographs of 31 patients who had undergone bilateral lung transplantation were evaluated for the extent of the reimplantation response. For each patient, the contemporaneous oxygenation indexes (partial pressure of oxygen in arterial blood divided by fraction of inspired oxygen) were calculated and correlated with a radiographic score produced from the evaluation of chest radiographs.

RESULTS

The method of evaluating chest radiographs for the extent of the reimplantation response was shown to be reproducible. Although mean oxygenation indexes were found to decrease with increasing radiographic scores, this trend was not statistically significant.

CONCLUSION

Although the extent of the reimplantation response on the early postoperative chest radiography inversely correlated with the oxygenation efficiency of the transplanted lungs, this finding was not statistically significant.

Primary graft failure following lung transplantation

STUDY OBJECTIVES

To determine the incidence of primary graft failure (PGF) following lung transplantation, assess possible risk factors, and characterize its effect on outcomes.

METHODS

Retrospective review of 100 consecutive patients undergoing lung transplantation at the University of Pennsylvania Medical Center. Fifteen patients meeting diagnostic criteria for PGF (PGF+ group) were compared with 85 patients without this complication (PGF- group).

RESULTS

The incidence of PGF was 15%. There was no significant difference in age, sex, underlying pulmonary disease, preoperative pulmonary artery systolic pressure, type of transplant, allograft ischemic times, use of cardiopulmonary bypass, or use of postoperative prostaglandin E1 infusion between the PGF+ and PGF- groups. Induction therapy with antilymphocyte globulin was used less frequently in the PGF+ group (p<0.005). Duration of mechanical ventilatory support was 36+/-43 days vs 4+/-6 days for the PGF+ and PGF- groups, respectively (p<0.0001). Hospital stay was significantly longer in the PGF+ group, averaging 75+/-105 days, compared with 27+/-38 days in the PGF group (p<0.005). One-year actuarial survival for the PGF+ group was only 40% compared with 69% for the PGF- group (p<0.005). Five of the six PGF+ survivors were ambulatory by 1 year; three were completely independent while two continued to require assistance with activities of daily living. Six-minute walk test distance among the ambulatory patients averaged 883+/-463 feet (range, 200 to 1,223 feet) compared with 1513+/-424 feet for the PGF- group (p<0.005). Among the subset of survivors who underwent single lung transplantation for COPD, the mean percent predicted FEV1 at 1 year was 43% for the PGF+ group and 55% for the PGF- groups, but this difference was not statistically significant.

CONCLUSIONS

PGF is a devastating postoperative complication, occurring in 15% of patients in the current series, and it is associated with a high mortality rate, lengthy hospitalization, and protracted and often compromised recovery among survivors.

Preoperative and postoperative imaging in the surgical management of pulmonary emphysema

For patients with emphysema, imaging studies have been useful for diagnostic purposes and for preoperative patient selection for surgical intervention, such as bullectomy, lung transplantation, and LVRS. Chest radiography is useful in evaluating hyperinflation. Inspiratory and expiratory films are used to estimate diaphragmatic excursion and air-trapping. CT scan is used to evaluate the anatomy and distribution of emphysema throughout the lungs, providing information clinically unobtainable by other means. Both imaging techniques are useful for detecting other disease processes. Radionuclide lung scanning also provides an estimate of target areas, volume occupying but nonfunctioning lung. Cohort studies utilizing these imaging techniques have demonstrated associations between preoperative characteristics and postoperative outcome. The imaging studies, especially the chest radiograph, have also played an important role in postoperative management. Many other imaging options are available, such as HRCT scan, quantitative CT scan, and single photon emission CT scan. Other techniques, such as MR imaging, may play a future role as well.

Origin of pleural cells after lung transplantation: from donor or recipient?

We evaluated the change in the percentage of cells of donor origin in pleural fluid of 13 consecutive patients who underwent lung transplantation. Pleural fluid was sampled 2, 4, and 8 days after lung transplantation. DNA, which was extracted from the blood of donors and recipients and from the pleural fluid, was amplified using a polymerase chain reaction technique. The reaction products were electrophoresed, and bands indicating amplified human leukocyte antigen (HLA)-DR alleles were quantified by determining the area under the curve (AUC) by a densitometric analysis. HLA-DR alleles, which were present only in recipient cells (recipient allele), were analyzed and compared to HLA-DR alleles that were present only in donor cells (donor allele). A dilution study was first performed to provide a standard curve relating the percentage of donor and recipient cells in a mixture to their AUC. The AUC of the recipient alleles did not change significantly over the first 8 postoperative days. The AUC of the donor alleles was less on postoperative days 4 and 8 than on day 2 (p<0.05). The donor allele AUC on day 8 was <20% of the shared allele AUC, corresponding to <1% of all cells by the dilution study. We conclude that donor cells are rapidly cleared from the pleural space after lung transplantation, with <1% of cells of donor origin by postoperative day 8.

Contralateral lung injury associated with single-lung ischemia-reperfusion injury

BACKGROUND

There have been very few studies on the effect of single-lung ischemia-reperfusion on the function of the contralateral lung. This study was designed to clarify the effect.

METHODS

Fifteen mongrel dogs were divided into two groups. In group 1 (n = 7), the left lung was subjected to ischemia without ventilation for 90 minutes, and then reperfused. In group II (n = 8), the lung was not subjected to ischemia, and was ventilated during the 90-minute ischemia of group I. Arterial blood gas, hemodynamics, extravascular lung water, and airway pressure were measured. Pulmonary biopsy was performed to evaluate adenine nucleotide levels. The protein concentration and phosphorous concentration of phospholipids in bronchoalveolar lavage fluid were measured.

RESULTS

Group I, with perfusion and ventilation of the right lung alone, was significantly inferior to group II with respect to arterial blood gas, right pulmonary compliance, extravascular lung water of the right lung, and the protein concentration in the bronchoalveolar lavage fluid of the right lung after the 90-minute period.

CONCLUSIONS

These results indicate that 90 minutes of warm ischemia and reperfusion of the left lung caused deterioration of not only the left but also contralateral right pulmonary function.

Inhaled nitric oxide reduces human lung allograft dysfunction

OBJECTIVE

Early severe graft dysfunction, as manifested by hypoxia and pulmonary hypertension, occurs in 10% to 20% of lung transplant recipients. We retrospectively investigated whether inhaled nitric oxide would reduce human lung allograft dysfunction by comparing postoperative hemodynamic data, gas exchange, and outcome in lung transplant recipients with early graft dysfunction treated with or without nitric oxide.

METHOD

Among 243 adult lung transplant procedures, there were 32 patients (13.2%) in whom immediate severe allograft dysfunction developed (arterial oxygen tension/inspired oxygen concentration ratio <150). Group 1 (n = 17) included patients who underwent transplantation before nitric oxide became available in our center and were treated conventionally. Group 2 (n = 15) included those treated with nitric oxide as soon as severe allograft dysfunction was diagnosed. Duration of nitric oxide therapy (20 to 60 ppm) was 15 to 217 hours (average 84 hours).

RESULTS

In group 2, nitric oxide lowered mean pulmonary artery pressure from 30 +/- 2 to 26 +/- 2 mm Hg (p < 0.05), improved the ratio of arterial oxygen tension to inspired oxygen fraction from 88 +/- 10 to 153 +/- 30 (p < 0.05) within 1 hour, and caused a sustained improvement in these parameters during extended therapy. Mean arterial pressure and cardiac index were unchanged during nitric oxide therapy. Transient methemoglobinemia (>6%) developed in two patients. However, no complications were associated with nitric oxide use. Duration of mechanical ventilation was 17 +/- 5 days in group 1 and 12 +/- 3 days in group 2. Four patients had airway complications in group 1, whereas no airway complication was encountered in group 2. Mortality was 24% (4/17) in group 1 and 7% (1/15) in group 2.

CONCLUSION

Nitric oxide improves oxygenation and decreases pulmonary artery pressure without systemic circulatory effects in patients with severe allograft dysfunction. Furthermore, in these patients, nitric oxide may shorten postoperative mechanical ventilation time and reduce airway complications and mortality.

Pleural effusions following lung transplantation. Time course, characteristics, and clinical implications

The time course and characteristics of ipsilateral pleural effusion in nine consecutive single lung transplant recipients are described and compared with those of six patients who underwent other cardiothoracic operations. Ipsilateral pleural fluid occurs in all lung transplant recipients, beginning immediately following transplantation and continuing for up to 9 days. Pleural fluid immediately after lung transplantation is bloody, exudative, and neutrophil predominant, which is similar to the characteristics of pleural fluid following other cardiothoracic surgery. Pleural fluid cellularity, lactate dehydrogenase, and total protein content decrease rapidly over the first week in lung transplant recipients. The percentage of neutrophils decreases from 90 to 50% by day 7. Pleural fluid output in lung transplant recipients declines steadily during the first week and is minimal by day 9. Pleural fluid output declines more rapidly in patients who have undergone cardiothoracic surgery than in the lung transplant recipients. An early rise in pleural fluid output may reflect the development of posttransplant pulmonary edema. We conclude that it is unnecessary to analyze pleural fluid after lung transplantation if the pleural fluid output is decreasing and the clinical course is appropriate.

CD18-independent mechanism of neutrophil emigration in the rabbit lung after ischemia-reperfusion

BACKGROUND

Reperfusion of ischemic lung causes an inflammatory pulmonary vascular injury characterized by increased vascular permeability and migration of inflammatory cells into the alveoli. Migration of neutrophils into the alveolus during reperfusion after 24 hours of unilateral pulmonary artery occlusion has been shown to be in part dependent on the CD18 adhesion molecule on the cell surface. The current study investigated whether reperfusion lung injury after a 1-hour period of complete lung ischemia was CD18 dependent.

METHODS

Eighteen rabbits were assigned to one of three groups. Groups 1 and 2 were subjected to one hour of in situ right hilar occlusion followed by 2 hours of reperfusion. Group 3 was subjected to identical surgical dissection but the right hilum was never occluded. Group 1 rabbits received saline solution (1 mL/kg) before hilar occlusion and group 2 rabbits, monoclonal antibody 60.3, a blocking antibody for the CD18 adhesion molecule on the neutrophil surface (2 mg/kg). In 3 of the antibody-treated rabbits, flow cytometry was performed on blood neutrophils before and after administration of the antibody and 120 minutes after reperfusion.

RESULTS

The rabbits in groups 1 and 2 had significantly increased alveolar neutrophil infiltrate and increased pulmonary vascular resistance compared with the rabbits in group 3. However, there was no significant difference between group 1 (saline solution treated) and group 2 (antibody treated). Antibody treatment did not block migration of neutrophils into the alveoli. Flow cytometry of circulating neutrophils demonstrated that CD18 was upregulated after reperfusion and that CD18 was fully blocked after antibody treatment for the duration of the study.

CONCLUSIONS

We conclude that a 1-hour period of warm ischemia followed by reperfusion results in upregulation of CD18 but that emigration of the neutrophils into the alveoli is not CD18 dependent in this injury.

Attenuation of ischaemia reperfusion injury by human thioredoxin

BACKGROUND

Active oxygen species are thought to play a part in ischaemia reperfusion injury. The ability of a novel agent, human thioredoxin (hTRX), to attenuate lung damage has been examined in a rat model of ischaemia reperfusion injury.

METHODS

Twenty eight animals were studied. At thoracotomy the left main bronchus and the left main pulmonary artery were clamped for 75 minutes and the lung was then reperfused for 20 minutes. Phosphate buffered saline was administered intravenously to nine control animals and hTRX (30 micrograms/g body weight) was given intravenously to another group of nine animals. Two experiments were carried out. The first (Exp 1) was a time matched pair experiment (five treated, five controls), and the second (Exp 2) was performed under controlled conditions (four treated, four controls; temperature 25 degrees C, humidity 65%). In another 10 nonischaemic rats and those in Exp 1 biochemical measurements of lipid peroxide, superoxide dismutase, and glutathione peroxide levels were performed.

RESULTS

In both experiments rats perfused with hTRX survived longer than controls. In Exp 1 the arterial oxygen tension (PaO2) on air in the hTRX group was higher at 20 minutes than at one minute after reperfusion. In Exp 2 PaO2 at 20 minutes was higher in the hTRX group than in the controls. Lipid peroxide, superoxide dismutase, and glutathione peroxide levels in the control group were higher than in the hTRX group and in the non-ischaemic groups. Histological examination showed less thickening and oedema of the alveolar walls in the hTRX group than in controls.

CONCLUSIONS

These results suggest that hTRX is effective as a radical scavenger and can limit the extent of ischaemia reperfusion injury of the lungs of experimental animals.

High-resolution computed tomographic findings associated with histologically diagnosed acute lung rejection in heart-lung transplant recipients

A group of 32 lung (single lung, [n = 14] and double lung [n = 1]) or heart-lung (n = 17) transplant recipients were studied with serial high-resolution computed tomography (HRCT) scans and transbronchial biopsies from the time of surgery. These investigations were carried out routinely every 2 weeks for the first 2 months, every 2 months for a year, every 4 months in the second year, and on any clinical suspicion of acute lung rejection or infection. A total of 190 transbronchial biopsy specimens and concurrent HRCT scans were obtained. Forty (21%) of the biopsy specimens, showed histologic evidence of lung rejection, 111 (58%) were normal, and 39 (21%) were not conclusive. The more frequent HRCT pattern encountered during an acute rejection episode was the presence of patchy "ground-glass" density areas (65%). This finding was sparsely observed during minimal and mild acute rejection episodes. Using histologic diagnosis as a standard for acute rejection, ground-glass opacities on HRCT had a sensitivity of 65% in detecting lung rejection. Although ground-glass opacities were also intermittently observed during cytomegalovirus pneumonia (14%), this finding had a specificity of 85% for detecting occurrence of an acute lung complication. The detection of ground-glass opacities on lung HRCT after lung transplantation, more particularly after the first month after surgery, can aid the decision of when and where to undertake transbronchial lung biopsy.

Early diagnosis of acute rejection by pulmonary hemodynamics after single-lung transplantation

The aim of this study was to facilitate the early diagnosis of acute rejection after single-lung transplantation based on pulmonary hemodynamic findings. A Doppler flowmeter was placed in the ascending aorta and the pulmonary artery of adult mongrel dogs after single-lung transplantation. The pulmonary hemodynamics of the lung graft were then evaluated during the early postoperative period and during subsequent rejection. Twenty dogs were divided into three groups. Group 1 consisted of 6 dogs that underwent autotransplantation of the left lung. Group 2 was made up of 6 dogs that underwent allotransplantation of the left lung without immunosuppressant therapy. Group 3 consisted of 8 dogs that underwent allotransplantation of the left lung and were treated with 10 mg/kg of cyclosporine and 4 mg/kg of azathioprine. Pulmonary hemodynamics and chest roentgenograms were studied for more than 2 weeks postoperatively. Open lung biopsy was performed in some dogs to obtain graft specimens for histologic examination. The left pulmonary artery flow rate (percentage of pulmonary graft blood flow to cardiac output) decreased slightly after operation in group 1, and decreased to 14.4% after 1 week and to zero on postoperative day 10 in group 2. The pulmonary vascular resistance of the grafts in group 2 also increased exponentially. In contrast, the left pulmonary artery flow rates decreased to 29.1% on the day after operation in group 3, but recovered to 38.5% on postoperative day 14. Within a mean of 3.7 days of immunosuppressant discontinuation, the left pulmonary artery flow rates decreased to less than 12.7%, with a marked increase in pulmonary resistance.(ABSTRACT TRUNCATED AT 250 WORDS)

Inhaled nitric oxide in the treatment of postoperative graft dysfunction after lung transplantation

Pulmonary hypertension and transient graft dysfunction may complicate the postoperative course of patients undergoing lung transplantation. We report the acute effect of inhaled nitric oxide (80 ppm) on hemodynamics and gas exchange in 6 patients (median age, 14 years; range, 5 to 21 years) after lung transplantation as well as the effect of extended treatment over 40 to 69 hours in 2 patients. In 5 patients with pulmonary hypertension nitric oxide lowered mean pulmonary artery pressure (from 38.4 +/- 1.6 to 29.4 +/- 3.1 mm Hg; p < 0.05), pulmonary vascular resistance index (from 9.3 +/- 1.4 to 6.4 +/- 1.3 Um2; p < 0.05), and intrapulmonary shunt fraction (from 28.6% +/- 8.3% to 21.0% +/- 5.7%; p < 0.05). There was a 28.4% +/- 7.2% reduction in transpulmonary pressure gradient with only minor accompanying effects on the systemic circulation. Mean arterial pressure decreased only 2.7% +/- 5% (from 76.4 +/- 2.2 to 74 +/- 2.3 mm Hg; p = not significant), and systemic vascular resistance index by 4.2% +/- 9.7% (from 21.7 +/- 3.1 to 20.6 +/- 3.6 Um2; p = not significant). Cardiac index was unchanged (from 3.5 +/- 0.8 to 3.6 +/- 0.7 L.min-1.m-2; p = not significant). Nitric oxide caused a sustained improvement in oxygenation and pulmonary artery pressure during extended therapy at doses of 10 ppm. There were no major side effects. However, transient methemoglobinemia (9%) developed in 1 patient after 10 hours of nitric oxide treatment. Nitric oxide may be useful in the treatment of pulmonary hypertension and the impaired gas exchange that occurs after lung transplantation.

The pathology of rat lung isografts following 48 or 72-hour cold storage and subsequent reperfusion in vivo for up to 1 month

Using a left lung orthotopic isograft model in adult male AS strain rats, the pathology of lungs which were stored for 48 or 72 hours using a simple organ flush technique followed by low temperature (0 degrees C) immersion has been investigated. Lungs were examined after cold storage alone and after storage followed by either brief (up to 1 hour) or extended (30 days) reperfusion with blood in vivo. Grafts were flushed with either isotonic saline (NaCl) or hypertonic citrate solution (HCA) alone, or with HCA containing either verapamil (a Ca(2+)-channel blocker) or prostacyclin (PGI2 which has both anti-platelet and vasodilator actions). Controls included fresh non-flushed lungs and fresh HCA-flushed lungs which were transplanted immediately after harvest. After prolonged (48 or 72-hour) cold ischaemia alone the only clear change in lung morphology was of nuclear swelling. Early reperfusion changes included: (i) oedema (interstitial and alveolar); (ii) vascular congestion; and (iii) intra-alveolar haemorrhage. Features (i) and (ii) were diffuse whilst haemorrhage was patchy. Lungs which remained in vivo for up to 30 days showed focal scarring and chronic inflammation with numerous macrophages containing haemosiderin; the extent of the changes observed in individual grafts tended to mirror the gross macroscopic outcome. Attempts to improve the cold ischaemic tolerance with added agents (verapamil and prostacyclin PGI2) failed to produce a clear advantage.

Glutathione decreases the pulmonary reimplantation response in canine lung autotransplants

The pulmonary reimplantation response (PRR) is a form of membrane permeability pulmonary edema occurring in lung transplants. The severity of the PRR reflects the quality and duration of lung graft preservation. Free radicals formed during ischemia with reperfusion in the autotransplanted dog lung may play a role in producing PRR. We hypothesized that the addition of reduced glutathione (GSH) to the preservative solution could decrease PRR if hydroperoxides are being formed. Six dogs underwent left lung autotransplantation after the lung was flushed with Euro-Collins solution (EC). These dogs demonstrated radiographic and histopathologic evidence of bilateral pulmonary edema, greatest in the transplanted left lung. They also had increases in lung wet to dry weight (W/D) ratios in both lungs (left, 12.0 +/- 0.9; right, 10.1 +/- 0.8) as compared with a group of five unmanipulated control animals (left, 6.0 +/- 0.5; right, 7.0 +/- 0.4). Malondialdehyde (MDA) concentrations were significantly increased in the transplanted left lungs (14 +/- 4) from this group as compared with the controls (5 +/- 7). Five additional dogs underwent left lung autotransplantation with GSH added to the EC cryopreservation fluid. These animals did not develop histologic or radiographic evidence of pulmonary edema, and W/D ratios as well as MDA concentrations were not different from those in controls. To evaluate the effect of ischemia alone on changes in lung GSH concentrations, ten additional dogs underwent left pneumonectomy. Left lungs were cryopreserved in EC + GSH. In five of the animals, the right lung was removed and preserved in EC alone. In the other five animals, the right lung remained in vivo for 3 h and was then removed. Lung GSH concentrations were doubled after 3 h of ischemia when incubated in EC + GSH compared to in vivo controls and to EC-treated lungs. These data suggest that GSH added to the preservation fluid prevents PRR following transplantation and that lung GSH concentrations actually increase during preservation prior to reimplantation and reperfusion if the lung graft is exposed to GSH in the preservation fluid.

[Anesthesia and intensive care for heart-lung transplantation]

Since Shumway carried out the first successful heart-lung transplant (HLT) in Stanford in 1981, HLT has become a new therapeutic means for patients with end-stage pulmonary disease or arterial hypertension. However, it is still rarely carried out because of a lack of donors and the complexity of the surgery and postoperative course. This review described the criteria for proper donor and recipient selection, as well as the anaesthetic and postoperative management of HLT patients at Marie Lannelongue Hospital. The lack of suitable organ grafts results, at least in part, from improper donor management. Pulmonary oedema by fluid overloading and excessive haemodilution should be carefully prevented. Low doses of catecholamines and vasopressin maintain circulatory stability and convenient organ function. The indications for HLT (primary pulmonary hypertension, Eisenmenger's complex, and end-stage bronchopulmonary disease) are all characterized by severe pulmonary hypertension, hypoxaemia and cardiac failure. Careful anaesthetic induction is required to avoid circulatory collapse. Cardiopulmonary bypass (CPB) should be started early, so that mediastinal dissection may be carried out in satisfactory haemodynamic conditions. After unclamping the aorta, circulatory support with fluid and catecholamine infusion is often required. High inspired oxygen fraction and end-expiratory positive pressure may be required because of reperfusion pulmonary oedema. Blood transfusion is often needed as there are major blood losses due to dissection of the posterior mediastinum during CPB. Postoperative catecholamine administration is prolonged over several days. Negative fluid balance is often necessary to reduce pulmonary oedema. Improvement in surgical technique, early extubation, and late prescription of steroids have reduced the incidence of tracheal complications. Acute renal failure often occurs as a result of prolonged CPB, hypovolaemia, drug nephrotoxicity and sepsis. Bacterial complications (pneumonia, mediastinitis) are the main causes of early death. After the 15th postoperative day, opportunistic infections and allograft rejection are the main complications. Since 1981, major advances in HLT recipient management resulted in improved survival rates (70-80% at 1 year, and 60-70% at 2 years for the best teams). Despite the complexity of management, and the longterm threat of obliterative bronchiolitis, HLT is, at present time, the only possibility for these young patients to recover a normal quality of life.

Surgical management of heart-lung transplantation

Using cyclosporin A, long-term survival after heart-lung transplantation became possible. The drug blocks the immune system more selectively and leaves the tracheal wound healing unimpaired. Since 1981, 501 clinical cases have been collected by the registry of the International Society for Heart Transplantation. Candidates for heart-lung transplantation reveal signs of irreversible heart and lung diseases that may have been caused by cardiac lesions (valvular diseases, Eisenmenger reaction due to congenital malformations) or by pulmonic disorders (primary pulmonary hypertension, emphysema, fibrosis). The standard surgical procedure, which combines donor and recipient tracheas, right atria, and aortas, makes three anastomoses necessary. Immunosuppressive regimen includes cyclosporin A (blood trough levels of 300 to 500 ng/mL), azathioprine (1 to 2 mg/kg), and rabbit antithymocyte globulin (1 to 4 mg immunoglobulin G/kg). After the first two postoperative weeks, rabbit antithymocyte globulin is replaced by methylprednisolone (0.3 to 0.1 mg/kg; 500 mg are given intravenously after opening the aortic cross-clamp; 3 x 125 mg on postoperative day 1). After heart-lung transplantation an extreme variety of problems may evolve. Early postoperative complications (within the first postoperative month) comprise acute isolated lung rejection, multiorgan failure, and bacterial pneumonia. Diagnosis of acute lung rejection proves difficult; it includes clinical signs, chest radiographic appearances, and cytoimmunological monitoring. Transbronchial lung biopsies are of similar value for precise diagnosis as are endomyocardial specimens after heart transplantation. Late postoperative complications (after 1 postoperative month) comprise viral pneumonia, fungal infection, tuberculosis, and chronic obliterative bronchiolitis.(ABSTRACT TRUNCATED AT 250 WORDS)

An evaluation of the tolerance of the autotransplanted canine lung against warm ischemia

Left lung autotransplantation was performed in mongrel dogs to examine the limitation of tolerance of the deflated lung against warm ischemia in a warm ischemic time (WIT) range of 60-360 minutes. The animals were divided into the 4 following groups according to the duration of WIT and the use of heparin: Group 1; WIT 60-120 min., heparin (-), Group 2; WIT 120-240 min., heparin (+), Group 3; WIT 240-360 min., heparin (+), and Group 4; WIT 240-360 min., heparin (-). All the Group 1 animals tolerated a right pulmonary artery ligation on the 6th postoperative day, but some of the Group 2 animals died immediately after the reimplantation due to pulmonary edema. All the Groups 3 and 4 animals died. The PaO2 values during the right pulmonary artery occlusion, immediately after the reimplantation, correlated well with the survival of the animals. The maximum tolerable WIT of the deflated dog lung was considered to be 120 minutes.

Single-lung allotransplantation in pigs following donor pretreatment with intravenous prostaglandin E-1. Morphologic changes after preservation and reperfusion

Single left lung allotransplantation with ligation of the right pulmonary artery was performed on 11 pigs after donor pretreatment with prostaglandin E-1 and pulmonary artery flush with modified Euro-Collins solution. Sequential morphologic changes in pulmonary artery flow surface and lung structure were studied after 6-hour storage and after 4-hour reperfusion, using light microscopy and scanning and transmission electron microscopy. Morphologic observations were compared with functional changes. After 6-hour preservation slight degenerative changes were found in the pulmonary artery flow surface and changes in lung tissue suggestive of increased vascular permeability and edema. During 4-hour reperfusion the changes progressed. Preservation was in general moderate. Lung tissue showed vascular congestion and slight inflammation. Localized areas of reperfusion damage could adjoin near-normal looking alveoli. Oxygenation and gas exchange, though low in the beginning of reperfusion, tended to improve during the reperfusion period. The method was concluded to afford good morphologic preservation of the graft after 6-hour storage, and moderately good morphologic and functional preservation after 4-hour reperfusion.

Cardiopulmonary transplantation: current practice

Heart-lung transplantation has become an effective form of therapy for end-stage cardiopulmonary disease. Early results have steadily improved, and a 1-year survival rate of over 60% is now expected. The fact that lungs can be preserved for an extended period allows organs to be procured almost anywhere and this, in turn, has slightly improved the availability of organs for transplant. A diagnosis of lung rejection remains imprecise and progress still needs to be made in this area. Obliterative bronchiolitis of a variable degree remains the major medium-term complication, probably representing chronic graft rejection. Although long-term progress cannot yet be predicted, heart-lung transplantation remains the only option for a normal life for this special group of patients.

Pathophysiology of pulmonary edema following experimental brain death in the chacma baboon

Systemic and pulmonary hemodynamics have been studied during the induction of brain death in the chacma baboon. In 11 animals brain death was induced by acute intracranial hypertension. Continuous recording of blood flow through both the pulmonary artery and the aorta was obtained by electromagnetic flow meters placed around these vessels. Mean arterial, central venous, pulmonary arterial, and left atrial pressures were recorded continuously. Systemic and pulmonary vascular resistances were calculated. During the agonal period marked sympathetic activity occurred, with significant increases in circulating catecholamines and systemic vascular resistance. The great increase in systemic resistance resulted in acute left ventricular failure. Mean left atrial or pulmonary capillary wedge pressure rose above the mean pulmonary arterial pressure in 9 animals. As the systemic vascular resistance rose, a significant difference between pulmonary artery and aortic blood flows occurred, leading to blood pooling within the lungs. A mean of 72% of the total blood volume of the animal accumulated within these organs. The increase of left atrial pressure to levels higher than pulmonary artery pressure indicated a state of pulmonary capillary blood flow arrest. This, associated with the blood pooling within the lungs, almost certainly resulted in disruption of the anatomic integrity of the pulmonary capillaries (blast injury); 4 animals developed pulmonary edema, with alveolar septal interstitial hemorrhage.

Lung transplantation

Over the past 20 years, many advances in surgical methods, transplantation immunology, donor organ procurement and preservation techniques, and postsurgical care regimens have influenced greatly the field of lung transplantation. The single remaining obstacle to widespread clinical success is donor lung availability. Improved methods of ex vivo lung preservation, organ donor maintenance, and donor lung retrieval after the completion of cardiac donation should help to ameliorate this problem.

Precursor frequency of donor-specific lymphocytes recovered from canine lung transplants

Dogs receiving left unilateral allo- or auto-grafts were treated with Cyclosporin A (Cy A) for 4 days. Thereafter allografted transplant recipients showed pulmonary pathology consistent with rejection. Blood and bronchoalveolar lavage (BAL)-derived lymphocytes were isolated from the recipient animals before and at various times after operation and the frequency of allospecific precursor cytolytic lymphocytes (pCTL) determined by limiting dilution analysis (LDA). Samples from the autografted control animal did not show any post-operative frequency changes; however, both blood and BAL-derived lymphocytes from allografted recipients showed a significant post-operative increase in the proportion of donor-specific pCTL. This increase was consistently greater in samples from the transplanted than the autochthonous lung. The frequency of pCTL determined using targets from an unrelated dog showed no post-operative increase. It is likely that the increase in frequency of donor-specific pCTL recorded during graft-rejection is a specific consequence of an interaction between the graft and recipient's immune system.