Impact of rHuEPO therapy initiation on soluble adhesion molecule levels in haemodialysis patients

Background: Increased levels of soluble adhesion molecules have been reported in haemodialysis (HD) patients. Recent studies have shown that recombinant human erythropoietin (rHuEPO) elicits proliferation and migration of endothelial cells and modifies endothelial function. The present study was design to explore the effects of rHuEPO on serum levels of soluble adhesion molecules in HD patients. Methods: Soluble serum levels of E‐selectin (sE‐selectin), intracellular adhesion molecule‐1 (sICAM‐1) and vascular cell adhesion molecule‐1 (sVCAM‐1) were measured by ELISA in 29 rHuEPO naïve HD patients (20 males, 9 females) and 10 control subjects at baseline and second month. The HD patients with a haemoglobin level lower than 10.0 mg/dL (n = 19) were administered rHuEPO therapy and other HD patients (n = 10) were followed as a placebo group. Results: Serum levels of soluble adhesion molecules were significantly higher in HD patients compared with the control group. A significant rise from the baseline in sE‐selectin levels (77 ± 70 vs 100 ± 86 ng/mL, P < 0.05) was observed 2 months after rHuEPO initiation, while sICAM‐1 and sVCAM‐1 levels decreased (271 ± 261 vs 197 ± 89 and 1043 ± 243 vs 990 ± 236 ng/mL, respectively, P < 0.05). Conclusions: The present data indicate that rHuEPO could have an important action on serum levels of soluble adhesion molecules in HD patients. rHuEPO might modify the expression of adhesion molecules from endothelial cells either. However, the exact mechanism responsible for the serum elevation of these molecules in HD patients is yet to be fully elucidated.     

Ex Vivo Perfusion Treatment of Infection in Human Donor Lungs

Ex vivo lung perfusion (EVLP) is a platform to treat infected donor lungs with antibiotic therapy before lung transplantation. Human donor lungs that were rejected for transplantation because of clinical concern regarding infection were randomly assigned to two groups. In the antibiotic group (n = 8), lungs underwent EVLP for 12 h with high‐dose antibiotics (ciprofloxacin 400 mg or azithromycin 500 mg, vancomycin 15 mg/kg, and meropenem 2 g). In the control group (n = 7), lungs underwent EVLP for 12 h without antibiotics. A quantitative decrease in bacterial counts in bronchoalveolar lavage (BAL) was found in all antibiotic‐treated cases but in only two control cases. Perfusate endotoxin levels at 12 h were significantly lower in the antibiotic group compared with the control group. EVLP with broad‐spectrum antibiotic therapy significantly improved pulmonary oxygenation and compliance and reduced pulmonary vascular resistance. Perfusate endotoxin levels at 12 h were strongly correlated with levels of perfusates tumor necrosis factor α, IL‐1β and macrophage inflammatory proteins 1α and 1β at 12 h. In conclusion, EVLP treatment of infected donor lungs with broad‐spectrum antibiotics significantly reduced BAL bacterial counts and endotoxin levels and improved donor lung function.     

The Perioperative Lung Transplant Virome: Torque Teno Viruses Are Elevated in Donor Lungs and Show Divergent Dynamics in Primary Graft Dysfunction

Primary graft dysfunction (PGD) is a principal cause of early morbidity and mortality after lung transplantation, but its pathogenic mechanisms are not fully clarified. To date, studies using standard clinical assays have not linked microbial factors to PGD. We previously used comprehensive metagenomic methods to characterize viruses in lung allografts >1 mo after transplant and found that levels of Anellovirus, mainly torque teno viruses (TTVs), were significantly higher than in nontransplanted healthy controls. We used quantitative polymerase chain reaction to analyze TTV and shotgun metagenomics to characterize full viral communities in acellular bronchoalveolar lavage from donor organs and postreperfusion allografts in PGD and non‐PGD lung transplant recipient pairs. Unexpectedly, TTV DNA levels were elevated 100‐fold in donor lungs compared with healthy adults (p = 0.0026). Although absolute TTV levels did not differ by PGD status, PGD cases showed a smaller increase in TTV levels from before to after transplant than did control recipients (p = 0.041). Metagenomic sequencing revealed mainly TTV and bacteriophages of respiratory tract bacteria, but no viral taxa distinguished PGD cases from controls. These findings suggest that conditions associated with brain death promote TTV replication and that greater immune activation or tissue injury associated with PGD may restrict TTV abundance in the lung.     

Prolonged extracorporeal preservation and evaluation of human lungs with portable normothermic ex vivo perfusion

Many lung donor offers are refused despite increasing demand. Portable normothermic ex vivo lung perfusion (EVLP) could increase donor yield by monitoring and reconditioning extended criteria donor (ECD) lungs. We report its use in human lungs declined for clinical transplantation. Ten sets of such lungs were procured from brain-dead donors and underwent 24 hours of normothermic EVLP using a perfusate based on donor whole blood. Hemodynamic and ventilatory data and P:F ratios were measured. Advanced donor age and borderline oxygenation (donor mean P:F 228 ± 73) were the most commonly cited reasons for refusal for transplantation. There was no significant worsening of pulmonary hemodynamics or compliance or significant P:F decline during preservation in the overall cohort. Mean P:F ratio in the overall cohort was 315 ± 88 mm Hg after 24 hours EVLP. At EVLP termination 5/10 lung blocks met standard EVLP thresholds for acceptability for transplant. Eventual EVLP performance was poorly predicted by donor P:F ratio but well predicted by data gathered early in EVLP. Portable normothermic EVLP is useful for transportation, monitoring, and reconditioning of ECD lungs. Early EVLP measurements are more effective than preprocurement donor P:F in predicting eventual allograft performance. We advocate an aggressive strategy of evaluation of ECD lungs using blood-based EVLP.     

Treatment with 3‐aminobenzamide during ex vivo lung perfusion of damaged rat lungs reduces graft injury and dysfunction after transplantation

Ex vivo lung perfusion (EVLP) with pharmacological reconditioning may increase donor lung utilization for transplantation (LTx). 3‐Aminobenzamide (3‐AB), an inhibitor of poly(ADP‐ribose) polymerase (PARP), reduces ex vivo lung injury in rat lungs damaged by warm ischemia (WI). Here we determined the effects of 3‐AB reconditioning on graft outcome after LTx. Three groups of donor lungs were studied: Control (Ctrl): 1 hour WI + 3 hours cold ischemia (CI) + LTx; EVLP: 1 hour WI + 3 hours EVLP + LTx; EVLP + 3‐AB: 1 hour WI + 3 hours EVLP + 3‐AB (1 mg^.mL^?1) + LTx. Two hours after LTx, we determined lung graft compliance, edema, histology, neutrophil counts in bronchoalveolar lavage (BAL), mRNA levels of adhesion molecules within the graft, as well as concentrations of interleukin‐6 and 10 (IL‐6, IL‐10) in BAL and plasma. 3‐AB reconditioning during EVLP improved compliance and reduced lung edema, neutrophil infiltration, and the expression of adhesion molecules within the transplanted lungs. 3‐AB also attenuated the IL‐6/IL‐10 ratio in BAL and plasma, supporting an improved balance between pro‐ and anti‐inflammatory mediators. Thus, 3‐AB reconditioning during EVLP of rat lung grafts damaged by WI markedly reduces inflammation, edema, and physiological deterioration after LTx, supporting the use of PARP inhibitors for the rehabilitation of damaged lungs during EVLP.     

Biomarkers of endothelial dysfunction in patients with primary focal segmental glomerulosclerosis

Aim: Endothelial dysfunction occurs in nephrotic syndrome (NS) and may constitute a link between NS and vascular complications. Focal segmental glomerulosclerosis (FSGS) is a common cause of NS. This study aimed to assess endothelial markers at different stages of FSGS and define whether they were associated with thromboembolic complications and disease activity. Methods: Forty‐four patients with nephrotic‐range proteinuria and biopsy‐proven primary FSGS were included in this study. Nine of them had concurrent thromboembolisms. Thirty‐two sex‐ and age‐ matched healthy volunteers served as controls. Endothelial markers including circulating endothelial cells (CECs), soluble thrombomodulin (sTM), von Willebrand factor (vWf), soluble vascular cell adhesion molecule‐1 (sVCAM‐1) and sE‐selectin were assessed at the commencement of the study in all participants and were repeated at 2, 6 and 12 months of follow‐up in patients without thromboembolisms. Results: Patients with FSGS during active stage showed significantly higher levels of CECs, sTM, vWf, sVCAM‐1 and sE‐selectin when compared with controls. Moreover, patients with thromboembolisms had higher CECs and vWf than those without thromboembolisms. In patients without thromboembolisms, endothelial markers except sE‐selectin had inverse correlations with serum albumin and were positively related to cholesterol. Multiple analyses showed that cholesterol and serum albumin were independent predictors of CECs and sTM, and vWf and sVCAM‐1, respectively. At follow‐up, these markers systematically decreased as the disease went into remission, but the increase in vWf and sVCAM‐1 persisted even in patients obtaining complete remission for nearly a year. In patients with no response, levels of endothelial markers exhibited no obvious change. Conclusion: Patients with FSGS had elevated markers of endothelial dysfunction, which were largely related to the activity of the disease. Meanwhile, levels of CECs and vWf were higher in patients concurrent with thromboembolisms.     

A retrospective database analysis to evaluate the potential of ex vivo lung perfusion to recruit declined lung donors

Ex vivo lung perfusion (EVLP) is currently used for both standard and extended‐criteria donor (ECD) lungs. To enlarge the donor pool, we might have to extend the threshold for ECD donation. The purpose of this study was to estimate how many additional ECD lungs could be recruited by EVLP. We reviewed all multi‐organ donors (MODs) from our collaborative donor hospitals (January 2010–June 2015). All unused lung donors were categorized using registered donor data and evaluated by two independent investigators to identify which lungs could be transplanted after EVLP. 584 MODs were registered at our transplant center. 268 (45.9%) were declined as lung donor at the moment of registration, and 316 (54.1%) were considered as a donor for lung transplantation. In the latter, lungs from 220 (37.7%) donors were transplanted and 96 donors (16.4%) were not. We identified 78 of 364 declined donors (21.4%) whose lungs could potentially become transplantable after EVLP. With this retrospective database analysis of unused lung donors, we identified a large potential for EVLP to further increase the donor pool in transplant centers where the majority of donor lungs are already extended.     

Evaluating acellular versus cellular perfusate composition during prolonged ex vivo lung perfusion after initial cold ischaemia for 24 hours

Normothermic ex vivo lung perfusion (EVLP) has developed as a powerful technique to evaluate particularly marginal donor lungs prior to transplantation. In this study, acellular and cellular perfusate compositions were compared in an identical experimental setting as no consensus has been reached on a preferred technique yet. Porcine lungs underwent EVLP for 12 h on the basis of an acellular or a cellular perfusate composition after 24 h of cold ischaemia as defined organ stress. During perfusion, haemodynamic and respiratory parameters were monitored. After EVLP, the lung condition was assessed by light and transmission electron microscopy. Aerodynamic parameters did not show significant differences between groups and remained within the in vivo range during EVLP. Mean oxygenation indices were 491 ± 39 in the acellular group and 513 ± 53 in the cellular group. Groups only differed significantly in terms of higher pulmonary artery pressure and vascular resistance in the cellular group. Lung histology and ultrastructure were largely well preserved after prolonged EVLP and showed only minor structural alterations which were similarly present in both groups. Prolonged acellular and cellular EVLP for 12 h are both feasible with lungs prechallenged by ischaemic organ stress. Physiological and ultrastructural analysis showed no superiority of either acellular or cellular perfusate composition.     

Higher serum levels of soluble intracellular cell adhesion molecule‐1 and soluble vascular cell adhesion molecule predict peripheral artery disease in haemodialysis patients

Aim: Serum levels of soluble intracellular cell adhesion molecule‐1 (sICAM‐1), soluble vascular cell adhesion molecule‐1 (sVCAM) and monocyte chemotactic protein 1 (MCP‐1), are elevated in patients with peripheral artery disease (PAD). However, the levels of these cell adhesion molecules in patients undergoing haemodialysis (HD) are unclear. Method: A total of 112 HD patients were included and PAD was diagnosed using the ankle‐brachial index and Doppler ultrasound. Serum levels of sICAM‐1, sVCAM‐1 and MCP‐1 were assayed using enzyme linked immunosorbent assay. Results: Out of 106 HD patients, 31 (27.7%) were diagnosed with PAD. After adjusting for risk factors, higher serum levels of sVCAM‐1 and sICAM‐1 were associated with PAD in HD patients, with an odds ratio of 5.3 (95% CI 3.3–65.5) and 2.7 (95% CI 1.2–21.8) respectively. Using sVCAM‐1 and sICAM‐1 for diagnosis of PAD in HD patients, sVCAM‐1 had a sensitivity of 72.4% and specificity of 62.3% for sVCAM‐1 and sICAM‐1 had a sensitivity of 89.3% and a specificity of 40%. MCP‐1 was not associated with PAD in HD patients. In addition, the fistula of HD patients with PAD had a lower A‐V access flow. Conclusion: sVCAM‐1 and sICAM‐1 was associated with higher risk of PAD in HD patients. Moreover, HD patients with PAD had a lower blood flow and lower A‐V access flow. Our results showed that sVCAM‐1 and sICAM‐1 may be used as screening markers for PAD in HD patients.     

Nutritional vitamin D supplementation in haemodialysis: A potential vascular benefit?

Aim: Vitamin D deficiency is highly prevalent in end‐stage renal disease and has been associated with atherosclerosis, endothelial dysfunction and left ventricular hypertrophy. Although activated vitamin D has shown to be cardioprotective, the cardiovascular benefits of nutritional vitamin D (i.e. ergocalciferol or cholecalciferol) have not been explored in the dialysis population. The aim of this investigation was to evaluate the effect of ergocalciferol therapy on vascular adhesion molecules, markers of inflammation and atherosclerosis among haemodialysis patients. Methods: This was a pilot study of matched haemodialysis patients. For every patient enrolled taking ergocalciferol, an age and race matched control was recruited. Predialysis blood samples were collected and assayed for adhesion molecules (soluble vascular cell adhesion molecule‐1 (sVCAM‐1), soluble intercellular adhesion molecule‐1 (sICAM‐1), E‐selectin and P‐selectin), inflammatory cytokines (interleukin‐6 (IL‐6) and tumour necrosis factor‐α (TNF‐α)), oxLDL‐β₂GPI and IgG anticardiolipin. Results: A total of 40 haemodialysis patients were studied (20 on ergocalciferol therapy, 20 not receiving ergocalciferol therapy). Patients taking ergocalciferol had higher 25‐hydroxyvitamin D levels compared with those not taking ergocalciferol. Even though doxercalciferol usage and dosing was similar between groups, plasma sVCAM‐1, sICAM‐1 and P‐selectin concentrations were lower among ergocalciferol treated patients. No significant differences in E‐selectin, IL‐6, TNF‐α, oxLDL‐β₂GPI or anticardiolipin antibody levels were observed. Conclusion: Patients receiving ergocalciferol had lower plasma levels of vascular adhesion molecules despite equivalent use of activated vitamin D therapy. Future investigations should confirm the role of nutritional vitamin D therapy, in addition to activated D therapy, in haemodialysis patients and the potential vascular benefits of these agents.     

Prediction of transplant outcome after 24‐hour ex vivo lung perfusion using the Organ Care System in a porcine lung transplantation model

Ex vivo lung perfusion (EVLP) has become routine practice in lung transplantation. Still, running periods exceeding 12 hours have not been undertaken clinically to date, and it remains unclear how the perfusion solution for extended running periods should be composed and which parameters may predict outcomes. Twenty‐four porcine lungs underwent EVLP for 24 hours using the Organ Care System (OCS). Lungs were ventilated and perfused with STEEN's solution enriched with erythrocytes (n = 8), acellular STEEN's solution (n = 8), or low‐potassium dextran (LPD) solution enriched with erythrocytes (n = 8). After 24 hours, the left lungs were transplanted into recipient pigs. After clamping of the contralateral lung, the recipients were observed for 6 hours. The most favorable outcome was observed in organs utilizing STEEN solution enriched with erythrocytes as perfusate, whereas the least favorable outcome was seen with LPD solution enriched with erythrocytes for perfusion. Animals surviving the observation period showed lower peak airway pressure (PAWP) and pulmonary vascular resistance (PVR) during OCS preservation. The results suggest that transplantation of lungs following 24 hours of EVLP is feasible but dependent on the composition of the perfusate. PAWP and PVR during EVLP are early and late predictors of transplant outcome, respectively.     

Predicting donor lung acceptance for transplant during ex vivo lung perfusion: The EX vivo lung PerfusIon pREdiction (EXPIRE)

Ex vivo lung perfusion (EVLP) has being increasingly used for the pretransplant assessment of extended-criteria donor lungs. Mathematical models to predict lung acceptance during EVLP have not been reported so far. Thus, we hypothesized that predictors of lung acceptance could be identified and used to develop a mathematical model describing the clinical decision-making process used in our institution. Donor lungs characteristics and EVLP physiologic parameters included in our EVLP registry were examined (derivation cohort). Multivariable logistic regression analysis was performed to identify predictors independently associated with lung acceptance. A mathematical model (EX vivo lung PerfusIon pREdiction [EXPIRE] model) for each hour of EVLP was developed and validated using a new cohort (validation cohort). Two hundred eighty donor lungs were assessed with EVLP. Of these, 186 (66%) were accepted for transplantation. ΔPO₂ and static compliance/total lung capacity were identified as independent predictors of lung acceptance and their respective cut-off values were determined. The EXPIRE model showed a low discriminative power at the first hour of EVLP assessment (AUC: 0.69 [95% CI: 0.62–0.77]), which progressively improved up to the fourth hour (AUC: 0.87 [95% CI: 0.83–0.92]). In a validation cohort, the EXPIRE model demonstrated good discriminative power, peaking at the fourth hour (AUC: 0.85 [95% CI: 0.76–0.94]). The EXPIRE model may help to standardize lung assessment in centers using the Toronto EVLP technique and improve overall transplant rates.     

Elevated Plasma Clara Cell Secretory Protein Concentration Is Associated with High‐Grade Primary Graft Dysfunction

Primary graft dysfunction (PGD) is the leading cause of early posttransplant morbidity and mortality after lung transplantation. Clara cell secretory protein (CC16) is produced by the nonciliated lung epithelium and may serve as a plasma marker of epithelial cell injury. We hypothesized that elevated levels of CC16 would be associated with increased odds of PGD. We performed a prospective cohort study of 104 lung transplant recipients. Median plasma CC16 levels were determined at three time points: pretransplant and 6 and 24 h posttransplant. The primary outcome was the development of grade 3 PGD within the first 72 h after transplantation. Multivariable logistic regression was performed to evaluate for confounding by donor and recipient demographics and surgical characteristics. Twenty‐nine patients (28%) developed grade 3 PGD within the first 72 h. The median CC16 level 6 h after transplant was significantly higher in patients with PGD [13.8 ng/mL (IQR 7.9, 30.4 ng/mL)] than in patients without PGD [8.2 ng/mL (IQR 4.5, 19.1 ng/mL)], p = 0.02. Elevated CC16 levels were associated with increased odds of PGD after lung transplantation. Damage to airway epithelium or altered alveolar permeability as a result of lung ischemia and reperfusion may explain this association.     

Total parenteral nutrition in ex vivo lung perfusion: Addressing metabolism improves both inflammation and oxygenation

Ex vivo lung perfusion (EVLP) protocols generally limit metabolic supplementation to insulin and glucose. We sought to determine whether the addition of total parenteral nutrition (TPN) would improve lung function in EVLP. Ten porcine lungs were perfused using EVLP for 24 hours and supplemented with insulin and glucose. In the treatment group (n = 5), the perfusate was also supplemented with a continuous infusion of TPN containing lipids, amino acids, essential vitamins, and cofactors. Physiologic parameters and perfusate electrolytes were continuously evaluated. Perfusate lactate, lipid and branch chain amino acid (BCAA) concentrations were also analyzed to elucidate how substrates were being utilized over time. Lungs in the TPN group exhibited significantly better oxygenation. Perfusate sodium was more stable in the TPN group. In the control group, free fatty acids (FFA) were quickly depleted, reaching negligible levels early in the perfusion. Alternatively, BCAA in the control group rose continually over the perfusion demonstrating a shift toward proteolysis for energy substrate. In the TPN group, both FFA and BCAA concentrations remained stable at in vivo levels after initial stabilization. TNF‐α concentrations were lower in the TPN group. The addition of TPN in EVLP allows for better electrolyte composition, decreased inflammation, and improved graft performance.     

A novel concept for evaluation of pulmonary function utilizing PaO2/FiO2 difference at the distinctive FiO2 in cellular ex vivo lung perfusion—an experimental study

For more accurate lung evaluation in ex vivo lung perfusion (EVLP), we have devised a new parameter, PaO₂/FiO₂ ratio difference (PFD); PFD_1–0.4 = P/F ratio at FiO₂ 1.0 ‐ P/F ratio at FiO₂ 0.4. The aim of this study is to compare PFD and transplant suitability, and physiological parameters utilized in cellular EVLP. Thirty‐nine human donor lungs were perfused. At 2 h of EVLP, PFD_1–0.4 was compared with transplant suitability and physiological parameters. In a second study, 10 pig lungs were perfused in same fashion. PFD_1–0.4 was calculated by blood from upper and lower lobe pulmonary veins and compared with lobe wet/dry ratio and pathological findings. In human model, receiver operating characteristic curve analysis showed PFD_1–0.4 had the highest area under curve, 0.90, sensitivity, 0.96, to detect nonsuitable lungs, and significant negative correlation with lung weight ratio (R² = 0.26, P < 0.001). In pig model, PFD_1–0.4 on lower and upper lobe pulmonary veins were significantly associated with corresponding lobe wet/dry ratios (R² = 0.51, P = 0.019; R² = 0.37, P = 0.060), respectively. PFD_1–0.4 in EVLP demonstrated a significant correlation with lung weight ratio and allowed more precise assessment of individual lobes in detecting lung edema. Moreover, it might support decision‐making in evaluation with current EVLP criteria.     

Successful Emergent Lung Transplantation After Remote Ex Vivo Perfusion Optimization and Transportation of Donor Lungs

A recent clinical trial provided evidence that ex vivo lung perfusion (EVLP) results in optimized human donor lungs for transplantation. Excellent recipient outcomes were documented after 4 h of normothermic perfusion. We report a clinical case utilizing remote EVLP to assess and improve function of initially otherwise unacceptable injured donor lungs followed by transportation and subsequent bilateral lung transplantation in a patient with virally induced refractory respiratory failure supported with extracorporeal membrane oxygenation. This is the first lung transplantation with the application of remote EVLP, wherein the donor lungs were transported from the donor hospital to a center for EVLP and then transported to another hospital for transplantation. It is also the first case of lung transplantation in the United States utilizing EVLP for functional optimization leading to successful transplantation. Organ procurement data, EVLP assessment, and the pre‐ and postoperative course of the recipient are presented. The available evidence supporting EVLP, the humanitarian and cooperative utilization of lungs otherwise discarded, are discussed.     

Clinical Ex Vivo Lung Perfusion—Pushing the Limits

Ex vivo lung perfusion (EVLP) provides the ability to evaluate donor lungs before transplantation. Yet, limited prospective clinical data exist with regard to its potential to recondition unacceptable donor lungs. This paper summarizes the results of a prospective study of lung transplantation using only initially unacceptable donor lungs, which were improved by EVLP for 2–4 h. From March 2010–June 2011, 13 lungs were evaluated ex vivo. Median donor PaO₂ at FiO₂1.0/PEEP5 was 216 mmHg (range 133–271). Four lungs, all with trauma history, showed no improvement and were discarded. Nine lungs improved to a ΔPO₂ higher than 350 mmHg. Median PvO₂ at final assessment in these lungs was 466 mmHg (range 434–525). These lungs were transplanted with a median total ischemic time of 577 min (range 486–678). None of the patients developed primary graft dysfunction grades 2 or 3 within 72 h after transplantation. One patient with secondary pulmonary hypertension was left on a planned prolonged extracorporeal membrane oxygenation postoperatively. Median intubation time was 2 days. Thirty‐day mortality was 0%. During the observation period, 119 patients received standard lung transplantation with comparable perioperative outcome. EVLP has a significant potential to improve the quality of otherwise unacceptable donor lungs.     

ICAM-1和VCAM-1测定在肾移植急性排斥反应中的临床意义

目的探讨血清可溶性细胞间粘附分子１（ｓＩＣＡＭ１）和可溶性血管细胞粘附分子１（ｓＶＣＡＭ１）在肾移植急性排斥反应中的临床意义。方法采用酶联免疫吸附法（ＥＬＩＳＡ）动态监测５６例肾移植患者术后ｓＩＣＡＭ１和ｓＶＣＡＭ１水平的变化。结果肾移植患者术后ｓＩＣＡＭ１和ｓＶＣＡＭ１水平呈规律性变化,急性排斥反应组ｓＩＣＡＭ１为（３９０．６±９１．０）ｎｇ／ｍｌ,ｓＶＣＡＭ１为（１９５７．１±４０３．１）ｎｇ／ｍｌ,明显高于移植肾功能稳定组的（１３７．３±１６．８）ｎｇ／ｍｌ、（１１１８．４±２１０．４）ｎｇ／ｍｌ和ＣｓＡ肾中毒组的（１３２．７±２４．８）ｎｇ／ｍｌ、（１２８５．８±２７０．５）ｎｇ／ｍｌ,差异有非常显著性（Ｐ＜０．０１）。结论ｓＩＣＡＭ１和ｓＶＣＡＭ１可以作为肾移植术后急性排斥反应的免疫学监测指标。     

Towards donor lung recovery—gene expression changes during ex vivo lung perfusion of human lungs

We and others have demonstrated that acellular normothermic ex vivo lung perfusion of high‐risk donor lungs can result in posttransplant outcomes equivalent to that of contemporaneous lung transplantation using standard donor lungs. However, the mechanism of this effect remains unclear. Given the restoration of cellular metabolic activity during normothermic perfusion, one possibility is that of lung healing via natural innate recovery mechanisms. We explored this by examining the gene expression changes occurring in human lungs during ex vivo lung perfusion. Human lungs clinically rejected for transplantation were perfused for 12 hours of EVLP with biopsies taken at the start, at 1 hour, at 3 hours, and then every 3 hours thereafter to 12 hours. Temporal changes were identified in 2585 genes using the Short Time‐series Expression Miner and used for pathway analysis. Despite increases in endothelial markers of inflammation, circulating leukocyte cell‐specific gene expression fell over 12 hours of ex vivo lung perfusion (EVLP), suggesting an interrupted inflammation response secondary to washout of circulating leukocytes. Analysis of these gene changes suggests lung recovery follows specific stages: cellular death, cellular preservation, cellular reorganization, and cellular invasion. EVLP may improve posttransplant lung function by washout of leukocytes and facilitating innate mechanisms of repair.     

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

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^® for 12 h and subsequently divided into two groups: cold static preservation (CSP) or EVLP at 37°C with Steen™ 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 (PaO₂ 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.