Lung transplantation in patients with scleroderma: case series, review of the literature, and criteria for transplantation

Abstract: Backgrounds: The use of lung transplantation (LTX) to treat respiratory failure because of scleroderma is controversial. We present our experience, review the current literature, and suggest specific criteria for LTX in scleroderma. Of the 174 patients who underwent LTX at our center, seven (4%) had scleroderma‐associated respiratory failure. Patients and methods: A MEDLINE search of the English literature was performed for studies of LTX in patients with scleroderma between 1986 and 2006. A Kaplan–Meier survival curve was calculated over the time of the studies. Results: The MEDLINE search yielded one large review and four small case series. The small case series were included in the review. The review and our series yield a total of 54 patients. Mean patient age was 47.1 yr; 59.3% were female. Pre‐operative lung data were available for 24 patients: 22 (92%) had pulmonary fibrosis and 17 (71%) had pulmonary hypertension. Most patients (69%) underwent single‐lung transplantation. Mean forced expiratory volume at one s after LTX was 67% (range 56–87%). There was no difference in infection and rejection rates between the patients with scleroderma and other LTX recipients. The two‐ and five‐yr survival rates were 72% and 55%, respectively. Conclusions: LTX is a valid option in well‐selected patients with scleroderma and pulmonary fibrosis, yielding good pulmonary function and acceptable morbidity and mortality.     

The Munich-LTX-Score: predictor for survival after lung transplantation

Huppmann P, Neurohr C, Leuschner S, Leuchte H, Baumgartner R, Zimmermann G, Meis T, von Wulffen W, Überfuhr P, Hatz R, Frey L, Behr J for the Munich Lung Transplant Group (MLTG). The Munich‐LTX‐Score: predictor for survival after lung transplantation.
Clin Transplant 2012: 26: 173–183.
© 2011 John Wiley & Sons A/S. Abstract: Background: The purpose of this study was to create a prognostic score calculated one yr after LTX based on post‐transplant factors inclusive of donor and recipient characteristics that could be used to predict long‐term survival in patients after lung transplantation (LTX). Methods: Uni‐ and multivariate analysis in 206 consecutive LTX patients identified independent risk factors for post‐transplant mortality and onset of bronchiolitis obliterans syndrome. Munich‐LTX‐Score is devised by summing up each identified risk factor. Results: Multivariate analyses revealed acute rejection, lymphocytic bronchiolitis, donor age ≥55 yr, and HLA‐A ≥ 2‐/DR ≥ 2 mismatch and single LTX to be independent negative predictors for long‐term survival (p < 0.05). Munich‐LTX‐Score identified three discrete groups: low‐, moderate‐, and high risk. The actuarial five‐yr survival after score calculation one yr after LTX of the entire cohort was 58%, compared with 91% in low‐, 54% in moderate‐, and 0% in the high‐risk group (p < 0.001). Conclusion: Within our cohort of patients calculation of the Munich‐LTX‐Score, consisting of donor‐, recipient‐, and post‐transplant characteristics, one yr after LTX allowed to predict long‐term survival of lung transplant recipients. After prospective validation, this score could identify patients who may benefit from intensified surveillance after LTX.     

Extracorporeal CO2 removal as bridge to lung transplantation in life‐threatening hypercapnia

In patients awaiting lung transplantation (LTX), adequate gas exchange may not be sufficiently achieved by mechanical ventilation alone if acute respiratory decompensation arises. We report on 20 patients with life‐threatening hypercapnia who received extracorporeal CO₂ removal (ECCO2‐R) by means of the interventional lung assist (ILA®, Novalung) as bridge to LTX. The most common underlying diagnoses were bronchiolitis obliterans syndrome, cystic fibrosis, and idiopathic pulmonary fibrosis, respectively. The type of ILA was pumpless arteriovenous or pump‐driven venovenous (ILA activve®, Novalung) in 10 patients each. ILA bridging was initiated in 15 invasively ventilated and five noninvasively ventilated patients, of whom one had to be intubated prior to LTX. Hypercapnia and acidosis were effectively corrected in all patients within the first 12 h of ILA therapy: PaCO₂ declined from 109 (70–146) to 57 (45–64) mmHg, P < 0.0001; pH increased from 7.20 (7.06–7.28) to 7.39 (7.35–7.49), P < 0.0001. Four patients were switched to extracorporeal membrane oxygenation due to progressive hypoxia or circulatory failure. Nineteen patients (95%) were successfully transplanted. Hospital and 1‐year survival was 75 and 72%, respectively. Bridging to LTX with ECCO2‐R delivered by arteriovenous pumpless or venovenous pump‐driven ILA is feasible and associated with high transplantation and survival rates.     

Potential functional and survival benefit of double over single lung transplantation for selected patients with idiopathic pulmonary fibrosis

Idiopathic pulmonary fibrosis (IPF) is a frequent indication for lung transplantation (LTX) with pulmonary hypertension (PH) negatively affecting outcome. The optimal procedure type remains a debated topic. The aim of this study was to evaluate the impact of pretransplant PH in IPF patients. Single LTX (SLTX, n = 46) was the standard procedure type. Double LTX (DLTX, n = 30) was only performed in cases of relevant PH or additional suppurative lung disease. There was no significant difference for pretransplant clinical parameters. Preoperative mean pulmonary arterial pressure was significantly higher in DLTX recipients (22.7 ± 0.8 mmHg vs. 35.9 ± 1.8 mmHg, P < 0.001). After transplantation, 6‐min‐walk distance and BEST‐FEV₁ were significantly higher for DLTX patients (6‐MWD: 410 ± 25 m vs. 498 ± 23 m, P = 0.02; BEST‐FEV₁: 71.2 ± 3.0 (% pred) vs. 86.2 ± 4.2 (% pred), P = 0.004). Double LTX recipients demonstrated a significantly better 1‐year‐, overall‐ and Bronchiolitis obliterans Syndrome (BOS)‐free survival (P < 0.05). Cox regression analysis confirmed SLTX to be a significant predictor for death and BOS. Single LTX offers acceptable survival rates for IPF patients. Double LTX provides a significant benefit in selected recipients. Our data warrant further trials of SLTX versus DLTX stratifying for potential confounders including PH.     

Lung transplantation after hematopoietic stem cell transplantation

Whitson BA, Shelstad RC, Hertz MI, Kelly RF, D’Cunha J, Shumway SJ. Lung transplantation after hematopoietic stem cell transplantation.
Clin Transplant 2011 DOI: 10.1111/j.1399‐0012.2011.01482.x.
© 2011 John Wiley & Sons A/S. Abstract: Introduction: Pulmonary insufficiency following bone marrow transplant (BMT) is common and has significant associated mortality. Lung transplantation (LTX) is the only viable treatment for patients with end‐stage pulmonary disease, but LTX after BMT is an uncommon event given the medical candidacy of the potential recipients. We sought to evaluate the short‐ and long‐term outcomes of LTX in BMT recipients. Methods: We performed a retrospective evaluation of our institution’s longitudinal LTX and BMT databases. Demographic and outcomes variables were collected. Results: We identified 639 LTX from January 1, 1988, through December 31, 2009, and 5525 BMT from program inception, March 21, 1974, through December 31, 2009. From the cross‐referenced cohort, we identified four patients who had BMT followed by LTX. Our series was composed of two men and two women, with a mean age of 32.3 yr (range, 20–59 yr). Single LTX were performed in two recipients (50%). All patients had significant and expected morbidities related to their transplant immunosuppression. Three patients (75%) required cardiopulmonary bypass at the time of LTX. The two recipients who underwent bilateral LTX required open chest management and subsequent tracheostomy. All patients are still alive at follow‐up (range, 19–119 months, median 39.5). Conclusion: Our study demonstrates that LTX in the setting of BMT is a high‐risk operation with the potential for a tumultuous perioperative course. Despite this, good outcomes and survival are obtainable in carefully selected patients. Selection factors include clinically stable patients without active sepsis and preoperative optimization of nutrition in anticipation of a prolonged recovery. An experienced multidisciplinary team approach and a protocol‐driven management plan are paramount for successful outcomes in this challenging population.     

Pulmonary hypertension is not a risk factor for grade 3 primary graft dysfunction after lung transplantation

Grade 3 primary graft dysfunction (PGD3) represents the most important risk factor for patient mortality during the first year after lung transplantation (LTX). We investigated whether pretransplant pulmonary hypertension (PH) is a risk factor for the development of PGD3. This retrospective, single‐center cohort study included 96 candidates undergoing right heart catheterization (RHC) prior to being listed for LTX between March 2000 and October 2015. Based on their mean pulmonary artery pressure (mPAP) levels, the patients were classified into 3 groups: (1) <25 mm Hg, (2) 25‐34 mm Hg and (3) ≥35 mm Hg. Forty‐seven patients were classified in group 1, 31 in group 2, and 18 in group 3. Fifteen recipients (16%, 95%‐CI 8‐23) developed PGD3. In the univariate analysis, the diagnosis of interstitial lung disease (ILD) compared to COPD (OR: 7.06, P = .005), blood transfusion >1000 mL during surgery (OR: 5.25, P = .005), the need for intra‐operative cardio‐pulmonary bypass (CPB) or extra‐corporeal membrane oxygenation (ECMO) (OR: 4, P = .027), mPAP (OR 1.06, P = .007) and serum high density lipoprotein‐cholesterol (HDL‐C) (OR 0.09, P = .005) were associated with PGD3. In the multivariable logistic regression analysis, only HDL‐C (OR 0.10, P = .016) was associated with PGD3 based on our single‐center cohort data analysis.     

No survival benefit to gaining private health insurance coverage for post‐lung transplant care in adults with cystic fibrosis

The use of public insurance is associated with diminished survival in patients with cystic fibrosis (CF) following lung transplantation. No data exist on benefits of gaining private health insurance for post‐transplant care among such patients previously using public insurance. The United Network for Organ Sharing database was used to identify first‐time lung transplant recipients participating in Medicare or Medicaid, diagnosed with CF, and transplanted between 2005 and 2015. Survival outcomes were compared between recipients gaining private insurance after transplantation and those maintaining public coverage throughout follow‐up. Since implementation of the lung allocation score, 575 adults with CF received lung transplantation funded by Medicare or Medicaid and contributed data on insurance status post‐transplant. There were 128 (22%) patients who gained private insurance. Multivariable analysis of time‐varying insurance status found no survival benefit of gaining private insurance (HR = 0.822; 95% CI = 0.525, 1.286; p = 0.390). Further analysis demonstrated that resuming public insurance coverage was detrimental, relative to gaining and keeping private insurance (HR = 2.315; 95% CI = 1.020, 5.258; p = 0.045). Survival disadvantages of lung transplant recipients with CF who have public health insurance were not ameliorated by a switch to private coverage for post‐transplant care.     

Irradiation before and donor splenocyte infusion immediately after transplantation induce tolerance to lung,but not heart allografts in miniature swine

Solid organs may differ in their potential to induce and maintain a state of donor‐specific tolerance. Previously, we induced stable immunological tolerance in a lung transplantation model in miniature swine. Here, we wished to transfer this established protocol into a heart transplantation model in miniature swine. Heterotopic heart transplantation (HTX) was performed in four and left‐sided lung transplantation (LTX) in seven minipigs from gender‐ and SLA‐mismatched donors. All recipients received nonmyeloablative irradiation, donor splenocyte infusion and intravenous pharmacologic immunosuppression for 28 postoperative days. All transplanted hearts were rejected within 95 days. In contrast, four animals of the LTX group developed stable tolerance surviving beyond 500 days, and three further animals rejected 119, 239 and 360 days post‐transplantation. In both groups, peripheral blood donor leucocyte chimerism peaked 1 h after reperfusion of the allograft. Importantly, the early chimerism level in the LTX group was significantly higher compared to the HTX group and remained detectable throughout the entire observation period. In conclusion, lungs and hearts vary in their potential to induce a state of tolerance after transplantation in a protocol with pre‐operative recipient irradiation and donor splenocyte co‐transplantation. This could be due to differential early levels of passenger leucocyte chimerism.     

Concomitant Endothelin‐1 Overexpression in Lung Transplant Donors and Recipients Predicts Primary Graft Dysfunction

Primary graft dysfunction (PGD) causes significant morbidity following lung transplantation (LTX). Mortality is high in PGD and therapeutic strategies are limited. To investigate whether endothelin‐1 (ET‐1) that mediates increased vascular permeability and edema formation in lung grafts can predict PGD, ET‐1 mRNA expression was examined in lung tissue biopsies of 105 donors and recipients obtained shortly before LTX. Serum ET‐1 concentration was assessed by ELISA. PGD grade was diagnosed and scored by oxygenation and radiological characteristics according to ISHLT guidelines. PGD grade 3 developed in 11% of patients. ET‐1 mRNA expression was significantly increased in both donor (p < 0.0001) and recipient (p = 0.01) developing PGD as compared to no PGD group. Pretransplant ET‐1 serum concentrations were elevated in recipients with PGD as compared to no PGD group (p < 0.0001), although serum ET‐1 was not different between donors whose grafts developed PGD grades 0–3. In regression analysis, concomitant elevated donor tissue ET‐1 and recipient serum ET‐1 predicted PGD grade 3. This study indicates that pretransplant ET‐1 mRNA overexpression in donors associated with elevated pretransplant serum ET‐1 in recipients contribute to PGD development and that their assessment might be beneficial to predict PGD and to identify recipients who could benefit from a targeted ET‐1 blockade.     

Underweight and obesity increase the risk of mortality after lung transplantation: a systematic review and meta‐analysis

Many studies have found an association between abnormal body mass index (BMI) and poor outcomes among lung transplant recipients. We performed a systematic review and meta‐analysis to identify outcomes associated with an abnormal pretransplant BMI after lung transplantation (LTx). The MEDLINE and EMBASE databases were searched from inception to May 2015 with focus on original observational studies with post‐transplant survival data in candidates with abnormal BMI (underweight, overweight, or obese). We performed meta‐analyses examining survival and primary graft dysfunction after LTx. We identified 866 citations; 13 observational cohort studies involving 40 742 participants met our inclusion criteria for systematic review. Seven of the 13 were included in the meta‐analysis. There was a significant risk of mortality after LTx in candidates with underweight and obesity (underweight versus normal, relative risk [RR] 1.36, 95% confidence interval [CI] 1.11–1.66, I² = 0%; obesity vs. normal, RR 1.90, 95% CI 1.45–2.56, I² = 0%; overweight vs. normal, RR 1.36, 95% CI 1.11–1.66, I² = 0). There was also a significant risk of primary graft dysfunction in obese (RR 1.92, 95% CI 1.39–2.65, I² = 0%) and overweight (RR 1.72, 95% CI, 1.32–2.24, I² = 0%) candidates. Lung transplant candidates who are underweight or obese have a higher risk of post‐transplant mortality than recipients with a normal BMI.     

Impaired exercise capacity after lung transplantation is related to delayed recovery of muscle strength

Lung transplant recipients report reduced exercise capacity despite satisfactory graft function. We analysed changes in lung function, six‐min walk distance (6MWD), and quadriceps strength in the first 26‐wk post‐transplant and examined what factors predict 6MWD recovery. All lung transplant recipients at a single institution between June 2007 and January 2011 were considered for inclusion. Lung function, 6MWD, and quadriceps strength corrected for body weight (QS%) were recorded pre‐ and two‐, six‐, 13‐, and 26‐wk post‐transplant. Fifty recipients, of mean (±SD) age 42 (±13) yr, were studied. Mean FEV₁% and 6MWD improved from 26.4% to 88.9% and from 397 to 549 m at 26 wk, respectively (both p < 0.001). QS% declined in the first two wk but had improved to above pre‐transplant levels by 26 wk (p = 0.027). On multivariate analysis (n = 35), lower pre‐transplant exercise capacity and greater recovery in muscle strength explained most of the improvement in exercise capacity. Delayed recovery of exercise capacity after lung transplantation is unrelated to delay in improvement in graft function, but occurs secondary to the slow recovery of muscle strength. Our findings show that additional controlled trials are needed to better understand the influence of exercise rehabilitation on improvement in exercise capacity post‐transplantation.     

Developments in pediatric liver transplantation since implementation of the new allocation rules in Eurotransplant

Liver allocation in the Eurotransplant (ET) region has changed from a waiting time to an urgency‐based system using the model of end‐stage liver disease (MELD) score in 2006. To allow timely transplantation, pediatric recipients are allocated by an assigned pediatric MELD independent of severity of illness. Consequences for children listed at our center were evaluated by retrospective analysis of all primary pediatric liver transplantation (LTX) from deceased donors between 2002 and 2010 (110 LTX before/50 LTX after new allocation). Of 50 children transplanted in the MELD era, 17 (34%) underwent LTX with a high‐urgent status that was real in five patients (median lab MELD 22, waiting time five d) and assigned in 12 patients (lab MELD 7, waiting time 35 d). Thirty‐three children received a liver by their assigned pediatric MELD (lab MELD 15, waiting time 255 d). Waiting time in the two periods was similar, whereas the wait‐list mortality decreased (from about four children/yr to about one child/yr). One‐ and three‐yr patient survival showed no significant difference (94.5/97.7%; p = 0.385) as did one‐ and three‐yr graft survival (80.7/75.2%; and 86.5/82%; p = 0.436 before/after). Introduction of a MELD‐based allocation system in ET with assignment of a granted score for pediatric recipients has led to a clear priorization of children resulting in a low wait‐list mortality and good clinical outcome.     

“White‐Out” After Lung Transplantation: A Multicenter Cohort Description of Late Acute Graft Failure

Graft failure represents a leading cause of mortality after organ transplantation. Acute late‐onset graft failure has not been widely reported. The authors describe the demographics, CT imaging–pathology findings, and treatment of patients presenting with the latter. A retrospective review was performed of lung transplant recipients at two large‐volume centers. Acute late‐onset graft failure was defined as sudden onset of bilateral infiltrates with an oxygenation index <200 without identifiable cause or concurrent extrapulmonary organ failure. Laboratory, bronchoalveolar lavage (BAL), radiology, and histology results were assessed. Between 2005 and 2016, 21 patients were identified. Median survival was 19 (IQR 13–36) days post onset. Twelve patients (57%) required intensive care support at onset, 12 (57%) required mechanical ventilation, and 6 (29%) were placed on extracorporeal life support. Blood and BAL analysis revealed elevated neutrophilia, with CT demonstrating diffuse ground‐glass opacities. Transbronchial biopsy samples revealed acute fibrinoid organizing pneumonia (AFOP), organizing pneumonia, and diffuse alveolar damage (DAD). Assessment of explanted lungs confirmed AFOP and DAD but also identified obliterative bronchiolitis. Patients surviving to discharge without redo transplantation (n = 2) subsequently developed restrictive allograft syndrome. This study describes acute late‐onset graft failure in lung allograft recipients, without known cause, which is associated with a dismal prognosis.     

Association of prevalent vascular disease with allograft failure and mortality in live‐donor kidney transplant recipients – a retrospective cohort study

Limited data exist regarding the impact of prevalent vascular disease after live‐donor kidney transplantation. We aimed to determine the associations between the number of prevalent vascular diseases, allograft, and patient outcomes following live‐donor transplantation. This cohort study used data from the Australia and New Zealand Dialysis and Transplant Registry. Rates between recipients of live‐donor kidney transplants ± prevalent vascular disease prior to transplantation were calculated. The associations between vascular disease, allograft failure, and all‐cause mortality were assessed using Cox regression modeling. Kaplan–Meier proportions were used to calculate all‐cause mortality and death with a function graft stratified by vascular disease burden. Of 4742 live‐donor recipients, 428 (9%) and 84 (2%) had prevalent vascular disease at 1 and ≥2 sites, respectively. Compared to recipients without vascular disease, the respective adjusted hazard ratios (95% confidence intervals) for patients with vascular disease at 1 and ≥2 sites were 1.78 (1.41–2.25) and 3.02 (2.03–4.50) for all‐cause mortality; and 1.54 (1.26–1.88) and 2.28 (1.54–3.38) for allograft failure. All‐cause mortality in recipients with vascular disease at 0, 1 and ≥2 sites was 0.028 (0.025, 0.031), 0.090 (0.073, 0.106) and 0.247 (0.196, 0.282) over the first 5‐year post‐transplant. There was an incremental association between the number of prevalent vascular disease sites and risk of allograft failure and all‐cause mortality in live‐donor kidney transplant recipients.     

Sleep-disordered breathing after lung transplantation: An observational cohort study

Data concerning sleep-disordered breathing (SDB) after lung transplantation (LTX) are scarce. This study aims to analyze prevalence, associated factors, and impact on survival of moderate to severe SDB in a large cohort of consecutive LTX patients (n = 219). Patients underwent a diagnostic polysomnography 1 year after LTX. Moderate to severe SDB was present in 57.5% of patients, with the highest prevalence in chronic obstructive pulmonary disease/emphysema (71.1%) and pulmonary fibrosis (65.1%). SDB patients were older, mostly male, and had higher body mass index and neck circumference. Nocturnal diastolic and 24-hour blood pressures were higher in SDB patients. In 45 patients, polysomnography was also performed pre-LTX. Compared to pre-LTX, mean apnea/hypopnea index (AHI) increased significantly after LTX. A significant correlation was seen between lung function parameters and AHI, suggesting a role of decreased caudal traction on the pharynx. Presence of SDB had no impact on mortality or prevalence of chronic lung allograft dysfunction. However, survival was better in continuous positive airway pressure (CPAP) compliant SDB patients compared to SDB patients without CPAP treatment. These findings may be pertinent for systematic screening of SDB after LTX.     

Performance of existing risk scores around heart transplantation: validation study in a 4‐year cohort

Several risk scores exist to help identify best candidate recipients for heart transplantation (HTx). This study describes the performance of five heart failure risk scores and two post‐HTx mortality risk scores in a French single‐centre cohort. All patients listed for HTx through a 4‐year period were included. Waiting‐list risk scores [Heart Failure Survival Score (HFSS), Seattle Heart Failure Model (SHFM), Meta‐Analysis Global Group in Chronic Heart Failure (MAGGIC), Organized Program to Initiate Lifesaving Treatment in Hospitalized Patients with Heart Failure (OPTIMIZE‐HF) and Get With The Guidelines‐Heart Failure (GWTG‐HF)] and post‐HTx scores Index for Mortality Prediction After Cardiac Transplantation (IMPACT and CARRS) were computed. Main outcomes were 1‐year mortality on waiting list and after HTx. Performance was assessed using receiver operator characteristic (ROC), calibration and goodness‐of‐fit analyses. The cohort included 414 patients. Waiting‐list mortality was 14.0%, and post‐HTx mortality was 16.3% at 1‐year follow‐up. Heart failure risk scores had adequate discrimination regarding waiting‐list mortality (ROC AUC for HFSS = 0.68, SHFM = 0.74, OPTIMIZE‐HF = 0.72, MAGGIC = 0.70 and GWTG = 0.77; all P‐values <0.05). On the contrary, post‐HTx risk scores did not discriminate post‐HTx mortality (AUC for IMPACT = 0.58, and CARRS = 0.48, both P‐values >0.50). Subgroup analysis on patients undergoing HTx after ventricular assistance device (VAD) implantation (i.e. bridge‐to‐transplantation) (n = 36) showed an IMPACT AUC = 0.72 (P < 0.001). In this single‐centre cohort, existing heart failure risk scores were adequate to predict waiting‐list mortality. Post‐HTx mortality risk scores were not, except in the VAD subgroup.     

Survival after lung transplantation in recipients with alpha‐1‐antitrypsin deficiency compared to other forms of chronic obstructive pulmonary disease: a national cohort study

Alpha‐1‐antitrypsin deficiency (AATD) is grouped with chronic obstructive pulmonary disease (COPD); however, this may not be appropriate. This study assessed whether AATD confers a different prognosis than COPD following lung transplantation. We employed the United Network for Organ Sharing (UNOS) database, grouping patients by diagnoses of AATD or COPD. Kaplan–Meier methods and Cox modeling were performed to determine the association of diagnosis and overall survival. Of 9569 patients, 1394 (14.6%) had a diagnosis of AATD. Patients with AATD who received a single‐lung transplant had reduced 1‐year survival [adjusted hazard ratio (AHR): 1.68, 95% CI: 1.26, 2.23]. Among patients who received a bilateral lung transplant, there was no significant difference in survival by diagnosis (AHR for AATD as compared to COPD: 0.96, 95% CI: 0.82, 1.12). After the implementation of the lung allocation score (LAS), there was no significant difference in survival among patients who received a single (AHR: 1.15, 95% CI: 0.69, 1.95) or bilateral (AHR: 0.99, 95% CI: 0.73, 1.34) lung transplant by diagnosis. Lung transplantation is increasingly employed in the care of the patient with COPD. Although recipients undergoing LTX for AATD are at increased risk of both acute rejection and airway dehiscence post‐transplant, in the post‐LAS era, survival rates are similar for recipients with AATD in comparison with COPD.     

Transplantation of donor lungs with pulmonary embolism – a retrospective study

Lung transplantation from donors with fulminant pulmonary arterial embolism as a cause of death remains controversial. An analysis was performed comparing preoperative characteristics and outcomes of 25 donors with a primary diagnosis of pulmonary arterial embolism to 1085 recipients of donor lungs without pulmonary arterial embolism. No early functional impairment of donor lungs with pulmonary embolism was detectable as depicted by the incidence of primary graft dysfunction immediately after surgery (P = 0.66), 24 (P = 0.79), 48 (P = 0.99) and 72 h (P = 0.99) after transplantation. Pulmonary function testing at 1 year (P = 0.003) and at last outpatient control (P < 0.05) showed superior results in the cohort receiving lungs from donors with pulmonary embolism. Incidence of chronic lung allograft dysfunction (CLAD) showed no difference within the first year after lung transplantation, however, 5 year‐CLAD free survival was superior in recipients (70.4% vs. 55.1%, P = 0.006) of donor lungs with pulmonary embolism. Overall survival was similar in both groups. Lungs from donors with fulminant pulmonary embolism prior to brain death can safely be used for lung transplantation without impairing postoperative outcomes. Lung function testing shows favorable midterm results in recipients of donor lungs with pulmonary embolism.     

Role of insulin resistance indices in predicting new‐onset diabetes after kidney transplantation

New‐onset diabetes mellitus (NODAT) is a serious complication following renal transplantation. In this cohort study, we studied 118 nondiabetic renal transplant recipients to examine whether indices of insulin resistance and secretion calculated before transplantation and at 3 months post‐transplantation are associated with the development of NODAT within 1 year. We also analysed the long‐term impact of early diagnosed NODAT. Insulin indices were calculated using homeostasis model assessment (HOMA) and McAuley's Index. NODAT was diagnosed using fasting plasma glucose. Median follow‐up was 11 years. The cumulative incidence of NODAT at 1 year was 37%. By logistic regression, recipient age (per year) was the only significant pretransplant predictor of NODAT (OR 1.04, CI 1.009–1.072), while age (OR 1.04, CI 1.005–1.084) and impaired fasting glucose (OR 2.97, CI 1.009–8.733) were significant predictors at 3 months. Pretransplant and 3‐month insulin resistance and secretion indices did not predict NODAT. All‐cause mortality was significantly higher in recipients developing NODAT within 1 year compared with those remaining nondiabetic (44% vs. 22%, log‐rank P = 0.008). By Cox's regression analysis, age (HR 1.075, CI 1.042–1.110), 1‐year creatinine (HR 1.007, CI 1.004–1.010) and NODAT within 3 months (HR 2.4, CI 1.2–4.9) were independent predictors of death. In conclusion, NODAT developing early after renal transplantation was associated with poor long‐term patient survival. Insulin indices calculated pretransplantation using HOMA and McAuley's Index did not predict NODAT.