Extended donor criteria for lung transplantation a clinical reality *

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European Journal of Cardio-thoracic Surgery 27 (2005) 757 761 www.elsevier.com/locate/ejcts Extended donor criteria for lung transplantation a clinical reality * Abstract Clemens Aigner a, Guenther Winkler a, Peter Jaksch a, Gernot Seebacher a, Gyorgy Lang b, Sharokh Taghavi a, Wilfried Wisser a, Walter Klepetko a, * a Department of Cardiothoracic Surgery, Vienna Medical University, Waehringer Guertel 18-20, 1090 Vienna, Austria b Thoracic Surgery Clinic, Koranyi National Institute for Pulmonology, Budapest, Hungary Received 7 September 2004; received in revised form 31 December 2004; accepted 12 January 2005; Available online 2 March 2005 Objective: Standard lung donor criteria have been established on opinions and individual experiences rather than on existing evidence. Since the scarcity of donor organs is one of the major limitations to lung transplantation, extension of donor lung criteria might considerably increase the donor pool. This study therefore evaluates the outcome, achieved with the use of extended donors versus standard donors and aims to redefine lung donor criteria. Methods: We performed a retrospective analysis of 98 consecutive primary lung transplantations from 94 donors from 1/2001 to 12/2002. Donors were classified as extended if they fulfilled at least one criteria: age O55 years, PaO 2 at FiO 2 /PEEP 5!300 mmhg, tobacco history O20 pack years, inhalative drug abuse, presence of infiltration on chest X-ray or purulent secretions at bronchoscopy. Recipients were stratified in two groups according to whether they received a standard or extended organ. Postoperative complications, extubation time, ICU and hospital stay and survival were compared. Results: Twenty-three (24.5%) donors were extended. Twenty-six recipients (26.55%) received organs from extended donors. Differences in intubation times (12G2 days standard vs. 14G5 days extended, PZ0.70), ICU stay (16G2 days standard vs. 18G5 days extended, PZ0.74) and hospital stay (38G4 days standard vs. 40G6 days extended, PZ0.71) were not statistically significant. Postoperative bleeding rates were comparable (nz14 standard vs. nz3 extended) as well as bronchial anastomotic complications (nz7 standard vs. nz3 extended). Three months survival was 88.89% in the standard group vs. 92.31% in the extended group. One year survival is comparable as well with 81.94 vs. 84.62%, respectively. Conclusions: The use of lung donors who fail to meet standard criteria does not impair short and medium term results compared to standard lung donors. The impact on long term development of BOS has yet to be evaluated. The strict application of standard lung donor criteria excludes a considerable number of lungs potentially suitable for transplantation, thus liberalisation of donor criteria might help to overcome donor shortage. q 2005 Elsevier B.V. All rights reserved. Keywords: Lung transplantation; Donors; Presumed consent 1. Introduction The quality of donor organs undisputedly has a significant impact on early and long term outcome after transplantation. Existing standard lung donor criteria have been established in an earlier period of lung transplantation based mainly on opinions and individual experiences rather than on existing evidence [1]. Since scarcity of donor organs is one of the major limitations to lung transplantation, the extension of donor lung criteria has the potential to considerably increase the donor pool. Beside the sole donor-specific criteria, re-evaluation of matching criteria might have a similar effect. Due to the constantly increasing use of marginal donor lungs, this study evaluates the outcomes * Presented at the joint 18th Annual Meeting of the European Association for Cardio-thoracic Surgery and the 12th Annual Meeting of the European Society of Thoracic Surgeons, Leipzig, Germany, September 12 15, 2004. *Corresponding author. Tel.: C43 1 40400 5644; fax: C43 1 40400 5642. E-mail address: walter.klepetko@meduniwien.ac.at (W. Klepetko). achieved with the use of extended donors versus standard donors and aims to redefine lung donor criteria. 2. Patients and methods Ninety-eight consecutive primary lung transplantations from 94 lung donors from 1/2001 to 12/2002 were retrospectively reviewed. Donors were evaluated according to age, available medical record, blood gas analysis, available laboratory values, chest X-ray and findings during bronchoscopy and harvesting. Blood group compatibility as a prerequisite, donor/recipient matching was based primarily on size (with the predicted total donor lung capacity compared to the recipient s predicted and real total lung capacity as the primary method), age and urgency of the recipient. Additionally the estimated ischemic time was taken into account. Donors were classified as extended if they fulfilled at least one of the following criteria: age O55 years, PaO 2 at 1010-7940/$ - see front matter q 2005 Elsevier B.V. All rights reserved. doi:10.1016/j.ejcts.2005.01.024

758 C. Aigner et al. / European Journal of Cardio-thoracic Surgery 27 (2005) 757 761 Both groups were compared with regard to postoperative complications, time until extubation, ICU and hospital stay, survival and incidence of BOS. 3. Results Fig. 1. Indications for lung transplantation. FiO 2 /PEEP 5!300 mmhg, tobacco history O20 pack years, inhalative drug abuse, presence of infiltration on chest X-ray or purulent secretions at bronchoscopy. The lungs were harvested en-bloc after perfusion with a high molecular low potassium dextrane (LPD) solution and 0.5 mg epoprostenol, separated at the back-table and stored separately in perfusion solution. Surgical approach for transplantation was either gained by uni- or bilateral anterolateral thoracotomy or bilateral transsternal thoracotomy (clamshell incision). If intraoperative cardiopulmonary support was required, extracorporeal membrane oxygenation (ECMO) was routinely used instead of cardiopulmonary bypass. Recipients were stratified in two groups according to whether they received a standard or extended organ. Recipient diagnoses were COPD (nz33 standard group vs. nz11 extended donor group), pulmonary fibrosis (nz15 vs. 6), primary or secondary pulmonary hypertension (nz7 vs. 5), cystic fibrosis (nz13 vs. 3), bronchiectasia (nz1 vs. 1), chronic thromboembolic pulmonary hypertension and Swyer James Syndrom (each nz1 standard group) (Fig. 1). Mean age at transplantation was 45G16 years in the standard group compared to 45G15 years in the extended group. Gender distribution was 26 females and 46 males in the standard group compared to 20 females and six males in the extended group (P!0.01). Results are described as meangsd unless otherwise indicated. Twenty-three (24.5%) donors were extended according to the above mentioned criteria. Eight donors had a reduced arterial oxygenation, five donors were older than 55 year, in three donors pathologies on chest X-ray were detected, one donor had a smoking history of more than 20 pack-years and in one donor active cocaine abuse was known. Five donors presented with various combinations of two extended factors. Twenty-six recipients (26.55%) received organs from extended donors. Mean waiting list time was 87G90 days in the standard group versus 101G87 days in the extended group (PZ0.21). In the standard group, 58 bilateral and 14 single lung transplantations were preformed compared to 18 double and eight single in the extended group. Twenty-nine patients in the standard group and six patients in the extended group were transplanted with ECMO support. In one patient in the extended group cardiopulmonary bypass was required due to a concomitant ventricular septum defect repair. In 36 patients (27 in the standard group, nine in the extended group) ischemic time was prolonged more than 6 h. Mean ischemic time was 6.1G1.0 h in the standard group compared to 6.1G 1.9 h in the extended group (PZ0.9). Additional downsizing of the donor lung due to a size mismatch was required in 10 recipients in the extended group and 17 recipients in the standard group. If matching criteria like extended graft ischemic time of more than 6 h and/or size mismatch requiring downsizing of the donor lung are also taken into account then 61 (62.2%) recipients received non-guideline donor organs. Intubation time (12G2/median 3 days standard vs. 14G 5/median 4 days extended, PZ0.70), intensive care unit stay (16G2/median 8 days standard vs. 18G5/median 9 days extended, PZ0.74) and hospital stay (38G4/median 25 days standard vs. 40G6/median 31 days extended, PZ0.71) was slightly, but not statistically significant longer in the extended group. Postoperative bleeding rates requiring operative revision were comparable in both groups (nz14 standard vs. nz3 extended, PZ0.36) as well as bronchial anastomotic complications (nz7 standard (5.4% of 130 anastomoses at risk) vs. nz3 (6.8% of 44 anastomoses at risk) extended, PZ0.79). Three months survival was 88.89% in the standard group vs. 92.31% in the extended group. Table 1 30 day mortality Age Gender Diagnosis Cause of death Extension criteria Date Additional risks Standard donor group 14 Male CF ICB Standard 0 Ischemia O 6 h, size red 30 Male PPH MCI Standard 7 Size red 63 Male COPD Sepsis Standard 20 Extended donor group 36 Female Fibrosis MOF Age 16 Ischemia O6 h, size red 30 Female PPH ICB Chest X-ray 0 Size red

C. Aigner et al. / European Journal of Cardio-thoracic Surgery 27 (2005) 757 761 759 Table 2 Current standard donor lung criteria Age! 55 years ABO blood group compatibility Clear chest radiography Arterial oxygen pressure O300 mm mercury on fractional inspired oxygen of 1.0 and positive end-expiratory pressure on 5 cm H 2 O!20 pack-year smoking history Absence of chest trauma No aspiration or sepsis Sputum gram stain sample free of bacteria, fungus and significant number of white blood cells Patient details for 30 day mortality are given in Table 1. After a mean follow up of 697C343 days (range 0 1268 days) actuarial survival is 68.35% in the standard group compared to 75.21% in the extended group (Fig. 2). The best lung function tests achieved after transplantation were also comparable in both groups. (FEV1% 73.5G 20.8 vs. 75.1G22.8, PZ0.77; TLC% 91.3G17.4 vs.99.6g 19.7, PZ0.10) During the observation period, eight patients in the standard group developed bronchiolitis obliterans syndrome O0p, whereas, all of the patients in the extended group are in either BOS 0 or 0p. Mean time to onset of BOS was 223G 198 days (Fig. 3). 4. Discussion Fig. 2. Kaplan Meier survival. In order to accept an organ donor, several criteria need to be taken into account (Table 2). Besides general donor Fig. 3. Donor chest X-ray. Partial clouding of the right hemithorax due to iatrogenic pleural fluid instillation by a misplaced subclavian catheter. Upon harvesting of the lungs the parenchyma was completely unimpaired and both lungs successfully transplanted. criteria which might avert organ donation at all, lung specific criteria have been defined in an attempt to deduce the functional capacity of a donor lung and exclude organs likely to provide unsatisfying results. However, those criteria are based mainly on opinions and individual experiences rather than on existing evidence [1]. Several reports have been published that the use of lung donors who fail to meet all standard criteria does not significantly impair results compared to standard lung donors [2 4]. Even after refinement of guidelines [5], they still do not reflect clinical reality. Besides the sole donor criteria obviously the organisational background of a transplant program is an important factor. The Vienna lung transplant programme is established in the Austrian legal framework of presumed consent organ donation and center orientated allocation. This results in a relatively high organ donation rate and a short waiting list with low waiting list mortality. Additionally the organ can be allocated by the center to the most suitable recipient not only by strict waiting time or size matching criteria but also according to the current medical status of the patient. Even in this setting every fourth donor accepted does not meet the standard lung donor criteria. If matching criteria like extended graft ischemic time of more than 6 h and/or size mismatch requiring downsizing of the donor lung are also taken into account then 61 (62.2%) recipients received nonguideline organs. In transplant centers with long waiting lists and a high mortality rate on the waiting list, the pressure to accept marginal donor organs might be even more prevalent. Several criteria are mentioned in the recommendations. One criterion which needs critical reflection in each individual case is the arterial oxygenation. If arterial oxygenation in an otherwise acceptable donor is reduced, potential reasons have to be scrutinized. To give an example we encountered distinct reduced arterial oxygenation in a severely obese donor. At harvesting almost total atelectasis of the lower lobe was observed, yet the lung was after full inflation completely unimpaired. Overall there is inadequate data regarding the risk/benefit ratio for the lower limit of acceptability for donor arterial blood gases [6]. The current guidelines for upper age limit suggest 55 years as maximum age. While in kidney transplantation in the framework of Eurotransplant an old-to-old program has been successfully established [7], no such efforts have been undertaken in lung transplantation. In our patients, donors up to the age of 61 have been used. A thorough evaluation of these donors, especially for malignancy and other potentially undiagnosed diseases has to be undertaken. Although smaller studies have not shown a survival disadvantage with

760 C. Aigner et al. / European Journal of Cardio-thoracic Surgery 27 (2005) 757 761 the use of older donors [8], larger registry studies have shown a negative effect on intermediate and long term survival, particularly when combined with increased graft ischemic time [9]. Another important factor in donor evaluation is the chest X-ray. While ideally suggested, it should be clear, alterations do not necessarily preclude donation. Often basal atelectasis might mimic bilateral infiltrations. After trauma localised contusions might be present. Often judgment of the underlying cause of alteration is difficult. Yet every effort has to be made to rule out pneumonia or aspiration as source of the infiltrate. If unilateral alteration prevail, use of the contralateral side can be considered. To summarize literature, there are no adequate data to provide firm guidelines regarding utilisation of donors with abnormal chest X-rays [6]. Additionally to that, donor smoking history has to be taken into account. While recommendations suggest a donor smoking history!20 pack years, we have actually used donors with longer smoking history if no proven impairments exist. To our knowledge no reports exist reporting adverse short or long term outcome after prolonged donor smoking history. Standard criteria also include a negative donor sputum gram stain. According to our experience this is not always readily available in donor hospitals. We only insist on this, if chest X-ray or abundant secretion at bronchoscopy suggest increased risk of colonisation. Instead we routinely perform a bacteriological swab of the donor bronchus at implantation, still providing the possibility to adapt antibiotic therapy in case of colonisation. Beyond those purely donor-related criteria important factors are the graft ischemic time and the size matching. Current guidelines suggest an ischemic time below 6 h. However, available evidence suggests few problems with extended ischemic times up to 8 h, whereas an adverse interaction is noted with prolonged graft ischemic time and older donors [10]. With the use of low potassium dextrane perfusion throughout the entire observation period no adverse effect of moderate extension of ischemic time beyond 6 h was noticed. Size discrepancies can be overcome by reduced size lung transplantation, including split lung transplantation, lobar transplantation or peripheral wedge resection. However, these are not considered standard procedures and not all centers perform them on a regular basis [11]. The patient numbers of this retrospective single center study are obviously too small for any meaningful all-purpose redefinition of donor lung criteria. However, they are in concordance with various other reports, suggesting that donor lung criteria can safely be expanded, yet care has to taken if multiple factors are extended and especially if extended donors are used in extended recipients. Our current center specific guidelines are summarized in Table 3. A re-evaluation of standard lung donor criteria and potentially an extension of recommended limits based on larger registry studies certainly is warranted. In conclusion, the use of lung donors who fail to meet standard criteria does not impair short and medium term results compared to standard lung donors in our experience. Even though the use of extended donor lungs will not fully resolve the problem of limited organ supply, the strict application of standard lung donor criteria excludes Table 3 Donor lung criteria applied at Vienna lung transplant program Age!65 years No proven impairments after smoking history O20 pack years No extensive parenchymal destruction after chest trauma Unilateral infiltrate, aspiration or extensive trauma / use of contralateral lung possible Positive sputum gram stain / adequate prophylaxis (except multiresistant bacteria) Reduced arterial oxygenation / evaluation of potential non-pulmonary causes (obesity, pleural effusions, malintubation,.) Clarify possibility of improvements with active donor management a considerable number of lungs potentially suitable for transplantation, thus liberalisation of donor criteria might help in overcoming donor shortage. References [1] Patterson GA, Cooper JD. Status of lung transplantation. Surg Clin North Am 1988;68(3):545 58. [2] Sundaresan S, Semenkovich J, Ochoa L, Richardson G, Trulock EP, Cooper JD, Patterson GA. Successful outcome of lung transplantation is not compromised by the use of marginal donor lungs. J Thorac Cardiovasc Surg 1995;109(6):1075 9. [3] Bhorade SM, Vigneswaran W, McCabe MA, Garrity ER. Liberalization of donor criteria may expand the donor pool without adverse consequence in lung transplantation. J Heart Lung Transplant 2000;19(12): 1199 204. [4] Pierre AF, Sekine Y, Hutcheon MA, Waddell TK, Keshavjee SH. Marginal donor lungs: a reassessment. J Thorac Cardiovasc Surg 2002;123(3): 421 7. [5] Steinman TI, Becker BN, Frost AE, Olthoff KM, Smart FW, Suki WN, Wilkinson AH. Clinical Practice Committee, American Society of Transplantation. Guidelines for the referral and management of patients eligible for solid organ transplantation. Transplantation 2001;71(9): 1189 204. [6] Orens JB, Boehler A, de Perrot M, Estenne M, Glanville AR, Keshavjee S, Kotloff R, Morton J, Studer SM, Van Raemdonck D, Waddel T, Snell GI. Pulmonary Council International Society for heart and lung transplantation. A review of lung transplant donor acceptability criteria. J Heart Lung Transplant 2003;22(11):1183 200. [7] Smits JM, Persijn GG, van Houwelingen HC, Claas FH, Frei U. Evaluation of the Eurotransplant Senior Program. The results of the first year. Am J Transplant 2002;2(7):664 70. [8] Meyer DM, Bennett LE, Novick RJ, Hosenpud JD. Effect of donor age and ischemic time on intermediate survival and morbidity after lung transplantation. Chest 2000;118(5):1255 62. [9] Hosenpud JD, Bennett LE, Keck BM, Boucek MM, Novick RJ. The Registry of the International Society for heart and lung transplantation: 18th Official Report-2001. J Heart Lung Transplant 2001;20(8):805 15. [10] Novick RJ, Bennett LE, Meyer DM, Hosenpud JD. Influence of graft ischemic time and donor age on survival after lung transplantation. J Heart Lung Transplant 1999;18(5):425 31. [11] Aigner C, Mazhar S, Jaksch P, Seebacher G, Taghavi S, Marta G, Wisser W, Klepetko W. Lobar transplantation, split lung transplantation and peripheral segmental resection reliable procedures for downsizing donor lungs. Eur J Cardiothorac Surg 2004;25(2):179 83. Appendix A. Conference discussion Dr N. van der Kaay (Rotterdam, Netherlands): Were there patients in your study which had combined donor extended criteria among them, or did they just have one extended criterion? Dr Aigner: No, there were 5 donors who had 2 criteria extended, as I mentioned in the beginning.

C. Aigner et al. / European Journal of Cardio-thoracic Surgery 27 (2005) 757 761 761 Dr van der Kaay: And was there a result which was different than in the other group? Dr Aigner: No, there was no difference in the results between the donors who had 2 extended criteria compared to those who had only 1 criterion extended. Dr van der Kaay: Then I missed it. Dr M. Strueber (Hannover, Germany): I have a couple of problems with the criteria used to establish the term extended donor. and this applies to both presentations. I think it s very hard to establish a proper smoking history of a donor. Most of the time we do not know if the smoking history is more or less than 20 pack years. We just know it s a smoker or not, or heavy or not. And so this, in my opinion, is a very weak criteria. The second is PO 2 : It is also a weak criterion to decide. Because in case you have a donor arterial blood gas analysis at 40%, which appear to have 130 mmhg, and then you get a bad PO 2 at 100% fio 2, you don t worry anymore. But this is labeled extended donor. And with purulent secretions, this is also a weak factor, because what is somebody calling purulent secretions and what is not? So my question is, why are you not using more standard criteria like extended ventilation time of the donor? Dr Aigner: Well, we were referring to the ideal donor criteria mentioned in the beginning which are published by the ISHLT, as you know. And I certainly agree with you that the PO 2 is a weak criterion. There are many factors why a PO 2 can be decreased like, say, an obese donor who has massive basal atelectasis or there might be a malintubation or anything. But nevertheless, we needed some reference to compare and a way to define the extended donor criteria. We considered this the best way to do it according to the ISHLT criteria. And I also agree with you that, for example, that smoking history in most cases is not exactly known. So we only classify the donors as extended if it was really known that the smoking history was definitely more than 20 pack years, which was the case in only one donor as you would have noticed. Dr D. Van Raemdonck (Leuven, Belgium): In those donors with bad oxygenation, did you correlate the PO 2 at the time of organ offer versus the PO 2 during the retrieval when the lung was completely ventilated with open chest? Dr Aigner: No, we did not do that. Dr L. Mueller (Innsbruck, Austria): These are very important results and they also meet our results mainly. But I have two questions. Your mean recipient age was 45 years which seems quite young. Did you analyze your results regarding the effect or the acceptability of the extended donor lungs per age group, young and older recipients? Do you have different, maybe worse results, in the older recipients? And second question is, was it a printing mistake that you have median intubation time of 12 and 14 days? Dr Aigner: No, the median intubation time was 4 days and 3 days. The first one was mean. There were a few recipients with very long intubation times which made up for a very long mean intubation. But the median was 4 days in the extended group and 3 days in the standard recipient group. Dr Mueller: Okay. Dr Aigner: And no, we did not stratify the results according to age. But the low mean age might come due to a relatively high rate of cystic fibrosis in young patients with primary pulmonary hypertension which make up the low mean age. Dr Mueller: Do you have a feeling about the results in the older age recipient group regarding extended donors? Dr Aigner: I think that age itself does not make so much difference. It s the stage of disease which makes more difference, whether it s a very advanced stage of disease, and it doesn t matter that much whether this is in a young CF recipient or in an old CF recipient.