With the rising demands for pancreas transplantation, surgeons are trying to extend the donors pool and set up a more appropriate assessment system. We aim to evaluate the effect of donor hypertension on recipient overall and graft survival rates.
Methods
Twenty-four thousand one hundred ninety-two pancreas transplantation patients from the Scientific Registry of Transplant Recipients database were subdivided into hypertension group (HTN, n = 1531) and non-hypertension group (non-HTN, n = 22,661) according to the hypertension status of donors. Recipient overall and graft survival were analyzed and compared by log rank test, and hazard ratios of predictors were estimated using Cox proportional hazard models.
Results
Patient overall and graft survival of non-HTN group were higher than that of the HTN group (both p < 0.001). The duration of hypertension negatively influenced both overall and graft survival rates (both p < 0.001). Multivariate analyses demonstrated that hypertension was an independent factor for reduced survival (hazard ratio [HR], 1.10; 95% confidence interval [CI], 1.01–1.18; p < 0.001). Other independent factors included recipient body mass index (HR, 1.02; 95% CI, 1.01–1.05; p < 0.001) and transplant type (pancreas after kidney transplants / pancreas transplant alone vs. simultaneous pancreas-kidney transplants; HR, 1.41; 95% CI, 134–1.55; p < 0.001).
Conclusions
Donor hypertension is an independent factor for recipient survival after pancreas transplantation and could be considered in donor selection as well as post-transplant surveillance in clinical practice.
Abkürzungen
BMI
Body mass index
CIT
Cold ischemia times
CNI
Calcineurin inhibitors
Cs
Corticosteroids
DM
Diabetes mellitus
HLA
Human leukocyte antigen
HTN
Hypertension
MMF
Mycophenolate mofetil
PAK
Pancreas after kidney transplants
PRA
Panel-reactive antibody
PTA
Pancreas transplant alone
SPK
Simultaneous pancreas–kidney transplants
SRTR
Scientific Registry of Transplant Recipients database
TF
Technical failure
WIT
Warm ischemia times
Background
Pancreas transplantation is the main method to reestablish insulin secretion, and is reliable and repeatable for type 1 diabetes while less common for type 2 diabetes [1, 2]. It has been widely accepted that pancreas transplantation is an alternative to continued insulin therapy in imminent or established end-stage renal disease diabetic patients, who need combined kidney and pancreas transplantation to improve survival. As of December 2014, the International Pancreas Transplant Registry has recorded more than 48,000 pancreas transplantations [3]. The World Health Organization estimates that 9% of the global population is diabetic, and approximately 10% of this population have type 1 diabetes [1]. Even though minimally invasive approaches, such as islet transplantation, are being developed, pancreas transplantation remains the gold standard endocrine replacement treatment for complicated diabetes patients who cannot be optimally managed with conventional insulin therapy [2].
The pancreas transplantation survival rate has increased with developing techniques. Simultaneous pancreas–kidney transplants (SPK) has the best patient and graft survival, 96% and 83% for 1- and 5-year patient survival, 86% pancreas and 93% kidney graft function at 1st year. For pancreas after kidney transplants (PAK), at the first year, pancreatic graft function reaches 80%, while in pancreas transplant alone (PTA), pancreas graft function is 78% [1, 4, 5].
Anzeige
With the significant improvements of life expectancy and increasing demand for a higher quality of life, the demands for donor organs have been increasing steadily. Surgeons are trying to extend the donors pool and set up a more appropriate assessment system. Many donor and recipient characteristics have been discussed for qualified donor selection, recipient arrangement and post-transplant surveillance, including the type of transplantation, age of donors, HLA-mismatch and drainage, as well as the effect of hypertension, etc. Previous studies have demonstrated that the history and duration of donor hypertension was an independent factor for deceased donor kidney transplantation [6]. However, few studies have assessed the role of donor hypertension in pancreas transplantation. In this study, with analyses of the long-term follow-up data from Scientific Registry of Transplant Recipients, we aim to evaluate the effect of donor hypertension on recipient overall and graft survival in pancreas transplantation.
Methods
We obtained data of 24,192 patients from the Scientific Registry of Transplant Recipients (SRTR). SRTR comprises data on all donors, waiting-list candidates, and transplant recipients in the USA, and is submitted by members of the Organ Procurement and Transplantation Network (OPTN). Patients were subdivided into groups that received pancreases from donors with (HTN) or without (non-HTN) hypertension. The hypertension history of donors was defined for the systolic blood pressure more than 140 mmHg or the diastolic blood pressure higher than 90 mmHg. And the duration of hypertension was calculated before the transplants. The characteristics of recipients and donors are showed in Table 1.
Table 1
Comparison of the baseline characteristics of recipients and donors
HTN donors (n = 1531)
Non-HTN donors (n = 22,661)
P
Recipient characteristic
Age (years)
40.0 ± 8.5
40.7 ± 8.3
0.342
Male
887 (58.0)
13,053 (57.6)
0.028
Ethnicity
White
1243 (81.2)
18,540 (81.8)
0.515
Black
171 (11.2)
2447 (10.8)
0.521
Asian
12 (0.8)
249 (1.1)
0.643
Hispanic
102 (6.7)
1314 (5.8)
0.132
Other
3 (0.2)
111 (0.5)
0.897
Transplant before 1998
423 (27.6)
6481 (28.6)
0.078
BMI
24.8 ± 4.3
24.3 ± 4.9
0.021
Type of transplant
PKA
161 (10.5)
3626 (16.0)
0.789
PAK
133 (8.7)
1994 (8.8)
0.754
SPK
1185 (77.4)
16,202 (71.5)
0.101
Other
52 (3.4)
839 (3.7)
0.119
Exocrine drainage
Bladder drainage
531 (34.7)
8113 (35.8)
0.087
Enteric drainage
942 (61.5)
13,687 (60.4)
0.182
Others
58 (3.8)
861 (3.8)
0.763
Endocrine drainage
Systemic system
1281 (83.7)
18,854 (83.2)
0.292
Portal system
231 (15.1)
3467 (15.3)
0.689
Other
19 (1.2)
340 (1.5)
0.037
HLA mismatch > 2/6
1408 (92.0)
20,372 (89.9)
< 0.001
PRA% > 20%
142 (9.3)
286 (18.7)
0.003
Years since DM onset
422 (27.6)
438 (28.6)
< 0.001
Follow-up in years
8.3 ± 5.6
8.3 ± 5.8
< 0.001
Donor characteristic
Age (years)
54.2 ± 12.4
35.2 ± 16.0
< 0.001
Male
788 (51.5)
14,480 (63.9)
< 0.001
Ethnicity
White
966 (63.1)
16,021 (70.7)
< 0.001
Black
344 (22.5)
2787 (12.3)
< 0.001
Asian
40 (2.6)
453 (2.0)
0.004
Hispanic
170 (11.1)
3195 (14.1)
0.011
Other
12 (0.8)
203 (0.9)
0.923
BMI (kg/m2)
27 ± 4
26 ± 5
< 0.001
Cause of death
Anoxia
188 (12.3)
3784 (16.7)
< 0.001
Cerebrovascular accident
1131 (73.9)
6368 (28.1)
< 0.001
Head trauma
183 (12.0)
11,874 (52.4)
< 0.001
Other
28 (1.8)
634 (2.8)
0.003
Serum creatinine (mg/dL)
1.53 ± 1.21
1.44 ± 1.25
< 0.001
Cardiac arrest
58 (3.79)
770 (3.40)
0.024
WIT (min)
41.9 ± 19.0
41.5 ± 18.9
0.091
CIT (h)
7.5 ± 3.7
7.4 ± 3.5
< 0.001
Recipients
Recipient variables included age (years), sex, ethnicity, year of transplant, body mass index (BMI), type of transplant, exocrine and endocrine drainage, human leukocyte antigen (HLA) mismatch, panel-reactive antibody (PRA), time since onset of diabetes mellitus (DM) to the surgery date, and date of final follow-up. Ethnicity was classified as White, Black, Asian, Hispanic, and Other. Type of transplant was categorized as PTA, PAK, and SPK. Exocrine drainage was divided into bladder drainage, enteric drainage, and others. Endocrine drainage was grouped into systemic system, portal system, and others.
Donors
Donor characteristics were also compared between groups, including age, sex, ethnicity, BMI, cause of death, serum creatinine, cardiac arrest, warm ischemia time (WIT) and cold ischemia time (CIT). Cause of donor death was classified as anoxia, cerebrovascular accident, head trauma, and others.
Anzeige
Statistical analysis
Continuous and categorical variables were compared using Student’s t-test and the chi-square test, respectively. The results were given as means ± standard deviation unless otherwise indicated. An alpha level of 0.05 indicated statistical significance. Pairwise deletion was used to handle missing data in each variable. Kaplan-Meier method was used to compare the overall and graft survival. Log-rank tests and multivariate Cox proportional hazard regression analyses were performed to obtain survival curves and for multivariate analyses. Univariate and multivariate Cox proportional hazards regressions of the entire cohort were performed to identify the predictors. A p value < 0.05 was considered statistically significant in univariate analysis as showed in Table 1, and were further selected for the multivariate model. All statistical analyses were performed using SPSS 20.0 (Armonk, NY: IBM Corp).
Results
In our study, we obtained data on 24,192 patients, who were subdivided into HTN (n = 1531) and non-HTN (n = 22,661) groups.
Among the characteristics of recipients in the two groups, no significant differences were observed in age, ethnicity, transplant before 1998, exocrine and endocrine drainage (p > 0.05). HLA-mismatch, male and higher BMI were more frequent in HTN group. While in non-HTN group, PRA% > 20 is more common, and length of follow-up and duration of DM were slightly longer.
Donors in HTN group were much older than those in non-HTN group, and there were also fewer males in HTN group. There were more Black and Asian donors in HTN group, fewer White and Hispanic donors, while no differences in other ethnicity. Donors of HTN group had a higher BMI and longer CIT than those of non-HTN group, while there was no significant difference with regard to WIT. Serum creatinine was higher in HTN group than non-HTN group. A larger proportion of donors of HTN group died due to cerebrovascular accidents and cardiac arrest, with a smaller proportion from anoxia and head trauma, compared to the non-HTN.
We further analyzed the causes of graft loss and recipient mortality, which showed in Table 2. There were 1437 patients (103 for HTN and 1334 for non-HTN) went through the analysis of graft loss, and 1396 patients (99 for HTN and 1297 for non-HTN) went through the analysis of recipient mortality. In non-HTN group, graft loss due to vascular thrombosis and recipient death (with graft still function) were more frequent than HTN group, while HTN group had higher rate of anastomotic leak and pancreatitis. For recipient mortality, recipients died of cardiovascular in non-HTN group, were more frequent than HTN group, while recipients in HTN group died of other reason were more common than non-HTN group.
Table 2
Causes of graft loss and patient mortality
Cause
Graft loss
Cause
Recipient mortality
HTN
Non-HTN
p value
HTN
Non-HTN
p value
(n = 103)
(n = 1334)
(n = 99)
(n = 1297)
Hemorrhage
6 (0.058)
63 (0.047)
0.056
Graft failure
11 (0.111)
152 (0.117)
0.658
Vascular thrombosis
11 (0.107)
151 (0.113)
0.001
Cardiovascular
23 (0.232)
389 (0.300)
0.004
Anastomotic Leak
4 (0.039)
30 (0.022)
0.023
Organ failure
6 (0.061)
67 (0.052)
0.089
Rejection
2 (0.019)
23 (0.017)
0.106
Infection
31 (0.313)
441 (0.340)
0.308
Pancreatitis
5 (0.049)
61 (0.046)
0.021
Hemorrhage
8 (0.081)
98 (0.076)
0.112
Recipient death (graft still functioning at the time of death)
63 (0.612)
858 (0.643)
0.005
Other
15 (0.152)
38 (0.030)
0.001
Unknown
12 (0.117)
148 (0.111)
0.231
Unknown
5 (0.051)
112 (0.086)
0.793
We followed up recipients for 5 years with the median follow-up period of 35 months. There were significant differences between recipients who received pancreases from non-HTN and HTN donors. The overall survival rate was significantly higher in patients who received pancreases from non-HTN donors (p < 0.001, Fig. 1), and the difference raised with time. Similarly, there was significant difference in graft survival between non-HTN and HTN donors (p < 0.001, Fig. 2).
×
×
We also evaluated the effect of hypertension duration on survival by dividing HTN group into 0–5 years and > 5 years durations. The longer duration of HTN, the lower recipient overall survival (p < 0.001, Fig. 3). Graft survival also significantly decreased with the lengthening HTN duration among non-HTN donors, HTN duration 0–5 years, and HTN duration > 5 years (p < 0.001, Fig. 4). However, no difference was observed among these 3 groups using Cox regression analysis (p > 0.05).
×
×
We analyzed recipient and donor characteristics to examine the independent effects of various factors. All the donors and recipients’ variables were accessed, including hypertension, age, sex, BMI, type of transplant and the other significant variables showed in Table 1.
Anzeige
We then performed the multivariate analyses and found that donor hypertension (HR, 1.10; 95% CI, 1.01–1.18; p < 0.001), recipient BMI (HR, 1.02; 95% CI, 1.01–1.05; p < 0.001) and transplant type (i.e., SPK; HR, 1.41; 95% CI, 134–1.55; p < 0.001) were independent predictors for both recipient overall and graft survival, showed in Table 3.
Table 3
Cox proportional hazard regression analyses
Variable
Univariate
Multivariate
HR
95% CI
HR
95% CI
HTN donors (ref: non-HTN donors)
1.34
1.17–1.45
1.10
1.01–1.18
Recipient BMI
1.03
1.01–1.06
1.02
1.01–1.05
Transplant type (PAK/PTA vs. SPK)
1.68
1.58–1.75
1.41
1.34–1.55
Discussion
Our analyses indicated that hypertension of donor was an independent predictor of recipient overall survival (HR, 1.10; 95% CI, 1.01–1.18; p < 0.001). The longer duration of hypertension led to worse consequence. It has been confirmed that hypertension led to lower survival in kidney transplantation [6]. The hypertension of donor is negatively correlated with renal function in 6 months after transplantation [7]. However, the effects of hypertension seem to decrease with increasing age. When it comes to the transplanted kidneys from older donors (≥50 years old), graft survival is not so closely related to the history of hypertension until more than 10 years duration [8].
Solid organs from hypertensive donors are associated with lower recipient survival, which might be due to the damage of small vessels. The connection between kidney disease and hypertension is always considered as a villain–victim relationship because of the potential two-way causality [9].
Hypertension causes chronic pathological vascular changes, which ends to the microvascular modifications including internal elastic lamina reduplication of the arcuate and interlobar arteries, hyalinosis of the preglomerular vessel walls, and thickening of the intima. These result in fragile vessels, especially the small ones, which may lead to a poorer blood supply and higher sensitivity to microenvironment changes. In the kidney, these changes may lead to glomerular damage, glomerulosclerosis, patchy tubular atrophy, and interstitial fibrosis, which ultimately progress to nephrosclerosis, a form of intrarenal renovascular disease [9]. Hypertension might have similar effects on pancreas. The chronic pathological vascular changes leave a hypoxic condition in pancreas. Poorer oxygen reserve makes pancreas more sensitive to anoxia. The anoxia during the surgery is always companied by a higher rate of post-transplant complications, like focal necrosis of the pancreas, secondary pancreatitis, pancreatic leakage and delayed graft function, etc.
Anzeige
Poorer blood supply not only causes pathological changes in the organs but also affects graft survival. It’s hypothesized that there is a higher death rate of kidney or pancreas cells in the oxygen-poor postoperative environment [10, 11]. The dead cells activate the immune system, which can lead to autoimmune problems [12, 13]. The higher organ cell death rate, the more postoperative complications and graft rejection. Following the acute or chronic rejection, immune-suppressor may go through the worse. T-cell depletion antibodies in association with maintenance combination, including calcineurin inhibitors (CNI), antimetabolites, like mycophenolate mofetil (MMF), and corticosteroids (Cs), were recommend for prevent allo- and auto-immune reactions [14]. However, CNIs have nephrotoxic and especially diabetogenicity, MMF causes gastrointestinal pathological changes and leukocytopenia, Cs induce hyperinsulinemia, hyperinsulinism and insulin resistance. The extra immune-suppressor usage finally increases the complications and exacerbates the graft function.
The microvascular modifications, poor blood supply, acute or chronic rejection and extra immune-suppressor, lead to fatigue pancreas. Further, the early pathological changes of organs, like mild hypertensive nephropathy and focal pancreatic infarcts, could not been identified appropriately before transplants. In this study, the variable, death by CVA, was significant in univariate analysis, while there was no difference in the multivariate analysis. Thus, besides vasculature, other pathophysiological processes of HTN also contribute to the disfunction of donor pancreas. These factors can be enhanced by the duration and bad control of hypertension, finally resulting in the lower patient and graft survival rates.
SPK has been recommended for pancreas transplantation by most surgeons because of its higher survival (73% for 5- and 56% for 10- year pancreas graft function of SPK vs 64% and 38% of PAK vs 53% and 36% for PTA) [15]. Though SPK has the highest technical failure (TF) failure (15.3% vs PAK 12.2% and PTA 11.4%) [16, 17], it has the lowest graft failure rate (30.6%). This probably dues to its lower chronic rejection rate (3.7% vs PTA 11.3% and PAK 11.6%) [18, 19], and immune avoid of kidney graft (immunologic protection exerted by the kidney [20]; easier reject diagnosis by serum creatinine and histology of kidney [18, 20]).
The influence of the type of transplantation is also related to the patient’s condition. SPK and PAK are performed for diabetic kidney recipients, while PTA is appropriate for non-uremic labile diabetics [21]. SPK is performed mostly in patients with insulin-dependent DM and dialysis-required chronic renal failure. These patients have better insulin control, which means better insulin response of the peripheral organs, and reestablishing internal secretion would greatly improve retina, vascular, and nerve functions. In PAK, the kidney usually comes from a living donor, while only 0.5% of pancreatic transplantations are from living donors [22]. PTA is usually performed in patients with poorly controlled insulin-dependent DM but with stable renal function. However, 30% of these people will eventually need a renal transplantation [23], which means double surgical strike.
Anzeige
BMI is also an important predictor of survival, including both recipient and donor BMI. Obesity is accompanied by various complications during and after the operation [24], including percutaneous drainage, relaparotomy, delayed kidney graft function, acute rejection within the first post-transplant year, and vascular thrombosis of the pancreatic graft. According to our study, we supported that the overweight of recipients was associated with worse prognosis. Recent studies also showed that obesity was associated with higher patient death and kidney graft loss [25], which probably due to the higher rates of death and graft failure in the first 30 days [26].
On the other hand, overweight donors should be deliberative. Axelrod et al. set the Pancreas donor risk index (PDRI), and indicated that if the BMI raised from 24 to 30, the donor risk index (DRI) would increase to 1.17 [27]. Although some researchers have tried to extend the donor pool by overweight donors [28], obese donors are more likely to have a fatty pancreas with poor vascularization and more prone to ischemia–reperfusion injury and fat necrosis, which would finally lead to fluid collection and infected nidus [29]. Besides, obese donors pose a technical challenge in the preparation of their massive abdominal wall and fatty viscera. Furthermore, pancreases from obese donors are predisposed to peri-pancreatic fluid collection, which is associated with early graft pancreatitis [30]. Therefore, individuals with BMI > 35 kg/m2 are never recommended as donors [2].
The limitation of this research is that we had not estimated the control of hypertension, especially the vasoactive agent usage. Effective blood pressure management, including exercise, diet, psychology and vasoactive agent usage etc., can well prevent the organ damages caused by hypertension. More researches are needed to estimate the different effects of classificatory of hypertension. Besides, we only analyzed the hypertension duration for less than 5 years and more than 5 years. More classificatory researches could help confirm the effect of hypertension duration.
Conclusion
In this study, we analyzed 24,192 patients from SRTR, and found that hypertension of donors had negative effects on transplant prognosis. These may due to the degenerated vessels net and changed microenvironment caused by hypertension. The evidence that a longer hypertension duration was associated with worse prognosis also demonstrated the organ damage by hypertension. It might be helpful to improve the vessels net of donor pancreas before transplant, including the vasodilators usage, diuretic or slight volume expansion, and adequate perioperative perfusion. Finally, more studies are required to evaluate the status of donor hypertension into evidence-based selection criteria in clinical practice.
Acknowledgements
The data reported here have been supplied by the Minneapolis Medical Research Foundation (MMRF) as the contractor for the Scientific Registry of Transplant Recipients (SRTR). The interpretation and reporting of these data are the responsibility of the authors and in no way should be seen as an official policy of or interpretation by the SRTR or the U.S. Government.
Funding
This work was supported by the Foundation for Innovative Research Groups of the Nation Natural Science Foundation of china, grant number 81421062, and Achievement transformation project of Zhejiang Health Department, grant number 2013 T301–15.
Availability of data and materials
The data that support the findings of this study are available from the Scientific Registry of Transplant Recipients database, but restrictions apply to the availability of these data, which were used under license for the current study, and so are not publicly available. Data are however available from the authors upon reasonable request and with permission of the Scientific Registry of Transplant Recipients database.
Ethics approval and consent to participate
With Data Release Agreement with the Scientific Registry of Transplant Recipients database, all data in this study were released from SRTR. And no additional patient consent was required for the measurements in the data analysis.
Consent for publication
Not applicable
Competing interests
The authors declare that they have no competing interests.
Publisher’s Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
Fast ein Viertel der Personen mit mäßig dysplastischen Stimmlippenläsionen entwickelt einen Kehlkopftumor. Solche Personen benötigen daher eine besonders enge ärztliche Überwachung.
Bei Menschen mit Typ-2-Diabetes sind die Chancen, einen Myokardinfarkt zu überleben, in den letzten 15 Jahren deutlich gestiegen – nicht jedoch bei Betroffenen mit Typ 1.
Ob Patienten und Patientinnen mit neu diagnostiziertem Blasenkrebs ein Jahr später Bedauern über die Therapieentscheidung empfinden, wird einer Studie aus England zufolge von der Radikalität und dem Erfolg des Eingriffs beeinflusst.
„Kalte“ Tumoren werden heiß – CD28-kostimulatorische Antikörper sollen dies ermöglichen. Am besten könnten diese in Kombination mit BiTEs und Checkpointhemmern wirken. Erste klinische Studien laufen bereits.
Update Innere Medizin
Bestellen Sie unseren Fach-Newsletter und bleiben Sie gut informiert.