Literature DB >> 28584624

The European Renal Association - European Dialysis and Transplant Association Registry Annual Report 2014: a summary.

Maria Pippias¹, Anneke Kramer¹, Marlies Noordzij¹, Nikolaos Afentakis², Ramón Alonso de la Torre³, Patrice M Ambühl⁴, Manuel I Aparicio Madre⁵, Felipe Arribas Monzón⁶, Anders Åsberg⁷, Marjolein Bonthuis⁸, Encarnación Bouzas Caamaño⁹, Ivan Bubic¹⁰, Fergus J Caskey¹¹, Pablo Castro de la Nuez¹², Harijs Cernevskis¹³, Maria de Los Ángeles Garcia Bazaga¹⁴, Jean-Marin des Grottes¹⁵, Raquel Fernández González¹⁶, Manuel Ferrer-Alamar¹⁷, Patrik Finne^18,19, Liliana Garneata²⁰, Eliezer Golan²¹, James G Heaf²², Marc H Hemmelder²³, Alma Idrizi²⁴, Kyriakos Ioannou²⁵, Faical Jarraya²⁶, Nino Kantaria²⁷, Mykola Kolesnyk²⁸, Reinhard Kramar²⁹, Mathilde Lassalle³⁰, Visnja V Lezaic³¹, Frantisek Lopot³², Fernando Macario³³, Ángela Magaz³⁴, Angel L Martín de Francisco³⁵, Eduardo Martín Escobar³⁶, Alberto Martínez Castelao³⁷, Wendy Metcalfe³⁸, Inmaculada Moreno Alia³⁹, Maurizio Nordio⁴⁰, Mai Ots-Rosenberg⁴¹, Runolfur Palsson^42,43, Marina Ratkovic⁴⁴, Halima Resic⁴⁵, Boleslaw Rutkowski⁴⁶, Carmen Santiuste de Pablos⁴⁷, Nurhan Seyahi⁴⁸, María Fernanda Slon Roblero⁴⁹, Viera Spustova⁵⁰, Koenraad J F Stas⁵¹, María E Stendahl⁵², Olivera Stojceva-Taneva⁵³, Evgueniy Vazelov⁵⁴, Edita Ziginskiene^55,56,57, Ziad Massy^58,59, Kitty J Jager¹, Vianda S Stel¹.

Abstract

Background: This article summarizes the European Renal Association - European Dialysis and Transplant Association Registry's 2014 annual report. It describes the epidemiology of renal replacement therapy (RRT) for end-stage renal disease (ESRD) in 2014 within 35 countries.
Methods: In 2016, the ERA-EDTA Registry received data on patients who in 2014 where undergoing RRT for ESRD, from 51 national or regional renal registries. Thirty-two registries provided individual patient level data and 19 provided aggregated patient level data. The incidence, prevalence and survival probabilities of these patients were determined.
Results: In 2014, 70 953 individuals commenced RRT for ESRD, equating to an overall unadjusted incidence rate of 133 per million population (pmp). The incidence ranged by 10-fold; from 23 pmp in the Ukraine to 237 pmp in Portugal. Of the patients commencing RRT, almost two-thirds were men, over half were aged ≥65 years and a quarter had diabetes mellitus as their primary renal diagnosis. By day 91 of commencing RRT, 81% of patients were receiving haemodialysis. On 31 December 2014, 490 743 individuals were receiving RRT for ESRD, equating to an unadjusted prevalence of 924 pmp. This ranged throughout Europe by more than 10-fold, from 157 pmp in the Ukraine to 1794 pmp in Portugal. In 2014, 19 406 kidney transplantations were performed, equating to an overall unadjusted transplant rate of 36 pmp. Again this varied considerably throughout Europe. For patients commencing RRT during 2005-09, the 5-year-adjusted patient survival probabilities on all RRT modalities was 63.3% (95% confidence interval 63.0-63.6). The expected remaining lifetime of a 20- to 24-year-old patient with ESRD receiving dialysis or living with a kidney transplant was 21.9 and 44.0 years, respectively. This was substantially lower than the 61.8 years of expected remaining lifetime of a 20-year-old patient without ESRD.

Entities: Chemical Disease Species

Keywords: ESRD; dialysis; epidemiology; kidney transplantation; survival analysis

Year: 2017 PMID： 28584624 PMCID： PMC5455253 DOI： 10.1093/ckj/sfw135

Source DB: PubMed Journal: Clin Kidney J ISSN： 2048-8505

Introduction

The European Renal Association – European Dialysis and Transplant Association (ERA-EDTA) Registry’s annual report describes the epidemiology of renal replacement therapy (RRT) for end-stage renal disease (ESRD) within Europe and adjacent countries based on data collected via the national and regional renal registries [1]. On an annual basis, we publish a summary of the ERA-EDTA Registry’s annual report that is intended to provide the reader with an overview of the current status of RRT for ESRD in Europe [2-4]. In 2016, we received the 2014 data from 51 national or regional renal registries in 35 countries covering a general population of 531.7 million people. This represented 65.4% of the 2014 European general population. Thirty-two national or regional renal registries from 17 countries provided individual patient data, whereas 19 countries or regions provided aggregated data (see Appendix 1). The proportion of the European population covered by the ERA-EDTA Registry in 2014 was lower than that of 2013 (73.6%) due to the absence of Russia and Slovenia from this year’s annual report. This summary presents the 2014 incidence and prevalence of patients receiving RRT, kidney transplantation activity and the patient and graft survival in these 35 countries. The methods used to derive the results presented in this overview, along with the full results, can be found in the ERA-EDTA Registry 2014 Annual Report [1].

Incidence of RRT

In 2014, 70 953 individuals commenced RRT for ESRD, which equated to an overall unadjusted incidence rate of 133 per million population (pmp, Table 1). The unadjusted incidence rate was highest in Portugal (237 pmp), Greece (218 pmp) and Cyprus (204 pmp), whereas it was lowest in the Ukraine (23 pmp) and Iceland (58 pmp, Table 1 and Figures 1 and 2). Of the patients commencing RRT, the majority were men (63%), over half were aged ≥65 years (55%) and a quarter had diabetes mellitus (26%) as their primary renal diagnosis (Figure 3). The mean age of the patients commencing RRT in all countries and regions combined was 64.6 years (Table 1). However, this ranged from a mean age of 55.1 years in Albania to 70.1 years in Dutch-speaking Belgium. Of the incident patients alive and receiving RRT at day 91 after the start of treatment, the majority were receiving haemodialysis (81%), 13% were receiving peritoneal dialysis and 6% were living with a kidney transplant (Figure 4). However, the modality of RRT at day 91 after the start of treatment varied considerably between age groups; as the age of the patient increased the proportion of patients receiving either peritoneal dialysis or living with a kidney transplant decreased. Furthermore, patients with a primary renal diagnosis of diabetes mellitus were half as likely to have a kidney transplant by day 91 compared with the non-diabetic group (3% versus 7%).

Table 1

Incidence of RRT in 2014 at day 1, for all primary renal diseases combined and diabetes mellitus types 1 and 2, by count (N) and unadjusted rate per million population, and for all primary renal diseases combined, the mean age at the start of RRT, presented by country/region

	General population covered by the registry in thousands	Incidence in 2014 at day 1
	General population covered by the registry in thousands	Total N	Total pmp	Mean age	DM N	DM pmp
Albania	2863	252	88	55.1	30	11
Austria	8508	1036	122	64.2	259	30
Belgium, Dutch-speaking^a	6444	1145	178	70.1	207	32
Belgium, French-speaking^a	4788	828	173	67.5	188	39
Bosnia and Herzegovina	3508	421	120	60.7	125	36
Bulgaria^b	7217	1197	166		281	39
Croatia	4070	640	157	63.7	186	46
Cyprus	847	173	204	64.6	58	69
Czech Republic^b	10 222	2017	197
Denmark	5700	748	131	64.2	184	32
Estonia	1315	115	88	61.1	20	15
Finland	5462	461	84	59.3	165	30
France	66 262	10 791	163	67.6	2379	36
Georgia	4491	743	166	58.4	159	35
Greece	10 892	2372	218	69.7	575	53
Iceland	327	19	58	62.0	1	3
Israel	8216	1668	203	64.6	807	98
Italy (6 of 20 regions)	21 274	3243	152	68.6	558	26
Latvia	1590	152	96	63.3	23	15
Lithuania	2943	306	104	57.8	48	16
Macedonia	2022	268	133	63.2	62	31
Montenegro^a	622	58	93	56.2	20	32
Norway	5137	523	102	62.4	90	18
Poland	36 338	4341	120
Portugal	10 427	2473	237		790	76
Romania	19 710	2997	152	61.1	442	22
Serbia	7131	985	138	61.2	250	35
Slovakia	5421	831	153	63.8	316	58
Spain	46 771	6229	133	63.0	1520	33
Spain, Andalusia	8394	1046	125	62.6	270	32
Spain, Aragon	1329	163	123	64.1	40	30
Spain, Asturias	1059	147	139	64.5	33	31
Spain, Basque country	2166	241	111	65.5	39	18
Spain, Cantabria^a	587	61	104	61.4	12	21
Spain, Castile and León^a	2487	299	120	67.6	79	32
Spain, Castile-La Mancha^a	2069	252	122	63.7	62	30
Spain, Catalonia	7519	1178	157	66.0	259	34
Spain, Extremadura	1100	124	113	66.0	28	26
Spain, Galicia	2741	398	145	65.0	114	42
Spain, Community of Madrid	6454	828	128	64.3	201	31
Spain, Region of Murcia	1467	194	132	62.9	46	31
Spain, Navarre^a	636	83	130	65.0	14	22
Spain, Valencian region	5005	704	141	65.9	156	31
Sweden	9696	1168	121	62.5	273	28
Switzerland^c	8230	800	97	64.5	157	19
The Netherlands	16 865	1941	115	63.6	358	21
Tunisia, Sfax region	1186	165	139	60.1	59	50
Turkey^d	77 696	11 447	147		1042	13
Ukraine	42 903	998	23		196	5
UK, England^a	54 317	6311	116	62.3	1441	27
UK, Northern Ireland^a	1840	170	92	64.6	39	21
UK, Scotland	5348	557	104	58.8	164	31
UK, Wales^a	3092	364	118	65.5	94	30
All countries	531 690	70 953	133	64.6	13 566	32

When cells are left empty, the data are unavailable and, therefore, could not be used for the calculation of the summary data.

DM, diabetes mellitus as cause of renal failure.

Patients younger than 20 years of age are not reported. The true incidence counts are, therefore, slightly higher than the counts reported here.

Data on incidence include dialysis patients only.

Data on incidence of cause of renal failure (DM) include dialysis patients only.

Data on incidence of cause of renal failure (DM) are based on 2836 of 11 447 patients (24.8%).

Fig. 1

Unadjusted incident rates per million population by country/region at day 1 in 2014. The incident rates for Bulgaria and the Czech Republic only include patients receiving dialysis.

Fig. 2

Unadjusted (left panel) and adjusted (right panel) incident rates per million population by country/region at day 1 in 2014. Registries providing individual patient data are shown as dark bars and registries providing aggregated data as light bars. The incident rate for Bulgaria and the Czech Republic only includes patients receiving dialysis.

Fig. 3

Unadjusted incident percentages by (A) gender, (B) age and (C) primary renal diagnosis at day 1 in 2014. See Appendix 1 for a list of countries and regions supplying individual patient level or aggregated level data.

Fig. 4

Unadjusted incident percentages of (A) established therapy overall, and established therapy by (B) gender, (C) age and (D) primary renal diagnosis at day 91 in 2014. (B)–(D) are only based on data from registries providing individual patient data. See Appendix 1 for a list of countries and regions supplying individual patient level or aggregated level data. HD, haemodialysis; PD, peritoneal dialysis; Tx, transplant; DM, diabetes mellitus.

Unadjusted incident rates per million population by country/region at day 1 in 2014. The incident rates for Bulgaria and the Czech Republic only include patients receiving dialysis. Unadjusted (left panel) and adjusted (right panel) incident rates per million population by country/region at day 1 in 2014. Registries providing individual patient data are shown as dark bars and registries providing aggregated data as light bars. The incident rate for Bulgaria and the Czech Republic only includes patients receiving dialysis. Unadjusted incident percentages by (A) gender, (B) age and (C) primary renal diagnosis at day 1 in 2014. See Appendix 1 for a list of countries and regions supplying individual patient level or aggregated level data. Unadjusted incident percentages of (A) established therapy overall, and established therapy by (B) gender, (C) age and (D) primary renal diagnosis at day 91 in 2014. (B)–(D) are only based on data from registries providing individual patient data. See Appendix 1 for a list of countries and regions supplying individual patient level or aggregated level data. HD, haemodialysis; PD, peritoneal dialysis; Tx, transplant; DM, diabetes mellitus. Incidence of RRT in 2014 at day 1, for all primary renal diseases combined and diabetes mellitus types 1 and 2, by count (N) and unadjusted rate per million population, and for all primary renal diseases combined, the mean age at the start of RRT, presented by country/region When cells are left empty, the data are unavailable and, therefore, could not be used for the calculation of the summary data. DM, diabetes mellitus as cause of renal failure. Patients younger than 20 years of age are not reported. The true incidence counts are, therefore, slightly higher than the counts reported here. Data on incidence include dialysis patients only. Data on incidence of cause of renal failure (DM) include dialysis patients only. Data on incidence of cause of renal failure (DM) are based on 2836 of 11 447 patients (24.8%).

Prevalence of RRT

On 31 December 2014, 490 743 individuals were receiving RRT for ESRD (Table 2). This equated to an unadjusted prevalence of 924 pmp. Again there was considerable variation between countries, with the highest unadjusted prevalence rates seen in Portugal (1794 pmp), the Spanish regions of Catalonia (1312 pmp), Valencia (1298 pmp), Galicia (1265 pmp) and Murcia (1258 pmp), and French- and Dutch-speaking Belgium (1250 pmp and 1238 pmp, respectively, Table 2 and Figures 5 and 6). The unadjusted prevalence of RRT was considerably lower in the Ukraine (157 pmp) and Albania (374 pmp). Of the prevalent patients, the majority were men (60%); however, now just under half were aged ≥65 years (44%) and a fifth had diabetes mellitus (19%) as their primary renal diagnosis (Figure 7). The mean age of the prevalent patients receiving RRT in all countries and regions combined was 60.9 years (Table 2). This ranged from a mean age of 51.4 years in Albania to 66.4 years in Portugal. The majority of prevalent patients were receiving haemodialysis (57%), just over a third of patients were living with a kidney transplant (37%) and only 5% were receiving peritoneal dialysis (Figure 8). Once again the modality of RRT varied considerably between age groups; as the age of the prevalent patients increased the proportion living with a kidney transplant decreased. For those aged 20–44 years, 65% were living with a kidney transplant, whereas this was only 40% of patients aged 65–74 years. Again prevalent patients with a primary renal diagnosis of diabetes mellitus were much less likely to be living with a kidney transplant compared with the non-diabetic group (28% versus 49%).

Table 2

Prevalence of RRT on 31 December 2014, for all primary renal diseases combined and diabetes mellitus types 1 and 2, by count (N) and unadjusted rate per million population, and for all primary renal diseases combined, the mean age of prevalent patients, presented by country/region

	General population covered by the registry in thousands	Prevalent patients on RRT in 2014
	General population covered by the registry in thousands	Total N	Total pmp	Mean age	DM N	DM pmp
Albania	2863	1072	374	51.4	120	42
Austria	8508	9038	1062	60.8	1791	211
Belgium, Dutch-speaking^a	6444	7980	1238	65.5	1379	214
Belgium, French-speaking^a	4788	5983	1250	64.6	1035	216
Bosnia and Herzegovina	3508	2662	759	59.4	501	143
Bulgaria	7217	4168	578
Croatia	4070	4295	1055	64.6	1246	306
Cyprus	847
Czech Republic	10 222	10 931	1069
Denmark	5700	5164	906	58.4	869	153
Estonia	1315	834	634	57.8	155	118
Finland	5462	4571	837	58.8	1167	214
France	66 262	80 144	1210	62.2	12 604	190
Georgia	4491	2096	467	56.1	435	97
Greece	10 892	13 101	1203	63.8	2399	220
Iceland	327	221	675	56.0	24	73
Israel^b	8216	6286	765	60.9	2909	354
Italy (6 of 20 regions)	21 274	24 721	1162	61.8	2941	138
Latvia	1590	996	627	55.7	97	61
Lithuania	2943	2146	729
Macedonia	2022	1543	763	56.9	225	111
Montenegro^a	622	296	476	52.4	47	76
Norway	5137	4716	918	59.1	628	122
Poland	36 338	31 106	856
Portugal^c	10 427	18 703	1794	66.4	3332	320
Romania^d	19 710	17 620	894	59.9	1897	96
Serbia	7131	5860	822	58.3	936	131
Slovakia^b	5421	3273	604	62.7	1067	197
Spain	46 771	55 062	1177	59.5	7630	163
Spain, Andalusia	8394	9537	1136	60.0	1427	170
Spain, Aragon	1329	1524	1147	62.5	268	202
Spain, Asturias	1059	1228	1160	62.4	201	190
Spain, Basque country	2166	2571	1187	61.5	264	122
Spain, Cantabria^a	587	601	1025	61.0	85	145
Spain, Castile and León^a	2487	2696	1084	63.8	467	188
Spain, Castile-La Mancha^a	2069	2180	1054	61.6	335	162
Spain, Catalonia	7519	9863	1312	62.3	1410	188
Spain, Extremadura	1100	1221	1110	61.4	191	174
Spain, Galicia	2741	3468	1265	61.9	600	219
Spain, Community of Madrid	6454	6739	1044	61.4	1183	183
Spain, Region of Murcia	1467	1845	1258	61.7	251	171
Spain, Navarre^a	636	714	1122	61.9	79	124
Spain, Valencian region	5005	6495	1298	62.7	853	170
Sweden	9696	9263	955	59.5	1641	169
Switzerland^b	8230	2834	344	68.1	540	66
The Netherlands	16 865	16 311	967	59.9	1991	118
Tunisia, Sfax region^b	1186	806	678	58.2	140	118
Turkey^e	77 696	71 318	918		2821	36
Ukraine	42 903	6742	157		902	21
UK, England^a	54 317	49 698	915	58.4	8043	148
UK, Northern Ireland^a	1840	1598	868	58.2	243	132
UK, Scotland	5348	4757	890	56.5	724	135
UK, Wales^a	3092	2828	915	59.5	483	156
All countries	531 690	490 743	924	60.9	62 962	155

When cells are left empty, the data are unavailable and, therefore, could not be used for the calculation of the summary data.

DM, diabetes mellitus as cause of renal failure.

Patients younger than 20 years of age are not reported. The true prevalent counts are, therefore, slightly higher than the counts reported here.

Data on prevalence include dialysis patients only.

Data on prevalence of cause of renal failure (DM) include dialysis patients only.

The overall prevalence of RRT is underestimated by approximately 3% due to an estimated 30% underreporting of patients living on a functioning graft.

Data on the prevalence of cause of renal failure (DM) are based on 8897 of 71 318 patients (12.5%).

Fig. 5

Fig. 6

Unadjusted (left panel) and adjusted (right panel) prevalence per million population by country/region on 31 December 2014. Registries providing individual patient data are shown as dark bars and registries providing aggregated data as light bars. The prevalence rates for Israel, Slovakia, Switzerland and Tunisia (Sfax region) only include patients receiving dialysis. For Romania, the overall prevalence of RRT is underestimated by 3% due to an estimated 30% underreporting of patients living on a functioning graft.

Fig. 7

Unadjusted prevalent percentages by (A) gender, (B) age and (C) primary renal diagnosis on 31 December 2014. See Appendix 1 for a list of countries and regions supplying individual patient level or aggregated level data.

Fig. 8

Unadjusted prevalent percentages of (A) established therapy overall, and established therapy by (B) gender, (C) age and (D) primary renal diagnosis on 31 December 2014. (B)–(D) are only based on data from registries providing individual patient data. See Appendix 1 for a list of countries and regions supplying individual patient level or aggregated level data. HD, haemodialysis; PD, peritoneal dialysis; Tx, transplant; DM, diabetes mellitus.

Unadjusted prevalence per million population by country/region on 31 December 2014. The prevalence rates for Israel, Slovakia, Switzerland and Tunisia (Sfax region) only include patients receiving dialysis. For Romania, the overall prevalence of RRT is underestimated by 3% due to an estimated 30% underreporting of patients living on a functioning graft. Unadjusted (left panel) and adjusted (right panel) prevalence per million population by country/region on 31 December 2014. Registries providing individual patient data are shown as dark bars and registries providing aggregated data as light bars. The prevalence rates for Israel, Slovakia, Switzerland and Tunisia (Sfax region) only include patients receiving dialysis. For Romania, the overall prevalence of RRT is underestimated by 3% due to an estimated 30% underreporting of patients living on a functioning graft. Unadjusted prevalent percentages by (A) gender, (B) age and (C) primary renal diagnosis on 31 December 2014. See Appendix 1 for a list of countries and regions supplying individual patient level or aggregated level data. Unadjusted prevalent percentages of (A) established therapy overall, and established therapy by (B) gender, (C) age and (D) primary renal diagnosis on 31 December 2014. (B)–(D) are only based on data from registries providing individual patient data. See Appendix 1 for a list of countries and regions supplying individual patient level or aggregated level data. HD, haemodialysis; PD, peritoneal dialysis; Tx, transplant; DM, diabetes mellitus. Prevalence of RRT on 31 December 2014, for all primary renal diseases combined and diabetes mellitus types 1 and 2, by count (N) and unadjusted rate per million population, and for all primary renal diseases combined, the mean age of prevalent patients, presented by country/region When cells are left empty, the data are unavailable and, therefore, could not be used for the calculation of the summary data. DM, diabetes mellitus as cause of renal failure. Patients younger than 20 years of age are not reported. The true prevalent counts are, therefore, slightly higher than the counts reported here. Data on prevalence include dialysis patients only. Data on prevalence of cause of renal failure (DM) include dialysis patients only. The overall prevalence of RRT is underestimated by approximately 3% due to an estimated 30% underreporting of patients living on a functioning graft. Data on the prevalence of cause of renal failure (DM) are based on 8897 of 71 318 patients (12.5%).

Kidney transplantation

In 2014, 19 406 kidney transplantations were performed that equated to an overall unadjusted transplant rate of 36 pmp (Figure 9). Again this figure varied considerably between countries with the highest unadjusted transplant rates seen in the Netherlands (59 pmp), Spain (57 pmp) and Norway (53 pmp), with some Spanish regions reaching even higher rates. Conversely, the lowest unadjusted transplant rates were reported in the Ukraine (2 pmp), Georgia (6 pmp) and Bulgaria (7 pmp). Overall the unadjusted deceased donor transplant rate was more than double that of the unadjusted living donor transplant rate (27 pmp versus 12 pmp, Figure 10; 68% versus 31%, Figure 11). The highest unadjusted rates of deceased donor transplants were seen in Spain (48 pmp), Croatia (46 pmp) and the Czech Republic (43 pmp, Figure 10), whereas the highest unadjusted rate of living donor transplants were seen in the Netherlands (31 pmp), Turkey (30 pmp) and Northern Ireland (28 pmp, Figure 10).

Fig. 9

Fig. 10

Unadjusted deceased donor (left panel) and living donor (right panel) kidney transplants per million population performed in 2014 by country/region. Registries providing individual patient data are shown as dark bars and registries providing aggregated data as light bars. Data based on patients aged ≥20 years in Dutch-speaking Belgium, French-speaking Belgium, Montenegro, the Spanish regions of Cantabria, Castile and León, Castile-La Mancha and Navarre, and the UK: England, Northern Ireland and Wales. The total count for Austria is based on residents and non-residents. For Romania, the transplantation activity reflects 70% of the total transplantation activity in the country due to an underreporting of pre-emptive transplantation.

Fig. 11

Percentage of kidney transplants performed in 2014 by kidney donor type. See Appendix 1 for a list of countries and regions supplying individual patient level or aggregated level data.

Kidney transplants performed in 2014, as counts and per million population (unadjusted) by country/region. Registries providing individual patient data are shown as dark bars and registries providing aggregated data as light bars. Data based on patients aged ≥20 years in Dutch-speaking Belgium, French-speaking Belgium, Montenegro, the Spanish regions of Cantabria, Castile and León, Castile-La Mancha and Navarre, and the UK: England, Northern Ireland and Wales. The total count for Austria is based on residents and non-residents. For Romania the transplantation activity reflects 70% of the total transplantation activity in the country due to an underreporting of pre-emptive transplantation. Unadjusted deceased donor (left panel) and living donor (right panel) kidney transplants per million population performed in 2014 by country/region. Registries providing individual patient data are shown as dark bars and registries providing aggregated data as light bars. Data based on patients aged ≥20 years in Dutch-speaking Belgium, French-speaking Belgium, Montenegro, the Spanish regions of Cantabria, Castile and León, Castile-La Mancha and Navarre, and the UK: England, Northern Ireland and Wales. The total count for Austria is based on residents and non-residents. For Romania, the transplantation activity reflects 70% of the total transplantation activity in the country due to an underreporting of pre-emptive transplantation. Percentage of kidney transplants performed in 2014 by kidney donor type. See Appendix 1 for a list of countries and regions supplying individual patient level or aggregated level data.

Survival of patients receiving RRT

For patients commencing RRT in the period 2005–09, the 1-, 2- and 5-year-adjusted patient survival probabilities on all RRT modalities were 90.0% [95% confidence interval (CI) 89.9–90.2], 82.8% (95% CI 82.6–83.0) and 63.3% (95% CI 63.0–63.6), respectively (see Appendix 2 and Table 3 for a description of the adjustments made and the countries/regions included in this analysis). For the same cohort of patients commencing dialysis between 2005 and 2009, the 1-, 2- and 5-year-adjusted patient survival probabilities (with kidney transplantation considered as a censored event) were 88.1% (95% CI 87.9–88.2), 79.5% (95% CI 79.2–79.7) and 55.7% (95% CI 55.3–56.1), respectively. Patient survival after a first kidney transplant performed during 2005 and 2009 was much better than for those patients receiving dialysis (Figure 12). For those with a transplant, 5-year-adjusted patient and graft survival remain higher with a living donor transplant compared with a deceased donor transplant [95.7% (95% CI 95.2–96.2) versus 92.3% (95% CI 91.9–92.7) for patient survival and 87.0% (95% CI 86.3–87.8) versus 81.6% (95% CI 81.1–82.2) for graft survival. See Appendix 2 and Table 3 for a description of the adjustments made and the countries/regions included in this analysis.].

Table 3

The 1-, 2- and 5-year survival probabilities by treatment modality and cohort from day 1 of the start of RRT/dialysis or from the day of transplantation

	Survival probabilities as percentage (95% CI)
	Cohort: 2005–09			Cohort: 2008–12
	1 year	2 year	5 year	1 year	2 year
Patient survival on RRT
Unadjusted	82.7 (82.5–82.8)	72.0 (71.8–72.1)	49.4 (49.2–49.5)	83.8 (83.6–84.0)	73.7 (73.5–73.9)
Adjusted^a	90.0 (89.9–90.2)	82.8 (82.6–83.0)	63.3 (63.0–63.6)	90.6 (90.4–90.7)	83.8 (83.6–84.0)
Patient survival on dialysis (with kidney transplantation as a censored observation)
Unadjusted	81.7 (81.5–81.9)	69.7 (69.5–69.9)	41.5 (41.3–41.6)	82.7 (82.6–82.9)	71.3 (71.1–71.4)
Adjusted^a	88.1 (87.9–88.2)	79.5 (79.2–79.7)	55.7 (55.3–56.1)	89.0 (88.9–89.2)	81.1 (80.8–81.3)
Patient survival after first kidney transplantation (deceased donor)
Unadjusted	96.1 (95.8–96.3)	94.2 (93.9–94.5)	87.9 (87.5–88.3)	96.4 (96.1–96.6)	94.4 (94.1–94.6)
Adjusted^b	97.6 (97.4–97.8)	96.4 (96.2–96.6)	92.3 (91.9–92.7)	98.0 (97.8–98.1)	96.8 (96.6–97.0)
Graft survival after first kidney transplantation (deceased donor)
Unadjusted	90.9 (90.6–91.2)	88.1 (87.7–88.4)	79.0 (78.6–79.4)	91.2 (90.9–91.5)	88.3 (88.0–88.6)
Adjusted^b	92.2 (91.8–92.5)	89.7 (89.3–90.1)	81.6 (81.1–82.2)	92.7 (92.4–93.0)	90.2 (89.8–90.6)
Patient survival after first kidney transplantation (living donor)
Unadjusted	98.4 (98.1–98.7)	97.5 (97.1–97.8)	94.2 (93.7–94.7)	98.8 (98.6–99.0)	97.9 (97.6–98.2)
Adjusted^b	98.8 (98.6–99.1)	98.2 (97.9–98.5)	95.7 (95.2–96.2)	99.2 (99.0–99.3)	98.6 (98.3–98.8)
Graft survival after first kidney transplantation (living donor)
Unadjusted	95.5 (95.0–95.9)	93.6 (93.0–94.1)	87.0 (86.4–87.7)	96.3 (95.9–96.6)	94.5 (94.1–94.9)
Adjusted^b	95.5 (95.0–96.0)	93.7 (93.1–94.2)	87.0 (86.3–87.8)	96.3 (96.0–96.7)	94.6 (94.2–95.1)

This is based on data from the following registries providing individual patient data: Austria, Belgium (Dutch-speaking), Belgium (French-speaking), Denmark, Finland, France, Greece, Iceland, Norway, Spain (Andalusia), Spain (Aragon), Spain (Asturias), Spain (Basque country), Spain (Cantabria), Spain (Castile and León), Spain (Castile-La Mancha), Spain (Catalonia), Spain (Extremadura), Spain (Galicia), Spain (Valencian region), Sweden, the Netherlands and the UK (all countries).

Analyses were adjusted using fixed values: age (60 years), gender (60% men) and primary renal disease (20% diabetes mellitus, 17% hypertension/renal vascular disease, 15% glomerulonephritis and 48% other causes).

Analyses were adjusted using fixed values: age (45 years), gender (60% men) and primary renal disease (10% diabetes mellitus, 8% hypertension/renal vascular disease, 28% glomerulonephritis and 54% other causes).

Fig. 12

The 5-year adjusted survival probability of incident dialysis patients (commencing RRT between 2005 and 2009) and patients receiving a first transplant (between 2005 and 2009) from day 91 by modality, adjusted for age, gender and primary renal diagnosis. Survival on dialysis was examined using the Cox regression method, with transplantation as a censored event (see the ERA-EDTA 2014 Annual Report for the full methods). Analyses were adjusted using fixed values: age (60 years), gender (60% men) and primary renal diagnosis (20% diabetes mellitus, 17% hypertension/renal vascular disease, 15% glomerulonephritis and 48% other causes). This figure is based on data from the following registries providing individual patient data: Austria, Belgium (Dutch-speaking), Belgium (French-speaking), Denmark, Finland, France, Greece, Iceland, Norway, Spain (Andalusia), Spain (Aragon), Spain (Asturias), Spain (Basque country), Spain (Cantabria), Spain (Castile and León), Spain (Castile-La Mancha), Spain (Catalonia), Spain (Extremadura), Spain (Galicia), Spain (Valencian region), Sweden, the Netherlands and the UK (all countries). The 1-, 2- and 5-year survival probabilities by treatment modality and cohort from day 1 of the start of RRT/dialysis or from the day of transplantation This is based on data from the following registries providing individual patient data: Austria, Belgium (Dutch-speaking), Belgium (French-speaking), Denmark, Finland, France, Greece, Iceland, Norway, Spain (Andalusia), Spain (Aragon), Spain (Asturias), Spain (Basque country), Spain (Cantabria), Spain (Castile and León), Spain (Castile-La Mancha), Spain (Catalonia), Spain (Extremadura), Spain (Galicia), Spain (Valencian region), Sweden, the Netherlands and the UK (all countries). Analyses were adjusted using fixed values: age (60 years), gender (60% men) and primary renal disease (20% diabetes mellitus, 17% hypertension/renal vascular disease, 15% glomerulonephritis and 48% other causes). Analyses were adjusted using fixed values: age (45 years), gender (60% men) and primary renal disease (10% diabetes mellitus, 8% hypertension/renal vascular disease, 28% glomerulonephritis and 54% other causes).

Expected remaining lifetime

There remains a substantial difference in the expected remaining lifetime between the general population and those receiving dialysis (Figure 13). Patients aged 20–45 years old receiving dialysis are expected to live only one-third as long as the age-matched general population. The prospect is even worse for patients aged 55–64 years, as they are expected to live only a quarter as long as their age-matched counterparts in the general population. Patients living with a kidney transplant fare better than their counterparts receiving dialysis. However, for the transplant recipients aged 20–49 years their life expectancy is still approximately one-third less than that of the age-matched general population. As the age of the transplant recipient increases, the disparity in life expectancy with the age-matched general population also increases.

Fig. 13

Expected remaining lifetimes of the general population in 2013 and 2014, and of prevalent dialysis and transplant patients in 2013 and 2014 (includes mortality in the first 90 days), by age and gender. This figure is based on data from the following registries providing individual patient data: Austria, Belgium (Dutch-speaking), Belgium (French-speaking), Bosnia and Herzegovina, Denmark, Estonia, Finland, France, Greece, Iceland, Norway, Spain (Andalusia), Spain (Aragon), Spain (Asturias), Spain (Basque country), Spain (Cantabria), Spain (Castille and León), Spain (Castille-La Mancha), Spain (Catalonia), Spain (Extremadura), Spain (Galicia), Spain (Community of Madrid), Spain (Region of Murcia), Spain (Valencian region), Sweden, the Netherlands and the UK (all countries).

Affiliated registries

Albanian Renal Registry (M. Barbullushi, A. Koroshi and all team of Nephrology); Austrian Dialysis and Transplant Registry (OEDTR) (R.K.); Dutch-speaking Belgian Society of Nephrology (NBVN) (B. De Moor, F. Schroven and J. De Meester); French-speaking Belgian Society of Nephrology (GNFB) (J.M.d.G. and F. Collart); Renal Registry Bosnia and Herzegovina (H.R., L. Lukić and S. Corić); Bulgaria (E.S.V., I. Velinova and M. Gitcheva); Croatian Registry of Renal Replacement Therapy (CRRRT) (I.B., S. Rački and N. Janković); Cyprus Renal Registry (K.I. and all of the renal units providing data); Czech Republic: Registry of Dialysis Patients (RDP) (I. Rychlík, J. Potucek and F.L.); Danish Nephrology Registry (DNS) (J.G.H.); Estonian Society of Nephrology (Ü. Pechter, M.R. and K. Lilienthal); Finnish Registry for Kidney Diseases (P.F. and C. Grönhagen-Riska); France: The Epidemiology and Information Network in Nephrology (REIN) (M.L. and C. Couchoud); Georgian Renal Registry (N.K. and Dialysis Nephrology and Transplantation Union of Georgia); Hellenic Renal Registry (N.A.); Icelandic End-Stage Renal Disease Registry (R.P.); Israel National Registry of Renal Replacement Therapy (R. Dichtiar, T. Shohat and E.G.); Italian Registry of Dialysis and Transplantation (RIDT) (M.N., M. Postorino and A. Limido); Latvian Renal Registry (H.C. and V. Kuzema); Lithuanian Renal Registry (V. Kuzminskis, I.A. Bumblytė and E.Ž.); Macedonian Renal Registry (L. Trpenovski, Z. Seljami and O.S.-T.); Montenegrin Renal Registry (M.R., D. Radunovic and V. Prelevic); Norwegian Renal Registry (T. Leivestad, A.V. Reisæter and A.Å.); Polish Renal Registry (B.R., M. Klinger and G. Korejwo); Portuguese Renal Registry (F.M., F. Nolasco and R. Filipe); Romanian Renal Registry (RRR) (G. Mircescu, L.G. and E. Podgoreanu); Renal Registry in Serbia (Working Group of Serbian RRT Registry and all of the Serbian renal units); Slovakian Renal Registry (V.S., I. Lajdová and M. Karolyova); Spanish RRT National Registry at ONT, Spanish Regional Registries and Spanish Society of Nephrology (SEN) and the regional registries of Andalusia (SICATA) (P.C.d.l.N.), Aragon (J.I. Sanchez Miret and J.M. Abad Diez), Asturias (R. A.d.l.T., J.R. Quirós and RERCA Working Group), Basque country (UNIPAR) (Á.M., J. Aranzabal, M. Rodrigo and I. Moina), Cantabria (M. Arias Rodríguez and O. García Ruiz), Castile and León (R.G. and C. Fernández-Renedo), Castile-La Mancha (G. Gutiérrez Ávila and I.M.A.), Catalonia (RMRC) (E. Arcos, J. Comas and J. Tort), Extremadura (J.M. Ramos Aceitero and M.A.G.B.), Galicia (E.B.C. and J. Sánchez-Ibáñez), Community of Madrid (M.I.A.M.), Renal Registry of the Region of Murcia (C.S.d.P. and I. Marín Sánchez), Navarre (M.F.S.R., J. Manrique Escola and J. Arteaga Coloma) and the Valencian region (REMRENAL) (C. Alberich Martí and M.F.A.); Swedish Renal Registry (SNR) (K.G. Prütz, M.E.S., M. Evans, S. Schön, L. Bäckman and M. Segelmark); Swiss Dialysis Registry (P. Ambühl and R. Winzeler); Dutch Renal Registry (RENINE) (M.H.H. and A. Hemke); Tunisia, Sfax region (D. Zalila, S. Toumi and F.J.); Registry of the Nephrology, Dialysis and Transplantation in Turkey (TSNNR) (G. Süleymanlar, N.S. and K. Ateş); Ukrainian Renal Data System (URDS) (M.K., S. Nikolaenko and O. Dubyna); UK Renal Registry (UKRR) (all the staff of the UK Renal Registry and of the renal units submitting data); Scottish Renal Registry (SRR) (all of the Scottish renal units).

ERA-EDTA Registry committee members

A. Więcek, Poland (ERA-EDTA President); Z.M., France (Chairman); F.J.C., UK; C. Couchoud, France; M. Evans, Sweden; P.F., Finland; J.W. Groothoff, the Netherlands; J. Harambat, France; J.G.H., Denmark; F.J., Tunisia; Mar.N., Italy; and I. Rychlik, Czech Republic.

ERA-EDTA Registry office staff

K.J.J. (Managing Director), M.B. (for the paediatric section), R. Cornet, G. Guggenheim, A.K., Mau.N., M.P., V.S.S. and A.J. Weerstra.

Conflict of interest statement

None declared.

3 in total

1. Renal replacement therapy in Europe: a summary of the 2012 ERA-EDTA Registry Annual Report.

Authors: Maria Pippias; Vianda S Stel; José Maria Abad Diez; Nikolaos Afentakis; Jose Antonio Herrero-Calvo; Manuel Arias; Natalia Tomilina; Encarnación Bouzas Caamaño; Jadranka Buturovic-Ponikvar; Svjetlana Čala; Fergus J Caskey; Pablo Castro de la Nuez; Harijs Cernevskis; Frederic Collart; Ramón Alonso de la Torre; Maria de Los Ángeles García Bazaga; Johan De Meester; Joan Manuel Díaz; Ljubica Djukanovic; Manuel Ferrer Alamar; Patrik Finne; Liliana Garneata; Eliezer Golan; Raquel González Fernández; Gonzalo Gutiérrez Avila; James Heaf; Andries Hoitsma; Nino Kantaria; Mykola Kolesnyk; Reinhard Kramar; Anneke Kramer; Mathilde Lassalle; Torbjørn Leivestad; Frantisek Lopot; Fernando Macário; Angela Magaz; Eduardo Martín-Escobar; Wendy Metcalfe; Marlies Noordzij; Runolfur Palsson; Ülle Pechter; Karl G Prütz; Marina Ratkovic; Halima Resić; Boleslaw Rutkowski; Carmen Santiuste de Pablos; Viera Spustová; Gültekin Süleymanlar; Karlijn Van Stralen; Nestor Thereska; Christoph Wanner; Kitty J Jager
Journal: Clin Kidney J Date: 2015-03-23

2. Renal replacement therapy in Europe: a summary of the 2011 ERA-EDTA Registry Annual Report.

Authors: Marlies Noordzij; Anneke Kramer; José M Abad Diez; Ramón Alonso de la Torre; Emma Arcos Fuster; Boris T Bikbov; Marjolein Bonthuis; Encarnación Bouzas Caamaño; Svetlana Čala; Fergus J Caskey; Pablo Castro de la Nuez; Harijs Cernevskis; Frederic Collart; Rafael Díaz Tejeiro; Ljubica Djukanovic; Manuel Ferrer-Alamar; Patrik Finne; María de Los Angelos García Bazaga; Liliana Garneata; Eliezer Golan; Raquel Gonzalez Fernández; James G Heaf; Andries Hoitsma; George A Ioannidis; Mykola Kolesnyk; Reinhard Kramar; Mathilde Lasalle; Torbjørn Leivestad; Frantisek Lopot; Moniek W M van de Luijtgaarden; Fernando Macário; Ángela Magaz; Eduardo Martín Escobar; Johan de Meester; Wendy Metcalfe; Mai Ots-Rosenberg; Runolfur Palsson; Celestino Piñera; Maria Pippias; Karl G Prütz; Marina Ratkovic; Halima Resić; Aurelio Rodríguez Hernández; Boleslaw Rutkowski; Viera Spustová; Vianda S Stel; Olivera Stojceva-Taneva; Gültekin Süleymanlar; Christoph Wanner; Kitty J Jager
Journal: Clin Kidney J Date: 2014-03-02

3. Renal replacement therapy in Europe: a summary of the 2013 ERA-EDTA Registry Annual Report with a focus on diabetes mellitus.

Authors: Anneke Kramer; Maria Pippias; Vianda S Stel; Marjolein Bonthuis; José Maria Abad Diez; Nikolaos Afentakis; Ramón Alonso de la Torre; Patrice Ambuhl; Boris Bikbov; Encarnación Bouzas Caamaño; Ivan Bubic; Jadranka Buturovic-Ponikvar; Fergus J Caskey; Pablo Castro de la Nuez; Harijs Cernevskis; Frederic Collart; Jordi Comas Farnés; Maria de Los Ángeles Garcia Bazaga; Johan De Meester; Manuel Ferrer Alamar; Patrik Finne; Liliana Garneata; Eliezer Golan; James G Heaf; Marc Hemmelder; Kyriakos Ioannou; Nino Kantaria; Mykola Kolesnyk; Reinhard Kramar; Mathilde Lassalle; Visnja Lezaic; Frantisek Lopot; Fernando Macário; Angela Magaz; Eduardo Martín-Escobar; Wendy Metcalfe; Mai Ots-Rosenberg; Runolfur Palsson; Celestino Piñera Celestino; Halima Resić; Boleslaw Rutkowski; Carmen Santiuste de Pablos; Viera Spustová; Maria Stendahl; Ariana Strakosha; Gültekin Süleymanlar; Marta Torres Guinea; Anna Varberg Reisæter; Evgueniy Vazelov; Edita Ziginskiene; Ziad A Massy; Christoph Wanner; Kitty J Jager; Marlies Noordzij
Journal: Clin Kidney J Date: 2016-01-31

3 in total

31 in total

Review 1. Coronary artery disease in dialysis patients: evidence synthesis, controversies and proposed management strategies.

Authors: Alexandru Burlacu; Simonetta Genovesi; Carlo Basile; Alberto Ortiz; Sandip Mitra; Dimitrios Kirmizis; Mehmet Kanbay; Andrew Davenport; Frank van der Sande; Adrian Covic
Journal: J Nephrol Date: 2020-05-29 Impact factor: 3.902

2. Kidney transplantation in Romania: two transplant centers experience.

Authors: A Gramaticu; D Siriopol; A Miron; D Tacu; I Sinescu; C Gingu; C Bucsa; A Nastasa; A Covic
Journal: Int Urol Nephrol Date: 2017-11-17 Impact factor: 2.370

Review 3. ADPKD current management and ongoing trials.

Authors: Francesca Testa; Riccardo Magistroni
Journal: J Nephrol Date: 2019-12-18 Impact factor: 3.902

4. An International Analysis of Dialysis Services Reimbursement.

Authors: Arjan van der Tol; Norbert Lameire; Rachael L Morton; Wim Van Biesen; Raymond Vanholder
Journal: Clin J Am Soc Nephrol Date: 2018-12-13 Impact factor: 8.237

5. Through the Patients' Eyes: The Experience of End-Stage Renal Disease Patients Concerning the Provided Nursing Care.

Authors: Areti Stavropoulou; Maria G Grammatikopoulou; Michail Rovithis; Konstantina Kyriakidi; Andriani Pylarinou; Anastasia G Markaki
Journal: Healthcare (Basel) Date: 2017-07-21

6. The European Renal Association - European Dialysis and Transplant Association (ERA-EDTA) Registry Annual Report 2015: a summary.

Authors: Anneke Kramer; Maria Pippias; Marlies Noordzij; Vianda S Stel; Nikolaos Afentakis; Patrice M Ambühl; Anton M Andrusev; Emma Arcos Fuster; Federico E Arribas Monzón; Anders Åsberg; Myftar Barbullushi; Marjolein Bonthuis; Fergus J Caskey; Pablo Castro de la Nuez; Harijs Cernevskis; Jean-Marin des Grottes; Liliana Garneata; Eliezer Golan; Marc H Hemmelder; Kyriakos Ioannou; Faical Jarraya; Mykola Kolesnyk; Kirill Komissarov; Mathilde Lassalle; Fernando Macario; Beatriz Mahillo-Duran; Angel L Martín de Francisco; Runolfur Palsson; Ülle Pechter; Halima Resic; Boleslaw Rutkowski; Carmen Santiuste de Pablos; Nurhan Seyahi; Sanja Simic Ogrizovic; María F Slon Roblero; Viera Spustova; Olivera Stojceva-Taneva; Jamie Traynor; Ziad A Massy; Kitty J Jager
Journal: Clin Kidney J Date: 2018-01-05

7. Current trends in European renal epidemiology.

Authors: James Heaf
Journal: Clin Kidney J Date: 2017-02-18

8. The prevalence of autosomal dominant polycystic kidney disease (ADPKD): A meta-analysis of European literature and prevalence evaluation in the Italian province of Modena suggest that ADPKD is a rare and underdiagnosed condition.

Authors: Andrea Solazzo; Francesca Testa; Silvia Giovanella; Marco Busutti; Luciana Furci; Paola Carrera; Maurizio Ferrari; Giulia Ligabue; Giacomo Mori; Marco Leonelli; Gianni Cappelli; Riccardo Magistroni
Journal: PLoS One Date: 2018-01-16 Impact factor: 3.240

Review 9. Oxidative Stress in Kidney Diseases: The Cause or the Consequence?

Authors: Natalia Krata; Radosław Zagożdżon; Bartosz Foroncewicz; Krzysztof Mucha
Journal: Arch Immunol Ther Exp (Warsz) Date: 2017-12-06 Impact factor: 4.291

10. Tolvaptan: Clinical Evidence for Slowing the Progression of Autosomal Dominant Polycystic Kidney Disease.

Authors: Riccardo Magistroni
Journal: G Tec Nefrol Dial Date: 2018-03-13