Ten-year experience of an outpatient clinic for CKD-5 patients with multidisciplinary team and educational support.

PURPOSE: To analyze the results of an outpatient clinic with a multidisciplinary team and educational support for patients with late-stage CKD (lsCKD), to check its possible effect on their outcomes. METHODS: Longitudinal cohort study on patients followed up in the MaReA (Malattia Renale Avanzata = CKD5) outpatient clinic at ASST Spedali Civili of Brescia from 2005 to 2015 for at least six months. Trajectory of renal function over time has been evaluated only in those patients with at least four estimations of eGFR before referring to MaReA. RESULTS: Seven hundred and six patients were enrolled, their mean age was 72 ± 14 years, 59% were males. At the end of the study, 147 (21%) were still on MaReA, 240 (34%) on dialysis, 92 (13%) on very low-protein diet (VLPDs), 13 (2%) on pre-hemodialysis clinic, 23 (3%) improved renal function, 10 (1%) transplanted, 62 (9%) transferred/lost to follow-up, and 119 (17%) died. Optimal dialysis start (defined as start with definitive dialysis access, as an out-patient and without lsCKD complications) occurred in 180/240 (75%) patients. The results showed a slower eGFR decrease during MaReA follow-up compared to previous renal follow-up: - 2.0 vs. - 4.0 mL/min/1.73 m2 BSA/year (p < 0.05), corresponding to a median delay of 17.7 months in dialysis start in reference to our policy in starting dialysis. The patient cumulative survival was 75% after 24 months and 25% after 70. LIMITATIONS: (1) lack of a control group, (2) one-center-study, (3) about all patients were Caucasians. CONCLUSION: The follow-up of lsCKD patients on MaReA is associated with an optimal and delayed initiation of dialysis.

Incremental dialysis in ESRD: systematic review and meta-analysis.

BACKGROUND: Incremental dialysis may preserve residual renal function and improve survival in comparison with full-dose dialysis; however, available evidence is limited. We therefore compared all-cause mortality and residual kidney function (RKF) loss in incremental and full-dose dialysis and time to full-dose dialysis in incremental hemodialysis (IHD) and incremental peritoneal dialysis (IPD). METHODS: We performed a systematic review and meta-analysis of cohort studies of adults with ESRD starting IHD and IPD. We identified in PubMed and Web of Science database all cohort studies evaluating incremental dialysis evaluating three outcomes: all-cause mortality, RKF loss, time to full dialysis. IPD was defined as < 3 daily dwells in Continuous Ambulatory Peritoneal Dialysis and < 5 sessions per week in Automated Peritoneal Dialysis, while IHD was defined as < 3 HD sessions per week. RESULTS: 22 studies (75,292 participants), 15 in HD and 7 in PD, were analyzed. Mean age at dialysis start was 62 and 57 years in IHD and IPD subjects, respectively. When compared to full dose, incremental dialysis (IHD or IPD) had an overall mortality risk of 1.14 [95% CI 0.85-1.52] with high heterogeneity among studies (I2 86%, P < 0.001), and lower mean RKF loss (- 0.58 ml/min/months, 95% CI 0.16-1.01, P = 0.007). Overall, time to full-dose dialysis was 12.1 months (95% CI 9.8-14.3) with no difference between IHD and IPD (P = 0.217). CONCLUSIONS: Incremental dialysis allows longer preservation of RKF thus deferring full-dose dialysis, by about 1 year in HD and PD, with no increase in mortality risk. Large and adequate studies are needed to confirm these findings.

[Nutritional diet therapy in the management of the patient with Chronic Kidney Disease in advanced phase to delay the beginning and reduce the frequency of dialysis. An option also in the pre-emptive transplant program].

The Italian nephrology has a long tradition and experience in the field of dietetic-nutritional therapy (DNT), which is an important component in the conservative management of the patient suffering from a chronic kidney disease, which precedes and integrates the pharmacological therapies. The objectives of DNT include the maintenance of an optimal nutritional status, the prevention and / or correction of signs, symptoms and complications of chronic renal failure and, possibly, the delay in starting of dialysis. The DNT includes modulation of protein intake, adequacy of caloric intake, control of sodium and potassium intake, and reduction of phosphorus intake. For all dietary-nutritional therapies, and in particular those aimed at the patient with chronic renal failure, the problem of patient adherence to the dietetic-nutritional scheme is a key element for the success and safety of the DNT and it can be favored by an interdisciplinary and multi-professional approach of information, education, dietary prescription and follow-up. This consensus document, which defines twenty (20) essential points of the nutritional approach to patients with advanced chronic renal failure, has been written, discussed and shared by the Italian nephrologists together with representatives of dietitians (ANDID) and patients (ANED).

Nutritional treatment of advanced CKD: twenty consensus statements.

The Italian nephrology has a long tradition and experience in the field of dietetic-nutritional therapy (DNT), which is an important component in the conservative management of the patient suffering from a chronic kidney disease, which precedes and integrates the pharmacological therapies. The objectives of DNT include the maintenance of an optimal nutritional status, the prevention and/or correction of signs, symptoms and complications of chronic renal failure and, possibly, the delay in starting of dialysis. The DNT includes modulation of protein intake, adequacy of caloric intake, control of sodium and potassium intake, and reduction of phosphorus intake. For all dietary-nutritional therapies, and in particular those aimed at the patient with chronic renal failure, the problem of patient adherence to the dietetic-nutritional scheme is a key element for the success and safety of the DNT and it can be favored by an interdisciplinary and multi-professional approach of information, education, dietary prescription and follow-up. This consensus document, which defines twenty essential points of the nutritional approach to patients with advanced chronic renal failure, has been written, discussed and shared by the Italian nephrologists together with representatives of dietitians (ANDID) and patients (ANED).

Incremental peritoneal dialysis: a 10 year single-centre experience.

INTRODUCTION: Incremental dialysis consists in prescribing a dialysis dose aimed towards maintaining total solute clearance (renal + dialysis) near the targets set by guidelines. Incremental peritoneal dialysis (incrPD) is defined as one or two dwell-times per day on CAPD, whereas standard peritoneal dialysis (stPD) consists in three-four dwell-times per day. PATIENTS AND METHODS: Single-centre cohort study. Enrollement period: January 2002-December 2007; end of follow up (FU): December 2012. INCLUSION CRITERIA: incident patients with FU ≥6 months, initial residual renal function (RRF) 3-10 ml/min/1.73 sqm BSA, renal indication for PD. RESULTS: Median incrPD duration was 17 months (I-III Q: 10; 30). There were no statistically significant differences between 29 patients on incrPD and 76 on stPD regarding: clinical, demographic and anthropometric characteristics at the beginning of treatment, adequacy indices, peritonitis-free survival (peritonitis incidence: 1/135 months-patients in incrPD vs. 1/52 months-patients in stPD) and patient survival. During the first 6 months, RRF remained stable in incrPD (6.20 ± 2.02 vs. 6.08 ± 1.47 ml/min/1.73 sqm BSA; p = 0.792) whereas it decreased in stPD (4.48 ± 2.12 vs. 5.61 ± 1.49; p < 0.001). Patient survival was affected negatively by ischemic cardiopathy (HR: 4.269; p < 0.001), peripheral and cerebral vascular disease (H2.842; p = 0.006) and cirrhosis (2.982; p = 0.032) and positively by urine output (0.392; p = 0.034). Hospitalization rates were significantly lower in incrPD (p = 0.021). Eight of 29 incrPD patients were transplanted before reaching full dose treatment. CONCLUSIONS: IncrPD is a safe modality to start PD; compared to stPD, it shows similar survival rates, significantly less hospitalization, a trend towards lower peritonitis incidence and slower reduction of renal function.

Encapsulating peritoneal sclerosis in an Italian center: thirty year experience.

BACKGROUND: Encapsulating peritoneal sclerosis (EPS) is a rare but life-threatening complication of peritoneal dialysis (PD). Its incidence and prevalence are still not clearly defined. No data exist on the prevalence of EPS in Italy. OBJECTIVES: To evaluate the incidence and prevalence of EPS, and identify potential factors useful for prevention or early diagnosis of EPS. METHODS: A retrospective study in patients starting PD between 1979 and 2013 in one Italian center. Data on demographics, occurrence of EPS, time on PD, peritoneal equilibration test, and therapy for EPS were gathered. RESULTS: EPS occurred in 26/920 patients with a prevalence of 2.8 % and incidence of 1/105 patient-years. The prevalence increased with the time spent on PD: 0.4 % for PD duration <2 years, 3 % (2-4 years), 4 % (4-6 years), 6 % (6-8 years), 8 % (8-10 years), 18 % (10-12 years), 75 % (12-14 years), 67 % (>14 years). EPS prevalence was not higher in PD patients transplanted: 5/172 (2.9 %); only two of them (1.2 %) were diagnosed while with a functioning graft. In only one patient (0.6 %) was the diagnosis made during hemodialysis; the other 23 were diagnosed while still on PD. Mortality due to EPS was 38.5 %, and was associated with PD duration. Therapy with steroids reduced mortality [hazard ratio 0.047 (95 % CI: 0.008-0.273); p < 0.001]. CONCLUSIONS: In our experience the prevalence of EPS is low, but increases progressively with the duration of PD. The transfer to hemodialysis or transplantation does not appear to be a key factor for EPS. Therapy with steroids significantly improves the outcome.

A load volume suitable for reaching dialysis adequacy targets in anuric patients on 4-exchange CAPD.

INTRODUCTION: Continuous ambulatory peritoneal dialysis (CAPD) depuration indexes are targeted to get a minimum total weekly peritoneal urea clearance (Kt/V) of 1.70 and creatinine clearance/1.73 m(2) (pCrCL) of 50 l. In anuric patients these targets are difficult to achieve. Since dialysis volumes (load, VOL(in); drain, VOL(out)) are the main determinants of peritoneal clearances (pCLs), we aimed to estimate the minimum volumes required to fulfill these targets in anuric patients. METHODS: Sixty-nine CAPD anuric patients from eight dialysis units were observed retrospectively. Demographic data, dialysis schedule, VOLs and depuration indexes were recorded. The relationship between normalized VOLs and pCLs was estimated by linear regression analysis as a whole (95 % confidence interval of the fit) and stratified by tertiles of body weight (BW) and surface area (BSA). RESULTS: Mean weekly pKt/V was 1.89 ± 0.29, pCrCL 52.9 ± 8.0, VOL(in) 32.9 ± 5.3 ml/kg and VOL(out) 37.4 ± 6.7 ml/kg exchange. VOL(in) and VOL(out) correlated with depuration indexes only if normalized. A VOL(in) of 28.5 ml/kg exchange (27.0-30.0) was associated with a pKt/V of 1.70, and a VOL(in) of 29.5 (26.5-31.5) with a pCrCL of 50 l, with a VOL(out) of 31.7 ml/kg (29.5-33.5) and 32.4 (27.2-35.5), respectively. Smaller patients needed a lower normalized VOL(in)/exchange to obtain pKt/V = 1.70 (1st vs. 2nd vs. 3rd BW tertiles: 28.3 vs. 28.9 vs. 29.0 ml/kg; BSA tertiles: 1,696 vs. 1,935 vs. 2,086 ml/1.73). CONCLUSIONS: In CAPD anuric patients VOL(in) prescription could be tailored to body mass to reach the minimum depuration target. Normalized VOL(in) might be prescribed in slightly higher doses (from 27 to 30 ml/kg exchange) for patients with higher body mass.

Peritoneal ultrafiltration in patients with advanced decompensated heart failure.

The aim of the Best Practice guidelines on peritoneal ultrafiltration (UF) in patients with treatment-resistant advanced decompensated heart failure (TR-AHDF) is to achieve a common approach to the management of decompensated heart failure in those situations in which all conventional treatment options have been unsuccessful, and to stimulate a closer cooperation between nephrologists and cardiologists. The standardization of the case series of different centers would allow a better definition of the results published in the literature, without which they are nothing more than anecdotes. TR-AHDF is characterized by the persistence of severe symptoms even when all possible pharmacological and surgical options have been exhausted. These patients are often treated with methods that allow extracorporeal UF - slow continuous ultrafiltration (SCUF) and continuous renal replacement therapy (CRRT) - which have to be performed in hospital facilities. Peritoneal ultrafiltration (PUF) can be considered a treatment option in patients with TR-AHDF when, despite the fact that all treatment options have been used, patients meet the following criteria: • stage D decompensated heart failure (ACC/AHA classification); • INTERMACS level 4 decompensated heart failure; • INTERMACS frequent flyer profile; • chronic renal failure (estimated glomerular filtration rate <50 ml/min per 1.73 m2: KDOQI classification stage 3 chronic kidney disease); • no obvious contraindications to peritoneal UF. PUF treatment modes are derived from the treatment regimens proposed by various authors to obtain systemic UF in patients with severe decompensated heart failure, using manual and automated incremental peritoneal dialysis involving various glucose concentrations in addition to the single icodextrin exchange. These guidelines also identify a minimum set of tests and procedures for the follow-up phase, to be supplemented, according to the center's resources and policy, with other tests that are less routine or more complex also from a logistic/organizational standpoint, emphasizing the need for the patient's clinical and treatment program to involve both the nephrologist and the cardiologist. The pathophysiological aspects of a deterioration in kidney function in patients with decompensated heart failure are also considered, and the results of PUF in patients with decompensated heart failure reported in the various case series are reviewed.