Volume-Based Peritoneal Dialysis Prescription Guide to Achieve Adequacy Targets

Akonur, Alp; Firanek, Catherine; Gellens, Mary; Hutchcraft, Audrey; Kathuria, Pranay; Sloand, James A.

doi:10.3747/pdi.2014.00255

Cited by 7 publications

(7 citation statements)

References 48 publications

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“…A real patient data-based simulation model comparing icodextrin with 2.27% glucose solutions clearly showed that the use of icodextrin for the long well (day dwell in APD and night dwell in CAPD) resulted in both increased ultrafiltration efficiency and sodium removal across the whole spectrum of peritoneal membrane transport types. The authors also showed equal sodium removal in both modalities [ 62 ]. Similarly, a more recent publication reported that sodium removal was not associated with PD modality but increased with the use of icodextrin and with solutions of higher glucose concentration [ 63 ].…”

Section: Residual Renal Function–blood Pressure–ultrafiltration–sodiumentioning

confidence: 99%

APD or CAPD: one glove does not fit all

Roumeliotis

Leivaditis

et al. 2020

Int Urol Nephrol

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The use of Automated Peritoneal Dialysis (APD) in its various forms has increased over the past few years mainly in developed countries. This could be attributed to improved cycler design, apparent lifestyle benefits and the ability to achieve adequacy and ultrafiltration targets. However, the dilemma of choosing the superior modality between APD and Continuous Ambulatory Peritoneal Dialysis (CAPD) has not yet been resolved. When it comes to fast transporters and assisted PD, APD is certainly considered the most suitable Peritoneal Dialysis (PD) modality. Improved patients' compliance, lower intraperitoneal pressure and possibly lower incidence of peritonitis have been also associated with APD. However, concerns regarding increased cost, a more rapid decline in residual renal function, inadequate sodium removal and disturbed sleep are APD's setbacks. Besides APD superiority over CAPD in fast transporters, the other medical advantages of APD still remain controversial. In any case, APD should be readily available for all patients starting PD and the most important indication for its implementation remains patient's choice.

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Section: Residual Renal Function–blood Pressure–ultrafiltration–sodiumentioning

confidence: 99%

APD or CAPD: one glove does not fit all

Roumeliotis

Leivaditis

et al. 2020

Int Urol Nephrol

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“…In PD patients, volume and blood pressure should be closely monitored and effectively addressed to avoid both an increase in left ventricular mass index and an increase in cardiothoracic ratio . Volume‐based PD prescriptions incorporating icodextrin rather than glucose in the long dwell reduced the complexity of PD regimens, total glucose exposure, and 24‐hour total treatment solution volumes .…”

Section: Hospitalizations and Readmissionsmentioning

confidence: 99%

Changing Landscape for Peritoneal Dialysis: Optimizing Utilization

Schreiber¹

2017

Seminars in Dialysis

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The future growth of peritoneal dialysis (PD) will be directly linked to the shift in US healthcare to a value-based payment model due to PD's lower yearly cost, early survival advantage over in-center hemodialysis, and improved quality of life for patients treating their kidney disease in the home. Under this model, nephrology practices will need an increased focus on managing the transition from chronic kidney disease to end-stage renal disease (ESRD), providing patient education with the aim of accomplishing modality selection and access placement ahead of dialysis initiation. Physicians must expand their knowledge base in home therapies and work toward increased technique survival through implementation of specific practice initiatives that highlight PD catheter placement success, preservation of residual renal function, consideration of incremental PD, and competence in urgent start PD. Avoidance of both early and late PD technique failures is also critical to PD program growth. Large dialysis organizations must continue to measure and improve quality metrics for PD, expand their focus beyond the sole provision of PD to holistic patient care, and initiate programs to reduce PD hospitalization rates and encourage physicians to consider the benefits of PD as an initial modality for appropriate patients. New and innovative strategies are needed to address the main reasons for PD technique failure, improve the connectivity of the patient in the home, leverage home biometric data to improve overall outcomes, and develop PD cycler devices that lower patient treatment burden and reduce both treatment fatigue and treatment-dependent complications.

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“…Previous trials reported that the UF percentage ranged from − 3.50-16.50% with 1.5% dextrose [33][34][35][36] , 10.50-18.76% with 2.5% dextrose 31,34,35,[37][38][39] , 30.60-51.40% with 4.25% dextrose [33][34][35] , and 11.7-12.62% with mixed dextrose concentrations 40,41 , with the same FV (2 liters) and different DTs (ranging from 1.5 hours to 6 hours). The UF/FV/DT values ranged from 0.97 to 6.07 ‱/min with 1.5% dextrose 35,36 and 2.93 to 11.85 ‱/min with 2.5% dextrose 31,35,[37][38][39] . Our results were all in accordance with previous trials.…”

Section: Discussionmentioning

confidence: 99%

Ultrafiltration in Patients on Automated Peritoneal Dialysis with Homechoice Claria connected to Sharesource: A Pilot Study

Hsiao¹,

Tian²,

Yen³

et al. 2021

Preprint

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Introduction: Fluid overload is an unavoidable problem in patients on peritoneal dialysis (PD) and is associated with poor outcomes. The aim of our study was to estimate ultrafiltration (UF) under different dextrose concentrations and clarify possible predictors of UF.Materials and methods: Seventy patients, with 1848 daily treatment records and 8266 single dwells on automated PD through Homechoice Claria with Sharesource were followed in October 2020 and categorized into 2 groups according to the dextrose concentration (group D1.5% and D2.5%). Baseline characteristics, peritoneal membrane characteristics, and daily PD treatment records from Sharesource were obtained. We compared UF under the different conditions.Results: Multivariate linear regression revealed that the mean fill volume (FV) per cycle (p=0.006) and dextrose concentration (p=0.000) were independent predictors of UF. The mean night UF per cycle, the mean night UF corrected by FV per cycle, and the mean night UF corrected by FV and dwelling time (DT) per cycle were 95.8 ml, 5.5%, and 5.0 ‱/minutes in group D1.5% and 220.3 ml, 12.0%, and 11.6 ‱/minutes in group D2.5%, respectively. After an approximately 120-minute DT, there was a trend toward higher UF in the low peritoneal permeability group and lower UF in the high peritoneal permeability group.Conclusion: This retrospective study presents precise UF measurements with two solutions at different dextrose concentrations and four peritoneal transport levels. UF is positively correlated with DT and FV of the dialysate within a reasonable range. High peritoneal permeability is associated with decreased UF, and low peritoneal permeability requires a longer DT to reach the maximal UF.

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Volume-Based Peritoneal Dialysis Prescription Guide to Achieve Adequacy Targets

Cited by 7 publications

References 48 publications

APD or CAPD: one glove does not fit all

APD or CAPD: one glove does not fit all

Changing Landscape for Peritoneal Dialysis: Optimizing Utilization

Ultrafiltration in Patients on Automated Peritoneal Dialysis with Homechoice Claria connected to Sharesource: A Pilot Study

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