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Peritoneal Dialysis II: Peritoneal Dialysis Systems and Complications01:25

Peritoneal Dialysis II: Peritoneal Dialysis Systems and Complications

Peritoneal dialysis (PD) is a medical process that removes waste products and excess fluid from the body using the peritoneal membrane as a natural filter.Peritoneal Dialysis MethodsSeveral methods can be used for peritoneal dialysis, including Acute Intermittent Peritoneal Dialysis, Continuous Ambulatory Peritoneal Dialysis, and Automated Peritoneal Dialysis, also known as Continuous Cyclic Peritoneal Dialysis.Acute Intermittent Peritoneal Dialysis (AIPD) is used for patients with uremic...
Peritoneal Dialysis III: Nursing Management01:25

Peritoneal Dialysis III: Nursing Management

Peritoneal dialysis, or PD, utilizes the peritoneal membrane as a filter to eliminate excess fluid and waste products. Effective nursing management is essential for ensuring patient safety, preventing complications, and promoting optimal function of the peritoneal dialysis process.Assessment and MonitoringNurses must thoroughly assess the patient before, during, and after each dialysis session. Regular monitoring includes vital signs, daily weight, fluid intake and output, and laboratory values...
Peritoneal Dialysis I: Introduction and Procedure01:30

Peritoneal Dialysis I: Introduction and Procedure

Peritoneal dialysis (PD) is a procedure that facilitates the exchange of solutes, waste products, electrolytes, and excess fluid between the blood in the peritoneal capillaries and a dialysis solution introduced into the peritoneal cavity.Principles of Peritoneal Dialysis (PD)Diffusion: Waste products such as urea and electrolytes move from high concentrations in the blood to low concentrations in the dialysate across the peritoneal membrane. This mechanism is driven by the concentration...
Hemodialysis III: Nursing Management01:25

Hemodialysis III: Nursing Management

The nursing management of a patient undergoing hemodialysis includes several critical steps, starting with a thorough assessment before the procedure.Before the Hemodialysis ProcedureFirst, record the patient's vital signs—blood pressure, heart rate, respiratory rate, and temperature—to establish a baseline. This baseline is essential for detecting conditions such as hypotension that could impact the patient's response to dialysis. Document the patient's pre-dialysis weight, as this measurement...
Hemodialysis II: Procedure and Complications01:24

Hemodialysis II: Procedure and Complications

DialyzersA hemodialysis (HD) dialyzer is a plastic cartridge containing thousands of parallel hollow fibers, which serve as semipermeable membranes. These fibers are typically made from cellulose-based or other synthetic materials. During HD, blood is pumped into the top of the cartridge and distributed among these fibers. Simultaneously, dialysis fluid, known as dialysate, is introduced into the bottom of the cartridge, bathing the outside of the fibers. Across the semipermeable membrane,...
Dialysis01:27

Dialysis

Renal failure occurs when the kidneys lose their ability to filter waste products from the blood effectively. It can be classified into two types: acute renal failure (ARF) and chronic renal failure (CRF).
Acute kidney injury develops suddenly and can be caused by pre-renal causes (e.g., hypovolemia, shock), intrinsic renal causes (e.g., acute tubular necrosis), or post-renal causes (e.g., urinary obstruction). In contrast, chronic renal failure progresses gradually over time and is often...

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Incremental start and clinical outcomes in peritoneal dialysis: International results from PDOPPS.

Peritoneal dialysis international : journal of the International Society for Peritoneal Dialysis·2025
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Novel Colorimetric and Light Scatter Methods to Identify and Manage Peritoneal Dialysis-Associated Peritonitis at the Point-of-Care.

Kidney international reports·2024
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Dietary Protein Restriction in Patients with Chronic Kidney Disease.

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International peritoneal dialysis training practices and the risk of peritonitis.

Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association·2021
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Variation in Peritoneal Dialysis-Related Peritonitis Outcomes in the Peritoneal Dialysis Outcomes and Practice Patterns Study (PDOPPS).

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Peritoneal Dialysis-Related Infection Rates and Outcomes: Results From the Peritoneal Dialysis Outcomes and Practice Patterns Study (PDOPPS).

American journal of kidney diseases : the official journal of the National Kidney Foundation·2020
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Updated: Jun 4, 2026

Surgical Techniques for Catheter Placement and 5/6 Nephrectomy in Murine Models of Peritoneal Dialysis
07:11

Surgical Techniques for Catheter Placement and 5/6 Nephrectomy in Murine Models of Peritoneal Dialysis

Published on: July 19, 2018

Volume status in peritoneal dialysis.

Graham Woodrow1

  • 1Renal Unit, St James's University Hospital, Beckett Street, Leeds, United Kingdom. graham.woodrow@leedsth.nhs.uk

Peritoneal Dialysis International : Journal of the International Society for Peritoneal Dialysis
|March 3, 2011
PubMed
Summary
This summary is machine-generated.

Managing fluid balance is vital for patients undergoing peritoneal dialysis (PD). Current PD methods can effectively manage fluid overload, improving cardiovascular health, with bioelectrical impedance analysis aiding optimal fluid status.

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Last Updated: Jun 4, 2026

Surgical Techniques for Catheter Placement and 5/6 Nephrectomy in Murine Models of Peritoneal Dialysis
07:11

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Published on: July 15, 2015

Area of Science:

  • Nephrology
  • Cardiovascular Medicine
  • Clinical Nutrition

Background:

  • Kidney function is critical for fluid homeostasis, especially in peritoneal dialysis (PD) patients.
  • Fluid overload in PD patients accelerates cardiovascular disease and impacts nutritional status.
  • Research has focused on ultrafiltration and urine volume, neglecting fluid intake and thirst in PD management.

Purpose of the Study:

  • To review the current understanding of fluid balance in PD patients.
  • To highlight the importance of managing fluid status for patient outcomes.
  • To evaluate techniques for achieving ideal volume status in PD.

Main Methods:

  • Literature review of studies on fluid management in PD.
  • Analysis of the impact of fluid status on cardiovascular health and nutrition.
  • Evaluation of bioelectrical impedance analysis (BIA) for fluid assessment.

Main Results:

  • Current PD techniques are capable of achieving adequate fluid removal and improving cardiac function.
  • Fluid overload remains a challenge, necessitating effective management strategies.
  • Bioelectrical impedance analysis shows promise as a tool to guide fluid management in PD.

Conclusions:

  • Optimizing fluid management in PD patients is crucial for improving outcomes.
  • Effective fluid removal strategies can mitigate cardiovascular risks.
  • Bioelectrical impedance analysis is a valuable technique for guiding fluid management in PD.