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Related Concept Videos

Peritoneal Dialysis III: Nursing Management01:25

Peritoneal Dialysis III: Nursing Management

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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...
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Peritoneal Dialysis II: Peritoneal Dialysis Systems and Complications01:25

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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...
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Peritoneal Dialysis I: Introduction and Procedure01:30

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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...
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Hemodialysis III: Nursing Management01:25

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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...
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Extracorporeal Removal of Drugs: Peritoneal Dialysis and Hemodialysis01:30

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Patients with end-stage renal disease (ESRD) or those experiencing drug overdose often require extracorporeal methods to eliminate accumulated drugs and metabolites. Hemoperfusion, hemofiltration, and dialysis are the primary techniques to rapidly remove harmful substances without disrupting the patient's fluid and electrolyte balance. For those with compromised renal function, dosage adjustments of concurrent medications may be necessary during extracorporeal drug removal.Dialysis is a process...
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Dialysis01:27

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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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Remote Patient Management in Peritoneal Dialysis Improves Clinical Outcomes.

Sabrina Milan Manani1,2, Carlo Crepaldi3,4, Anna Giuliani3,4

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Remote patient management (RPM) for automated peritoneal dialysis (APD) significantly reduces hospital visits, complications, and costs. This home-based monitoring improves patient outcomes and therapy adherence, offering a cost-effective alternative to traditional care.

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Area of Science:

  • Nephrology
  • Medical Technology
  • Health Services Research

Background:

  • Chronic diseases necessitate continuous care, increasing healthcare burdens.
  • Remote Patient Management (RPM) offers proactive monitoring for chronic conditions.
  • Peritoneal Dialysis (PD) is a home-based therapy suitable for RPM integration.

Purpose of the Study:

  • To evaluate the effectiveness of RPM in automated peritoneal dialysis (APD).
  • To assess the impact of RPM-APD on clinical outcomes and healthcare resource utilization.
  • To determine the cost-benefit of RPM-APD compared to conventional care.

Main Methods:

  • Implementation of a cloud-based RPM system (SHARESOURCE) for APD patients.
  • Bidirectional communication between home-based patients and hospital care teams.
  • Two-year observational study of prevalent APD patients using RPM-APD.

Main Results:

  • Significant reductions in patient drop-out and technique failure.
  • Decreased hospital visits (scheduled and unscheduled) and hospitalizations.
  • Reduced episodes of overhydration and non-compliance, leading to cost savings.

Conclusions:

  • RPM-APD enhances patient outcomes and adherence to therapy.
  • RPM-APD optimizes healthcare resource use and reduces overall costs.
  • RPM-APD represents a superior, cost-effective model for chronic disease management.