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Related Concept Videos

Kidney Transplant I: Introduction01:28

Kidney Transplant I: Introduction

A kidney transplant is a surgical approach that involves replacing a non-functioning kidney with a healthy one from a donor. This procedure is often a treatment option for end-stage renal disease (ESRD) patients. The method requires careful recipient selection, including evaluating various medical and psychosocial factors. These criteria vary between transplant centers but generally include assessments of the patient's overall health, adherence to medical recommendations, and lifestyle...
Acute Kidney Injury IV: Diagnostic Studies and Prevention01:30

Acute Kidney Injury IV: Diagnostic Studies and Prevention

Accurate diagnosis and effective prevention are critical in managing Acute Kidney Injury (AKI), which is linked to high mortality rates ranging from 10% to 80%. Timely recognition of at-risk patients and careful monitoring can significantly reduce the likelihood of kidney damage.Diagnostic Assessments:The diagnostic process starts with a comprehensive medical history to identify prerenal, intrarenal, and postrenal causes.Prerenal causes, such as dehydration, hypotension, or blood loss, should...
Kidney Transplant II: Surgical Procedure01:26

Kidney Transplant II: Surgical Procedure

Preoperative ManagementThe primary goals of preoperative management in kidney transplantation are to optimize the patient’s metabolic state and prepare them for surgery through diet adjustments, necessary dialysis, and tailored medical treatment. This phase also involves comprehensive infection screening and patient education about the surgical procedure and postoperative care to improve outcomes and adherence.Medical ManagementA comprehensive evaluation is required for both the living donor...

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Related Experiment Video

Updated: Jun 17, 2026

The Murine Choline-Deficient, Ethionine-Supplemented (CDE) Diet Model of Chronic Liver Injury
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The Murine Choline-Deficient, Ethionine-Supplemented (CDE) Diet Model of Chronic Liver Injury

Published on: October 21, 2017

Preservation methods for kidney and liver.

Charles Y Lee1, Martin J Mangino

  • 1Department of Mechanical Engineering and Engineering Science; University of North Carolina; Charlotte, NC USA.

Organogenesis
|January 5, 2010
PubMed
Summary
This summary is machine-generated.

Organ preservation methods are crucial for improving transplant success. Dynamic preservation techniques offer better outcomes for marginal donor organs, addressing the critical organ shortage.

Keywords:
donation after cardiac deathhypothermickidneylivernormothermicperfusionpersufflationpreservation

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Kidney Procurement in a Preclinical Large Animal Model
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Kidney Procurement in a Preclinical Large Animal Model

Published on: May 2, 2025

Area of Science:

  • Transplantation immunology
  • Organ preservation science

Background:

  • Cyclosporine's introduction in 1978 spurred organ transplant growth, increasing the need for effective organ preservation.
  • A significant organ donor crisis exists, with four patients on the waiting list for every transplant recipient and a death every 1.5 hours.
  • Marginal donor organs are underutilized due to the ineffectiveness of current static cold storage preservation methods.

Purpose of the Study:

  • To review current and emerging organ preservation techniques.
  • To evaluate the impact of dynamic preservation methods on marginal donor organs.

Main Methods:

  • Review of literature on organ preservation methods.
  • Comparison of static cold storage with dynamic methods: hypothermic machine perfusion, normothermic machine perfusion, and oxygen persufflation.
  • Analysis of outcomes for marginal donor organs, including Donation after Cardiac Death (DCD) and fatty livers.

Main Results:

  • Static cold storage is insufficient for optimal organ preservation, particularly for marginal organs.
  • Dynamic preservation methods show promise in improving graft recovery and function.
  • These advanced techniques enhance the utilization of marginal donor organs, potentially expanding the donor pool.

Conclusions:

  • Dynamic organ preservation methods are essential for overcoming the limitations of static cold storage.
  • Improved preservation strategies are key to addressing the organ donor crisis and improving patient outcomes.
  • Further research and clinical application of advanced preservation techniques are warranted to maximize organ utilization.