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Orthotopic Kidney Auto-Transplantation in a Porcine Model Using 24 Hours Organ Preservation And Continuous Telemetry

作者： Wen-Jia Liu*1,2, Lisa Ernst*2, Benedict Doorschodt2, Jan Bednarsch1, Felix Becker3, Richi Nakatake2, Yuki Masano2, Ulf Peter Neumann1,4, Sven Arke Lang1, Peter Boor5, Isabella Lurje6, Georg Lurje1,6, René Tolba2, Zoltan Czigany1,2 1Department of Surgery and Transplantation, Faculty of Medicine,University Hospital RWTH Aachen, 2Institute for Laboratory Animal Science, Faculty of Medicine,University Hospital RWTH Aachen, 3Department of General-, Visceral-, and Transplantation Surgery,University Hospital Muenster, 4Department of Surgery,Maastricht University Medical Centre (MUMC), 5Institute of Pathology, Faculty of Medicine,University Hospital RWTH Aachen, 6Department of Surgery, Campus Charité Mitte | Campus Virchow-Klinikum,Charité-Universitätsmedizin

简介：

Overview

This article presents a porcine model for orthotopic kidney auto-transplantation, emphasizing its relevance in preclinical transplantation research. The model's anatomical and pathophysiological similarities to human conditions make it ideal for testing organ preservation techniques.

Key Study Components

Area of Science

Transplantation research
Organ preservation techniques
Large animal models

Background

Large animal models are crucial for preclinical studies.
The porcine model closely mimics human surgical conditions.
This study focuses on a 24-hour organ preservation protocol.
Telemetry monitoring enhances data collection during procedures.

Purpose of Study

To establish a reliable porcine model for kidney auto-transplantation.
To evaluate organ preservation methods in a clinically relevant setting.
To monitor physiological responses during and after transplantation.

Methods Used

Preparation of the porcine model with sedation and surgical monitoring.
Detailed surgical procedures for kidney retrieval and transplantation.
Use of telemetry devices for real-time physiological data collection.
Post-operative monitoring of kidney function and recovery.

Main Results

Successful implantation and monitoring of the telemetry device.
All procedures resulted in satisfactory kidney perfusion post-transplant.
Physiological parameters remained stable throughout the observation period.
Kidney function showed recovery within four days post-operation.

Conclusions

The porcine model is effective for studying kidney auto-transplantation.
Telemetry monitoring provides valuable insights into organ function.
This protocol can facilitate further research on organ preservation techniques.

Frequently Asked Questions

What is the significance of using a porcine model?

The porcine model closely resembles human anatomy and physiology, making it ideal for transplantation studies.

How long was the organ preservation time in this study?

The organ preservation time was set at 24 hours.

What monitoring techniques were used during the procedures?

Peri-operative telemetric monitoring was utilized to track physiological parameters.

What were the main outcomes observed post-surgery?

All animals showed satisfactory kidney perfusion and recovery of function within four days.

Can this model be used for other types of organ transplantation?

Yes, the model can be adapted for various organ transplantation studies.

What are the advantages of using large animal models?

Large animal models provide better anatomical and physiological relevance compared to small animal models.

Large animal models play an essential role in preclinical transplantation research. Due to its similarities to the clinical setup, the porcine model of orthotopic kidney auto-transplantation described in this article provides an excellent in vivo setting for the testing of organ preservation techniques and therapeutic interventions.

标签: Orthotopic Kidney Auto-transplantation, Porcine Model, Organ Preservation, Continuous Telemetry, Surgical Procedures, Telemetric Monitoring, Sedation, Femoral Artery Dissection, Telemetry Device, ECG Electrodes, Jugular Catheter Insertion, Laparotomy, Kidney Graft Retrieval, Vascular Clamps,