logo
搜索
菜单

Visualization of Vascular and Parenchymal Regeneration after 70% Partial Hepatectomy in Normal Mice

作者: Chichi Xie1, Weiwei Wei1, Andrea Schenk3, Lars Ole Schwen3, Sara Zafarnia2, Michael Schwier3, Felix Gremse2, Isabel Jank1, Olaf Dirsch4, Uta Dahmen1 1Department of General, Visceral and Vascular Surgery,Jena University Hospital, 2Experimental Molecular Imaging,RWTH Aachen University, 3Fraunhofer Institute for Medical Image Computing MEVIS, 4Institute of Pathology,Klinikum Chemnitz gGmbH
简介:

Overview

This article presents a workflow for visualizing vascular regeneration in mice following partial hepatectomy. It emphasizes the importance of contrasting vascular trees and outlines a method for imaging and analyzing vascular growth.

Key Study Components

Area of Science

  • Neuroscience
  • Vascular Biology
  • Regenerative Medicine

Background

  • Vascular regeneration is crucial for liver recovery post-surgery.
  • Traditional methods focus on liver weight and hepatocyte proliferation.
  • There is a growing interest in quantifying vascular growth.
  • Advanced imaging techniques can enhance understanding of vascular dynamics.

Purpose of Study

  • To establish a comprehensive workflow for imaging vascular regeneration.
  • To visualize and quantify vascular growth in liver regeneration.
  • To demonstrate the benefits of detailed analysis using µCT and histological sections.

Methods Used

  • Contrasting the vascular tree for optimal visualization.
  • Acquisition of CT scans for detailed imaging.
  • 3D reconstruction of vascular structures.
  • Quantitative and qualitative analysis of images.

Main Results

  • Successful visualization of vascular regeneration post-hepatectomy.
  • Establishment of a reliable imaging workflow.
  • Enhanced understanding of vascular dynamics in liver regeneration.
  • Potential applications in regenerative medicine research.

Conclusions

  • The proposed workflow provides a robust method for studying vascular regeneration.
  • Contrasting techniques significantly improve imaging outcomes.
  • Further research can build on these findings to explore therapeutic strategies.

Frequently Asked Questions

What is the significance of vascular regeneration?
Vascular regeneration is essential for tissue recovery and function after injury or surgery.
How does the workflow improve imaging?
The workflow enhances visualization and quantification of vascular structures, leading to better analysis.
What techniques are used for contrasting vascular trees?
Delicate injection techniques are employed to achieve optimal contrast in vascular imaging.
What imaging methods are utilized in this study?
CT scans and histological serial sections are used for detailed analysis.
How can this research impact regenerative medicine?
It provides insights into vascular dynamics that can inform therapeutic approaches in regenerative medicine.
What are the main outcomes of the study?
The study successfully visualizes vascular regeneration and establishes a reliable imaging workflow.
Is this method applicable to other types of regeneration?
While focused on liver regeneration, the methods may be adapted for other tissues requiring vascular analysis.

Tools used for visualizing vascular regeneration require methods for contrasting the vascular trees. This film demonstrated a delicate injection technique used to achieve optimal contrasting of the vascular trees and illustrate the potential benefits resulting from a detailed analysis of the resulting specimen using µCT and histological serial sections.

标签: Liver Regeneration,    Vascular Regeneration,    Parenchymal Regeneration,    Partial Hepatectomy,    70% Hepatectomy,    Contrast Agent,    Microfil,    MicroCT,    3D Reconstruction,    Vascular Visualization,    Vessel Length,    Vessel Diameter,    Ki-67,    Hepatocyte Proliferation,   
Use of a Low-flow Digital Anesthesia System for Mice and Rats 10.3791/54436-v
Use of a Low-flow Digital Anesthesia System for Mice and Rats
Murine Flexor Tendon Injury and Repair Surgery 10.3791/54433-v 07:32 min
Murine Flexor Tendon Injury and Repair Surgery
Intravascular Delivery of Biologics to the Rat Kidney 10.3791/54418-v 07:29 min
Intravascular Delivery of Biologics to the Rat Kidney
Ultrasound-based Pulse Wave Velocity Evaluation in Mice 10.3791/54362-v 08:07 min
Ultrasound-based Pulse Wave Velocity Evaluation in Mice
Three-Dimensional Culture Assay to Explore Cancer Cell Invasiveness and Satellite Tumor Formation 10.3791/54322-v 09:23 min
Three-Dimensional Culture Assay to Explore Cancer Cell Invasiveness and Satellite Tumor Formation
Studying the Role of Alveolar Macrophages in Breast Cancer Metastasis 10.3791/54306-v 07:47 min
Studying the Role of Alveolar Macrophages in Breast Cancer Metastasis
Surgical Approach for Middle Cerebral Artery Occlusion and Reperfusion Induced Stroke in Mice 10.3791/54302-v 10:30 min
Surgical Approach for Middle Cerebral Artery Occlusion and Reperfusion Induced Stroke in Mice
A High-content In Vitro Pancreatic Islet β-cell Replication Discovery Platform 10.3791/54298-v 09:35 min
A High-content In Vitro Pancreatic Islet β-cell Replication Discovery Platform
返回顶部