Tissue Engineering of the Intestine in a Murine Model

Erik R. Barthel; Allison L. Speer; Daniel E. Levin; Fr&#233;d&#233;ric G. Sala; Xiaogang Hou; Yasuhiro Torashima; Clarence M. Wigfall; Tracy C. Grikscheit

doi:10.3791/4279

Tissue Engineering кишечника в мышиной модели

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Bioengineering
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JoVE Journal Bioengineering

Tissue Engineering of the Intestine in a Murine Model

Tissue Engineering кишечника в мышиной модели

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15,566 Views

08:45 min

December 1, 2012

DOI: 10.3791/4279-v

Erik R. Barthel¹, Allison L. Speer¹, Daniel E. Levin¹, Frédéric G. Sala¹, Xiaogang Hou¹, Yasuhiro Torashima¹, Clarence M. Wigfall¹, Tracy C. Grikscheit¹

¹Children's Hospital Los Angeles, Division of Pediatric Surgery, Saban Research Institute,Keck School of Medicine of the University of Southern California

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Overview

This article and the accompanying video present a protocol for generating tissue-engineered intestine in the mouse, using an organoid units-on-scaffold approach. The video demonstrates the technique and outlines the necessary steps for the procedure.

Key Study Components

Area of Science

Tissue engineering
Organ regeneration
Mouse models

Background

Importance of developing functional intestinal tissues.
Applications in regenerative medicine and disease modeling.
Previous methods and their limitations.
Advancements in organoid technology.

Purpose of Study

To establish a reliable method for generating tissue-engineered small intestine.
To enhance understanding of intestinal development and function.
To provide a platform for future research in gastrointestinal diseases.

Methods Used

Procurement of whole mouse intestine.
Preparation of instruments with 70% ethanol.
Midline incision for access to the peritoneal cavity.
Evisceration and dissection of the small bowel from the mesentery.

Main Results

Successful isolation of small intestine for tissue engineering.
Demonstration of the organoid units-on-scaffold approach.
Potential for further applications in research and therapy.
Compliance with ethical guidelines for animal use.

Conclusions

The protocol provides a foundation for generating engineered intestinal tissues.
Future studies can build on this method for various applications.
Contributes to the field of regenerative medicine.

Frequently Asked Questions

What is the organoid units-on-scaffold approach?

It is a technique for creating tissue-engineered structures using organoid units placed on a scaffold to support growth and development.

Why is mouse intestine used in this study?

Mouse intestine serves as a model for studying human intestinal development and disease due to its biological similarities.

What ethical considerations are involved in this research?

The study follows institutional animal care and use committee guidelines to ensure humane treatment of animals.

What are the potential applications of this research?

Applications include regenerative medicine, disease modeling, and understanding intestinal biology.

How can this method contribute to future research?

It provides a reliable protocol for generating intestinal tissues that can be used in various experimental settings.

What are the limitations of current methods for intestinal tissue engineering?

Current methods may lack efficiency, reproducibility, or fail to mimic the complex structure of native tissues.

Эта статья и сопровождающие видео представляем наш протокол для создания тканевой инженерии кишечника у мышей, используя органоид единиц-на-эшафот подход.

В этом видео будет продемонстрирована наша методика создания тканевой инженерии тонкой кишки у мышей с использованием органоидных единиц на скаффолдном подходе. В этом эксперименте с животными обращались в соответствии с рекомендациями Комитета по уходу за животными и их использованию и Детской больницы, Лос-Анджелесского научно-исследовательского института Савона. Первым делом необходимо получить цельную кишку мыши.

Гуманно усыпленную мышь и инструменты подготавливают с 70% этанолом в воде, а также делают разрез по средней линии, чтобы получить доступ к брюшной полости. Тонкая кишка выпотрошена и разделена дистальнее связки тритов. Затем его резко и прямо рассекают в сторону от брыжейки и ее сосудов.

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