JoVE
JoVE
Faculty Resource Center
Research
Behavior
Biochemistry
Biology
Bioengineering
Cancer Research
Chemistry
Developmental Biology
Engineering
Environment
Genetics
Immunology and Infection
Medicine
Neuroscience
JoVE Journal
JoVE Encyclopedia of Experiments
JoVE Chrome Extension
Education
Biology
Chemistry
Clinical
Engineering
Environmental Sciences
Pharmacology
Physics
Psychology
Statistics
JoVE Core
JoVE Science Education
JoVE Lab Manual
JoVE Quiz
JoVE Business
Videos Mapped to your Course
Authors
Librarians
High Schools
About
Sign-In
Sign In
Contact Us
Research
JoVE Journal
JoVE Encyclopedia of Experiments
Education
JoVE Core
JoVE Science Education
JoVE Lab Manual
High Schools
EN
EN - English
CN - 中文
DE - Deutsch
ES - Español
KR - 한국어
IT - Italiano
FR - Français
PT - Português
EN
EN - English
CN - 中文
DE - Deutsch
ES - Español
KR - 한국어
IT - Italiano
FR - Français
PT - Português
Close
Research
Behavior
Biochemistry
Bioengineering
Biology
Cancer Research
Chemistry
Developmental Biology
Engineering
Environment
Genetics
Immunology and Infection
Medicine
Neuroscience
Products
JoVE Journal
JoVE Encyclopedia of Experiments
Education
Biology
Chemistry
Clinical
Engineering
Environmental Sciences
Pharmacology
Physics
Psychology
Statistics
Products
JoVE Core
JoVE Science Education
JoVE Lab Manual
JoVE Quiz
JoVE Business
Videos Mapped to Your Course
Teacher Resources
Get in Touch
Instant Trial
Log In
EN
EN - English
CN - 中文
DE - Deutsch
ES - Español
KR - 한국어
IT - Italiano
FR - Français
PT - Português
Journal
/
Neuroscience
/
在微流体装置中生成具有功能性神经肌肉接头的人类运动单元
JoVE Journal
Neuroscience
This content is Free Access.
JoVE Journal
Neuroscience
Generation of Human Motor Units with Functional Neuromuscular Junctions in Microfluidic Devices
Please note that all translations are automatically generated.
Click here for the English version.
在微流体装置中生成具有功能性神经肌肉接头的人类运动单元
DOI:
10.3791/62959-v
•
10:48 min
•
September 07, 2021
•
Katarina Stoklund Dittlau
2
,
Emily N. Krasnow
2
,
Laura Fumagalli
2
,
Tijs Vandoorne
2
,
Pieter Baatsen
4
,
Axelle Kerstens
4
,
Giorgia Giacomazzi
,
Benjamin Pavie
4
,
Elisabeth Rossaert
2
,
Jimmy Beckers
2
,
Maurilio Sampaolesi
,
Philip Van Damme
2,6
,
Ludo Van Den Bosch
2
1
Department of Neurosciences, Experimental Neurology, and Leuven Brain Institute
,
KU Leuven – University of Leuven
,
2
VIB Bio Imaging Core
,
KU Leuven – University of Leuven
,
3
Department of Development and Regeneration, Stem Cell and Developmental Biology
,
KU Leuven – University of Leuven
,
4
Department of Neurology
,
University Hospitals Leuven
Chapters
00:05
Introduction
00:54
Pre-Assembled Microfluidic Device Preparation
02:39
Silicone Microfluidic Device Preparation
05:18
Neural Progenitor Cell Plating in Microfluidic Devices
07:15
Human Primary Mesoangioblast (MAB) Plating in Microfluidic Devices
08:32
Results: Generation of NMJs in Microfluidic Devices
10:10
Conclusion
Summary
Automatic Translation
English (Original)
العربية (Arabic)
中文 (Chinese)
Nederlands (Dutch)
français (French)
Deutsch (German)
עברית (Hebrew)
italiano (Italian)
日本語 (Japanese)
한국어 (Korean)
português (Portuguese)
русский (Russian)
español (Spanish)
Türkçe (Turkish)
Automatic Translation
我们描述了一种在市售微流体装置中产生人类运动单元的方法,方法是将人诱导多能干细胞衍生的运动神经元与人类原代介观细胞衍生的肌管共同培养,从而形成功能活性的神经肌肉接头。
Tags
Motor Units
Neuromuscular Junctions
Microfluidic Devices
Stem Cell Technology
Motor Neuron Disorder
Amyotrophic Lateral Sclerosis
Poly-L-ornithine
Laminin
Neurobasal Medium
SCM Sheets
Article
Embed
ADD TO PLAYLIST
Usage Statistics
Related Videos
神经肌肉接头处:测量突触大小,碎片和改变突触蛋白密度利用共聚焦荧光显微镜
微流控采用共培养开发设备牙胚支配分析
为什么量化事项:表型的表征在<em>果蝇</em>幼虫神经肌肉接头
腓神经损伤方法:可靠检测,以确定和测试因素修复神经肌肉接头
坐骨神经粉碎损伤大鼠模型中功能评估的3D运动学分析
使用微流体腔系统在运动神经元培养物中有机细胞的斧头迁移
三维运动神经器官生成
大鼠中胃肌肉单运动单元的功能隔离
单骨骼肌肉纤维解剖,用于全山神经肌肉结的免疫荧光和形态分析
Characterization of Neuromuscular Junctions in Mice by Combined Confocal and Super-Resolution Microscopy
Read Article