JoVE
JoVE
Ressourcen für Lehrende
Forschung
Verhalten
Biochemie
Biologie
Biotechnik
Krebsforschung
Chemie
Entwicklungsbiologie
Ingenieurwesen
Umwelt
Genetik
Immunologie und Infektion
Medizin
Neurowissenschaften
JoVE Journal
JoVE Encyclopedia of Experiments
JoVE Chrome Extension
Lehre
Biologie
Chemie
Clinical
Ingenieurwesen
Umweltwissenschaften
Pharmacology
Physik
Psychologie
Statistik
JoVE Core
JoVE Science Education
JoVE Lab Manual
JoVE Quiz
JoVE Business
Videos Mapped to your Course
Autoren
Bibliothekare
Gymnasien
Über uns
Sign-In
Anmelden
Kontakt
Forschung
JoVE Journal
JoVE Encyclopedia of Experiments
Lehre
JoVE Core
JoVE Science Education
JoVE Lab Manual
Gymnasien
DE
EN - English
CN - 中文
DE - Deutsch
ES - Español
KR - 한국어
IT - Italiano
FR - Français
PT - Português
JA - 日本語
TR - Türkçe
DE
EN - English
CN - 中文
DE - Deutsch
ES - Español
KR - 한국어
IT - Italiano
FR - Français
PT - Português
JA - 日本語
TR - Türkçe
Close
Forschung
Verhalten
Biochemie
Biotechnik
Biologie
Krebsforschung
Chemie
Entwicklungsbiologie
Ingenieurwesen
Umwelt
Genetik
Immunologie und Infektion
Medizin
Neurowissenschaften
Products
JoVE Journal
JoVE Encyclopedia of Experiments
Lehre
Biologie
Chemie
Clinical
Ingenieurwesen
Umweltwissenschaften
Pharmacology
Physik
Psychologie
Statistik
Products
JoVE Core
JoVE Science Education
JoVE Lab Manual
JoVE Quiz
JoVE Business
Ihrem Kurs zugeordnete Videos
Teacher Resources
Get in Touch
Instant Trial
Log In
DE
EN - English
CN - 中文
DE - Deutsch
ES - Español
KR - 한국어
IT - Italiano
FR - Français
PT - Português
JA - 日本語
TR - Türkçe
Journal
/
Ingenieurwesen
/
/
Embedded 3D Bioprinting of Esophageal Muscle-Layer Analogs for Tissue Engineering
JoVE Journal
Ingenieurwesen
Zum Anzeigen dieser Inhalte ist ein JoVE-Abonnement erforderlich.
Melden Sie sich an oder starten Sie Ihre kostenlose Testversion.
JoVE Journal
Ingenieurwesen
Embedded 3D Bioprinting of Esophageal Muscle-Layer Analogs for Tissue Engineering
Embedded 3D Bioprinting of Esophageal Muscle-Layer Analogs for Tissue Engineering
DOI:
10.3791/201799-v
•
01:07 min
•
May 03, 2024
•
Hua Zhang*
1,2,3
,
Tong Zhu*
1,2,4
,
Yang Luo
2
,
Rong Xu
2,4
,
Guanrong Li
2,4
,
Zeming Hu
,
Xu Cao
2,4
,
Jie Yao
4
,
Yige Chen
2
,
Yingchun Zhu
,
Kerong Wu
4
1
Research Institute of Smart Medicine and Biological Engineering
,
Ningbo University
,
2
Health Science Center
,
Ningbo University
,
3
Key Laboratory of Precision Medicine for Atherosclerotic Diseases of Zhejiang Province
,
The First Affiliated Hospital of Ningbo University
,
4
The First Affiliated Hospital of Ningbo University
Tags
Ingenieurwesen
Kappa-carrageenan Sub-microgel
Bingham Flow
Shear-thinning
Self-healing
Cell Viability
Organ Fabrication
Embed
ZUR WIEDERGABELISTE HINZUFÜGEN
Usage Statistics
Verwandte Videos
Author Spotlight: Development of Homogeneous
κ
-Carrageenan Sub-Microgel Baths for High-Resolution 3D Bioprinting
Preparation of the
κ
-Carrageenan Sub-Microgel Suspension Bath for Embedded 3D Printing
Printing Biomimetic Hydrogel Scaffolds Using a Custom-Designed Micro-Extrusion Bioprinter
Embedded 3D Bioprinting of Esophageal Muscle-Layer Analogs for Tissue Engineering
Read Article