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Related Concept Videos

Vesicular Tubular Clusters01:45

Vesicular Tubular Clusters

After budding out from the ER membrane, some COPII vesicles lose their coat and fuse with one another to form larger vesicles and interconnected tubules called vesicular tubular clusters or VTCs. These clusters constitute a compartment at the ER-Golgi interface known as ERGIC (Endoplasmic Reticulum Golgi Intermediate Compartment). The ERGIC is a mobile membrane-bound cargo transport system that sorts proteins secreted from ER and delivers them to the Golgi.
With the help of motor proteins such...

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Related Experiment Video

Updated: May 10, 2026

Micropatterning and Assembly of 3D Microvessels
13:05

Micropatterning and Assembly of 3D Microvessels

Published on: September 9, 2016

Synthetic microvessels.

J A López1, Y Zheng

  • 1Puget Sound Blood Center Research Institute, Seattle, WA 98104, USA. josel@psbcresearch.org

Journal of Thrombosis and Haemostasis : JTH
|July 2, 2013
PubMed
Summary

The microvasculature, crucial for tissue health and disease, was studied using in vitro microvessels. This research explored vessel structure, cell interactions, and thrombosis, with future applications in medicine.

Area of Science:

  • Vascular biology and microcirculation research.

Background:

  • The microvasculature acts as a vital organ, regulating tissue environments in health and disease.
  • Understanding microvascular function is essential for tissue homeostasis and overall health.

Purpose of the Study:

  • To describe tools for studying vascular cell function.
  • To present research utilizing an in vitro microvessel platform to investigate various aspects of microvascular biology.

Main Methods:

  • Utilized an in vitro microvessel platform for studying vascular cell function.
  • Investigated vessel structure, remodeling, endothelial barrier function, and angiogenesis.
  • Examined interactions between endothelial cells, perivascular cells, and blood cells.
  • Studied microvascular thrombosis models.
Keywords:
angiogenesisendotheliumengineeringmicrovesselsthrombosisvon Willebrand factor

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Development and Characterization of In Vitro Microvessel Network and Quantitative Measurements of Endothelial [Ca2+]i and Nitric Oxide Production
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Development and Characterization of In Vitro Microvessel Network and Quantitative Measurements of Endothelial [Ca2+]i and Nitric Oxide Production

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Last Updated: May 10, 2026

Micropatterning and Assembly of 3D Microvessels
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Main Results:

  • The in vitro platform enabled comprehensive analysis of microvascular functions.
  • Detailed insights were gained into endothelial barrier integrity and cell-cell interactions.
  • The study provided a foundation for understanding pathological processes like thrombosis.

Conclusions:

  • In vitro microvessel platforms are powerful tools for studying complex microvascular processes.
  • This research advances our understanding of microvascular biology and disease.
  • Future applications in regenerative medicine and drug development are promising.