Method Article

Fabrication of Micro-tissues using Modules of Collagen Gel Containing Cells

DOI:

10.3791/2177

December 13th, 2010

In This Article

Summary

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Creation of micro-tissues using cylindrical collagen gels, called modules, that contain embedded cells and which surface is coated with endothelial cells.

Abstract

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This protocol describes the fabrication of a type of micro-tissues called modules. The module approach generates uniform, scalable and vascularized tissues. The modules can be made of collagen as well as other gelable or crosslinkable materials. They are approximately 2 mm in length and 0.7 mm in diameter upon fabrication but shrink in size with embedded cells or when the modules are coated with endothelial cells. The modules individually are small enough that the embedded cells are within the diffusion limit of oxygen and other nutrients but modules can be packed together to form larger tissues that are perfusable. These tissues are modular in construction because different cell types can be embedded in or coated on the modules before they are packed together to form complex tissues. There are three main steps to making the modules: (1) neutralizing the collagen and embedding cells in it, (2) gelling the collagen in the tube and cutting the modules and (3) coating the modules with endothelial cells.

Protocol

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1) Preparation of Tubing

  1. Cut 2 to 3 m lengths of polyethylene tubing (0.76 mm I.D. x 1.22 mm O.D.).
  2. Thread a 20 G1 needle into one end of the tubing.
  3. Coil the tubing and place in a convertors self-seal pouch (7 1/2" x 13"). The two ends of the tubing should be placed at the unsealed end of the bag and taped in place with gas sterilization tape.
  4. Seal bag and gas sterilize.

2) Neutralization of Collagen

Note: 1 ml of collagen fills about 2 m of polyethylene tubing.

  1. Place the necessary amount of collagen needed for the desired length of tubing i....

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Discussion

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We have fabricated several different micro-tissues using modules embedded with different cell types1-11. We have successfully embedded primary cardiomyocytes, islets, adipose stem cells and mesenchymal stromal cells as well as several cell lines including HepG2, NIH 3T3 and clone 9 liver cells. We have coated the modules with several types of endothelial cells including rat aortic endothelial cells, human umbilical vein endothelial cells and human microvascular endothelial cells. Modules have also been prod.......

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Disclosures

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No conflicts of interest declared.

Acknowledgements

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Funding was provided by the National Institutes of Health (EB 001013), Natural Sciences and Engineering Research Council of Canada and Canadian Institutes of Health Research. We thank Dr. A. P. McGuigan for her expertise and help in development of modules.....

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Materials

List of materials used in this article
NameCompanyCatalog NumberComments
Intramedic tubing PE60BD Biosciences427416Different diameter of tubing can be used to change the diameter of the modules
Phosphate-buffered saline (PBS)GIBCO, by Life Technologies20012-027
Trypsin-EDTAGIBCO, by Life Technologies25200-072
Purcol acidificed collagen, 3 mg/mLCedarlane Labs5005-B
Sodium bicarbonateSigma-AldrichS5761
20G needleBD Biosciences305175Diameter of the needle needs to be similar to the diameter of the tubing
3 mL syringeBD Biosciences309585
15 mL tubeBD Biosciences352096
50 mL tubeBD Biosciences352070
Convertors Self-Seal Pouch 7 1/2” x 13”Cardinal Health92713
10 ml Wide Tip serological pipetBD Biosciences357504
10 ml serological pipetBD Biosciences357551
5 ml serological pipetBD Biosciences357543

References

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  1. Chamberlain, M. D., Gupta, R., Sefton, M. V. Chimeric vessel tissue engineering driven by endothelialized modules. , (2010).
  2. Corstorphine, L. E., Sefton, M. V. Effectiveness factor and diffusion limitations in collagen gel modules containing HepG2 cells. J Tissue Eng Regen Me....

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Tags

Collagen Gel ModulesMicro tissue FabricationEndothelial Cell CoatingPolyethylene Tubing CuttingCollagen NeutralizationTissue Engineering ModulesVascularized MicrotissuesModular Tissue ConstructionCell Embedding ProtocolMicrofluidic Chamber Assays

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