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DEVELOPMENT OF AN ACELLULAR EXTRACELLULAR MATRIX AS A THREE-DIMENSIONAL SCAFFOLD FOR ESOPHAGEAL TUMOR ENGINEERING

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Date Issued:
2020
Abstract/Description:
Human esophageal squamous cell carcinoma (hESCC) is a very aggressive form of cancer due to its ability to easily metastasize into proximal lymph nodes and adjacent organs. The role of the extracellular matrix (ECM) and its stromal cells in metastasis remains unclear. To better understand the effect of the ECM and fibroblast cells on esophagus cancer cell migration and invasion, we propose a biomimetic human esophagus model cultured with hESCC and human primary fibroblast cells (fibroblast). To mimic the extracellular matrix of human esophagus we use decellularized porcine esophagus matrix (DEM) to culture with hESCC and fibroblasts in static conditions. This DEM can recapitulate the human esophagus tumor microenvironment with relevant cues. This model will provide valuable information regarding esophagus cancer cell migration with respect to the heterogeneous extracellular matrix and stromal fibroblast cells. We expect to discover the mechanisms by which extracellular matrix and stromal cells affect cancer migration and invasion in vitro. Characterizing this process will provide vital insight towards the effects of fibroblasts cells on facilitating migration and invasion of esophageal cancer cells. This esophagus cancer model also provides promising potential to study drug screening and develop new strategies against esophagus metastasis.
Title: DEVELOPMENT OF AN ACELLULAR EXTRACELLULAR MATRIX AS A THREE-DIMENSIONAL SCAFFOLD FOR ESOPHAGEAL TUMOR ENGINEERING.
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Name(s): Chaitin, Hersh, author
Kang, Yunqing, Thesis advisor
Florida Atlantic University, Degree grantor
Department of Biological Sciences
Charles E. Schmidt College of Science
Type of Resource: text
Genre: Electronic Thesis Or Dissertation
Date Created: 2020
Date Issued: 2020
Publisher: Florida Atlantic University
Place of Publication: Boca Raton, Fla.
Physical Form: online resource
Extent: 73 p.
Language(s): English
Abstract/Description: Human esophageal squamous cell carcinoma (hESCC) is a very aggressive form of cancer due to its ability to easily metastasize into proximal lymph nodes and adjacent organs. The role of the extracellular matrix (ECM) and its stromal cells in metastasis remains unclear. To better understand the effect of the ECM and fibroblast cells on esophagus cancer cell migration and invasion, we propose a biomimetic human esophagus model cultured with hESCC and human primary fibroblast cells (fibroblast). To mimic the extracellular matrix of human esophagus we use decellularized porcine esophagus matrix (DEM) to culture with hESCC and fibroblasts in static conditions. This DEM can recapitulate the human esophagus tumor microenvironment with relevant cues. This model will provide valuable information regarding esophagus cancer cell migration with respect to the heterogeneous extracellular matrix and stromal fibroblast cells. We expect to discover the mechanisms by which extracellular matrix and stromal cells affect cancer migration and invasion in vitro. Characterizing this process will provide vital insight towards the effects of fibroblasts cells on facilitating migration and invasion of esophageal cancer cells. This esophagus cancer model also provides promising potential to study drug screening and develop new strategies against esophagus metastasis.
Identifier: FA00013534 (IID)
Degree granted: Dissertation (Ph.D.)--Florida Atlantic University, 2020.
Collection: FAU Electronic Theses and Dissertations Collection
Note(s): Includes bibliography.
Subject(s): Esophageal Squamous Cell Carcinoma
Extracellular matrix
Metastasis
Fibroblasts
Biomimetics
Stromal Cells
Held by: Florida Atlantic University Libraries
Sublocation: Digital Library
Persistent Link to This Record: http://purl.flvc.org/fau/fd/FA00013534
Use and Reproduction: Copyright © is held by the author with permission granted to Florida Atlantic University to digitize, archive and distribute this item for non-profit research and educational purposes. Any reuse of this item in excess of fair use or other copyright exemptions requires permission of the copyright holder.
Use and Reproduction: http://rightsstatements.org/vocab/InC/1.0/
Host Institution: FAU
Is Part of Series: Florida Atlantic University Digital Library Collections.