Advanced search
Start date
Betweenand

Characterization of extracellular matrix mimetic hydrogels derived from multiple tissues and their influence on cell behavior

Grant number: 19/22468-0
Support type:Research Grants - Innovative Research in Small Business - PIPE
Duration: October 01, 2020 - September 30, 2022
Field of knowledge:Biological Sciences - Biology
Principal researcher:Gabriel Romero Liguori
Grantee:Gabriel Romero Liguori
Company:Tissuelabs Pesquisa e Desenvolvimento Ltda
CNAE: Pesquisa e desenvolvimento experimental em ciências físicas e naturais
City: São Paulo
Assoc. researchers: Emerson Galves Moretto ; Luiz Felipe Pinho Moreira
Associated research grant:18/15450-5 - Optimization and standardization of the manufacture of an extracellular matrix mimetic hydrogel for applications in regenerative medicine, tissue engineering and other in vitro studies, AP.PIPE
Associated scholarship(s):20/15506-0 - Characterization of extracellular matrix mimetic hydrogels derived from multiple tissues and their influence on cell behavior, BP.PIPE

Abstract

The development of hydrogels for application in regenerative medicine, tissue engineering and in vitro studies that require three-dimensional cell culture has been the focus of intense investment by universities and companies around the world. These hydrogels seek to mimic features of the extracellular matrix environment, such as biochemical clues and biomechanical stimuli. Taking into account the importance of the components of the extracellular matrix of each specific type of tissue, hydrogels derived from decellularized extracellular matrix began to be used with the proposal to provide the cells with a set of properties and signs of the native microenvironment, structurally and biologically, capable of interacting as the matrix itself, supporting and guiding cell adhesion, proliferation and differentiation. During the PIPE Phase 1 project, we optimized and standardized the manufacture of decellularized extracellular matrix hydrogels capable of providing cells with a set of properties and signaling from the native microenvironment, structural and biological, supporting and guiding adhesion, proliferation and cell differentiation. To this end, we developed specialized bioreactors and automated the entire manufacturing process to allow process reproduction on an industrial and standardized scale. Now, to make such hydrogels a commercial product that can be used by any researcher interested in performing three-dimensional cell culture, the present project aims to characterize hydrogels derived from diverse tissues and investigate their influence on cellular behavior. Briefly, we will study hydrogels derived from 14 different tissues: adipose tissue, bone, bone marrow, brain, cartilage, eye (retina), kidney, liver, lung, muscle, myocardium, pancreas, skin and blood vessels. In addition to the biochemical and biomechanical characterization of the hydrogels, their influence on adhesion, viability, proliferation, secretome profile and cell differentiation will be investigated. Based on these results, we hope to create a product line - based on the different tissues studied - for researchers working in various areas of biomedical sciences. (AU)

Articles published in Pesquisa FAPESP Magazine about the research grant:
Gabriel Liguori: Un corazón bioartificial en el horizonte 
Gabriel Liguori: A bioartificial heart on the horizon 
Articles published in Agência FAPESP Newsletter about the research grant:
Articles published in other media outlets (0 total):
More itemsLess items
VEICULO: TITULO (DATA)
VEICULO: TITULO (DATA)