In vitro biological testing in the development of new devices

Marta L. Alves da Silva; Albino Martins; Ana Costa-Pinto; Rui L. Reis; Nuno M. Neves

doi:10.1002/9781119126218.ch28

In vitro biological testing in the development of new devices

Marta L. Alves da Silva^*
, Albino Martins
, Ana Costa-Pinto
, Rui L. Reis
, Nuno M. Neves

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

1 Citation (Scopus)

Abstract

One of the crucial properties that can determine cell ingrowth, proliferation within the scaffolds and integration with the surrounding tissues is the 3D porous structure of the scaffolds. in vitro models for testing the biocompatibility of biomaterials and their derivatives are used to illustrate the hidden toxic effects of leachable materials or derivatives, such as catalysts, residual monomers or other polymer erosion products. Scanning electron microscopy (SEM) is a microscopic method extremely valuable in polymeric materials and structures, along with many other research areas. Another technique used to analyze the tissue formation within the scaffolds is the micro-computed tomography (micro-CT). Viability and proliferation of cells is an important parameter to consider when using cell cultures. Viability assays are used to measure the proportion of viable cells after a potentially traumatic procedure, such as primary disaggregation, cell separation, or cryopreservation. Cell proliferation can be assessed indirectly by quantifying its metabolic activity.

Original language	English
Title of host publication	Biomaterials from nature for advanced devices and therapies
Editors	Nuno M. Neves, Rui L. Reis
Publisher	Wiley-Blackwell
Chapter	28
Pages	532-550
Number of pages	19
ISBN (Electronic)	9781119126218
ISBN (Print)	9781118478059
DOIs	https://doi.org/10.1002/9781119126218.ch28
Publication status	Published - 1 Jan 2016
Externally published	Yes

Keywords

Biocompatible materials
Cell proliferation
Cell viability assays
Chitosan-based scaffolds
Micro-computed tomography
Polymer erosion products
Residual monomers
Scanning electron microscopy
Tissue formation

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10.1002/9781119126218.ch28

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title = "In vitro biological testing in the development of new devices",

abstract = "One of the crucial properties that can determine cell ingrowth, proliferation within the scaffolds and integration with the surrounding tissues is the 3D porous structure of the scaffolds. in vitro models for testing the biocompatibility of biomaterials and their derivatives are used to illustrate the hidden toxic effects of leachable materials or derivatives, such as catalysts, residual monomers or other polymer erosion products. Scanning electron microscopy (SEM) is a microscopic method extremely valuable in polymeric materials and structures, along with many other research areas. Another technique used to analyze the tissue formation within the scaffolds is the micro-computed tomography (micro-CT). Viability and proliferation of cells is an important parameter to consider when using cell cultures. Viability assays are used to measure the proportion of viable cells after a potentially traumatic procedure, such as primary disaggregation, cell separation, or cryopreservation. Cell proliferation can be assessed indirectly by quantifying its metabolic activity.",

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AU - Silva, Marta L. Alves da

AU - Martins, Albino

AU - Costa-Pinto, Ana

AU - Reis, Rui L.

AU - Neves, Nuno M.

PY - 2016/1/1

Y1 - 2016/1/1

N2 - One of the crucial properties that can determine cell ingrowth, proliferation within the scaffolds and integration with the surrounding tissues is the 3D porous structure of the scaffolds. in vitro models for testing the biocompatibility of biomaterials and their derivatives are used to illustrate the hidden toxic effects of leachable materials or derivatives, such as catalysts, residual monomers or other polymer erosion products. Scanning electron microscopy (SEM) is a microscopic method extremely valuable in polymeric materials and structures, along with many other research areas. Another technique used to analyze the tissue formation within the scaffolds is the micro-computed tomography (micro-CT). Viability and proliferation of cells is an important parameter to consider when using cell cultures. Viability assays are used to measure the proportion of viable cells after a potentially traumatic procedure, such as primary disaggregation, cell separation, or cryopreservation. Cell proliferation can be assessed indirectly by quantifying its metabolic activity.

AB - One of the crucial properties that can determine cell ingrowth, proliferation within the scaffolds and integration with the surrounding tissues is the 3D porous structure of the scaffolds. in vitro models for testing the biocompatibility of biomaterials and their derivatives are used to illustrate the hidden toxic effects of leachable materials or derivatives, such as catalysts, residual monomers or other polymer erosion products. Scanning electron microscopy (SEM) is a microscopic method extremely valuable in polymeric materials and structures, along with many other research areas. Another technique used to analyze the tissue formation within the scaffolds is the micro-computed tomography (micro-CT). Viability and proliferation of cells is an important parameter to consider when using cell cultures. Viability assays are used to measure the proportion of viable cells after a potentially traumatic procedure, such as primary disaggregation, cell separation, or cryopreservation. Cell proliferation can be assessed indirectly by quantifying its metabolic activity.

KW - Biocompatible materials

KW - Cell proliferation

KW - Cell viability assays

KW - Chitosan-based scaffolds

KW - Micro-computed tomography

KW - Polymer erosion products

KW - Residual monomers

KW - Scanning electron microscopy

KW - Tissue formation

UR - https://www.scopus.com/pages/publications/85019950129

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M3 - Chapter

AN - SCOPUS:85019950129

SN - 9781118478059

SP - 532

EP - 550

BT - Biomaterials from nature for advanced devices and therapies

A2 - Neves, Nuno M.

A2 - Reis, Rui L.

PB - Wiley-Blackwell

ER -

In vitro biological testing in the development of new devices

Abstract

Keywords

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