Implementing Computational Modeling in Tissue Engineering: Where Disciplines Meet

Post, Janine N.; Loerakker, Sandra; Merks, Roeland; Carlier, Aurélie

doi:10.1089/ten.tea.2021.0215

Cited by 17 publications

(10 citation statements)

References 154 publications

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“…Recently, mathematical and computational models have been developed to support bioreactors and microphysiological systems to optimize culture conditions and in vivo predictions [87]. The contributions include modeling of cell fate, cell interactions, nutrient supply and waste removal [87].…”

Section: Biosensors and Modeling Technologiesmentioning

confidence: 99%

Recent Advances in Liver Tissue Engineering as an Alternative and Complementary Approach for Liver Transplantation

Nair,

Weiskirchen

2023

CIMB

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Acute and chronic liver diseases cause significant morbidity and mortality worldwide, affecting millions of people. Liver transplantation is the primary intervention method, replacing a non-functional liver with a functional one. However, the field of liver transplantation faces challenges such as donor shortage, postoperative complications, immune rejection, and ethical problems. Consequently, there is an urgent need for alternative therapies that can complement traditional transplantation or serve as an alternative method. In this review, we explore the potential of liver tissue engineering as a supplementary approach to liver transplantation, offering benefits to patients with severe liver dysfunctions.

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Section: Biosensors and Modeling Technologiesmentioning

confidence: 99%

Recent Advances in Liver Tissue Engineering as an Alternative and Complementary Approach for Liver Transplantation

Nair,

Weiskirchen

2023

CIMB

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“…Researchers from similar fields but different universities were invited to join forces and write a comprehensive review that would not only reminisce on the past but also elaborate on new exciting directions in the field. Topics range from nanobiomaterials 4 to biointerface engineering, 5 supramolecular biomaterials, 6 hydrogels as injectables, 7 and even extending to computational modeling 8 where perhaps in the future all biomaterials-related research could be done in silico.…”

Section: Guest Editorialmentioning

confidence: 99%

Celebrating 30 Years of Netherlands Society for Biomaterials and Tissue Engineering: Past, Present, and Future

Rijn¹

2022

Tissue Engineering Part A

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“…Besides enabling existing technologies and experimental designs to work together, computational approaches have untapped potential to innovate biofabrication process designs. To truly impact biomimetic quality, intelligent design approaches must rely on accurate models of biofabrication [9,10,11]. This work analyses the application of intelligent automation principles (Figure 1.A) in modeling, design, and optimization (Figure 1.B), with a focus on approaches combining simulation and optimization (Figure 1.C) of TERM Biofabrication processes (Figure 1.D).…”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Computational Methods for Biofabrication in Tissue Engineering and Regenerative Medicine - a literature review

Bardini

Carlo

2023

Preprint

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Biofabrication is the generation of biologically functional products from living cells and biomaterials through bioprinting and subsequent maturation processes. Technological and scientific domains are underlying biofabrication ranging from biology to automated manufacturing and culture systems. Among its application domains, Tissue Engineering and Regenerative Medicine poses strict quality requirements for biofabrication, requiring fast and disruptive innovation for processes and products to comply. Innovation in biofabrication is slow and incremental, relying on R&D processes that are inefficient (slow, risky, and costly), ineffective (products have sub-optimal quality), and challenging to replicate. While automation and digitalization support process execution, design, and innovation, they often work as tools for empirical, problem-specific, and operator-dependent approaches. On the other hand, computational approaches support biofabrication process modeling, design, and optimization of experimental activity to improve the quality of processes and products. To express their full potential, computational methods must factor in the biological complexity underlying biofabrication. This review analyzes computational approaches to biofabrication process modeling, design, and optimization with a focus on solutions explicitly accounting for biological complexity.

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Implementing Computational Modeling in Tissue Engineering: Where Disciplines Meet

Cited by 17 publications

References 154 publications

Recent Advances in Liver Tissue Engineering as an Alternative and Complementary Approach for Liver Transplantation

Recent Advances in Liver Tissue Engineering as an Alternative and Complementary Approach for Liver Transplantation

Celebrating 30 Years of Netherlands Society for Biomaterials and Tissue Engineering: Past, Present, and Future

Computational Methods for Biofabrication in Tissue Engineering and Regenerative Medicine - a literature review

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