2021
DOI: 10.3390/mi12101250
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Modelling Human Physiology on-Chip: Historical Perspectives and Future Directions

Abstract: For centuries, animal experiments have contributed much to our understanding of mechanisms of human disease, but their value in predicting the effectiveness of drug treatments in the clinic has remained controversial. Animal models, including genetically modified ones and experimentally induced pathologies, often do not accurately reflect disease in humans, and therefore do not predict with sufficient certainty what will happen in humans. Organ-on-chip (OOC) technology and bioengineered tissues have emerged as… Show more

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Cited by 16 publications
(6 citation statements)
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References 147 publications
(161 reference statements)
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“…In practice, these are devices fabricated from different materials containing living cells organized in 2D or 3D architectures and maintained in finely controlled conditions. Often, these devices have a microfluidic system containing perfused hollow microchannels combined with culturing chambers allowing the reconstitution of tissue interfaces and organs microenvironments and functions [ 133 ]. The MPS field is growing fast, and the area has focused mainly on cardiac, hepatic, neuronal, and oncology models, which are of great interest for drug development purposes.…”
Section: Alternative Methods To Animal Testing In Adipogenesismentioning
confidence: 99%
“…In practice, these are devices fabricated from different materials containing living cells organized in 2D or 3D architectures and maintained in finely controlled conditions. Often, these devices have a microfluidic system containing perfused hollow microchannels combined with culturing chambers allowing the reconstitution of tissue interfaces and organs microenvironments and functions [ 133 ]. The MPS field is growing fast, and the area has focused mainly on cardiac, hepatic, neuronal, and oncology models, which are of great interest for drug development purposes.…”
Section: Alternative Methods To Animal Testing In Adipogenesismentioning
confidence: 99%
“…Another limitation of MPSs is the undefined or inadequate interstitium that lacks the relevant ECM proteins that support brain parenchymal and cerebrovascular basement membranes (BMs). While many MPSs attempt to incorporate the brain's interstitium through the use of ECM proteins, such as Collagen IV or Matrigel (laminin-rich gel) [98], the brain and cerebrovascular BMs in MPSs may not accurately recapitulate the in vivo brain and cerebrovascular BMs, and often lack one or more of the four major glycoprotein families (collagen IV isoforms, laminins, nidogen, and heparan sulfate proteoglycans) [99,100]. These are important in ECM remodeling and tissue patterning in both health and disease, and their presence in the correct isoforms and quantities are essential for modeling disease states and studying drug-toxicity because many cellular responses, such as inflammation and oxidative stress, depend on the ECM's composition and ability to metabolize and degrade waste or injurious agents.…”
Section: Major Limitations Of Current Human Brain Mps Models For Biom...mentioning
confidence: 99%
“…While the advances in cell culture models have been beneficial, they still do not mimic the physiological systemic flow under which all biological structures function. Advances in bioengineering have introduced intricate microfluidic models (Pun et al 2021), which allow a two-way exchange of relevant nutritional material and waste removal alongside sufficient gas exchange. These microfluidic approaches allow us to mimic physiological flow in in vitro cell culture systems.…”
Section: Mimicking Physiological Flowmentioning
confidence: 99%