2008
DOI: 10.1016/j.jbiomech.2008.08.023
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Dynamic loading of deformable porous media can induce active solute transport

Abstract: Active solute transport mediated by molecular motors across porous membranes is a well-recognized mechanism for transport across the cell membrane. In contrast, active transport mediated by mechanical loading of porous media is a non-intuitive mechanism that has only been predicted recently from theory, but not yet observed experimentally. This study uses agarose hydrogel and dextran molecules as a model experimental system to explore this mechanism. Results show that dynamic loading can enhance the uptake of … Show more

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Cited by 59 publications
(71 citation statements)
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“…32 Applied DL provides a physical stimulus to chondrocytes in addition to enhanced nutrient transport. 23,59 Sliding contact, which simulates aspects of joint articulation, has shown promise in promoting engineered tissue development 60,61 and provides an alternative option for FTE of cartilage constructs to be further explored. The ability to cultivate engineered cartilage that can achieve native mechanical properties using adult chondrocytes is clinically significant.…”
Section: Resultsmentioning
confidence: 99%
“…32 Applied DL provides a physical stimulus to chondrocytes in addition to enhanced nutrient transport. 23,59 Sliding contact, which simulates aspects of joint articulation, has shown promise in promoting engineered tissue development 60,61 and provides an alternative option for FTE of cartilage constructs to be further explored. The ability to cultivate engineered cartilage that can achieve native mechanical properties using adult chondrocytes is clinically significant.…”
Section: Resultsmentioning
confidence: 99%
“…These results agree with predictions from biphasic theory and suggest some or all of the apparent viscoelastic response may be explained by flow-dependent mechanisms. This result is highly relevant, as fluid movement has been implicated in nutrient transport and mechanotransduction and may be fundamentally important in the behavior of fascicles in normal tissues [6,9,26,27].…”
Section: Discussionmentioning
confidence: 99%
“…Dynamic compressive loading, a biomimetic approach, has been shown to enhance the active transport of large solutes in agarose gels [22][23][24], improving solute diffusion by ∼50% compared with statically loaded gels [22]. These results have been validated using techniques such as fluorescent molecule absorption/desorption and fluorescent recovery after photobleaching (FRAP) and have been shown to agree with solute modeling [23], Fickian diffusion theory [22], and mixture theory [24,25]. Under these applied cyclic strains, large chemical factors, such as IGF-1 (8 kDa) or TGF-β1 (25 kDa), can easily diffuse into an agarose scaffold.…”
Section: Structure-function Relationships Of Agarose Hydrogelsmentioning
confidence: 99%