2014
DOI: 10.1002/jctb.4300
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Polymeric hollow fiber membranes for bioartificial organs and tissue engineering applications

Abstract: Polymeric hollow fiber (HF) membranes are commercially available, i.e. microfiltration and ultrafiltration cartridges or reverse osmosis and gas separation modules, to be applied for separation purposes in industry, for instance to recover valuable raw materials or products, or for the treatment of end‐of‐pipe wastes to avoid environmental impacts, to regenerate or treat waters for reuse and for the separation of key components or clarification in food and beverage industries. They have also shown important be… Show more

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Cited by 38 publications
(44 citation statements)
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References 122 publications
(317 reference statements)
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“…The last one concerns the mechanical properties of the NGC, which should match the same properties of nerve tissue . As referred above, a NGC should provide a pathway for nerve regeneration, resist tearing from sutures and provide a mechanically stable architecture for the new tissue . Therefore it should remain intact during the first stages of regeneration.…”
Section: Ideal Nerve Guide Conduit Propertiesmentioning
confidence: 99%
“…The last one concerns the mechanical properties of the NGC, which should match the same properties of nerve tissue . As referred above, a NGC should provide a pathway for nerve regeneration, resist tearing from sutures and provide a mechanically stable architecture for the new tissue . Therefore it should remain intact during the first stages of regeneration.…”
Section: Ideal Nerve Guide Conduit Propertiesmentioning
confidence: 99%
“…Moreover, on the one hand, HFs have to act as an immunoisolation barrier, but on the other hand, they have to allow mass exchange between the fluid and the cell phase. Hence, the pore size of the HF membranes must be small enough to isolate the embedded exogenous cells but sufficiently large to allow appropriate mass transfer of nutrients to cells and removal of waste metabolites (23,(31)(32)(33)(34).…”
Section: Bioartificial Organsmentioning
confidence: 99%
“…Fibrous media are a class of versatile materials that offer functionalities both in natural systems such as keeping warm, [1] directional wetting, [2] providing ultrahigh adhesion, [3][4][5] and in practical application from textile products, [6,7] filtration, [8] microfludics, [9][10][11] as well as flexible electronics. [12][13][14] Wetting behaviors on the fibers are different from the counterpart on the planes due to the existence of capillary forces contributed by the fiber gaps.…”
Section: Introductionmentioning
confidence: 99%