An in vitro evaluation of fibrinogen and gelatin containing cryogels as dermal regeneration scaffolds

Iain Allan; Bryony Tolhurst; Rostislav Shevchenko; M. Dainiak; Matthew Illsley; A.E. Ivanov; H. Jungvid; I.Y. Galaev; Stuart James; S.Elizabeth James; Sergey Mikhalovsky

doi:10.1039/c6bm00133e

An in vitro evaluation of fibrinogen and gelatin containing cryogels as dermal regeneration scaffolds

Iain Allan, Bryony Tolhurst, Rostislav Shevchenko, M. Dainiak, Matthew Illsley, A.E. Ivanov, H. Jungvid, I.Y. Galaev, Stuart James, S.Elizabeth James, Sergey Mikhalovsky

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Abstract

Macroporous cryogels containing mixtures of two key components of the dermal extracellular matrix, fibrinogen and collagen-derived gelatin, were evaluated for use as dermal tissue regeneration scaffolds. The infiltration of human dermal fibroblasts into these matrices was quantitatively assessed in vitro using a combination of cell culture and confocal laser scanning microscopy. The extent of cellular infiltration, as measured by the number of cells/distance travelled versus time, was found to be positively correlated with the fibrinogen concentration of the cryogel scaffolds; a known potentiator of cell migration and angiogenesis within regenerating tissue. An analysis of the proteins expressed by infiltrating fibroblasts revealed that the cells that had migrated into the interior portion of the scaffolds expressed predominantly F-actin along their cytoplasmic stress fibres, whereas those present on the periphery of the scaffolds expressed predominantly α-smooth muscle actin, indicative of a nonmotile, myofibroblast phenotype associated with wound contraction. In conclusion, the cryogels produced in this study were found to be biocompatible and, by alteration of the fibrinogen content, could be rendered more amenable to cellular infiltration.

Original language	English
Pages (from-to)	1007-1014
Number of pages	8
Journal	Biomaterials Science
Volume	4
Issue number	6
DOIs	https://doi.org/10.1039/c6bm00133e
Publication status	Published - 3 May 2016

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title = "An in vitro evaluation of fibrinogen and gelatin containing cryogels as dermal regeneration scaffolds",

abstract = "Macroporous cryogels containing mixtures of two key components of the dermal extracellular matrix, fibrinogen and collagen-derived gelatin, were evaluated for use as dermal tissue regeneration scaffolds. The infiltration of human dermal fibroblasts into these matrices was quantitatively assessed in vitro using a combination of cell culture and confocal laser scanning microscopy. The extent of cellular infiltration, as measured by the number of cells/distance travelled versus time, was found to be positively correlated with the fibrinogen concentration of the cryogel scaffolds; a known potentiator of cell migration and angiogenesis within regenerating tissue. An analysis of the proteins expressed by infiltrating fibroblasts revealed that the cells that had migrated into the interior portion of the scaffolds expressed predominantly F-actin along their cytoplasmic stress fibres, whereas those present on the periphery of the scaffolds expressed predominantly α-smooth muscle actin, indicative of a nonmotile, myofibroblast phenotype associated with wound contraction. In conclusion, the cryogels produced in this study were found to be biocompatible and, by alteration of the fibrinogen content, could be rendered more amenable to cellular infiltration.",

author = "Iain Allan and Bryony Tolhurst and Rostislav Shevchenko and M. Dainiak and Matthew Illsley and A.E. Ivanov and H. Jungvid and I.Y. Galaev and Stuart James and S.Elizabeth James and Sergey Mikhalovsky",

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doi = "10.1039/c6bm00133e",

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T1 - An in vitro evaluation of fibrinogen and gelatin containing cryogels as dermal regeneration scaffolds

AU - Allan, Iain

AU - Tolhurst, Bryony

AU - Shevchenko, Rostislav

AU - Dainiak, M.

AU - Illsley, Matthew

AU - Ivanov, A.E.

AU - Jungvid, H.

AU - Galaev, I.Y.

AU - James, Stuart

AU - James, S.Elizabeth

AU - Mikhalovsky, Sergey

N1 - This article is licensed under a Creative Commons Attribution 3.0 Unported Licence.

PY - 2016/5/3

Y1 - 2016/5/3

N2 - Macroporous cryogels containing mixtures of two key components of the dermal extracellular matrix, fibrinogen and collagen-derived gelatin, were evaluated for use as dermal tissue regeneration scaffolds. The infiltration of human dermal fibroblasts into these matrices was quantitatively assessed in vitro using a combination of cell culture and confocal laser scanning microscopy. The extent of cellular infiltration, as measured by the number of cells/distance travelled versus time, was found to be positively correlated with the fibrinogen concentration of the cryogel scaffolds; a known potentiator of cell migration and angiogenesis within regenerating tissue. An analysis of the proteins expressed by infiltrating fibroblasts revealed that the cells that had migrated into the interior portion of the scaffolds expressed predominantly F-actin along their cytoplasmic stress fibres, whereas those present on the periphery of the scaffolds expressed predominantly α-smooth muscle actin, indicative of a nonmotile, myofibroblast phenotype associated with wound contraction. In conclusion, the cryogels produced in this study were found to be biocompatible and, by alteration of the fibrinogen content, could be rendered more amenable to cellular infiltration.

AB - Macroporous cryogels containing mixtures of two key components of the dermal extracellular matrix, fibrinogen and collagen-derived gelatin, were evaluated for use as dermal tissue regeneration scaffolds. The infiltration of human dermal fibroblasts into these matrices was quantitatively assessed in vitro using a combination of cell culture and confocal laser scanning microscopy. The extent of cellular infiltration, as measured by the number of cells/distance travelled versus time, was found to be positively correlated with the fibrinogen concentration of the cryogel scaffolds; a known potentiator of cell migration and angiogenesis within regenerating tissue. An analysis of the proteins expressed by infiltrating fibroblasts revealed that the cells that had migrated into the interior portion of the scaffolds expressed predominantly F-actin along their cytoplasmic stress fibres, whereas those present on the periphery of the scaffolds expressed predominantly α-smooth muscle actin, indicative of a nonmotile, myofibroblast phenotype associated with wound contraction. In conclusion, the cryogels produced in this study were found to be biocompatible and, by alteration of the fibrinogen content, could be rendered more amenable to cellular infiltration.

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DO - 10.1039/c6bm00133e

M3 - Article

SN - 2047-4830

VL - 4

SP - 1007

EP - 1014

JO - Biomaterials Science

JF - Biomaterials Science

IS - 6

ER -

An in vitro evaluation of fibrinogen and gelatin containing cryogels as dermal regeneration scaffolds

Abstract

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