Free-form constructs with three-dimensional (3D) microporosity were fabricated by two-photon polymerization inside the closed microchannel of an injection-molded, commercially available polymer chip for analysis of directed cell migration. Acrylate constructs were produced as woodpile topologies with a range of pore sizes from 5 times 5 small mu m to 15 times 15 small mu m and prefilled with fibrillar collagen. Dendritic cells seeded into the polymer chip in a concentration gradient of the chemoattractant CCL21 efficiently negotiated the microporous maze structure for pore sizes of 8 times 8 small mu m or larger. The cells migrating through smaller pore sizes made significantly more turns than those through larger pores. The introduction of additional defined barriers in the microporous structure resulted in dendritic cells making more turns while still being able to follow the chemoattractant concentration gradient.
Description
In-chip fabrication of free-form 3D constructs for directed cell migration analysis - Lab on a Chip (RSC Publishing)
%0 Journal Article
%1 olsen2013inchip
%A Olsen, Mark Holm
%A Hjorto, Gertrud Malene
%A Hansen, Morten
%A Met, Ozcan
%A Svane, Inge Marie
%A Larsen, Niels B.
%D 2013
%I The Royal Society of Chemistry
%J Lab Chip
%K 3d biomaterial migration phd
%N 24
%P 4800--4809
%R 10.1039/C3LC50930C
%T In-chip fabrication of free-form 3D constructs for directed cell migration analysis
%U http://dx.doi.org/10.1039/C3LC50930C
%V 13
%X Free-form constructs with three-dimensional (3D) microporosity were fabricated by two-photon polymerization inside the closed microchannel of an injection-molded, commercially available polymer chip for analysis of directed cell migration. Acrylate constructs were produced as woodpile topologies with a range of pore sizes from 5 times 5 small mu m to 15 times 15 small mu m and prefilled with fibrillar collagen. Dendritic cells seeded into the polymer chip in a concentration gradient of the chemoattractant CCL21 efficiently negotiated the microporous maze structure for pore sizes of 8 times 8 small mu m or larger. The cells migrating through smaller pore sizes made significantly more turns than those through larger pores. The introduction of additional defined barriers in the microporous structure resulted in dendritic cells making more turns while still being able to follow the chemoattractant concentration gradient.
@article{olsen2013inchip,
abstract = {Free-form constructs with three-dimensional (3D) microporosity were fabricated by two-photon polymerization inside the closed microchannel of an injection-molded{,} commercially available polymer chip for analysis of directed cell migration. Acrylate constructs were produced as woodpile topologies with a range of pore sizes from 5 [times] 5 [small mu ]m to 15 [times] 15 [small mu ]m and prefilled with fibrillar collagen. Dendritic cells seeded into the polymer chip in a concentration gradient of the chemoattractant CCL21 efficiently negotiated the microporous maze structure for pore sizes of 8 [times] 8 [small mu ]m or larger. The cells migrating through smaller pore sizes made significantly more turns than those through larger pores. The introduction of additional defined barriers in the microporous structure resulted in dendritic cells making more turns while still being able to follow the chemoattractant concentration gradient.},
added-at = {2014-05-09T10:16:48.000+0200},
author = {Olsen, Mark Holm and Hjorto, Gertrud Malene and Hansen, Morten and Met, Ozcan and Svane, Inge Marie and Larsen, Niels B.},
biburl = {https://www.bibsonomy.org/bibtex/2f1a7aa6bff1ff163d4252a9a38f7a41c/bkoch},
description = {In-chip fabrication of free-form 3D constructs for directed cell migration analysis - Lab on a Chip (RSC Publishing)},
doi = {10.1039/C3LC50930C},
interhash = {ad3380bcc7a81b0b582c5c66d3238334},
intrahash = {f1a7aa6bff1ff163d4252a9a38f7a41c},
journal = {Lab Chip},
keywords = {3d biomaterial migration phd},
number = 24,
pages = {4800--4809},
publisher = {The Royal Society of Chemistry},
timestamp = {2014-05-09T10:16:48.000+0200},
title = {In-chip fabrication of free-form 3D constructs for directed cell migration analysis},
url = {http://dx.doi.org/10.1039/C3LC50930C},
volume = 13,
year = 2013
}