Add to ORKGInterstitial fluid flow, critical for macromolecular transport, was recently shown to drive fibroblast differentiation and perpendicular cell and matrix alignment in 3D collagen cultures. Here we explore the mechanisms underlying this flow-induced cell and collagen alignment. Cell and matrix alignment was assessed from 3D confocal reflectance stacks using a Fast Fourier Transform method. We found that human dermal and lung fibroblasts align perpendicular to flow in the range of 5-13μm/s (0.1-0.3dyn/cm2) in collagen; however, neither cells nor matrix fibers align in fibrin cultures, which unlike collagen, is covalently cross-linked and generally degraded by cell fibrinolysis. We also found that even acellular collagen matrices align weakly u...
The extent to which collagen alignment occurs during dermal wound healing determines the severity of...
Cells in vivo are surrounded by a fibrous matrix of proteins and macromolecules called the extracell...
\u3cp\u3eCollagen content and organization in developing collagenous tissues can be influenced by lo...
Interstitial fluid flow, critical for macromolecular transport, was recently shown to drive fibrobla...
Interstitial flow is an important component of the microcirculation and interstitial environment, ye...
Traditional cell culture, performed on flat surfaces under static conditions, does not accurately re...
Cell-matrix mechanical interactions play a key role in a variety of physiological processes. Recentl...
Abstract Collagen alignment is one of the key microarchitectural signatures of many pathological con...
Interstitial flow emanates from tumors into the microenvironment where it promotes tumor cell invasi...
Interstitial fluid flow has been shown to affect the organization and behavior of cells in 3D enviro...
We deveiop a novel mathematical model for collagen deposition and alignment during dermal wound heal...
Interstitial flow is the convective transport of fluid through tissue extracellular matrix. This cre...
Background Interstitial flow directly affects cells that reside in tissues and regulates tissue phys...
Contractile cells can reorganize fibrous extracellular matrices and form dense tracts of fibers betw...
Alignment of collagen type I fibers is a hallmark of both physiological and pathological tissue remo...
The extent to which collagen alignment occurs during dermal wound healing determines the severity of...
Cells in vivo are surrounded by a fibrous matrix of proteins and macromolecules called the extracell...
\u3cp\u3eCollagen content and organization in developing collagenous tissues can be influenced by lo...
Interstitial fluid flow, critical for macromolecular transport, was recently shown to drive fibrobla...
Interstitial flow is an important component of the microcirculation and interstitial environment, ye...
Traditional cell culture, performed on flat surfaces under static conditions, does not accurately re...
Cell-matrix mechanical interactions play a key role in a variety of physiological processes. Recentl...
Abstract Collagen alignment is one of the key microarchitectural signatures of many pathological con...
Interstitial flow emanates from tumors into the microenvironment where it promotes tumor cell invasi...
Interstitial fluid flow has been shown to affect the organization and behavior of cells in 3D enviro...
We deveiop a novel mathematical model for collagen deposition and alignment during dermal wound heal...
Interstitial flow is the convective transport of fluid through tissue extracellular matrix. This cre...
Background Interstitial flow directly affects cells that reside in tissues and regulates tissue phys...
Contractile cells can reorganize fibrous extracellular matrices and form dense tracts of fibers betw...
Alignment of collagen type I fibers is a hallmark of both physiological and pathological tissue remo...
The extent to which collagen alignment occurs during dermal wound healing determines the severity of...
Cells in vivo are surrounded by a fibrous matrix of proteins and macromolecules called the extracell...
\u3cp\u3eCollagen content and organization in developing collagenous tissues can be influenced by lo...