Quantitative analysis of fibroblast morphology on microgrooved surfaces with various groove and ridge dimensions.
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Heading in the Right Direction: Understanding Cellular Orientation Responses to Complex Biophysical EnvironmentsThe effect of actin disrupting agents on contact guidance of human embryonic stem cells.Influence of surface topography on the human epithelial cell response to micropatterned substrates with convex and concave architectures.Soft tissue and epithelial models.Use of Ti-coated replicas to investigate the effects on fibroblast shape of surfaces with varying roughness and constant chemical composition.Biotechnology apprenticeship for secondary-level students: teaching advanced cell culture techniques for research.Early spreading events of fibroblasts on microgrooved substrates.Contact guidance requires spatial control of leading-edge protrusion.Textural guidance cues for controlling process outgrowth of mammalian neurons.Attachment of fibroblasts on smooth and microgrooved polystyrene.Self-assembling biomaterials: liquid crystal phases of cholesteryl oligo(L-lactic acid) and their interactions with cells.The effect of a subcutaneous silicone rubber implant with shallow surface microgrooves on the surrounding tissues in rabbits.Modulation of embryonic mesenchymal progenitor cell differentiation via control over pure mechanical modulus in electrospun nanofibersEpithelial contact guidance on well-defined micro- and nanostructured substratesInteractive effects of surface topography and pulsatile electrical field stimulation on orientation and elongation of fibroblasts and cardiomyocytes.Controlling Growth and Osteogenic Differentiation of Osteoblasts on Microgrooved Polystyrene SurfacesPorous, Dexamethasone-loaded polyurethane coatings extend performance window of implantable glucose sensors in vivo.Effect of microgrooves and fibronectin conjugation on the osteoblast marker gene expression and differentiation.Linear fibroblast alignment on sinusoidal wave micropatterns.Connective tissue progenitor cell growth characteristics on textured substrates.Halloysite Nanotube Coatings Suppress Leukocyte Spreading.Micro-patterned surfaces reduce bacterial colonization and biofilm formation in vitro: Potential for enhancing endotracheal tube designs.Designing implant surface topography for improved biocompatibility.An insight into morphometric descriptors of cell shape that pertain to regenerative medicine.Inflammatory fibroblasts in cancer.Smooth muscle architecture within cell-dense vascular tissues influences functional contractility.A microgroove patterned multiwell cell culture plate for high-throughput studies of cell alignment.The scale of substratum topographic features modulates proliferation of corneal epithelial cells and corneal fibroblasts.Current trends in biocompatibility testing.Optimization by Response Surface Methodology of Confluent and Aligned Cellular Monolayers for Nerve GuidanceEffect of etched microgrooves on hydrophilicity of titanium and osteoblast responses: A pilot study.Analysis of connective tissue progenitor cell behavior on polydimethylsiloxane smooth and channel micro-textures.Modulation of epithelial tissue and cell migration by microgrooves.Micropatterning of reagent-free, high energy crosslinked gelatin hydrogels for bioapplications.Correlation of proliferation, morphology and biological responses of fibroblasts on LDPE with different surface wettability.Lithography-free fabrication of reconfigurable substrate topography for contact guidance.Strategies for Optimizing the Soft Tissue Seal around Osseointegrated Implants.
P2860
Q28072132-7841ECEB-9295-4426-92D6-6717223E3455Q30481339-8C45F6B1-B65F-4C3D-A5A1-056863157809Q30583032-2071082E-415E-4C79-A4E4-82D9EDC07AE5Q30661239-5C2B42D4-D5D5-4D35-9168-2F6DB011B16EQ31045967-77E12396-A67B-4F7A-B0BA-C338244C3886Q31131749-6AE8AF2D-8771-453A-930E-AEF51C3D9AF9Q33180621-6AB1977D-36BB-475F-86D2-1FCBB4885503Q33563348-FDBC8859-B930-4252-B734-B2CAF837B981Q33642035-C3CC47E2-8BCC-4FD3-82D9-DA0C992FD823Q33865892-45D4CAA0-AE01-40D8-983C-FF2760F62719Q34075081-57DC62EF-3E78-41CC-91B1-5E7FA863CEE3Q34450294-8F834E0D-8F63-4806-A386-216CDC390B05Q34630507-092F4004-85D2-4F80-8152-9403442D4483Q35829930-3735B881-F9F4-4F69-9D6F-B1DA8AF0C1DEQ36087433-725D6785-4FE9-42B6-BBF7-2BADC5C2B430Q36116062-B4BCDE6B-1313-41C8-AC9F-1909FD2B2DAFQ36414898-D5A11F27-1434-44F8-BEBC-3269CB90716FQ36488554-BB0DB32A-8765-4D78-B350-68E1AE5A3D1AQ36639695-9F494EA8-B198-4769-A3A0-288BEB990B2EQ37178171-C99A4042-EA36-42D0-B6B8-7F3AB70443DDQ37396598-43F46186-6C5C-440A-A9FD-056E78F7AD31Q37717496-117EDCD3-A0AE-41D4-A159-BA3BEC257E35Q38088275-41CB7BA9-AC2B-4676-AA83-041F803082D9Q38372524-DFCE38C1-342C-4EA6-A6A2-B29E16BF1FA8Q38412911-89FB01CC-30E6-457C-865A-E959AA85A394Q38943297-CC7A44F2-6EBA-4C30-BE20-4387C300045FQ38989045-4E59CBD5-4B37-4F39-818A-0ED56A2E90CEQ39856706-DBEB4FD5-97C3-4F18-891A-5FA69BBDD26EQ40856860-77AEF6CD-A9B1-4058-9AB1-E8D1A3A053A5Q41875022-A70DBF8D-2C1C-4C1D-A8A5-0424D344052BQ41890819-6B82DF00-F898-40E2-9BBD-EE318D7659BDQ42177045-CBEAF307-37B0-4E7A-9F26-C4025C00114AQ42503950-B314BC5A-3BA0-4F2A-8BAB-9D6AE4457662Q42803318-0A60FC7E-FBC6-485C-BDCC-F97D35DB4CE4Q42827626-0B1999B2-0A13-41B8-95E6-4FE2CA1B5A70Q42832685-2AE4E847-A5FE-4086-B834-8C73BE57FCB9Q47619355-3D3F0CA4-C1E5-4397-85AE-07B9E828C54B
P2860
Quantitative analysis of fibroblast morphology on microgrooved surfaces with various groove and ridge dimensions.
description
1996 nî lūn-bûn
@nan
1996年の論文
@ja
1996年論文
@yue
1996年論文
@zh-hant
1996年論文
@zh-hk
1996年論文
@zh-mo
1996年論文
@zh-tw
1996年论文
@wuu
1996年论文
@zh
1996年论文
@zh-cn
name
Quantitative analysis of fibro ...... s groove and ridge dimensions.
@en
type
label
Quantitative analysis of fibro ...... s groove and ridge dimensions.
@en
prefLabel
Quantitative analysis of fibro ...... s groove and ridge dimensions.
@en
P2093
P1433
P1476
Quantitative analysis of fibro ...... s groove and ridge dimensions.
@en
P2093
de Ruijter JE
den Braber ET
von Recum AF
P304
P356
10.1016/0142-9612(96)00032-4
P577
1996-11-01T00:00:00Z