scratch assay velocity evolution (save) profiler Search Results


lsm 510 confocal microscope  (Carl Zeiss)
90
Carl Zeiss lsm 510 confocal microscope
Lsm 510 Confocal Microscope, supplied by Carl Zeiss, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/lsm 510 confocal microscope/product/Carl Zeiss
Average 90 stars, based on 1 article reviews
lsm 510 confocal microscope - by Bioz Stars, 2026-03
90/100 stars
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three-dimensional optical profiler zygo newview6210  (Canon inc)
90
Canon inc three-dimensional optical profiler zygo newview6210
Three Dimensional Optical Profiler Zygo Newview6210, supplied by Canon inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/three-dimensional optical profiler zygo newview6210/product/Canon inc
Average 90 stars, based on 1 article reviews
three-dimensional optical profiler zygo newview6210 - by Bioz Stars, 2026-03
90/100 stars
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scratch assay velocity evolution (save) profiler  (MathWorks Inc)
90
MathWorks Inc scratch assay velocity evolution (save) profiler
a Drawing of our custom-built Full-Field OCT system. BS beam-splitter, HPF high-pass filter, PZT piezo-electric translation, TS translation stage (for the sample). b Schematic of the RPE cell layer before and after the scratch assay (from left to right). c Recombined three channels of HSV computation and the three different channels in lower left. The colorbar represents the frequency variations of the sample (Hue channel). d – g Results of the analysis of a closing scratch assay on a primary porcine RPE cell culture (ppRPE). d Beginning and end (i.e., closing) of the imaging of the scratch assay. The dotted white square corresponds to the area used for calculations. e , f Plots of the evolution of scratch width and wound closure over the acquisition, calculated with <t>SAVE</t> <t>Profiler.</t> g Optical flow calculations showing velocity and motion direction. h – k Results of the analysis of a closing scratch assay on a hiRPE cell culture. h Beginning and end (i.e., closing) of the imaging of the scratch assay. i , j Plots of the evolution of scratch width and wound closure over the acquisition, calculated with SAVE Profiler. k Optical flow calculations. (Statistics: see Supplementary Table (scale-bar: 50 μm).
Scratch Assay Velocity Evolution (Save) Profiler, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/scratch assay velocity evolution (save) profiler/product/MathWorks Inc
Average 90 stars, based on 1 article reviews
scratch assay velocity evolution (save) profiler - by Bioz Stars, 2026-03
90/100 stars
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optical surface profiler veeco nt100633  (Veeco)
90
Veeco optical surface profiler veeco nt100633
a Drawing of our custom-built Full-Field OCT system. BS beam-splitter, HPF high-pass filter, PZT piezo-electric translation, TS translation stage (for the sample). b Schematic of the RPE cell layer before and after the scratch assay (from left to right). c Recombined three channels of HSV computation and the three different channels in lower left. The colorbar represents the frequency variations of the sample (Hue channel). d – g Results of the analysis of a closing scratch assay on a primary porcine RPE cell culture (ppRPE). d Beginning and end (i.e., closing) of the imaging of the scratch assay. The dotted white square corresponds to the area used for calculations. e , f Plots of the evolution of scratch width and wound closure over the acquisition, calculated with <t>SAVE</t> <t>Profiler.</t> g Optical flow calculations showing velocity and motion direction. h – k Results of the analysis of a closing scratch assay on a hiRPE cell culture. h Beginning and end (i.e., closing) of the imaging of the scratch assay. i , j Plots of the evolution of scratch width and wound closure over the acquisition, calculated with SAVE Profiler. k Optical flow calculations. (Statistics: see Supplementary Table (scale-bar: 50 μm).
Optical Surface Profiler Veeco Nt100633, supplied by Veeco, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/optical surface profiler veeco nt100633/product/Veeco
Average 90 stars, based on 1 article reviews
optical surface profiler veeco nt100633 - by Bioz Stars, 2026-03
90/100 stars
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dektakxt profilometer  (Bruker Corporation)
90
Bruker Corporation dektakxt profilometer
a Drawing of our custom-built Full-Field OCT system. BS beam-splitter, HPF high-pass filter, PZT piezo-electric translation, TS translation stage (for the sample). b Schematic of the RPE cell layer before and after the scratch assay (from left to right). c Recombined three channels of HSV computation and the three different channels in lower left. The colorbar represents the frequency variations of the sample (Hue channel). d – g Results of the analysis of a closing scratch assay on a primary porcine RPE cell culture (ppRPE). d Beginning and end (i.e., closing) of the imaging of the scratch assay. The dotted white square corresponds to the area used for calculations. e , f Plots of the evolution of scratch width and wound closure over the acquisition, calculated with <t>SAVE</t> <t>Profiler.</t> g Optical flow calculations showing velocity and motion direction. h – k Results of the analysis of a closing scratch assay on a hiRPE cell culture. h Beginning and end (i.e., closing) of the imaging of the scratch assay. i , j Plots of the evolution of scratch width and wound closure over the acquisition, calculated with SAVE Profiler. k Optical flow calculations. (Statistics: see Supplementary Table (scale-bar: 50 μm).
Dektakxt Profilometer, supplied by Bruker Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/dektakxt profilometer/product/Bruker Corporation
Average 90 stars, based on 1 article reviews
dektakxt profilometer - by Bioz Stars, 2026-03
90/100 stars
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veeco scan  (Veeco)
90
Veeco veeco scan
a Drawing of our custom-built Full-Field OCT system. BS beam-splitter, HPF high-pass filter, PZT piezo-electric translation, TS translation stage (for the sample). b Schematic of the RPE cell layer before and after the scratch assay (from left to right). c Recombined three channels of HSV computation and the three different channels in lower left. The colorbar represents the frequency variations of the sample (Hue channel). d – g Results of the analysis of a closing scratch assay on a primary porcine RPE cell culture (ppRPE). d Beginning and end (i.e., closing) of the imaging of the scratch assay. The dotted white square corresponds to the area used for calculations. e , f Plots of the evolution of scratch width and wound closure over the acquisition, calculated with <t>SAVE</t> <t>Profiler.</t> g Optical flow calculations showing velocity and motion direction. h – k Results of the analysis of a closing scratch assay on a hiRPE cell culture. h Beginning and end (i.e., closing) of the imaging of the scratch assay. i , j Plots of the evolution of scratch width and wound closure over the acquisition, calculated with SAVE Profiler. k Optical flow calculations. (Statistics: see Supplementary Table (scale-bar: 50 μm).
Veeco Scan, supplied by Veeco, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/veeco scan/product/Veeco
Average 90 stars, based on 1 article reviews
veeco scan - by Bioz Stars, 2026-03
90/100 stars
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profiler core scratch test system  (Schlumberger Cambridge Research)
90
Schlumberger Cambridge Research profiler core scratch test system
a Drawing of our custom-built Full-Field OCT system. BS beam-splitter, HPF high-pass filter, PZT piezo-electric translation, TS translation stage (for the sample). b Schematic of the RPE cell layer before and after the scratch assay (from left to right). c Recombined three channels of HSV computation and the three different channels in lower left. The colorbar represents the frequency variations of the sample (Hue channel). d – g Results of the analysis of a closing scratch assay on a primary porcine RPE cell culture (ppRPE). d Beginning and end (i.e., closing) of the imaging of the scratch assay. The dotted white square corresponds to the area used for calculations. e , f Plots of the evolution of scratch width and wound closure over the acquisition, calculated with <t>SAVE</t> <t>Profiler.</t> g Optical flow calculations showing velocity and motion direction. h – k Results of the analysis of a closing scratch assay on a hiRPE cell culture. h Beginning and end (i.e., closing) of the imaging of the scratch assay. i , j Plots of the evolution of scratch width and wound closure over the acquisition, calculated with SAVE Profiler. k Optical flow calculations. (Statistics: see Supplementary Table (scale-bar: 50 μm).
Profiler Core Scratch Test System, supplied by Schlumberger Cambridge Research, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/profiler core scratch test system/product/Schlumberger Cambridge Research
Average 90 stars, based on 1 article reviews
profiler core scratch test system - by Bioz Stars, 2026-03
90/100 stars
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afm nt-mdt ntegra prima ii  (NT MDT America Inc)
90
NT MDT America Inc afm nt-mdt ntegra prima ii
a Drawing of our custom-built Full-Field OCT system. BS beam-splitter, HPF high-pass filter, PZT piezo-electric translation, TS translation stage (for the sample). b Schematic of the RPE cell layer before and after the scratch assay (from left to right). c Recombined three channels of HSV computation and the three different channels in lower left. The colorbar represents the frequency variations of the sample (Hue channel). d – g Results of the analysis of a closing scratch assay on a primary porcine RPE cell culture (ppRPE). d Beginning and end (i.e., closing) of the imaging of the scratch assay. The dotted white square corresponds to the area used for calculations. e , f Plots of the evolution of scratch width and wound closure over the acquisition, calculated with <t>SAVE</t> <t>Profiler.</t> g Optical flow calculations showing velocity and motion direction. h – k Results of the analysis of a closing scratch assay on a hiRPE cell culture. h Beginning and end (i.e., closing) of the imaging of the scratch assay. i , j Plots of the evolution of scratch width and wound closure over the acquisition, calculated with SAVE Profiler. k Optical flow calculations. (Statistics: see Supplementary Table (scale-bar: 50 μm).
Afm Nt Mdt Ntegra Prima Ii, supplied by NT MDT America Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/afm nt-mdt ntegra prima ii/product/NT MDT America Inc
Average 90 stars, based on 1 article reviews
afm nt-mdt ntegra prima ii - by Bioz Stars, 2026-03
90/100 stars
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surface profilometer mitutoyo sj-400  (Mitutoyo)
90
Mitutoyo surface profilometer mitutoyo sj-400
a Drawing of our custom-built Full-Field OCT system. BS beam-splitter, HPF high-pass filter, PZT piezo-electric translation, TS translation stage (for the sample). b Schematic of the RPE cell layer before and after the scratch assay (from left to right). c Recombined three channels of HSV computation and the three different channels in lower left. The colorbar represents the frequency variations of the sample (Hue channel). d – g Results of the analysis of a closing scratch assay on a primary porcine RPE cell culture (ppRPE). d Beginning and end (i.e., closing) of the imaging of the scratch assay. The dotted white square corresponds to the area used for calculations. e , f Plots of the evolution of scratch width and wound closure over the acquisition, calculated with <t>SAVE</t> <t>Profiler.</t> g Optical flow calculations showing velocity and motion direction. h – k Results of the analysis of a closing scratch assay on a hiRPE cell culture. h Beginning and end (i.e., closing) of the imaging of the scratch assay. i , j Plots of the evolution of scratch width and wound closure over the acquisition, calculated with SAVE Profiler. k Optical flow calculations. (Statistics: see Supplementary Table (scale-bar: 50 μm).
Surface Profilometer Mitutoyo Sj 400, supplied by Mitutoyo, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/surface profilometer mitutoyo sj-400/product/Mitutoyo
Average 90 stars, based on 1 article reviews
surface profilometer mitutoyo sj-400 - by Bioz Stars, 2026-03
90/100 stars
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talysurf cci optical profiler  (Taylor Hobson)
90
Taylor Hobson talysurf cci optical profiler
a Drawing of our custom-built Full-Field OCT system. BS beam-splitter, HPF high-pass filter, PZT piezo-electric translation, TS translation stage (for the sample). b Schematic of the RPE cell layer before and after the scratch assay (from left to right). c Recombined three channels of HSV computation and the three different channels in lower left. The colorbar represents the frequency variations of the sample (Hue channel). d – g Results of the analysis of a closing scratch assay on a primary porcine RPE cell culture (ppRPE). d Beginning and end (i.e., closing) of the imaging of the scratch assay. The dotted white square corresponds to the area used for calculations. e , f Plots of the evolution of scratch width and wound closure over the acquisition, calculated with <t>SAVE</t> <t>Profiler.</t> g Optical flow calculations showing velocity and motion direction. h – k Results of the analysis of a closing scratch assay on a hiRPE cell culture. h Beginning and end (i.e., closing) of the imaging of the scratch assay. i , j Plots of the evolution of scratch width and wound closure over the acquisition, calculated with SAVE Profiler. k Optical flow calculations. (Statistics: see Supplementary Table (scale-bar: 50 μm).
Talysurf Cci Optical Profiler, supplied by Taylor Hobson, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/talysurf cci optical profiler/product/Taylor Hobson
Average 90 stars, based on 1 article reviews
talysurf cci optical profiler - by Bioz Stars, 2026-03
90/100 stars
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contour gtk optical profile  (Bruker Corporation)
90
Bruker Corporation contour gtk optical profile
a Drawing of our custom-built Full-Field OCT system. BS beam-splitter, HPF high-pass filter, PZT piezo-electric translation, TS translation stage (for the sample). b Schematic of the RPE cell layer before and after the scratch assay (from left to right). c Recombined three channels of HSV computation and the three different channels in lower left. The colorbar represents the frequency variations of the sample (Hue channel). d – g Results of the analysis of a closing scratch assay on a primary porcine RPE cell culture (ppRPE). d Beginning and end (i.e., closing) of the imaging of the scratch assay. The dotted white square corresponds to the area used for calculations. e , f Plots of the evolution of scratch width and wound closure over the acquisition, calculated with <t>SAVE</t> <t>Profiler.</t> g Optical flow calculations showing velocity and motion direction. h – k Results of the analysis of a closing scratch assay on a hiRPE cell culture. h Beginning and end (i.e., closing) of the imaging of the scratch assay. i , j Plots of the evolution of scratch width and wound closure over the acquisition, calculated with SAVE Profiler. k Optical flow calculations. (Statistics: see Supplementary Table (scale-bar: 50 μm).
Contour Gtk Optical Profile, supplied by Bruker Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/contour gtk optical profile/product/Bruker Corporation
Average 90 stars, based on 1 article reviews
contour gtk optical profile - by Bioz Stars, 2026-03
90/100 stars
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optical profiler  (Taylor Hobson)
90
Taylor Hobson optical profiler
a Drawing of our custom-built Full-Field OCT system. BS beam-splitter, HPF high-pass filter, PZT piezo-electric translation, TS translation stage (for the sample). b Schematic of the RPE cell layer before and after the scratch assay (from left to right). c Recombined three channels of HSV computation and the three different channels in lower left. The colorbar represents the frequency variations of the sample (Hue channel). d – g Results of the analysis of a closing scratch assay on a primary porcine RPE cell culture (ppRPE). d Beginning and end (i.e., closing) of the imaging of the scratch assay. The dotted white square corresponds to the area used for calculations. e , f Plots of the evolution of scratch width and wound closure over the acquisition, calculated with <t>SAVE</t> <t>Profiler.</t> g Optical flow calculations showing velocity and motion direction. h – k Results of the analysis of a closing scratch assay on a hiRPE cell culture. h Beginning and end (i.e., closing) of the imaging of the scratch assay. i , j Plots of the evolution of scratch width and wound closure over the acquisition, calculated with SAVE Profiler. k Optical flow calculations. (Statistics: see Supplementary Table (scale-bar: 50 μm).
Optical Profiler, supplied by Taylor Hobson, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/optical profiler/product/Taylor Hobson
Average 90 stars, based on 1 article reviews
optical profiler - by Bioz Stars, 2026-03
90/100 stars
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Image Search Results


a Drawing of our custom-built Full-Field OCT system. BS beam-splitter, HPF high-pass filter, PZT piezo-electric translation, TS translation stage (for the sample). b Schematic of the RPE cell layer before and after the scratch assay (from left to right). c Recombined three channels of HSV computation and the three different channels in lower left. The colorbar represents the frequency variations of the sample (Hue channel). d – g Results of the analysis of a closing scratch assay on a primary porcine RPE cell culture (ppRPE). d Beginning and end (i.e., closing) of the imaging of the scratch assay. The dotted white square corresponds to the area used for calculations. e , f Plots of the evolution of scratch width and wound closure over the acquisition, calculated with SAVE Profiler. g Optical flow calculations showing velocity and motion direction. h – k Results of the analysis of a closing scratch assay on a hiRPE cell culture. h Beginning and end (i.e., closing) of the imaging of the scratch assay. i , j Plots of the evolution of scratch width and wound closure over the acquisition, calculated with SAVE Profiler. k Optical flow calculations. (Statistics: see Supplementary Table (scale-bar: 50 μm).

Journal: Communications Biology

Article Title: Dynamic full-field optical coherence tomography allows live imaging of retinal pigment epithelium stress model

doi: 10.1038/s42003-022-03479-6

Figure Lengend Snippet: a Drawing of our custom-built Full-Field OCT system. BS beam-splitter, HPF high-pass filter, PZT piezo-electric translation, TS translation stage (for the sample). b Schematic of the RPE cell layer before and after the scratch assay (from left to right). c Recombined three channels of HSV computation and the three different channels in lower left. The colorbar represents the frequency variations of the sample (Hue channel). d – g Results of the analysis of a closing scratch assay on a primary porcine RPE cell culture (ppRPE). d Beginning and end (i.e., closing) of the imaging of the scratch assay. The dotted white square corresponds to the area used for calculations. e , f Plots of the evolution of scratch width and wound closure over the acquisition, calculated with SAVE Profiler. g Optical flow calculations showing velocity and motion direction. h – k Results of the analysis of a closing scratch assay on a hiRPE cell culture. h Beginning and end (i.e., closing) of the imaging of the scratch assay. i , j Plots of the evolution of scratch width and wound closure over the acquisition, calculated with SAVE Profiler. k Optical flow calculations. (Statistics: see Supplementary Table (scale-bar: 50 μm).

Article Snippet: For this purpose, custom software was developed in Matlab, which we name the scratch assay velocity evolution (SAVE) profiler .

Techniques: Wound Healing Assay, Cell Culture, Imaging

a Beginning and end of the imaging of a scratch assay on ppRPE cell culture. b , c Evolution of scratch width and wound closure calculated with our programme and d optical flow calculations. e Beginning and end of the imaging of a scratch assay on hiRPE cell culture. f , g Evolution of the scratch width and wound closure, calculated with the SAVE profiler and ( h ) optical flow calculations. (scale-bar: 50 μm) (Statistics: see Supplementary Table ).

Journal: Communications Biology

Article Title: Dynamic full-field optical coherence tomography allows live imaging of retinal pigment epithelium stress model

doi: 10.1038/s42003-022-03479-6

Figure Lengend Snippet: a Beginning and end of the imaging of a scratch assay on ppRPE cell culture. b , c Evolution of scratch width and wound closure calculated with our programme and d optical flow calculations. e Beginning and end of the imaging of a scratch assay on hiRPE cell culture. f , g Evolution of the scratch width and wound closure, calculated with the SAVE profiler and ( h ) optical flow calculations. (scale-bar: 50 μm) (Statistics: see Supplementary Table ).

Article Snippet: For this purpose, custom software was developed in Matlab, which we name the scratch assay velocity evolution (SAVE) profiler .

Techniques: Imaging, Wound Healing Assay, Cell Culture