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1صورة
المؤلفون: Yingjiao Shen, Xin Ye, Jiwei Tao, Chenhao Zhao, Zhaokai Xu, Jianbo Mao, Yiqi Chen, Lijun Shen
مصطلحات موضوعية: Cell Biology, Marine Biology, Cell Development, Proliferation and Death, Cell Metabolism, Cell Neurochemistry, Cellular Interactions (incl. Adhesion, Matrix, Cell Wall), idiopathic epiretinal membrane, optical coherence tomography angiography, vessel tortuosity, vitrectomy, microvascular remodeling
الإتاحة: https://doi.org/10.3389/fcell.2023.1164529.s001Test
https://figshare.com/articles/figure/Image1_Quantitative_assessment_of_retinal_microvascular_remodeling_in_eyes_that_underwent_idiopathic_epiretinal_membrane_surgery_pdf/22662712Test -
2صورة
المؤلفون: Yingjiao Shen, Xin Ye, Jiwei Tao, Chenhao Zhao, Zhaokai Xu, Jianbo Mao, Yiqi Chen, Lijun Shen
مصطلحات موضوعية: Cell Biology, Marine Biology, Cell Development, Proliferation and Death, Cell Metabolism, Cell Neurochemistry, Cellular Interactions (incl. Adhesion, Matrix, Cell Wall), idiopathic epiretinal membrane, optical coherence tomography angiography, vessel tortuosity, vitrectomy, microvascular remodeling
الإتاحة: https://doi.org/10.3389/fcell.2023.1164529.s002Test
https://figshare.com/articles/figure/Image2_Quantitative_assessment_of_retinal_microvascular_remodeling_in_eyes_that_underwent_idiopathic_epiretinal_membrane_surgery_pdf/22662715Test -
3صورة
المؤلفون: Catherine A. Spilling (7460930), Mohani-Preet K. Dhillon (11654783), Daniel R. Burrage (11654786), Sachelle Ruickbie (11654789), Emma H. Baker (11654792), Thomas R. Barrick (7460939), Paul W. Jones (7460933)
مصطلحات موضوعية: Medicine, Cell Biology, Genetics, Molecular Biology, Neuroscience, Physiology, Biotechnology, Immunology, Cancer, Mental Health,
+measures%22">xlink "> measures, +changes%22">xlink "> changes, white matter microstructure, retinal vessel tortuosity, retinal vessel calibre, reactive protein (<, principal component analysis, brain tissue volumes, cognitive decline occur, several markers could, related diseases may, coronary artery disease, brain changes associated, single common pathway, 47 cad ), related diseases, brain structure, single variables, also occur, univariate relationships -
4صورة
المؤلفون: Catherine A. Spilling (7460930), Mohani-Preet K. Dhillon (11654783), Daniel R. Burrage (11654786), Sachelle Ruickbie (11654789), Emma H. Baker (11654792), Thomas R. Barrick (7460939), Paul W. Jones (7460933)
مصطلحات موضوعية: Medicine, Cell Biology, Genetics, Molecular Biology, Neuroscience, Physiology, Biotechnology, Immunology, Cancer, Mental Health,
+measures%22">xlink "> measures, +changes%22">xlink "> changes, white matter microstructure, retinal vessel tortuosity, retinal vessel calibre, reactive protein (<, principal component analysis, brain tissue volumes, cognitive decline occur, several markers could, related diseases may, coronary artery disease, brain changes associated, single common pathway, 47 cad ), related diseases, brain structure, single variables, also occur, univariate relationships -
5صورة
المؤلفون: Samantha J. Paulsen (11819978), Trevor M. Mitcham (11819981), Charlene S. Pan (11819984), James Long (1914772), Bagrat Grigoryan (11819987), Daniel W. Sazer (11819990), Collin J. Harlan (11819993), Kevin D. Janson (11819996), Mark D. Pagel (527374), Jordan S. Miller (579417), Richard R. Bouchard (11819999)
مصطلحات موضوعية: Biophysics, Cell Biology, Molecular Biology, Biotechnology, Space Science, mimicking fluid flow, induced variable levels, g ., tortuosity, controlled phantom stiffness, stable us backscatter, single fabrication session, direct 3d printing, printing technique based, based stereolithography allows, based stereolithography, voxel level, underlying anatomy, supporting blood, results show, printed materials, native tissues, mechanical properties, material casting, human body, generating well, generate isotropic, customizable fabrication, continued development, complex geometry
العلاقة: https://figshare.com/articles/figure/Hyperechoic_signal_at_print-layer_boundaries_/17154137Test
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6صورة
المؤلفون: Samantha J. Paulsen (11819978), Trevor M. Mitcham (11819981), Charlene S. Pan (11819984), James Long (1914772), Bagrat Grigoryan (11819987), Daniel W. Sazer (11819990), Collin J. Harlan (11819993), Kevin D. Janson (11819996), Mark D. Pagel (527374), Jordan S. Miller (579417), Richard R. Bouchard (11819999)
مصطلحات موضوعية: Biophysics, Cell Biology, Molecular Biology, Biotechnology, Space Science, mimicking fluid flow, induced variable levels, g ., tortuosity, controlled phantom stiffness, stable us backscatter, single fabrication session, direct 3d printing, printing technique based, based stereolithography allows, based stereolithography, voxel level, underlying anatomy, supporting blood, results show, printed materials, native tissues, mechanical properties, material casting, human body, generating well, generate isotropic, customizable fabrication, continued development, complex geometry
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7صورة
المؤلفون: Samantha J. Paulsen (11819978), Trevor M. Mitcham (11819981), Charlene S. Pan (11819984), James Long (1914772), Bagrat Grigoryan (11819987), Daniel W. Sazer (11819990), Collin J. Harlan (11819993), Kevin D. Janson (11819996), Mark D. Pagel (527374), Jordan S. Miller (579417), Richard R. Bouchard (11819999)
مصطلحات موضوعية: Biophysics, Cell Biology, Molecular Biology, Biotechnology, Space Science, mimicking fluid flow, induced variable levels, g ., tortuosity, controlled phantom stiffness, stable us backscatter, single fabrication session, direct 3d printing, printing technique based, based stereolithography allows, based stereolithography, voxel level, underlying anatomy, supporting blood, results show, printed materials, native tissues, mechanical properties, material casting, human body, generating well, generate isotropic, customizable fabrication, continued development, complex geometry
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8صورة
المؤلفون: Samantha J. Paulsen (11819978), Trevor M. Mitcham (11819981), Charlene S. Pan (11819984), James Long (1914772), Bagrat Grigoryan (11819987), Daniel W. Sazer (11819990), Collin J. Harlan (11819993), Kevin D. Janson (11819996), Mark D. Pagel (527374), Jordan S. Miller (579417), Richard R. Bouchard (11819999)
مصطلحات موضوعية: Biophysics, Cell Biology, Molecular Biology, Biotechnology, Space Science, mimicking fluid flow, induced variable levels, g ., tortuosity, controlled phantom stiffness, stable us backscatter, single fabrication session, direct 3d printing, printing technique based, based stereolithography allows, based stereolithography, voxel level, underlying anatomy, supporting blood, results show, printed materials, native tissues, mechanical properties, material casting, human body, generating well, generate isotropic, customizable fabrication, continued development, complex geometry
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9صورة
المؤلفون: Samantha J. Paulsen (11819978), Trevor M. Mitcham (11819981), Charlene S. Pan (11819984), James Long (1914772), Bagrat Grigoryan (11819987), Daniel W. Sazer (11819990), Collin J. Harlan (11819993), Kevin D. Janson (11819996), Mark D. Pagel (527374), Jordan S. Miller (579417), Richard R. Bouchard (11819999)
مصطلحات موضوعية: Biophysics, Cell Biology, Molecular Biology, Biotechnology, Space Science, mimicking fluid flow, induced variable levels, g ., tortuosity, controlled phantom stiffness, stable us backscatter, single fabrication session, direct 3d printing, printing technique based, based stereolithography allows, based stereolithography, voxel level, underlying anatomy, supporting blood, results show, printed materials, native tissues, mechanical properties, material casting, human body, generating well, generate isotropic, customizable fabrication, continued development, complex geometry
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10صورة
المؤلفون: Samantha J. Paulsen (11819978), Trevor M. Mitcham (11819981), Charlene S. Pan (11819984), James Long (1914772), Bagrat Grigoryan (11819987), Daniel W. Sazer (11819990), Collin J. Harlan (11819993), Kevin D. Janson (11819996), Mark D. Pagel (527374), Jordan S. Miller (579417), Richard R. Bouchard (11819999)
مصطلحات موضوعية: Biophysics, Cell Biology, Molecular Biology, Biotechnology, Space Science, mimicking fluid flow, induced variable levels, g ., tortuosity, controlled phantom stiffness, stable us backscatter, single fabrication session, direct 3d printing, printing technique based, based stereolithography allows, based stereolithography, voxel level, underlying anatomy, supporting blood, results show, printed materials, native tissues, mechanical properties, material casting, human body, generating well, generate isotropic, customizable fabrication, continued development, complex geometry