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PMC9413746_viruses-14-01644-f001_385325.jpg | What is the core subject represented in this visual? | Gross and microscopic cardiac features in case #1. Panel (a) shows the transmural myocardial rupture. Panel (b) shows the transversal section of the coronary artery with evidence of atherosclerotic changes and an intracoronary clot. In panels (c–f), the histological findings of the myocardial sections are presented (he... |
PMC9413746_viruses-14-01644-f001_385324.jpg | What is shown in this image? | Gross and microscopic cardiac features in case #1. Panel (a) shows the transmural myocardial rupture. Panel (b) shows the transversal section of the coronary artery with evidence of atherosclerotic changes and an intracoronary clot. In panels (c–f), the histological findings of the myocardial sections are presented (he... |
PMC9413746_viruses-14-01644-f001_385323.jpg | What is the focal point of this photograph? | Gross and microscopic cardiac features in case #1. Panel (a) shows the transmural myocardial rupture. Panel (b) shows the transversal section of the coronary artery with evidence of atherosclerotic changes and an intracoronary clot. In panels (c–f), the histological findings of the myocardial sections are presented (he... |
PMC9413746_viruses-14-01644-f001_385328.jpg | What key item or scene is captured in this photo? | Gross and microscopic cardiac features in case #1. Panel (a) shows the transmural myocardial rupture. Panel (b) shows the transversal section of the coronary artery with evidence of atherosclerotic changes and an intracoronary clot. In panels (c–f), the histological findings of the myocardial sections are presented (he... |
PMC9413746_viruses-14-01644-f001_385327.jpg | Can you identify the primary element in this image? | Gross and microscopic cardiac features in case #1. Panel (a) shows the transmural myocardial rupture. Panel (b) shows the transversal section of the coronary artery with evidence of atherosclerotic changes and an intracoronary clot. In panels (c–f), the histological findings of the myocardial sections are presented (he... |
PMC9413746_viruses-14-01644-f002_385318.jpg | What does this image primarily show? | Post-mortem Cardiac Magnetic Resonance (PM-CMR) and immunohistochemical staining of case #4. In the panel (a), a T2-weighted fast spin echo (FSE) image shows the hypointensity of the subendocardial layer of the inferior and inferolateral walls. A decreased T2 was confirmed in the T2 mapping (panel b), whereas T1 hyperi... |
PMC9413746_viruses-14-01644-f002_385322.jpg | What key item or scene is captured in this photo? | Post-mortem Cardiac Magnetic Resonance (PM-CMR) and immunohistochemical staining of case #4. In the panel (a), a T2-weighted fast spin echo (FSE) image shows the hypointensity of the subendocardial layer of the inferior and inferolateral walls. A decreased T2 was confirmed in the T2 mapping (panel b), whereas T1 hyperi... |
PMC9413746_viruses-14-01644-f002_385317.jpg | What key item or scene is captured in this photo? | Post-mortem Cardiac Magnetic Resonance (PM-CMR) and immunohistochemical staining of case #4. In the panel (a), a T2-weighted fast spin echo (FSE) image shows the hypointensity of the subendocardial layer of the inferior and inferolateral walls. A decreased T2 was confirmed in the T2 mapping (panel b), whereas T1 hyperi... |
PMC9413746_viruses-14-01644-f002_385319.jpg | Describe the main subject of this image. | Post-mortem Cardiac Magnetic Resonance (PM-CMR) and immunohistochemical staining of case #4. In the panel (a), a T2-weighted fast spin echo (FSE) image shows the hypointensity of the subendocardial layer of the inferior and inferolateral walls. A decreased T2 was confirmed in the T2 mapping (panel b), whereas T1 hyperi... |
PMC9413746_viruses-14-01644-f002_385320.jpg | What's the most prominent thing you notice in this picture? | Post-mortem Cardiac Magnetic Resonance (PM-CMR) and immunohistochemical staining of case #4. In the panel (a), a T2-weighted fast spin echo (FSE) image shows the hypointensity of the subendocardial layer of the inferior and inferolateral walls. A decreased T2 was confirmed in the T2 mapping (panel b), whereas T1 hyperi... |
PMC9413746_viruses-14-01644-f002_385321.jpg | What is the dominant medical problem in this image? | Post-mortem Cardiac Magnetic Resonance (PM-CMR) and immunohistochemical staining of case #4. In the panel (a), a T2-weighted fast spin echo (FSE) image shows the hypointensity of the subendocardial layer of the inferior and inferolateral walls. A decreased T2 was confirmed in the T2 mapping (panel b), whereas T1 hyperi... |
PMC9413746_viruses-14-01644-f003_385315.jpg | What is the focal point of this photograph? | Histological and immunohistochemical features of case #4. A fresh sub-occlusive thrombus (a,b) is shown in the lumen of the right coronary artery with fibroatheroma (hematoxylin–eosin staining, original magnification 4× and 10×, respectively); immunohistochemistry (c,d) showed phosphorylated (CX-43) and dephosphorylate... |
PMC9413746_viruses-14-01644-f003_385313.jpg | What can you see in this picture? | Histological and immunohistochemical features of case #4. A fresh sub-occlusive thrombus (a,b) is shown in the lumen of the right coronary artery with fibroatheroma (hematoxylin–eosin staining, original magnification 4× and 10×, respectively); immunohistochemistry (c,d) showed phosphorylated (CX-43) and dephosphorylate... |
PMC9413746_viruses-14-01644-f003_385316.jpg | What is the focal point of this photograph? | Histological and immunohistochemical features of case #4. A fresh sub-occlusive thrombus (a,b) is shown in the lumen of the right coronary artery with fibroatheroma (hematoxylin–eosin staining, original magnification 4× and 10×, respectively); immunohistochemistry (c,d) showed phosphorylated (CX-43) and dephosphorylate... |
PMC9413746_viruses-14-01644-f003_385314.jpg | What is shown in this image? | Histological and immunohistochemical features of case #4. A fresh sub-occlusive thrombus (a,b) is shown in the lumen of the right coronary artery with fibroatheroma (hematoxylin–eosin staining, original magnification 4× and 10×, respectively); immunohistochemistry (c,d) showed phosphorylated (CX-43) and dephosphorylate... |
PMC9413749_materials-15-05712-f014_385329.jpg | What stands out most in this visual? | SEM images with different magnifications of (a) 1000 and (b) 10,000 times of commercial CaCO3. |
PMC9413769_viruses-14-01798-f005_385331.jpg | What is the main focus of this visual representation? | Colocalization of NCp7 and Gag with Unr in HeLa cells. (A–C) HeLa cells were transfected with a single plasmid coding for NCp7-eGFP (A), Gag-mCherry (B), eGFP-Unr (C) 24 h before being fixed with paraformaldehyde and imaged by confocal microscopy. (D,E) HeLa cells were doubly transfected with constructs overexpressing ... |
PMC9413769_viruses-14-01798-f005_385334.jpg | What is being portrayed in this visual content? | Colocalization of NCp7 and Gag with Unr in HeLa cells. (A–C) HeLa cells were transfected with a single plasmid coding for NCp7-eGFP (A), Gag-mCherry (B), eGFP-Unr (C) 24 h before being fixed with paraformaldehyde and imaged by confocal microscopy. (D,E) HeLa cells were doubly transfected with constructs overexpressing ... |
PMC9413769_viruses-14-01798-f005_385332.jpg | What does this image primarily show? | Colocalization of NCp7 and Gag with Unr in HeLa cells. (A–C) HeLa cells were transfected with a single plasmid coding for NCp7-eGFP (A), Gag-mCherry (B), eGFP-Unr (C) 24 h before being fixed with paraformaldehyde and imaged by confocal microscopy. (D,E) HeLa cells were doubly transfected with constructs overexpressing ... |
PMC9413769_viruses-14-01798-f005_385338.jpg | What is the core subject represented in this visual? | Colocalization of NCp7 and Gag with Unr in HeLa cells. (A–C) HeLa cells were transfected with a single plasmid coding for NCp7-eGFP (A), Gag-mCherry (B), eGFP-Unr (C) 24 h before being fixed with paraformaldehyde and imaged by confocal microscopy. (D,E) HeLa cells were doubly transfected with constructs overexpressing ... |
PMC9413769_viruses-14-01798-f005_385336.jpg | What does this image primarily show? | Colocalization of NCp7 and Gag with Unr in HeLa cells. (A–C) HeLa cells were transfected with a single plasmid coding for NCp7-eGFP (A), Gag-mCherry (B), eGFP-Unr (C) 24 h before being fixed with paraformaldehyde and imaged by confocal microscopy. (D,E) HeLa cells were doubly transfected with constructs overexpressing ... |
PMC9413769_viruses-14-01798-f005_385333.jpg | What object or scene is depicted here? | Colocalization of NCp7 and Gag with Unr in HeLa cells. (A–C) HeLa cells were transfected with a single plasmid coding for NCp7-eGFP (A), Gag-mCherry (B), eGFP-Unr (C) 24 h before being fixed with paraformaldehyde and imaged by confocal microscopy. (D,E) HeLa cells were doubly transfected with constructs overexpressing ... |
PMC9413769_viruses-14-01798-f005_385339.jpg | What is the focal point of this photograph? | Colocalization of NCp7 and Gag with Unr in HeLa cells. (A–C) HeLa cells were transfected with a single plasmid coding for NCp7-eGFP (A), Gag-mCherry (B), eGFP-Unr (C) 24 h before being fixed with paraformaldehyde and imaged by confocal microscopy. (D,E) HeLa cells were doubly transfected with constructs overexpressing ... |
PMC9413769_viruses-14-01798-f005_385337.jpg | Can you identify the primary element in this image? | Colocalization of NCp7 and Gag with Unr in HeLa cells. (A–C) HeLa cells were transfected with a single plasmid coding for NCp7-eGFP (A), Gag-mCherry (B), eGFP-Unr (C) 24 h before being fixed with paraformaldehyde and imaged by confocal microscopy. (D,E) HeLa cells were doubly transfected with constructs overexpressing ... |
PMC9413817_polymers-14-03380-f009_385340.jpg | What does this image primarily show? | Images of the coloured geopolymers after integrity tests at 56 days of ageing. |
PMC9413817_polymers-14-03380-f009_385346.jpg | What is shown in this image? | Images of the coloured geopolymers after integrity tests at 56 days of ageing. |
PMC9413817_polymers-14-03380-f009_385344.jpg | What is the central feature of this picture? | Images of the coloured geopolymers after integrity tests at 56 days of ageing. |
PMC9413817_polymers-14-03380-f009_385343.jpg | Describe the main subject of this image. | Images of the coloured geopolymers after integrity tests at 56 days of ageing. |
PMC9413817_polymers-14-03380-f009_385341.jpg | What does this image primarily show? | Images of the coloured geopolymers after integrity tests at 56 days of ageing. |
PMC9413817_polymers-14-03380-f009_385342.jpg | What is the central feature of this picture? | Images of the coloured geopolymers after integrity tests at 56 days of ageing. |
PMC9413817_polymers-14-03380-f009_385345.jpg | What is the core subject represented in this visual? | Images of the coloured geopolymers after integrity tests at 56 days of ageing. |
PMC9413838_F1_385351.jpg | What is the core subject represented in this visual? | Example diffusion and phase congruency texture maps. (A) Diffusion MRI of a) fractional anisotropy, b) axonal diameter, c) intracellular volume fraction, d) Orientation Dispersion Index, e) Orientation Distribution Function energy f) Apparent Fiber Density, and (B) phase congruency of (top row) FLAIR MRI and (bottom ro... |
PMC9413838_F1_385353.jpg | What is the central feature of this picture? | Example diffusion and phase congruency texture maps. (A) Diffusion MRI of a) fractional anisotropy, b) axonal diameter, c) intracellular volume fraction, d) Orientation Dispersion Index, e) Orientation Distribution Function energy f) Apparent Fiber Density, and (B) phase congruency of (top row) FLAIR MRI and (bottom ro... |
PMC9413838_F1_385350.jpg | What is the main focus of this visual representation? | Example diffusion and phase congruency texture maps. (A) Diffusion MRI of a) fractional anisotropy, b) axonal diameter, c) intracellular volume fraction, d) Orientation Dispersion Index, e) Orientation Distribution Function energy f) Apparent Fiber Density, and (B) phase congruency of (top row) FLAIR MRI and (bottom ro... |
PMC9413838_F1_385348.jpg | What is the central feature of this picture? | Example diffusion and phase congruency texture maps. (A) Diffusion MRI of a) fractional anisotropy, b) axonal diameter, c) intracellular volume fraction, d) Orientation Dispersion Index, e) Orientation Distribution Function energy f) Apparent Fiber Density, and (B) phase congruency of (top row) FLAIR MRI and (bottom ro... |
PMC9413838_F1_385347.jpg | What is the core subject represented in this visual? | Example diffusion and phase congruency texture maps. (A) Diffusion MRI of a) fractional anisotropy, b) axonal diameter, c) intracellular volume fraction, d) Orientation Dispersion Index, e) Orientation Distribution Function energy f) Apparent Fiber Density, and (B) phase congruency of (top row) FLAIR MRI and (bottom ro... |
PMC9413838_F1_385352.jpg | What's the most prominent thing you notice in this picture? | Example diffusion and phase congruency texture maps. (A) Diffusion MRI of a) fractional anisotropy, b) axonal diameter, c) intracellular volume fraction, d) Orientation Dispersion Index, e) Orientation Distribution Function energy f) Apparent Fiber Density, and (B) phase congruency of (top row) FLAIR MRI and (bottom ro... |
PMC9413852_materials-15-05746-f012_385354.jpg | What is the focal point of this photograph? | (a–c) SEM images of SiC ceramic infiltrated at 1000 °C for 4 h with different magnifications, and (d) EDS analysis of the point in (c). |
PMC9413852_materials-15-05746-f012_385356.jpg | What is shown in this image? | (a–c) SEM images of SiC ceramic infiltrated at 1000 °C for 4 h with different magnifications, and (d) EDS analysis of the point in (c). |
PMC9413868_ccr36289-fig-0002_385358.jpg | What's the most prominent thing you notice in this picture? | Intraoperative endoscopic imaging showing characteristic white lumps (red arrows) |
PMC9413879_pharmaceuticals-15-00931-f001_385360.jpg | What is the focal point of this photograph? | (A) Representative fluorescence micrographs of fibrinaloid microclot presence in PPP from controls and individuals with ME/CFS. Each image represents an individual sample. Images were taken at 63× machine magnification. (B) Fluorescence micrographs showing the fibrinaloid microclot scoring system used to define the loa... |
PMC9413879_pharmaceuticals-15-00931-f001_385359.jpg | What can you see in this picture? | (A) Representative fluorescence micrographs of fibrinaloid microclot presence in PPP from controls and individuals with ME/CFS. Each image represents an individual sample. Images were taken at 63× machine magnification. (B) Fluorescence micrographs showing the fibrinaloid microclot scoring system used to define the loa... |
PMC9413879_pharmaceuticals-15-00931-f001_385361.jpg | What is the core subject represented in this visual? | (A) Representative fluorescence micrographs of fibrinaloid microclot presence in PPP from controls and individuals with ME/CFS. Each image represents an individual sample. Images were taken at 63× machine magnification. (B) Fluorescence micrographs showing the fibrinaloid microclot scoring system used to define the loa... |
PMC9413879_pharmaceuticals-15-00931-f001_385366.jpg | What stands out most in this visual? | (A) Representative fluorescence micrographs of fibrinaloid microclot presence in PPP from controls and individuals with ME/CFS. Each image represents an individual sample. Images were taken at 63× machine magnification. (B) Fluorescence micrographs showing the fibrinaloid microclot scoring system used to define the loa... |
PMC9413879_pharmaceuticals-15-00931-f001_385362.jpg | What is the focal point of this photograph? | (A) Representative fluorescence micrographs of fibrinaloid microclot presence in PPP from controls and individuals with ME/CFS. Each image represents an individual sample. Images were taken at 63× machine magnification. (B) Fluorescence micrographs showing the fibrinaloid microclot scoring system used to define the loa... |
PMC9413881_sensors-22-06241-f003_385373.jpg | What is shown in this image? | Photograph of the POF probe. |
PMC9413914_membranes-12-00764-f003_385375.jpg | What is shown in this image? | Images of (a,b): the upper surfaces of AC/Gly film before and after water pressure treatment, respectively, and (c) the AC side of the PP/AC/Gly separators at 10 bar. |
PMC9413914_membranes-12-00764-f003_385376.jpg | What object or scene is depicted here? | Images of (a,b): the upper surfaces of AC/Gly film before and after water pressure treatment, respectively, and (c) the AC side of the PP/AC/Gly separators at 10 bar. |
PMC9413983_toxics-10-00428-f011_385377.jpg | What is the principal component of this image? | Electron micrographs of rat cerebral cortices from Groups 1 (G1) and 2 (G2). N, nucleus; C, capillary; e, endothelial cell nucleus; as, astrocyte nucleus; N*, pyknotic nucleus of a shrunken electron-dense neuron; m, swollen mitochondria; v, perivascular vacuolization and edema; s, swollen cytoplasm; d, neuronal debris;... |
PMC9413983_toxics-10-00428-f011_385384.jpg | What is the focal point of this photograph? | Electron micrographs of rat cerebral cortices from Groups 1 (G1) and 2 (G2). N, nucleus; C, capillary; e, endothelial cell nucleus; as, astrocyte nucleus; N*, pyknotic nucleus of a shrunken electron-dense neuron; m, swollen mitochondria; v, perivascular vacuolization and edema; s, swollen cytoplasm; d, neuronal debris;... |
PMC9413983_toxics-10-00428-f011_385383.jpg | Describe the main subject of this image. | Electron micrographs of rat cerebral cortices from Groups 1 (G1) and 2 (G2). N, nucleus; C, capillary; e, endothelial cell nucleus; as, astrocyte nucleus; N*, pyknotic nucleus of a shrunken electron-dense neuron; m, swollen mitochondria; v, perivascular vacuolization and edema; s, swollen cytoplasm; d, neuronal debris;... |
PMC9413983_toxics-10-00428-f011_385381.jpg | What object or scene is depicted here? | Electron micrographs of rat cerebral cortices from Groups 1 (G1) and 2 (G2). N, nucleus; C, capillary; e, endothelial cell nucleus; as, astrocyte nucleus; N*, pyknotic nucleus of a shrunken electron-dense neuron; m, swollen mitochondria; v, perivascular vacuolization and edema; s, swollen cytoplasm; d, neuronal debris;... |
PMC9413983_toxics-10-00428-f011_385379.jpg | What key item or scene is captured in this photo? | Electron micrographs of rat cerebral cortices from Groups 1 (G1) and 2 (G2). N, nucleus; C, capillary; e, endothelial cell nucleus; as, astrocyte nucleus; N*, pyknotic nucleus of a shrunken electron-dense neuron; m, swollen mitochondria; v, perivascular vacuolization and edema; s, swollen cytoplasm; d, neuronal debris;... |
PMC9413983_toxics-10-00428-f011_385380.jpg | What is the focal point of this photograph? | Electron micrographs of rat cerebral cortices from Groups 1 (G1) and 2 (G2). N, nucleus; C, capillary; e, endothelial cell nucleus; as, astrocyte nucleus; N*, pyknotic nucleus of a shrunken electron-dense neuron; m, swollen mitochondria; v, perivascular vacuolization and edema; s, swollen cytoplasm; d, neuronal debris;... |
PMC9413983_toxics-10-00428-f012_385392.jpg | What key item or scene is captured in this photo? | Electron micrographs of rat cerebral cortices from Groups 3 to 10 (G3–G10). N, nucleus; n, nucleolus; C, capillary; m, mitochondria; G, Golgi apparatus. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f012_385387.jpg | What is the principal component of this image? | Electron micrographs of rat cerebral cortices from Groups 3 to 10 (G3–G10). N, nucleus; n, nucleolus; C, capillary; m, mitochondria; G, Golgi apparatus. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f012_385388.jpg | What can you see in this picture? | Electron micrographs of rat cerebral cortices from Groups 3 to 10 (G3–G10). N, nucleus; n, nucleolus; C, capillary; m, mitochondria; G, Golgi apparatus. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f012_385389.jpg | What is the central feature of this picture? | Electron micrographs of rat cerebral cortices from Groups 3 to 10 (G3–G10). N, nucleus; n, nucleolus; C, capillary; m, mitochondria; G, Golgi apparatus. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f012_385391.jpg | What is the main focus of this visual representation? | Electron micrographs of rat cerebral cortices from Groups 3 to 10 (G3–G10). N, nucleus; n, nucleolus; C, capillary; m, mitochondria; G, Golgi apparatus. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f012_385386.jpg | What does this image primarily show? | Electron micrographs of rat cerebral cortices from Groups 3 to 10 (G3–G10). N, nucleus; n, nucleolus; C, capillary; m, mitochondria; G, Golgi apparatus. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f012_385385.jpg | What is the dominant medical problem in this image? | Electron micrographs of rat cerebral cortices from Groups 3 to 10 (G3–G10). N, nucleus; n, nucleolus; C, capillary; m, mitochondria; G, Golgi apparatus. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f013_385400.jpg | What is the principal component of this image? | Electron micrographs of rat cerebral cortices from Groups 11 to 18 (G11–G18). N, nucleus; n, nucleolus; C, capillary; ab, apoptotic body m, mitochondria; v, vacuolar degeneration; ly, secondary lysosomes; d, neuronal debris. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f013_385395.jpg | What is the focal point of this photograph? | Electron micrographs of rat cerebral cortices from Groups 11 to 18 (G11–G18). N, nucleus; n, nucleolus; C, capillary; ab, apoptotic body m, mitochondria; v, vacuolar degeneration; ly, secondary lysosomes; d, neuronal debris. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f013_385398.jpg | Describe the main subject of this image. | Electron micrographs of rat cerebral cortices from Groups 11 to 18 (G11–G18). N, nucleus; n, nucleolus; C, capillary; ab, apoptotic body m, mitochondria; v, vacuolar degeneration; ly, secondary lysosomes; d, neuronal debris. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f013_385397.jpg | What is the principal component of this image? | Electron micrographs of rat cerebral cortices from Groups 11 to 18 (G11–G18). N, nucleus; n, nucleolus; C, capillary; ab, apoptotic body m, mitochondria; v, vacuolar degeneration; ly, secondary lysosomes; d, neuronal debris. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f013_385399.jpg | What stands out most in this visual? | Electron micrographs of rat cerebral cortices from Groups 11 to 18 (G11–G18). N, nucleus; n, nucleolus; C, capillary; ab, apoptotic body m, mitochondria; v, vacuolar degeneration; ly, secondary lysosomes; d, neuronal debris. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f013_385396.jpg | Describe the main subject of this image. | Electron micrographs of rat cerebral cortices from Groups 11 to 18 (G11–G18). N, nucleus; n, nucleolus; C, capillary; ab, apoptotic body m, mitochondria; v, vacuolar degeneration; ly, secondary lysosomes; d, neuronal debris. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f013_385393.jpg | What is the dominant medical problem in this image? | Electron micrographs of rat cerebral cortices from Groups 11 to 18 (G11–G18). N, nucleus; n, nucleolus; C, capillary; ab, apoptotic body m, mitochondria; v, vacuolar degeneration; ly, secondary lysosomes; d, neuronal debris. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f014_385407.jpg | What is the core subject represented in this visual? | Electron micrographs of rat hippocampi from Groups 1 (G1) and 2 (G2). N, nucleus; M, intact myelin; A, axon; pn, pyknotic nucleus; m, damaged mitochondria; C, capillary; v, vacuolar degeneration; M*, distorted myelin figures; d, neuronal debris; s, swollen cytoplasm; Dn, electron dense degenerated neuron. Group definit... |
PMC9413983_toxics-10-00428-f014_385408.jpg | What is the dominant medical problem in this image? | Electron micrographs of rat hippocampi from Groups 1 (G1) and 2 (G2). N, nucleus; M, intact myelin; A, axon; pn, pyknotic nucleus; m, damaged mitochondria; C, capillary; v, vacuolar degeneration; M*, distorted myelin figures; d, neuronal debris; s, swollen cytoplasm; Dn, electron dense degenerated neuron. Group definit... |
PMC9413983_toxics-10-00428-f014_385402.jpg | What can you see in this picture? | Electron micrographs of rat hippocampi from Groups 1 (G1) and 2 (G2). N, nucleus; M, intact myelin; A, axon; pn, pyknotic nucleus; m, damaged mitochondria; C, capillary; v, vacuolar degeneration; M*, distorted myelin figures; d, neuronal debris; s, swollen cytoplasm; Dn, electron dense degenerated neuron. Group definit... |
PMC9413983_toxics-10-00428-f014_385403.jpg | What is the main focus of this visual representation? | Electron micrographs of rat hippocampi from Groups 1 (G1) and 2 (G2). N, nucleus; M, intact myelin; A, axon; pn, pyknotic nucleus; m, damaged mitochondria; C, capillary; v, vacuolar degeneration; M*, distorted myelin figures; d, neuronal debris; s, swollen cytoplasm; Dn, electron dense degenerated neuron. Group definit... |
PMC9413983_toxics-10-00428-f015_385412.jpg | What key item or scene is captured in this photo? | Electron micrographs of rat hippocampi from Groups 3 to 10 (G3–G10). N, nucleus; n, nucleolus; A, axon; C, capillary. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f015_385411.jpg | What is shown in this image? | Electron micrographs of rat hippocampi from Groups 3 to 10 (G3–G10). N, nucleus; n, nucleolus; A, axon; C, capillary. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f015_385413.jpg | What is the dominant medical problem in this image? | Electron micrographs of rat hippocampi from Groups 3 to 10 (G3–G10). N, nucleus; n, nucleolus; A, axon; C, capillary. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f015_385416.jpg | What is the main focus of this visual representation? | Electron micrographs of rat hippocampi from Groups 3 to 10 (G3–G10). N, nucleus; n, nucleolus; A, axon; C, capillary. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f015_385415.jpg | What is being portrayed in this visual content? | Electron micrographs of rat hippocampi from Groups 3 to 10 (G3–G10). N, nucleus; n, nucleolus; A, axon; C, capillary. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f015_385410.jpg | What is shown in this image? | Electron micrographs of rat hippocampi from Groups 3 to 10 (G3–G10). N, nucleus; n, nucleolus; A, axon; C, capillary. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f015_385409.jpg | What object or scene is depicted here? | Electron micrographs of rat hippocampi from Groups 3 to 10 (G3–G10). N, nucleus; n, nucleolus; A, axon; C, capillary. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f016_385422.jpg | What is the dominant medical problem in this image? | Electron micrographs of rat hippocampi from Groups 11 to 18 (G11–G18). N, nucleus; n, nucleolus; pn, pyknotic nucleus; m, damaged mitochondria; s, swollen cytoplasm; ly, secondary lysosomes; v, vacuolar degeneration; ab, apoptotic body. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f016_385423.jpg | What's the most prominent thing you notice in this picture? | Electron micrographs of rat hippocampi from Groups 11 to 18 (G11–G18). N, nucleus; n, nucleolus; pn, pyknotic nucleus; m, damaged mitochondria; s, swollen cytoplasm; ly, secondary lysosomes; v, vacuolar degeneration; ab, apoptotic body. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f016_385419.jpg | What object or scene is depicted here? | Electron micrographs of rat hippocampi from Groups 11 to 18 (G11–G18). N, nucleus; n, nucleolus; pn, pyknotic nucleus; m, damaged mitochondria; s, swollen cytoplasm; ly, secondary lysosomes; v, vacuolar degeneration; ab, apoptotic body. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f016_385421.jpg | What is being portrayed in this visual content? | Electron micrographs of rat hippocampi from Groups 11 to 18 (G11–G18). N, nucleus; n, nucleolus; pn, pyknotic nucleus; m, damaged mitochondria; s, swollen cytoplasm; ly, secondary lysosomes; v, vacuolar degeneration; ab, apoptotic body. Group definitions are as in Figure 9. |
PMC9413983_toxics-10-00428-f016_385418.jpg | What is the dominant medical problem in this image? | Electron micrographs of rat hippocampi from Groups 11 to 18 (G11–G18). N, nucleus; n, nucleolus; pn, pyknotic nucleus; m, damaged mitochondria; s, swollen cytoplasm; ly, secondary lysosomes; v, vacuolar degeneration; ab, apoptotic body. Group definitions are as in Figure 9. |
PMC9413993_nutrients-14-03411-f001_385425.jpg | Can you identify the primary element in this image? | A PET/MR scan image of subject with brown fat depots in supraclavicular regions. |
PMC9413996_pharmaceutics-14-01560-f004_385429.jpg | What is the central feature of this picture? | Microscopic observation of hCMEC/D3 cells after the treatment with ssPalm-LNP and LFN. The ssPalm-LNP and the LFN were treated with hCMEC/D3 cells for 48 h at the indicated concentrations. |
PMC9413996_pharmaceutics-14-01560-f004_385426.jpg | What is the dominant medical problem in this image? | Microscopic observation of hCMEC/D3 cells after the treatment with ssPalm-LNP and LFN. The ssPalm-LNP and the LFN were treated with hCMEC/D3 cells for 48 h at the indicated concentrations. |
PMC9413996_pharmaceutics-14-01560-f004_385431.jpg | What is the central feature of this picture? | Microscopic observation of hCMEC/D3 cells after the treatment with ssPalm-LNP and LFN. The ssPalm-LNP and the LFN were treated with hCMEC/D3 cells for 48 h at the indicated concentrations. |
PMC9413996_pharmaceutics-14-01560-f004_385428.jpg | What is the main focus of this visual representation? | Microscopic observation of hCMEC/D3 cells after the treatment with ssPalm-LNP and LFN. The ssPalm-LNP and the LFN were treated with hCMEC/D3 cells for 48 h at the indicated concentrations. |
PMC9413996_pharmaceutics-14-01560-f004_385427.jpg | What is the main focus of this visual representation? | Microscopic observation of hCMEC/D3 cells after the treatment with ssPalm-LNP and LFN. The ssPalm-LNP and the LFN were treated with hCMEC/D3 cells for 48 h at the indicated concentrations. |
PMC9414032_F1_385441.jpg | What is the core subject represented in this visual? | Brain imaging. (A–E) Axial diffusion-weighted of brain MRI on Diffusion-Weighted Imaging shows water restriction in the left occipital lobes, related to the first stroke-like episode, and (F–J) in the right temporal occipital lobe, related to the second stroke-like episode. (K,L) Brain Magnetic Resonance Spectroscopy s... |
PMC9414032_F1_385446.jpg | What is the dominant medical problem in this image? | Brain imaging. (A–E) Axial diffusion-weighted of brain MRI on Diffusion-Weighted Imaging shows water restriction in the left occipital lobes, related to the first stroke-like episode, and (F–J) in the right temporal occipital lobe, related to the second stroke-like episode. (K,L) Brain Magnetic Resonance Spectroscopy s... |
PMC9414032_F1_385434.jpg | Describe the main subject of this image. | Brain imaging. (A–E) Axial diffusion-weighted of brain MRI on Diffusion-Weighted Imaging shows water restriction in the left occipital lobes, related to the first stroke-like episode, and (F–J) in the right temporal occipital lobe, related to the second stroke-like episode. (K,L) Brain Magnetic Resonance Spectroscopy s... |
PMC9414032_F1_385438.jpg | What stands out most in this visual? | Brain imaging. (A–E) Axial diffusion-weighted of brain MRI on Diffusion-Weighted Imaging shows water restriction in the left occipital lobes, related to the first stroke-like episode, and (F–J) in the right temporal occipital lobe, related to the second stroke-like episode. (K,L) Brain Magnetic Resonance Spectroscopy s... |
PMC9414032_F1_385436.jpg | What is the central feature of this picture? | Brain imaging. (A–E) Axial diffusion-weighted of brain MRI on Diffusion-Weighted Imaging shows water restriction in the left occipital lobes, related to the first stroke-like episode, and (F–J) in the right temporal occipital lobe, related to the second stroke-like episode. (K,L) Brain Magnetic Resonance Spectroscopy s... |
PMC9414032_F1_385437.jpg | What can you see in this picture? | Brain imaging. (A–E) Axial diffusion-weighted of brain MRI on Diffusion-Weighted Imaging shows water restriction in the left occipital lobes, related to the first stroke-like episode, and (F–J) in the right temporal occipital lobe, related to the second stroke-like episode. (K,L) Brain Magnetic Resonance Spectroscopy s... |
PMC9414032_F1_385440.jpg | What is the main focus of this visual representation? | Brain imaging. (A–E) Axial diffusion-weighted of brain MRI on Diffusion-Weighted Imaging shows water restriction in the left occipital lobes, related to the first stroke-like episode, and (F–J) in the right temporal occipital lobe, related to the second stroke-like episode. (K,L) Brain Magnetic Resonance Spectroscopy s... |
PMC9414032_F1_385445.jpg | Can you identify the primary element in this image? | Brain imaging. (A–E) Axial diffusion-weighted of brain MRI on Diffusion-Weighted Imaging shows water restriction in the left occipital lobes, related to the first stroke-like episode, and (F–J) in the right temporal occipital lobe, related to the second stroke-like episode. (K,L) Brain Magnetic Resonance Spectroscopy s... |
PMC9414032_F1_385443.jpg | What is the central feature of this picture? | Brain imaging. (A–E) Axial diffusion-weighted of brain MRI on Diffusion-Weighted Imaging shows water restriction in the left occipital lobes, related to the first stroke-like episode, and (F–J) in the right temporal occipital lobe, related to the second stroke-like episode. (K,L) Brain Magnetic Resonance Spectroscopy s... |
PMC9414032_F1_385439.jpg | What can you see in this picture? | Brain imaging. (A–E) Axial diffusion-weighted of brain MRI on Diffusion-Weighted Imaging shows water restriction in the left occipital lobes, related to the first stroke-like episode, and (F–J) in the right temporal occipital lobe, related to the second stroke-like episode. (K,L) Brain Magnetic Resonance Spectroscopy s... |
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