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PMC2429974_pone-0002481-g001_24345.jpg | What is the core subject represented in this visual? | Brain sites of stimulation.MNI coordinates on the single subject MNI template used to localize the right and left STG. |
PMC2429974_pone-0002481-g001_24349.jpg | Can you identify the primary element in this image? | Brain sites of stimulation.MNI coordinates on the single subject MNI template used to localize the right and left STG. |
PMC2429980_f4_24352.jpg | Can you identify the primary element in this image? | Hyperplasia histology analysis of the spleen in a transgenic mouse compared to a wild type mouse. Shown is a hematoxylin-eosin coloration of spleen taken from an eight-month-old wild type (A) mouse and an eight-month-old transgenic (B) mouse. Hyperplasia of the folliculi in the transgenic mice can be seen in (B). Both ... |
PMC2430011_fig1_24353.jpg | What is the principal component of this image? |
Peritoneal nodule of DSRCT at diagnosis. Nodules are composed of fibrocollagenous
tissue and irregular islands of malignant undifferentiated small round
cells. Immunoperoxidase stains (not
shown) in this case were strongly positive for EMA, vimentin, and desmin,
partially positive for CD99 and negative for synaptophys... |
PMC2430011_fig1_24355.jpg | What is being portrayed in this visual content? |
Peritoneal nodule of DSRCT at diagnosis. Nodules are composed of fibrocollagenous
tissue and irregular islands of malignant undifferentiated small round
cells. Immunoperoxidase stains (not
shown) in this case were strongly positive for EMA, vimentin, and desmin,
partially positive for CD99 and negative for synaptophys... |
PMC2430011_fig1_24354.jpg | What stands out most in this visual? |
Peritoneal nodule of DSRCT at diagnosis. Nodules are composed of fibrocollagenous
tissue and irregular islands of malignant undifferentiated small round
cells. Immunoperoxidase stains (not
shown) in this case were strongly positive for EMA, vimentin, and desmin,
partially positive for CD99 and negative for synaptophys... |
PMC2430011_fig4_24363.jpg | What is being portrayed in this visual content? |
PET-CT fusion imaging. (a) Residual uptake
in the peritoneal implants after 2 cycles of therapy, SUV 3. (b) No evidence of
FDG avid disease after cytoreductive therapy. (c) Relapse in the perihepatic
space including dome of the liver (SUV 2.8) and retroperitoneal nodes (SUV 5). |
PMC2430011_fig4_24361.jpg | What is the central feature of this picture? |
PET-CT fusion imaging. (a) Residual uptake
in the peritoneal implants after 2 cycles of therapy, SUV 3. (b) No evidence of
FDG avid disease after cytoreductive therapy. (c) Relapse in the perihepatic
space including dome of the liver (SUV 2.8) and retroperitoneal nodes (SUV 5). |
PMC2430011_fig4_24362.jpg | Can you identify the primary element in this image? |
PET-CT fusion imaging. (a) Residual uptake
in the peritoneal implants after 2 cycles of therapy, SUV 3. (b) No evidence of
FDG avid disease after cytoreductive therapy. (c) Relapse in the perihepatic
space including dome of the liver (SUV 2.8) and retroperitoneal nodes (SUV 5). |
PMC2430011_fig4_24357.jpg | What key item or scene is captured in this photo? |
PET-CT fusion imaging. (a) Residual uptake
in the peritoneal implants after 2 cycles of therapy, SUV 3. (b) No evidence of
FDG avid disease after cytoreductive therapy. (c) Relapse in the perihepatic
space including dome of the liver (SUV 2.8) and retroperitoneal nodes (SUV 5). |
PMC2430011_fig4_24356.jpg | Can you identify the primary element in this image? |
PET-CT fusion imaging. (a) Residual uptake
in the peritoneal implants after 2 cycles of therapy, SUV 3. (b) No evidence of
FDG avid disease after cytoreductive therapy. (c) Relapse in the perihepatic
space including dome of the liver (SUV 2.8) and retroperitoneal nodes (SUV 5). |
PMC2430011_fig4_24359.jpg | What is the focal point of this photograph? |
PET-CT fusion imaging. (a) Residual uptake
in the peritoneal implants after 2 cycles of therapy, SUV 3. (b) No evidence of
FDG avid disease after cytoreductive therapy. (c) Relapse in the perihepatic
space including dome of the liver (SUV 2.8) and retroperitoneal nodes (SUV 5). |
PMC2430011_fig4_24358.jpg | What stands out most in this visual? |
PET-CT fusion imaging. (a) Residual uptake
in the peritoneal implants after 2 cycles of therapy, SUV 3. (b) No evidence of
FDG avid disease after cytoreductive therapy. (c) Relapse in the perihepatic
space including dome of the liver (SUV 2.8) and retroperitoneal nodes (SUV 5). |
PMC2430011_fig4_24364.jpg | What is shown in this image? |
PET-CT fusion imaging. (a) Residual uptake
in the peritoneal implants after 2 cycles of therapy, SUV 3. (b) No evidence of
FDG avid disease after cytoreductive therapy. (c) Relapse in the perihepatic
space including dome of the liver (SUV 2.8) and retroperitoneal nodes (SUV 5). |
PMC2430011_fig4_24360.jpg | What is the core subject represented in this visual? |
PET-CT fusion imaging. (a) Residual uptake
in the peritoneal implants after 2 cycles of therapy, SUV 3. (b) No evidence of
FDG avid disease after cytoreductive therapy. (c) Relapse in the perihepatic
space including dome of the liver (SUV 2.8) and retroperitoneal nodes (SUV 5). |
PMC2430174_fig6_24365.jpg | What is the core subject represented in this visual? | Three-color imaging with NV Jade, Red, and Maroon allows excellent resolution of thin fibers and discrete nerve tracts in near-adult murine brain. Nerve tracts projecting from one region of mature brain to another were labeled with NV Jade (green pseudocolor), NV Red (red pseudocolor) or NV Maroon (blue pseudocolor) an... |
PMC2430174_fig6_24367.jpg | What is the dominant medical problem in this image? | Three-color imaging with NV Jade, Red, and Maroon allows excellent resolution of thin fibers and discrete nerve tracts in near-adult murine brain. Nerve tracts projecting from one region of mature brain to another were labeled with NV Jade (green pseudocolor), NV Red (red pseudocolor) or NV Maroon (blue pseudocolor) an... |
PMC2430174_fig6_24366.jpg | What is shown in this image? | Three-color imaging with NV Jade, Red, and Maroon allows excellent resolution of thin fibers and discrete nerve tracts in near-adult murine brain. Nerve tracts projecting from one region of mature brain to another were labeled with NV Jade (green pseudocolor), NV Red (red pseudocolor) or NV Maroon (blue pseudocolor) an... |
PMC2430177_fig2_24368.jpg | What is the dominant medical problem in this image? | Representative anterior segment photograph of O. anthropi endophthalmitis. The photograph shows hypopyon, corneal edema, intraocular fibrin, and capsular white materials. |
PMC2430200_F1_24373.jpg | What is shown in this image? | Axial CT scans. (A, B) Images of upper mediastinum show pseudoaneurysm with periaortic infiltration (white arrow). |
PMC2430200_F1_24372.jpg | What object or scene is depicted here? | Axial CT scans. (A, B) Images of upper mediastinum show pseudoaneurysm with periaortic infiltration (white arrow). |
PMC2430223_f1-ehp0116-000703_24375.jpg | What can you see in this picture? | Micro-XRF element maps of hyperplastic epidermis taken from the skin of a mouse exposed to UVR and As(III) for 182 days. Dashed lines in upper right corners demarcate the boundary between epidermis and a tiny amount of dermis. Abbreviations: Max, maximum; Min, minimum. A phase-contrast image in the central panel shows ... |
PMC2430223_f1-ehp0116-000703_24376.jpg | What is being portrayed in this visual content? | Micro-XRF element maps of hyperplastic epidermis taken from the skin of a mouse exposed to UVR and As(III) for 182 days. Dashed lines in upper right corners demarcate the boundary between epidermis and a tiny amount of dermis. Abbreviations: Max, maximum; Min, minimum. A phase-contrast image in the central panel shows ... |
PMC2430223_f1-ehp0116-000703_24378.jpg | What does this image primarily show? | Micro-XRF element maps of hyperplastic epidermis taken from the skin of a mouse exposed to UVR and As(III) for 182 days. Dashed lines in upper right corners demarcate the boundary between epidermis and a tiny amount of dermis. Abbreviations: Max, maximum; Min, minimum. A phase-contrast image in the central panel shows ... |
PMC2430223_f1-ehp0116-000703_24380.jpg | Can you identify the primary element in this image? | Micro-XRF element maps of hyperplastic epidermis taken from the skin of a mouse exposed to UVR and As(III) for 182 days. Dashed lines in upper right corners demarcate the boundary between epidermis and a tiny amount of dermis. Abbreviations: Max, maximum; Min, minimum. A phase-contrast image in the central panel shows ... |
PMC2430223_f1-ehp0116-000703_24379.jpg | What is the dominant medical problem in this image? | Micro-XRF element maps of hyperplastic epidermis taken from the skin of a mouse exposed to UVR and As(III) for 182 days. Dashed lines in upper right corners demarcate the boundary between epidermis and a tiny amount of dermis. Abbreviations: Max, maximum; Min, minimum. A phase-contrast image in the central panel shows ... |
PMC2430223_f1-ehp0116-000703_24377.jpg | What is the core subject represented in this visual? | Micro-XRF element maps of hyperplastic epidermis taken from the skin of a mouse exposed to UVR and As(III) for 182 days. Dashed lines in upper right corners demarcate the boundary between epidermis and a tiny amount of dermis. Abbreviations: Max, maximum; Min, minimum. A phase-contrast image in the central panel shows ... |
PMC2430223_f1-ehp0116-000703_24374.jpg | What is the main focus of this visual representation? | Micro-XRF element maps of hyperplastic epidermis taken from the skin of a mouse exposed to UVR and As(III) for 182 days. Dashed lines in upper right corners demarcate the boundary between epidermis and a tiny amount of dermis. Abbreviations: Max, maximum; Min, minimum. A phase-contrast image in the central panel shows ... |
PMC2430223_f3-ehp0116-000703_24384.jpg | What can you see in this picture? | Micro-XRF element maps showing the distribution of As, Se, and Zn within the skin of a mouse exposed to UVR + As(III) for 182 days. Dashed lines demarcate the boundary between the epidermis (left) and the dermis (right). The highest concentrations of As are seen as a diffuse green line on the epidermal side of the dema... |
PMC2430223_f3-ehp0116-000703_24387.jpg | Describe the main subject of this image. | Micro-XRF element maps showing the distribution of As, Se, and Zn within the skin of a mouse exposed to UVR + As(III) for 182 days. Dashed lines demarcate the boundary between the epidermis (left) and the dermis (right). The highest concentrations of As are seen as a diffuse green line on the epidermal side of the dema... |
PMC2430223_f3-ehp0116-000703_24386.jpg | What can you see in this picture? | Micro-XRF element maps showing the distribution of As, Se, and Zn within the skin of a mouse exposed to UVR + As(III) for 182 days. Dashed lines demarcate the boundary between the epidermis (left) and the dermis (right). The highest concentrations of As are seen as a diffuse green line on the epidermal side of the dema... |
PMC2430223_f3-ehp0116-000703_24385.jpg | What can you see in this picture? | Micro-XRF element maps showing the distribution of As, Se, and Zn within the skin of a mouse exposed to UVR + As(III) for 182 days. Dashed lines demarcate the boundary between the epidermis (left) and the dermis (right). The highest concentrations of As are seen as a diffuse green line on the epidermal side of the dema... |
PMC2430223_f3-ehp0116-000703_24383.jpg | What is the focal point of this photograph? | Micro-XRF element maps showing the distribution of As, Se, and Zn within the skin of a mouse exposed to UVR + As(III) for 182 days. Dashed lines demarcate the boundary between the epidermis (left) and the dermis (right). The highest concentrations of As are seen as a diffuse green line on the epidermal side of the dema... |
PMC2430527_pone-0002550-g002_24388.jpg | Can you identify the primary element in this image? | Multiple exposure of a worm performing enhanced swimming in an agar post array.(a) The picture contains 10 time-lapse images taken at 5 Hz, with worms swimming right to left. Post diameter is 300 microns, post spacing is 475 microns center-to-center, and post height is 110 microns. Starting at post 1, worm then contact... |
PMC2430546_F5_24393.jpg | What is shown in this image? | Patient 1. Tumor necrosis was observed on the whole length of the tumor, except at the proximal part where necrosis appeared to be incomplete. (a) Control endoscopy 8 days after the treatment. The necrosis was pushed distally with the endoscope. T, remaining tumor. N, Tumor necrosis. (b) EUS examination 8 days after th... |
PMC2430546_F5_24392.jpg | What is the focal point of this photograph? | Patient 1. Tumor necrosis was observed on the whole length of the tumor, except at the proximal part where necrosis appeared to be incomplete. (a) Control endoscopy 8 days after the treatment. The necrosis was pushed distally with the endoscope. T, remaining tumor. N, Tumor necrosis. (b) EUS examination 8 days after th... |
PMC2430546_F6_24390.jpg | What is the central feature of this picture? | Patient 2. Control endoscopy of the esophageal tumor. (a) before and (b) 10 days after the treatment. |
PMC2430546_F6_24391.jpg | What is the core subject represented in this visual? | Patient 2. Control endoscopy of the esophageal tumor. (a) before and (b) 10 days after the treatment. |
PMC2430549_F1_24399.jpg | What's the most prominent thing you notice in this picture? | Electron micrographs of: A, Icosahedral phage particles (arrows) associated with a Xylella fastidosa cell; B, Icosahedral phage particles showing a "ridge" on the surface (arrow); C, Particles of phage CP2 from Xanthomonas citri subsp. citri. Long arrow, a surface "ridge" ; Short arrow, a short tail; D, Small type of i... |
PMC2430549_F1_24397.jpg | What is the dominant medical problem in this image? | Electron micrographs of: A, Icosahedral phage particles (arrows) associated with a Xylella fastidosa cell; B, Icosahedral phage particles showing a "ridge" on the surface (arrow); C, Particles of phage CP2 from Xanthomonas citri subsp. citri. Long arrow, a surface "ridge" ; Short arrow, a short tail; D, Small type of i... |
PMC2430549_F1_24396.jpg | What does this image primarily show? | Electron micrographs of: A, Icosahedral phage particles (arrows) associated with a Xylella fastidosa cell; B, Icosahedral phage particles showing a "ridge" on the surface (arrow); C, Particles of phage CP2 from Xanthomonas citri subsp. citri. Long arrow, a surface "ridge" ; Short arrow, a short tail; D, Small type of i... |
PMC2430549_F1_24395.jpg | What is the dominant medical problem in this image? | Electron micrographs of: A, Icosahedral phage particles (arrows) associated with a Xylella fastidosa cell; B, Icosahedral phage particles showing a "ridge" on the surface (arrow); C, Particles of phage CP2 from Xanthomonas citri subsp. citri. Long arrow, a surface "ridge" ; Short arrow, a short tail; D, Small type of i... |
PMC2430549_F1_24398.jpg | Can you identify the primary element in this image? | Electron micrographs of: A, Icosahedral phage particles (arrows) associated with a Xylella fastidosa cell; B, Icosahedral phage particles showing a "ridge" on the surface (arrow); C, Particles of phage CP2 from Xanthomonas citri subsp. citri. Long arrow, a surface "ridge" ; Short arrow, a short tail; D, Small type of i... |
PMC2430549_F1_24394.jpg | Describe the main subject of this image. | Electron micrographs of: A, Icosahedral phage particles (arrows) associated with a Xylella fastidosa cell; B, Icosahedral phage particles showing a "ridge" on the surface (arrow); C, Particles of phage CP2 from Xanthomonas citri subsp. citri. Long arrow, a surface "ridge" ; Short arrow, a short tail; D, Small type of i... |
PMC2430587_F3_24403.jpg | What is shown in this image? | Histological analyses of tumors produced by transformed MCF10A cells in nude mice. The first row from the top shows neovascularity in the peritumoral stroma of a large tumor formed by transformed MCF10A cells in nude mice.A. Positive immunoreactivity with anti-CD31 antibody (DAB chromagen) from tumors formed in nude mi... |
PMC2430587_F3_24404.jpg | What stands out most in this visual? | Histological analyses of tumors produced by transformed MCF10A cells in nude mice. The first row from the top shows neovascularity in the peritumoral stroma of a large tumor formed by transformed MCF10A cells in nude mice.A. Positive immunoreactivity with anti-CD31 antibody (DAB chromagen) from tumors formed in nude mi... |
PMC2430587_F3_24400.jpg | What's the most prominent thing you notice in this picture? | Histological analyses of tumors produced by transformed MCF10A cells in nude mice. The first row from the top shows neovascularity in the peritumoral stroma of a large tumor formed by transformed MCF10A cells in nude mice.A. Positive immunoreactivity with anti-CD31 antibody (DAB chromagen) from tumors formed in nude mi... |
PMC2430587_F3_24406.jpg | What is being portrayed in this visual content? | Histological analyses of tumors produced by transformed MCF10A cells in nude mice. The first row from the top shows neovascularity in the peritumoral stroma of a large tumor formed by transformed MCF10A cells in nude mice.A. Positive immunoreactivity with anti-CD31 antibody (DAB chromagen) from tumors formed in nude mi... |
PMC2430587_F3_24401.jpg | What is the main focus of this visual representation? | Histological analyses of tumors produced by transformed MCF10A cells in nude mice. The first row from the top shows neovascularity in the peritumoral stroma of a large tumor formed by transformed MCF10A cells in nude mice.A. Positive immunoreactivity with anti-CD31 antibody (DAB chromagen) from tumors formed in nude mi... |
PMC2430587_F3_24405.jpg | What is the dominant medical problem in this image? | Histological analyses of tumors produced by transformed MCF10A cells in nude mice. The first row from the top shows neovascularity in the peritumoral stroma of a large tumor formed by transformed MCF10A cells in nude mice.A. Positive immunoreactivity with anti-CD31 antibody (DAB chromagen) from tumors formed in nude mi... |
PMC2430707_F1_24408.jpg | What is the focal point of this photograph? | A computed tomography scan showing a right renal mass present on the ventral aspect of the kidney away from the hilar region (arrow). |
PMC2430707_F2_24416.jpg | Describe the main subject of this image. | Histological features of a schwannoma. This is a spindle cell lesion surrounded by a rim of lymphocytes (A), ×100. The lesion is composed of fascicles of bland spindle cells (B), magnification ×600. There are aggregates of foamy histiocytes (C), magnification ×400. Thick-walled blood vessels are focally present (D), ma... |
PMC2430707_F2_24418.jpg | What does this image primarily show? | Histological features of a schwannoma. This is a spindle cell lesion surrounded by a rim of lymphocytes (A), ×100. The lesion is composed of fascicles of bland spindle cells (B), magnification ×600. There are aggregates of foamy histiocytes (C), magnification ×400. Thick-walled blood vessels are focally present (D), ma... |
PMC2430707_F2_24411.jpg | What is the dominant medical problem in this image? | Histological features of a schwannoma. This is a spindle cell lesion surrounded by a rim of lymphocytes (A), ×100. The lesion is composed of fascicles of bland spindle cells (B), magnification ×600. There are aggregates of foamy histiocytes (C), magnification ×400. Thick-walled blood vessels are focally present (D), ma... |
PMC2430707_F2_24419.jpg | Describe the main subject of this image. | Histological features of a schwannoma. This is a spindle cell lesion surrounded by a rim of lymphocytes (A), ×100. The lesion is composed of fascicles of bland spindle cells (B), magnification ×600. There are aggregates of foamy histiocytes (C), magnification ×400. Thick-walled blood vessels are focally present (D), ma... |
PMC2430707_F2_24414.jpg | What can you see in this picture? | Histological features of a schwannoma. This is a spindle cell lesion surrounded by a rim of lymphocytes (A), ×100. The lesion is composed of fascicles of bland spindle cells (B), magnification ×600. There are aggregates of foamy histiocytes (C), magnification ×400. Thick-walled blood vessels are focally present (D), ma... |
PMC2430707_F2_24417.jpg | What is the dominant medical problem in this image? | Histological features of a schwannoma. This is a spindle cell lesion surrounded by a rim of lymphocytes (A), ×100. The lesion is composed of fascicles of bland spindle cells (B), magnification ×600. There are aggregates of foamy histiocytes (C), magnification ×400. Thick-walled blood vessels are focally present (D), ma... |
PMC2430707_F2_24412.jpg | What is being portrayed in this visual content? | Histological features of a schwannoma. This is a spindle cell lesion surrounded by a rim of lymphocytes (A), ×100. The lesion is composed of fascicles of bland spindle cells (B), magnification ×600. There are aggregates of foamy histiocytes (C), magnification ×400. Thick-walled blood vessels are focally present (D), ma... |
PMC2430708_F1_24409.jpg | What is the principal component of this image? | Glomerulus demonstrating increased mesangial cellularity and endocapillary proliferation. |
PMC2430708_F3_24410.jpg | What is the main focus of this visual representation? | Computed tomography scan of the head demonstrating left internal capsule haemorrhage. |
PMC2430719_F1_24423.jpg | What's the most prominent thing you notice in this picture? | Overexpression of Vav3 in human breast cancer. (A) The normal breast epithelial cells reveal negative immunoreactivity for Vav3 (200× magnification). Breast adenocarcinomas with well-differentiation (B), moderately differentiation(C), and poorly differentiation (D) show positive immunoreactivity (brown staining) for Va... |
PMC2430719_F1_24420.jpg | What does this image primarily show? | Overexpression of Vav3 in human breast cancer. (A) The normal breast epithelial cells reveal negative immunoreactivity for Vav3 (200× magnification). Breast adenocarcinomas with well-differentiation (B), moderately differentiation(C), and poorly differentiation (D) show positive immunoreactivity (brown staining) for Va... |
PMC2430772_fig2_24434.jpg | What can you see in this picture? | Nat2 protein distribution and enzymatic activity at embryonic day 11.5. (A) Nat2−/− embryo at e 11.5, x-gal stained and prepared as whole mount. Panels show x-gal stain in transverse sections at the level of the heart (plane indicated on whole-mount preparation) in Nat2−/− and Nat2+/+ siblings; blue x-gal staining in t... |
PMC2430772_fig2_24428.jpg | Describe the main subject of this image. | Nat2 protein distribution and enzymatic activity at embryonic day 11.5. (A) Nat2−/− embryo at e 11.5, x-gal stained and prepared as whole mount. Panels show x-gal stain in transverse sections at the level of the heart (plane indicated on whole-mount preparation) in Nat2−/− and Nat2+/+ siblings; blue x-gal staining in t... |
PMC2430772_fig2_24425.jpg | What does this image primarily show? | Nat2 protein distribution and enzymatic activity at embryonic day 11.5. (A) Nat2−/− embryo at e 11.5, x-gal stained and prepared as whole mount. Panels show x-gal stain in transverse sections at the level of the heart (plane indicated on whole-mount preparation) in Nat2−/− and Nat2+/+ siblings; blue x-gal staining in t... |
PMC2430772_fig2_24427.jpg | What is the main focus of this visual representation? | Nat2 protein distribution and enzymatic activity at embryonic day 11.5. (A) Nat2−/− embryo at e 11.5, x-gal stained and prepared as whole mount. Panels show x-gal stain in transverse sections at the level of the heart (plane indicated on whole-mount preparation) in Nat2−/− and Nat2+/+ siblings; blue x-gal staining in t... |
PMC2430772_fig2_24424.jpg | What object or scene is depicted here? | Nat2 protein distribution and enzymatic activity at embryonic day 11.5. (A) Nat2−/− embryo at e 11.5, x-gal stained and prepared as whole mount. Panels show x-gal stain in transverse sections at the level of the heart (plane indicated on whole-mount preparation) in Nat2−/− and Nat2+/+ siblings; blue x-gal staining in t... |
PMC2430772_fig2_24430.jpg | What is being portrayed in this visual content? | Nat2 protein distribution and enzymatic activity at embryonic day 11.5. (A) Nat2−/− embryo at e 11.5, x-gal stained and prepared as whole mount. Panels show x-gal stain in transverse sections at the level of the heart (plane indicated on whole-mount preparation) in Nat2−/− and Nat2+/+ siblings; blue x-gal staining in t... |
PMC2430772_fig2_24429.jpg | What is the central feature of this picture? | Nat2 protein distribution and enzymatic activity at embryonic day 11.5. (A) Nat2−/− embryo at e 11.5, x-gal stained and prepared as whole mount. Panels show x-gal stain in transverse sections at the level of the heart (plane indicated on whole-mount preparation) in Nat2−/− and Nat2+/+ siblings; blue x-gal staining in t... |
PMC2430901_pbio-0060114-g006_24435.jpg | What is the dominant medical problem in this image? | Intracellular Viral Factories and DNA Packaging(A) TEM of an intracellular viral factory, revealing Mimivirus particles at various assembly stages. Empty, fiber-less particles at initial assembly stages, appearing at close vicinity to the periphery of the viral factory (purple arrowheads); partially assembled empty, fi... |
PMC2430901_pbio-0060114-g006_24437.jpg | What is the core subject represented in this visual? | Intracellular Viral Factories and DNA Packaging(A) TEM of an intracellular viral factory, revealing Mimivirus particles at various assembly stages. Empty, fiber-less particles at initial assembly stages, appearing at close vicinity to the periphery of the viral factory (purple arrowheads); partially assembled empty, fi... |
PMC2430948_F4_24440.jpg | What does this image primarily show? | c-Fos expressing cells in the superficial layers of the dorsal horn after electrical stimulation of the ipsilateral PVN. A: Labeled c-Fos positive nuclei were localized in the most superficial layers i.e. lamina I and outer lamina II (IIo). B: Double immunoperoxidase labeling with an antibody against NpOT showed NpOT p... |
PMC2430948_F4_24439.jpg | What is shown in this image? | c-Fos expressing cells in the superficial layers of the dorsal horn after electrical stimulation of the ipsilateral PVN. A: Labeled c-Fos positive nuclei were localized in the most superficial layers i.e. lamina I and outer lamina II (IIo). B: Double immunoperoxidase labeling with an antibody against NpOT showed NpOT p... |
PMC2430948_F4_24438.jpg | What can you see in this picture? | c-Fos expressing cells in the superficial layers of the dorsal horn after electrical stimulation of the ipsilateral PVN. A: Labeled c-Fos positive nuclei were localized in the most superficial layers i.e. lamina I and outer lamina II (IIo). B: Double immunoperoxidase labeling with an antibody against NpOT showed NpOT p... |
PMC2430954_F5_24450.jpg | What's the most prominent thing you notice in this picture? | Default display of an MRI stored as signed short. All transverse slices are displayed by default with the full possible short (16-bit) data range mapped to a 256 grey level color map. The maximum value of 32,767 maps to white and the minimum value -32,768 maps to black. Zero maps to the mid grey value which is why the ... |
PMC2430954_F5_24451.jpg | What is the main focus of this visual representation? | Default display of an MRI stored as signed short. All transverse slices are displayed by default with the full possible short (16-bit) data range mapped to a 256 grey level color map. The maximum value of 32,767 maps to white and the minimum value -32,768 maps to black. Zero maps to the mid grey value which is why the ... |
PMC2430954_F5_24460.jpg | What is the core subject represented in this visual? | Default display of an MRI stored as signed short. All transverse slices are displayed by default with the full possible short (16-bit) data range mapped to a 256 grey level color map. The maximum value of 32,767 maps to white and the minimum value -32,768 maps to black. Zero maps to the mid grey value which is why the ... |
PMC2430954_F5_24462.jpg | What is being portrayed in this visual content? | Default display of an MRI stored as signed short. All transverse slices are displayed by default with the full possible short (16-bit) data range mapped to a 256 grey level color map. The maximum value of 32,767 maps to white and the minimum value -32,768 maps to black. Zero maps to the mid grey value which is why the ... |
PMC2430954_F5_24443.jpg | What is the focal point of this photograph? | Default display of an MRI stored as signed short. All transverse slices are displayed by default with the full possible short (16-bit) data range mapped to a 256 grey level color map. The maximum value of 32,767 maps to white and the minimum value -32,768 maps to black. Zero maps to the mid grey value which is why the ... |
PMC2430954_F5_24458.jpg | What is the main focus of this visual representation? | Default display of an MRI stored as signed short. All transverse slices are displayed by default with the full possible short (16-bit) data range mapped to a 256 grey level color map. The maximum value of 32,767 maps to white and the minimum value -32,768 maps to black. Zero maps to the mid grey value which is why the ... |
PMC2430954_F5_24456.jpg | What is shown in this image? | Default display of an MRI stored as signed short. All transverse slices are displayed by default with the full possible short (16-bit) data range mapped to a 256 grey level color map. The maximum value of 32,767 maps to white and the minimum value -32,768 maps to black. Zero maps to the mid grey value which is why the ... |
PMC2430954_F5_24453.jpg | What object or scene is depicted here? | Default display of an MRI stored as signed short. All transverse slices are displayed by default with the full possible short (16-bit) data range mapped to a 256 grey level color map. The maximum value of 32,767 maps to white and the minimum value -32,768 maps to black. Zero maps to the mid grey value which is why the ... |
PMC2430954_F5_24459.jpg | What is the central feature of this picture? | Default display of an MRI stored as signed short. All transverse slices are displayed by default with the full possible short (16-bit) data range mapped to a 256 grey level color map. The maximum value of 32,767 maps to white and the minimum value -32,768 maps to black. Zero maps to the mid grey value which is why the ... |
PMC2430954_F5_24449.jpg | What's the most prominent thing you notice in this picture? | Default display of an MRI stored as signed short. All transverse slices are displayed by default with the full possible short (16-bit) data range mapped to a 256 grey level color map. The maximum value of 32,767 maps to white and the minimum value -32,768 maps to black. Zero maps to the mid grey value which is why the ... |
PMC2430954_F5_24457.jpg | What key item or scene is captured in this photo? | Default display of an MRI stored as signed short. All transverse slices are displayed by default with the full possible short (16-bit) data range mapped to a 256 grey level color map. The maximum value of 32,767 maps to white and the minimum value -32,768 maps to black. Zero maps to the mid grey value which is why the ... |
PMC2430954_F5_24448.jpg | What is being portrayed in this visual content? | Default display of an MRI stored as signed short. All transverse slices are displayed by default with the full possible short (16-bit) data range mapped to a 256 grey level color map. The maximum value of 32,767 maps to white and the minimum value -32,768 maps to black. Zero maps to the mid grey value which is why the ... |
PMC2430954_F5_24452.jpg | What is the principal component of this image? | Default display of an MRI stored as signed short. All transverse slices are displayed by default with the full possible short (16-bit) data range mapped to a 256 grey level color map. The maximum value of 32,767 maps to white and the minimum value -32,768 maps to black. Zero maps to the mid grey value which is why the ... |
PMC2430954_F5_24444.jpg | What is shown in this image? | Default display of an MRI stored as signed short. All transverse slices are displayed by default with the full possible short (16-bit) data range mapped to a 256 grey level color map. The maximum value of 32,767 maps to white and the minimum value -32,768 maps to black. Zero maps to the mid grey value which is why the ... |
PMC2430954_F5_24445.jpg | What is shown in this image? | Default display of an MRI stored as signed short. All transverse slices are displayed by default with the full possible short (16-bit) data range mapped to a 256 grey level color map. The maximum value of 32,767 maps to white and the minimum value -32,768 maps to black. Zero maps to the mid grey value which is why the ... |
PMC2430954_F5_24447.jpg | What is the principal component of this image? | Default display of an MRI stored as signed short. All transverse slices are displayed by default with the full possible short (16-bit) data range mapped to a 256 grey level color map. The maximum value of 32,767 maps to white and the minimum value -32,768 maps to black. Zero maps to the mid grey value which is why the ... |
PMC2430954_F5_24461.jpg | What is the principal component of this image? | Default display of an MRI stored as signed short. All transverse slices are displayed by default with the full possible short (16-bit) data range mapped to a 256 grey level color map. The maximum value of 32,767 maps to white and the minimum value -32,768 maps to black. Zero maps to the mid grey value which is why the ... |
PMC2430954_F5_24454.jpg | What is the main focus of this visual representation? | Default display of an MRI stored as signed short. All transverse slices are displayed by default with the full possible short (16-bit) data range mapped to a 256 grey level color map. The maximum value of 32,767 maps to white and the minimum value -32,768 maps to black. Zero maps to the mid grey value which is why the ... |
PMC2430954_F6_24464.jpg | What object or scene is depicted here? | This shows orthogonal views of an MRI with a transverse view on the left, coronal view on top right, and sagittal view on bottom right. The transverse view is zoomed 1.5 times as large as the others. White crosshairs call out the same voxel in each view. A show point display line object at the bottom displays voxel inf... |
PMC2430954_F6_24465.jpg | What can you see in this picture? | This shows orthogonal views of an MRI with a transverse view on the left, coronal view on top right, and sagittal view on bottom right. The transverse view is zoomed 1.5 times as large as the others. White crosshairs call out the same voxel in each view. A show point display line object at the bottom displays voxel inf... |
PMC2430954_F6_24466.jpg | What is the focal point of this photograph? | This shows orthogonal views of an MRI with a transverse view on the left, coronal view on top right, and sagittal view on bottom right. The transverse view is zoomed 1.5 times as large as the others. White crosshairs call out the same voxel in each view. A show point display line object at the bottom displays voxel inf... |
PMC2430954_F6_24463.jpg | What's the most prominent thing you notice in this picture? | This shows orthogonal views of an MRI with a transverse view on the left, coronal view on top right, and sagittal view on bottom right. The transverse view is zoomed 1.5 times as large as the others. White crosshairs call out the same voxel in each view. A show point display line object at the bottom displays voxel inf... |
PMC2430954_F9_24471.jpg | What is the main focus of this visual representation? | The top 3 images show orthogonal views of raw PET data. The bottom 8 images show the same data converted to 3D stereotactic surface projections by NEUROSTAT software [20]. The surfaces are shown with both gray and pseudo color tables to highlight the influence of color on contrast. Solid crosshairs indicate an image is... |
PMC2430954_F9_24473.jpg | Describe the main subject of this image. | The top 3 images show orthogonal views of raw PET data. The bottom 8 images show the same data converted to 3D stereotactic surface projections by NEUROSTAT software [20]. The surfaces are shown with both gray and pseudo color tables to highlight the influence of color on contrast. Solid crosshairs indicate an image is... |
PMC2430954_F9_24469.jpg | What is being portrayed in this visual content? | The top 3 images show orthogonal views of raw PET data. The bottom 8 images show the same data converted to 3D stereotactic surface projections by NEUROSTAT software [20]. The surfaces are shown with both gray and pseudo color tables to highlight the influence of color on contrast. Solid crosshairs indicate an image is... |
PMC2430954_F9_24467.jpg | What is the principal component of this image? | The top 3 images show orthogonal views of raw PET data. The bottom 8 images show the same data converted to 3D stereotactic surface projections by NEUROSTAT software [20]. The surfaces are shown with both gray and pseudo color tables to highlight the influence of color on contrast. Solid crosshairs indicate an image is... |
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