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PMC1964759_F5_13505.jpg | Can you identify the primary element in this image? | Co-localisation of Hydra 14-3-3 proteins with tubulin and actin. (a, b) right hand panel shows schematic drawings of an epithelial cell (a) and a nerve cell (b) in hydra macerates that were stained with anti-tubulin (green, left hand panel) and anti-14-3-3 antibodies (second panel from left). Single optical sections af... |
PMC1964759_F5_13511.jpg | What stands out most in this visual? | Co-localisation of Hydra 14-3-3 proteins with tubulin and actin. (a, b) right hand panel shows schematic drawings of an epithelial cell (a) and a nerve cell (b) in hydra macerates that were stained with anti-tubulin (green, left hand panel) and anti-14-3-3 antibodies (second panel from left). Single optical sections af... |
PMC1964759_F5_13508.jpg | What is the central feature of this picture? | Co-localisation of Hydra 14-3-3 proteins with tubulin and actin. (a, b) right hand panel shows schematic drawings of an epithelial cell (a) and a nerve cell (b) in hydra macerates that were stained with anti-tubulin (green, left hand panel) and anti-14-3-3 antibodies (second panel from left). Single optical sections af... |
PMC1964759_F5_13512.jpg | What does this image primarily show? | Co-localisation of Hydra 14-3-3 proteins with tubulin and actin. (a, b) right hand panel shows schematic drawings of an epithelial cell (a) and a nerve cell (b) in hydra macerates that were stained with anti-tubulin (green, left hand panel) and anti-14-3-3 antibodies (second panel from left). Single optical sections af... |
PMC1964759_F5_13506.jpg | What does this image primarily show? | Co-localisation of Hydra 14-3-3 proteins with tubulin and actin. (a, b) right hand panel shows schematic drawings of an epithelial cell (a) and a nerve cell (b) in hydra macerates that were stained with anti-tubulin (green, left hand panel) and anti-14-3-3 antibodies (second panel from left). Single optical sections af... |
PMC1964759_F5_13509.jpg | What is the principal component of this image? | Co-localisation of Hydra 14-3-3 proteins with tubulin and actin. (a, b) right hand panel shows schematic drawings of an epithelial cell (a) and a nerve cell (b) in hydra macerates that were stained with anti-tubulin (green, left hand panel) and anti-14-3-3 antibodies (second panel from left). Single optical sections af... |
PMC1964759_F5_13515.jpg | What is the focal point of this photograph? | Co-localisation of Hydra 14-3-3 proteins with tubulin and actin. (a, b) right hand panel shows schematic drawings of an epithelial cell (a) and a nerve cell (b) in hydra macerates that were stained with anti-tubulin (green, left hand panel) and anti-14-3-3 antibodies (second panel from left). Single optical sections af... |
PMC1964759_F5_13516.jpg | What can you see in this picture? | Co-localisation of Hydra 14-3-3 proteins with tubulin and actin. (a, b) right hand panel shows schematic drawings of an epithelial cell (a) and a nerve cell (b) in hydra macerates that were stained with anti-tubulin (green, left hand panel) and anti-14-3-3 antibodies (second panel from left). Single optical sections af... |
PMC1964761_F2_13498.jpg | What is the dominant medical problem in this image? | Anti-p-Stat3 immunohistochemistry shows that Stat3 phosphorylation is elevated in other soft-tissue sarcomas. (A) neurofibroma, (B) synovial sarcoma, (C) neurilemmoma, (D) angio sarcoma, (E) myxoid liposarcoma, (F) malignant fibrous histiocytoma, (G) myxoid malignant fibrous histocytoma, (H) hemagiopericytoma. The nucl... |
PMC1964761_F2_13503.jpg | Describe the main subject of this image. | Anti-p-Stat3 immunohistochemistry shows that Stat3 phosphorylation is elevated in other soft-tissue sarcomas. (A) neurofibroma, (B) synovial sarcoma, (C) neurilemmoma, (D) angio sarcoma, (E) myxoid liposarcoma, (F) malignant fibrous histiocytoma, (G) myxoid malignant fibrous histocytoma, (H) hemagiopericytoma. The nucl... |
PMC1964761_F2_13501.jpg | What is the central feature of this picture? | Anti-p-Stat3 immunohistochemistry shows that Stat3 phosphorylation is elevated in other soft-tissue sarcomas. (A) neurofibroma, (B) synovial sarcoma, (C) neurilemmoma, (D) angio sarcoma, (E) myxoid liposarcoma, (F) malignant fibrous histiocytoma, (G) myxoid malignant fibrous histocytoma, (H) hemagiopericytoma. The nucl... |
PMC1964761_F2_13502.jpg | What is being portrayed in this visual content? | Anti-p-Stat3 immunohistochemistry shows that Stat3 phosphorylation is elevated in other soft-tissue sarcomas. (A) neurofibroma, (B) synovial sarcoma, (C) neurilemmoma, (D) angio sarcoma, (E) myxoid liposarcoma, (F) malignant fibrous histiocytoma, (G) myxoid malignant fibrous histocytoma, (H) hemagiopericytoma. The nucl... |
PMC1964761_F2_13500.jpg | What object or scene is depicted here? | Anti-p-Stat3 immunohistochemistry shows that Stat3 phosphorylation is elevated in other soft-tissue sarcomas. (A) neurofibroma, (B) synovial sarcoma, (C) neurilemmoma, (D) angio sarcoma, (E) myxoid liposarcoma, (F) malignant fibrous histiocytoma, (G) myxoid malignant fibrous histocytoma, (H) hemagiopericytoma. The nucl... |
PMC1964761_F2_13499.jpg | What is the main focus of this visual representation? | Anti-p-Stat3 immunohistochemistry shows that Stat3 phosphorylation is elevated in other soft-tissue sarcomas. (A) neurofibroma, (B) synovial sarcoma, (C) neurilemmoma, (D) angio sarcoma, (E) myxoid liposarcoma, (F) malignant fibrous histiocytoma, (G) myxoid malignant fibrous histocytoma, (H) hemagiopericytoma. The nucl... |
PMC1964777_pbio-0050241-g003_13529.jpg | What is the core subject represented in this visual? | The Ipsilateral Retinogeniculate Projection Is Altered in Ten_m3 KO Mice(A–C) A caudal to rostral series of coronal sections through the dLGN of a 3.5-wk-old WT mouse showing the normal distribution of ipsilateral terminals in the dLGN following transport of fluorescent CTB from the eye. Ipsilateral projections consist... |
PMC1964777_pbio-0050241-g003_13523.jpg | What object or scene is depicted here? | The Ipsilateral Retinogeniculate Projection Is Altered in Ten_m3 KO Mice(A–C) A caudal to rostral series of coronal sections through the dLGN of a 3.5-wk-old WT mouse showing the normal distribution of ipsilateral terminals in the dLGN following transport of fluorescent CTB from the eye. Ipsilateral projections consist... |
PMC1964777_pbio-0050241-g003_13521.jpg | What stands out most in this visual? | The Ipsilateral Retinogeniculate Projection Is Altered in Ten_m3 KO Mice(A–C) A caudal to rostral series of coronal sections through the dLGN of a 3.5-wk-old WT mouse showing the normal distribution of ipsilateral terminals in the dLGN following transport of fluorescent CTB from the eye. Ipsilateral projections consist... |
PMC1964777_pbio-0050241-g003_13520.jpg | What is the central feature of this picture? | The Ipsilateral Retinogeniculate Projection Is Altered in Ten_m3 KO Mice(A–C) A caudal to rostral series of coronal sections through the dLGN of a 3.5-wk-old WT mouse showing the normal distribution of ipsilateral terminals in the dLGN following transport of fluorescent CTB from the eye. Ipsilateral projections consist... |
PMC1964777_pbio-0050241-g003_13531.jpg | What is the principal component of this image? | The Ipsilateral Retinogeniculate Projection Is Altered in Ten_m3 KO Mice(A–C) A caudal to rostral series of coronal sections through the dLGN of a 3.5-wk-old WT mouse showing the normal distribution of ipsilateral terminals in the dLGN following transport of fluorescent CTB from the eye. Ipsilateral projections consist... |
PMC1964777_pbio-0050241-g003_13522.jpg | What does this image primarily show? | The Ipsilateral Retinogeniculate Projection Is Altered in Ten_m3 KO Mice(A–C) A caudal to rostral series of coronal sections through the dLGN of a 3.5-wk-old WT mouse showing the normal distribution of ipsilateral terminals in the dLGN following transport of fluorescent CTB from the eye. Ipsilateral projections consist... |
PMC1964777_pbio-0050241-g003_13530.jpg | What is the main focus of this visual representation? | The Ipsilateral Retinogeniculate Projection Is Altered in Ten_m3 KO Mice(A–C) A caudal to rostral series of coronal sections through the dLGN of a 3.5-wk-old WT mouse showing the normal distribution of ipsilateral terminals in the dLGN following transport of fluorescent CTB from the eye. Ipsilateral projections consist... |
PMC1964777_pbio-0050241-g003_13528.jpg | What does this image primarily show? | The Ipsilateral Retinogeniculate Projection Is Altered in Ten_m3 KO Mice(A–C) A caudal to rostral series of coronal sections through the dLGN of a 3.5-wk-old WT mouse showing the normal distribution of ipsilateral terminals in the dLGN following transport of fluorescent CTB from the eye. Ipsilateral projections consist... |
PMC1964777_pbio-0050241-g003_13526.jpg | What key item or scene is captured in this photo? | The Ipsilateral Retinogeniculate Projection Is Altered in Ten_m3 KO Mice(A–C) A caudal to rostral series of coronal sections through the dLGN of a 3.5-wk-old WT mouse showing the normal distribution of ipsilateral terminals in the dLGN following transport of fluorescent CTB from the eye. Ipsilateral projections consist... |
PMC1964777_pbio-0050241-g003_13525.jpg | What is the focal point of this photograph? | The Ipsilateral Retinogeniculate Projection Is Altered in Ten_m3 KO Mice(A–C) A caudal to rostral series of coronal sections through the dLGN of a 3.5-wk-old WT mouse showing the normal distribution of ipsilateral terminals in the dLGN following transport of fluorescent CTB from the eye. Ipsilateral projections consist... |
PMC1964783_fig2_13537.jpg | What is the central feature of this picture? | Effects of ARF1 depletion on intracellular trafficking and cell morphology. (A) flow cytometry analysis of the uptake of Alexa-Fluor 488-conjugated dextran by the RNAi cell line 29-13/p2T7ARF1. Uninduced cells + dextran (red); uninduced cells + dextran + anti-488 (blue); cells induced for 96 h + dextran (green); cells ... |
PMC1964783_fig2_13536.jpg | What key item or scene is captured in this photo? | Effects of ARF1 depletion on intracellular trafficking and cell morphology. (A) flow cytometry analysis of the uptake of Alexa-Fluor 488-conjugated dextran by the RNAi cell line 29-13/p2T7ARF1. Uninduced cells + dextran (red); uninduced cells + dextran + anti-488 (blue); cells induced for 96 h + dextran (green); cells ... |
PMC1964783_fig2_13535.jpg | What is being portrayed in this visual content? | Effects of ARF1 depletion on intracellular trafficking and cell morphology. (A) flow cytometry analysis of the uptake of Alexa-Fluor 488-conjugated dextran by the RNAi cell line 29-13/p2T7ARF1. Uninduced cells + dextran (red); uninduced cells + dextran + anti-488 (blue); cells induced for 96 h + dextran (green); cells ... |
PMC1964783_fig2_13540.jpg | What is the central feature of this picture? | Effects of ARF1 depletion on intracellular trafficking and cell morphology. (A) flow cytometry analysis of the uptake of Alexa-Fluor 488-conjugated dextran by the RNAi cell line 29-13/p2T7ARF1. Uninduced cells + dextran (red); uninduced cells + dextran + anti-488 (blue); cells induced for 96 h + dextran (green); cells ... |
PMC1964783_fig2_13539.jpg | What stands out most in this visual? | Effects of ARF1 depletion on intracellular trafficking and cell morphology. (A) flow cytometry analysis of the uptake of Alexa-Fluor 488-conjugated dextran by the RNAi cell line 29-13/p2T7ARF1. Uninduced cells + dextran (red); uninduced cells + dextran + anti-488 (blue); cells induced for 96 h + dextran (green); cells ... |
PMC1964783_fig2_13538.jpg | What can you see in this picture? | Effects of ARF1 depletion on intracellular trafficking and cell morphology. (A) flow cytometry analysis of the uptake of Alexa-Fluor 488-conjugated dextran by the RNAi cell line 29-13/p2T7ARF1. Uninduced cells + dextran (red); uninduced cells + dextran + anti-488 (blue); cells induced for 96 h + dextran (green); cells ... |
PMC1964791_F3_13541.jpg | What is shown in this image? | Images of immunohistochemical staining of eotaxin-1 in colorectal tissue from patients with CRC. Eotaxin-1 expressing stromal cells in cancer (A) and normal (B) tissue. Magnification, × 200. |
PMC1964791_F3_13542.jpg | What is the core subject represented in this visual? | Images of immunohistochemical staining of eotaxin-1 in colorectal tissue from patients with CRC. Eotaxin-1 expressing stromal cells in cancer (A) and normal (B) tissue. Magnification, × 200. |
PMC1964887_f4-ehp0114-a00449_13544.jpg | What is the central feature of this picture? | A textile worker takes a break at dawn after sanding jeans all night at a clothing factory in Guangdong Province, China. The blue dust from the jeans is a heavy irritant to the lungs. The factory where this worker is employed uses a wear-and-tear process to achieve the fashionable distressed look for the approximately ... |
PMC1965466_F1_13547.jpg | What is the central feature of this picture? | MRI T2-weighted imaging: central low-signal-intensity due to the extinguished cystic membrane and a more hypointensive rim of the cyst due to wall calcification. |
PMC1965466_F3_13546.jpg | What is the focal point of this photograph? | Histology (stain hematoxylin and eosin; magnification ×200): necrotic material with calcified protoscolic. |
PMC1965470_F1_13556.jpg | What is the main focus of this visual representation? | Microspread oocytes from fetal mouse ovaries, demonstrating different appearances of axial elements and labelling for cleaved PARP-1 and TUNEL during meiotic prophase I. Red = COR1 immunodetection indicating the axial elements of oocyte chromosomes, used to determine the stage of meiotic prophase I. Blue = Cleaved PARP... |
PMC1965470_F1_13552.jpg | What does this image primarily show? | Microspread oocytes from fetal mouse ovaries, demonstrating different appearances of axial elements and labelling for cleaved PARP-1 and TUNEL during meiotic prophase I. Red = COR1 immunodetection indicating the axial elements of oocyte chromosomes, used to determine the stage of meiotic prophase I. Blue = Cleaved PARP... |
PMC1965470_F1_13551.jpg | What is the principal component of this image? | Microspread oocytes from fetal mouse ovaries, demonstrating different appearances of axial elements and labelling for cleaved PARP-1 and TUNEL during meiotic prophase I. Red = COR1 immunodetection indicating the axial elements of oocyte chromosomes, used to determine the stage of meiotic prophase I. Blue = Cleaved PARP... |
PMC1965470_F1_13550.jpg | What does this image primarily show? | Microspread oocytes from fetal mouse ovaries, demonstrating different appearances of axial elements and labelling for cleaved PARP-1 and TUNEL during meiotic prophase I. Red = COR1 immunodetection indicating the axial elements of oocyte chromosomes, used to determine the stage of meiotic prophase I. Blue = Cleaved PARP... |
PMC1965470_F1_13554.jpg | What key item or scene is captured in this photo? | Microspread oocytes from fetal mouse ovaries, demonstrating different appearances of axial elements and labelling for cleaved PARP-1 and TUNEL during meiotic prophase I. Red = COR1 immunodetection indicating the axial elements of oocyte chromosomes, used to determine the stage of meiotic prophase I. Blue = Cleaved PARP... |
PMC1965470_F1_13553.jpg | What is the principal component of this image? | Microspread oocytes from fetal mouse ovaries, demonstrating different appearances of axial elements and labelling for cleaved PARP-1 and TUNEL during meiotic prophase I. Red = COR1 immunodetection indicating the axial elements of oocyte chromosomes, used to determine the stage of meiotic prophase I. Blue = Cleaved PARP... |
PMC1965470_F1_13549.jpg | What is shown in this image? | Microspread oocytes from fetal mouse ovaries, demonstrating different appearances of axial elements and labelling for cleaved PARP-1 and TUNEL during meiotic prophase I. Red = COR1 immunodetection indicating the axial elements of oocyte chromosomes, used to determine the stage of meiotic prophase I. Blue = Cleaved PARP... |
PMC1965470_F1_13548.jpg | What is the main focus of this visual representation? | Microspread oocytes from fetal mouse ovaries, demonstrating different appearances of axial elements and labelling for cleaved PARP-1 and TUNEL during meiotic prophase I. Red = COR1 immunodetection indicating the axial elements of oocyte chromosomes, used to determine the stage of meiotic prophase I. Blue = Cleaved PARP... |
PMC1965480_F8_13560.jpg | Describe the main subject of this image. | Zebrafish Scn1ba_tv1 but not Scn1ba_tv2 is expressed in optic nerve. Sections generated from 13 dpf zebrafish were stained with anti-Scn1ba_tv1 or anti-Scn1ba_tv2 and anti-acetylated α-tubulin. A – C: Anti Scn1ba_tv1 (green), anti-acetylated α-tubulin (red). D – F: Anti-Scn1ba_tv2 (green), anti-acetylated α-tubulin (re... |
PMC1965480_F8_13558.jpg | What object or scene is depicted here? | Zebrafish Scn1ba_tv1 but not Scn1ba_tv2 is expressed in optic nerve. Sections generated from 13 dpf zebrafish were stained with anti-Scn1ba_tv1 or anti-Scn1ba_tv2 and anti-acetylated α-tubulin. A – C: Anti Scn1ba_tv1 (green), anti-acetylated α-tubulin (red). D – F: Anti-Scn1ba_tv2 (green), anti-acetylated α-tubulin (re... |
PMC1965480_F8_13557.jpg | What stands out most in this visual? | Zebrafish Scn1ba_tv1 but not Scn1ba_tv2 is expressed in optic nerve. Sections generated from 13 dpf zebrafish were stained with anti-Scn1ba_tv1 or anti-Scn1ba_tv2 and anti-acetylated α-tubulin. A – C: Anti Scn1ba_tv1 (green), anti-acetylated α-tubulin (red). D – F: Anti-Scn1ba_tv2 (green), anti-acetylated α-tubulin (re... |
PMC1965480_F8_13559.jpg | What object or scene is depicted here? | Zebrafish Scn1ba_tv1 but not Scn1ba_tv2 is expressed in optic nerve. Sections generated from 13 dpf zebrafish were stained with anti-Scn1ba_tv1 or anti-Scn1ba_tv2 and anti-acetylated α-tubulin. A – C: Anti Scn1ba_tv1 (green), anti-acetylated α-tubulin (red). D – F: Anti-Scn1ba_tv2 (green), anti-acetylated α-tubulin (re... |
PMC1971059_F3_13564.jpg | What does this image primarily show? | 4 hour 123I mIBG scan of both feet in Case 2. There is increased uptake of radionucleotide corresponding to the lesion on MRI. |
PMC1971061_F4_13565.jpg | What is shown in this image? | X-ray, cross-table lateral film with the baby in prone position. |
PMC1971127_pbio-0050242-g004_13566.jpg | What does this image primarily show? | Immunohistochemical Analysis of Collagen XXIX Expression in AD SkinCryostat sections (5μm thick) of an AD skin biopsy (A) and a normal human control (B) are shown. In normal, human skin, collagen XXIX is expressed in the epidermis. In patients with atopic dermatitis, a striking lack of collagen XXIX staining was observ... |
PMC1971127_pbio-0050242-g004_13567.jpg | What key item or scene is captured in this photo? | Immunohistochemical Analysis of Collagen XXIX Expression in AD SkinCryostat sections (5μm thick) of an AD skin biopsy (A) and a normal human control (B) are shown. In normal, human skin, collagen XXIX is expressed in the epidermis. In patients with atopic dermatitis, a striking lack of collagen XXIX staining was observ... |
PMC1971136_fig5_13569.jpg | Can you identify the primary element in this image? | Example of placement of ROI2. (a) A histopathological slice used to estimate quantitative histopathology in the gyral crown of the middle temporal gyrus, indicated in red (NeuN, 20 μm slice thickness). (b) The corresponding volume MRI slice with a line demarcating the resection. (c) Zoomed image of the right temporal l... |
PMC1971136_fig5_13568.jpg | What is the main focus of this visual representation? | Example of placement of ROI2. (a) A histopathological slice used to estimate quantitative histopathology in the gyral crown of the middle temporal gyrus, indicated in red (NeuN, 20 μm slice thickness). (b) The corresponding volume MRI slice with a line demarcating the resection. (c) Zoomed image of the right temporal l... |
PMC1971136_fig5_13570.jpg | What is the principal component of this image? | Example of placement of ROI2. (a) A histopathological slice used to estimate quantitative histopathology in the gyral crown of the middle temporal gyrus, indicated in red (NeuN, 20 μm slice thickness). (b) The corresponding volume MRI slice with a line demarcating the resection. (c) Zoomed image of the right temporal l... |
PMC1971136_fig5_13571.jpg | Can you identify the primary element in this image? | Example of placement of ROI2. (a) A histopathological slice used to estimate quantitative histopathology in the gyral crown of the middle temporal gyrus, indicated in red (NeuN, 20 μm slice thickness). (b) The corresponding volume MRI slice with a line demarcating the resection. (c) Zoomed image of the right temporal l... |
PMC1971136_fig5_13572.jpg | What is the principal component of this image? | Example of placement of ROI2. (a) A histopathological slice used to estimate quantitative histopathology in the gyral crown of the middle temporal gyrus, indicated in red (NeuN, 20 μm slice thickness). (b) The corresponding volume MRI slice with a line demarcating the resection. (c) Zoomed image of the right temporal l... |
PMC1971230_fig3_13574.jpg | What is the dominant medical problem in this image? | Microtubule Behavior at the Cell Cortex is Altered in EB3-Depleted Cells(A) Microtubule organization in C2C12 cells 3 days after transfection with shRNA constructs and after 52 hr under differentiation conditions. GFP-tubulin highlights the microtubule cytoskeleton in transfected cells. The insets show the cell edges o... |
PMC1971230_fig3_13573.jpg | What can you see in this picture? | Microtubule Behavior at the Cell Cortex is Altered in EB3-Depleted Cells(A) Microtubule organization in C2C12 cells 3 days after transfection with shRNA constructs and after 52 hr under differentiation conditions. GFP-tubulin highlights the microtubule cytoskeleton in transfected cells. The insets show the cell edges o... |
PMC1971230_fig3_13578.jpg | Describe the main subject of this image. | Microtubule Behavior at the Cell Cortex is Altered in EB3-Depleted Cells(A) Microtubule organization in C2C12 cells 3 days after transfection with shRNA constructs and after 52 hr under differentiation conditions. GFP-tubulin highlights the microtubule cytoskeleton in transfected cells. The insets show the cell edges o... |
PMC1971255_F2_13580.jpg | What does this image primarily show? | Angio-MRI (coronal section) of the supra-aortic vessels after injection of 20 cc of gadolinium in a woman aged 24 with EDS type IV, revealing a dissecting haematoma of the left internal carotid (black arrow), a bilateral dissection of the vertebral arteries in their V1 and V2 segments (white arrows) and a dissection of... |
PMC1971257_F5_13581.jpg | What is shown in this image? | Medial view of looping* of the cervical part of the right internal carotid artery (ICA) on sagittal cross section of the head and neck (upright position). The medial parts of the first and second cervical vertebrae, basilar part of occipital bone, body of sphenoid bone and apical part of the pyramid of the temporal bon... |
PMC1971264_F1_13582.jpg | Describe the main subject of this image. | CT scan picture of the GIST close to liver and distinctly separate from gastric lumen. |
PMC1971264_F2_13583.jpg | What is the dominant medical problem in this image? | CT scan picture of enhancing lower extent of GIST visualized in relation to hepatic flexure of colon. |
PMC1971264_F3_13584.jpg | What key item or scene is captured in this photo? | Tumour neo-vascularisation on distal gastro duodenal and gastro-epiploic catheterisation during angiogram (White arrow as pointer). |
PMC1971265_F2_13585.jpg | What is the focal point of this photograph? | Plain radiograph of right clavicle. The radiograph demonstrates a pathological fracture of the medial aspect of the right clavicle. |
PMC1971266_F1_13586.jpg | Can you identify the primary element in this image? | A. MRI (T1-weighted image) of the left hand showing a soft tissue mass into the carpal tunnel B. Under higher magnification, the tumor looks homogenous, well-defined and it is surrounded by the flexor tendons. |
PMC1971266_F3_13588.jpg | What is the focal point of this photograph? | Microscopic appearance of the tumor. Bundles of spindle-shaped cells arranged in interlacing fascicles with elongated, oblong nuclei and eosinophilic cytoplasm. There is no evidence of necrosis, pleomorphism, mitoses or nuclear atypia. |
PMC1973079_F1_13590.jpg | What stands out most in this visual? | Renal artery angiography in a 35-year-old woman with unexplained hypertension showing the typical "string-of-beads" sign (arrows) characteristic for FMD involving the lower left renal artery (accessory artery). The arrowhead indicates a small saccular aneurysm at the distal portion of right renal artery. |
PMC1973079_F2_13591.jpg | What is shown in this image? | Selective renal angiography (left lower renal artery) after successful percutaneous balloon dilatation of the stenotic lesion. |
PMC1973087_F7_13594.jpg | What is shown in this image? | Endogenous CAC and CAG rich mRNAs are localized to distal processes in mammalian neurons. In situ hybridization was used to reveal the subcellular distribution of each mRNA in rat hippocampal neurons that had been cultured for 8 days after plating. Stx5 was used as a negative control for localization since it has no re... |
PMC1973087_F7_13593.jpg | Can you identify the primary element in this image? | Endogenous CAC and CAG rich mRNAs are localized to distal processes in mammalian neurons. In situ hybridization was used to reveal the subcellular distribution of each mRNA in rat hippocampal neurons that had been cultured for 8 days after plating. Stx5 was used as a negative control for localization since it has no re... |
PMC1973087_F7_13597.jpg | What key item or scene is captured in this photo? | Endogenous CAC and CAG rich mRNAs are localized to distal processes in mammalian neurons. In situ hybridization was used to reveal the subcellular distribution of each mRNA in rat hippocampal neurons that had been cultured for 8 days after plating. Stx5 was used as a negative control for localization since it has no re... |
PMC1973087_F7_13596.jpg | What key item or scene is captured in this photo? | Endogenous CAC and CAG rich mRNAs are localized to distal processes in mammalian neurons. In situ hybridization was used to reveal the subcellular distribution of each mRNA in rat hippocampal neurons that had been cultured for 8 days after plating. Stx5 was used as a negative control for localization since it has no re... |
PMC1974780_fig03_13604.jpg | What is the principal component of this image? | E-PTA staining for detection of basic proteinsA. Longitudinal section through a T. brucei procyclic cell stained with E-PTA. Strong staining is observed in the nucleus (n) and the kinetoplast (k) but not in the mitochondrial matrix (m). The cytoplasm (c) stains moderately.B–G. E-PTA stained kinetoplasts at higher magni... |
PMC1974780_fig03_13602.jpg | What key item or scene is captured in this photo? | E-PTA staining for detection of basic proteinsA. Longitudinal section through a T. brucei procyclic cell stained with E-PTA. Strong staining is observed in the nucleus (n) and the kinetoplast (k) but not in the mitochondrial matrix (m). The cytoplasm (c) stains moderately.B–G. E-PTA stained kinetoplasts at higher magni... |
PMC1974780_fig03_13601.jpg | What key item or scene is captured in this photo? | E-PTA staining for detection of basic proteinsA. Longitudinal section through a T. brucei procyclic cell stained with E-PTA. Strong staining is observed in the nucleus (n) and the kinetoplast (k) but not in the mitochondrial matrix (m). The cytoplasm (c) stains moderately.B–G. E-PTA stained kinetoplasts at higher magni... |
PMC1974780_fig03_13598.jpg | What key item or scene is captured in this photo? | E-PTA staining for detection of basic proteinsA. Longitudinal section through a T. brucei procyclic cell stained with E-PTA. Strong staining is observed in the nucleus (n) and the kinetoplast (k) but not in the mitochondrial matrix (m). The cytoplasm (c) stains moderately.B–G. E-PTA stained kinetoplasts at higher magni... |
PMC1974780_fig03_13600.jpg | What is the main focus of this visual representation? | E-PTA staining for detection of basic proteinsA. Longitudinal section through a T. brucei procyclic cell stained with E-PTA. Strong staining is observed in the nucleus (n) and the kinetoplast (k) but not in the mitochondrial matrix (m). The cytoplasm (c) stains moderately.B–G. E-PTA stained kinetoplasts at higher magni... |
PMC1974780_fig03_13599.jpg | What is the main focus of this visual representation? | E-PTA staining for detection of basic proteinsA. Longitudinal section through a T. brucei procyclic cell stained with E-PTA. Strong staining is observed in the nucleus (n) and the kinetoplast (k) but not in the mitochondrial matrix (m). The cytoplasm (c) stains moderately.B–G. E-PTA stained kinetoplasts at higher magni... |
PMC1974780_fig03_13603.jpg | What object or scene is depicted here? | E-PTA staining for detection of basic proteinsA. Longitudinal section through a T. brucei procyclic cell stained with E-PTA. Strong staining is observed in the nucleus (n) and the kinetoplast (k) but not in the mitochondrial matrix (m). The cytoplasm (c) stains moderately.B–G. E-PTA stained kinetoplasts at higher magni... |
PMC1974838_fig03_13607.jpg | What does this image primarily show? | Coronal MR images in a patient with macroadenoma (a) at baseline (volume 22 702 mm3), (b) after 24 weeks (volume 15 285 mm3) and (c) after 48 weeks (volume 11 746 mm3) of treatment with octreotide LAR. |
PMC1974838_fig03_13606.jpg | What is being portrayed in this visual content? | Coronal MR images in a patient with macroadenoma (a) at baseline (volume 22 702 mm3), (b) after 24 weeks (volume 15 285 mm3) and (c) after 48 weeks (volume 11 746 mm3) of treatment with octreotide LAR. |
PMC1974838_fig03_13608.jpg | What stands out most in this visual? | Coronal MR images in a patient with macroadenoma (a) at baseline (volume 22 702 mm3), (b) after 24 weeks (volume 15 285 mm3) and (c) after 48 weeks (volume 11 746 mm3) of treatment with octreotide LAR. |
PMC1975469_pone-0000907-g006_13612.jpg | What is the central feature of this picture? | Fused PET and CT images at 3 hours post-injection of 86Y-CNT, compound 4, showing a transverse (z-direction, images a and d), a coronal (y-direction, images b and e), and a sagittal (x-direction, images c and f) slice of one representative animal from group I (i.v., a, b and c) and one from group II (i.p., d, e and f). |
PMC1975469_pone-0000907-g006_13610.jpg | What is being portrayed in this visual content? | Fused PET and CT images at 3 hours post-injection of 86Y-CNT, compound 4, showing a transverse (z-direction, images a and d), a coronal (y-direction, images b and e), and a sagittal (x-direction, images c and f) slice of one representative animal from group I (i.v., a, b and c) and one from group II (i.p., d, e and f). |
PMC1975469_pone-0000907-g006_13614.jpg | Describe the main subject of this image. | Fused PET and CT images at 3 hours post-injection of 86Y-CNT, compound 4, showing a transverse (z-direction, images a and d), a coronal (y-direction, images b and e), and a sagittal (x-direction, images c and f) slice of one representative animal from group I (i.v., a, b and c) and one from group II (i.p., d, e and f). |
PMC1975469_pone-0000907-g006_13613.jpg | What is being portrayed in this visual content? | Fused PET and CT images at 3 hours post-injection of 86Y-CNT, compound 4, showing a transverse (z-direction, images a and d), a coronal (y-direction, images b and e), and a sagittal (x-direction, images c and f) slice of one representative animal from group I (i.v., a, b and c) and one from group II (i.p., d, e and f). |
PMC1975469_pone-0000907-g006_13609.jpg | What is the principal component of this image? | Fused PET and CT images at 3 hours post-injection of 86Y-CNT, compound 4, showing a transverse (z-direction, images a and d), a coronal (y-direction, images b and e), and a sagittal (x-direction, images c and f) slice of one representative animal from group I (i.v., a, b and c) and one from group II (i.p., d, e and f). |
PMC1975469_pone-0000907-g006_13611.jpg | What does this image primarily show? | Fused PET and CT images at 3 hours post-injection of 86Y-CNT, compound 4, showing a transverse (z-direction, images a and d), a coronal (y-direction, images b and e), and a sagittal (x-direction, images c and f) slice of one representative animal from group I (i.v., a, b and c) and one from group II (i.p., d, e and f). |
PMC1975761_F1_13616.jpg | What key item or scene is captured in this photo? | Boundaries of the PFC subareas in the rat visualized with
antibodies. In the anterior PFC (3.70 − 2.20 mm from bregma),
three subareas can be distinguished: IL, PL, and ACx. Pictures in
the lower panels show the same sections at higher magnification.
(a) Staining with the SMI-32 antibody shows the border between PL
and... |
PMC1975761_F1_13615.jpg | What stands out most in this visual? | Boundaries of the PFC subareas in the rat visualized with
antibodies. In the anterior PFC (3.70 − 2.20 mm from bregma),
three subareas can be distinguished: IL, PL, and ACx. Pictures in
the lower panels show the same sections at higher magnification.
(a) Staining with the SMI-32 antibody shows the border between PL
and... |
PMC1976113_F2_13628.jpg | What is the principal component of this image? | MRI shows diffuse high-signal intensity on T1- (A, D, F; TR/TE = 487/9.5) and T2- (B, E, G; TR/TE = 3500/89) weighted images with capsulation of low-signal intensity on T1- and T2-weighted images (A, B; axial, D, E; sagittal, F, G; coronal). Edema of low-signal intensity on T1-weighted and high-signal intensity on T2-w... |
PMC1976113_F2_13625.jpg | What object or scene is depicted here? | MRI shows diffuse high-signal intensity on T1- (A, D, F; TR/TE = 487/9.5) and T2- (B, E, G; TR/TE = 3500/89) weighted images with capsulation of low-signal intensity on T1- and T2-weighted images (A, B; axial, D, E; sagittal, F, G; coronal). Edema of low-signal intensity on T1-weighted and high-signal intensity on T2-w... |
PMC1976113_F2_13622.jpg | What is the principal component of this image? | MRI shows diffuse high-signal intensity on T1- (A, D, F; TR/TE = 487/9.5) and T2- (B, E, G; TR/TE = 3500/89) weighted images with capsulation of low-signal intensity on T1- and T2-weighted images (A, B; axial, D, E; sagittal, F, G; coronal). Edema of low-signal intensity on T1-weighted and high-signal intensity on T2-w... |
PMC1976113_F2_13626.jpg | Describe the main subject of this image. | MRI shows diffuse high-signal intensity on T1- (A, D, F; TR/TE = 487/9.5) and T2- (B, E, G; TR/TE = 3500/89) weighted images with capsulation of low-signal intensity on T1- and T2-weighted images (A, B; axial, D, E; sagittal, F, G; coronal). Edema of low-signal intensity on T1-weighted and high-signal intensity on T2-w... |
PMC1976113_F2_13624.jpg | What is the central feature of this picture? | MRI shows diffuse high-signal intensity on T1- (A, D, F; TR/TE = 487/9.5) and T2- (B, E, G; TR/TE = 3500/89) weighted images with capsulation of low-signal intensity on T1- and T2-weighted images (A, B; axial, D, E; sagittal, F, G; coronal). Edema of low-signal intensity on T1-weighted and high-signal intensity on T2-w... |
PMC1976114_F1_13620.jpg | What does this image primarily show? | Contrast-enhanced abdominal CT scan, with oral and i.v. contrast, shows a large (15 × 15 cm), well-demarcated, solid and cystic, heterogeneously enhanced mass located between the right lobe of the liver and the right kidney. |
PMC1976115_F1_13631.jpg | What key item or scene is captured in this photo? | MRI of brain. (A) Initial MRI on February 16, 2005, shows a tumor in the right and left frontal lobe as well as the right thalamus. (B) MRI after surgery, radiation and chemotherapy. The tumor has completely disappeared except for slight enhancement adjacent to the surgical margin. (C) Recurrence of the thalamic tumor ... |
PMC1976115_F1_13632.jpg | What is shown in this image? | MRI of brain. (A) Initial MRI on February 16, 2005, shows a tumor in the right and left frontal lobe as well as the right thalamus. (B) MRI after surgery, radiation and chemotherapy. The tumor has completely disappeared except for slight enhancement adjacent to the surgical margin. (C) Recurrence of the thalamic tumor ... |
PMC1976115_F1_13630.jpg | What's the most prominent thing you notice in this picture? | MRI of brain. (A) Initial MRI on February 16, 2005, shows a tumor in the right and left frontal lobe as well as the right thalamus. (B) MRI after surgery, radiation and chemotherapy. The tumor has completely disappeared except for slight enhancement adjacent to the surgical margin. (C) Recurrence of the thalamic tumor ... |
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