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PMC545075_F2_1087.jpg | What is shown in this image? | Identification of septal, outflow tract, and aortic arch malformations using multi-embryo MRI (a – e') Images of transverse sections from 5 Cited2-/- embryos obtained using the multi-embryo technique (a–e) compared with images from the same embryos obtained subsequently using the single embryo technique (a'–e'). (a, a'... |
PMC545075_F2_1090.jpg | What does this image primarily show? | Identification of septal, outflow tract, and aortic arch malformations using multi-embryo MRI (a – e') Images of transverse sections from 5 Cited2-/- embryos obtained using the multi-embryo technique (a–e) compared with images from the same embryos obtained subsequently using the single embryo technique (a'–e'). (a, a'... |
PMC545075_F2_1081.jpg | What is the main focus of this visual representation? | Identification of septal, outflow tract, and aortic arch malformations using multi-embryo MRI (a – e') Images of transverse sections from 5 Cited2-/- embryos obtained using the multi-embryo technique (a–e) compared with images from the same embryos obtained subsequently using the single embryo technique (a'–e'). (a, a'... |
PMC545075_F2_1082.jpg | What does this image primarily show? | Identification of septal, outflow tract, and aortic arch malformations using multi-embryo MRI (a – e') Images of transverse sections from 5 Cited2-/- embryos obtained using the multi-embryo technique (a–e) compared with images from the same embryos obtained subsequently using the single embryo technique (a'–e'). (a, a'... |
PMC545075_F2_1088.jpg | Can you identify the primary element in this image? | Identification of septal, outflow tract, and aortic arch malformations using multi-embryo MRI (a – e') Images of transverse sections from 5 Cited2-/- embryos obtained using the multi-embryo technique (a–e) compared with images from the same embryos obtained subsequently using the single embryo technique (a'–e'). (a, a'... |
PMC545075_F2_1089.jpg | What is the main focus of this visual representation? | Identification of septal, outflow tract, and aortic arch malformations using multi-embryo MRI (a – e') Images of transverse sections from 5 Cited2-/- embryos obtained using the multi-embryo technique (a–e) compared with images from the same embryos obtained subsequently using the single embryo technique (a'–e'). (a, a'... |
PMC545075_F2_1079.jpg | What is the dominant medical problem in this image? | Identification of septal, outflow tract, and aortic arch malformations using multi-embryo MRI (a – e') Images of transverse sections from 5 Cited2-/- embryos obtained using the multi-embryo technique (a–e) compared with images from the same embryos obtained subsequently using the single embryo technique (a'–e'). (a, a'... |
PMC545075_F3_1068.jpg | What is the principal component of this image? | Identification of adrenal agenesis using multi-embryo MRI Images of coronal sections from 2 embryos obtained using the multi-embryo technique (a, b) compared with images from the same embryos obtained subsequently using the single embryo technique (a', b'). (a, a') Normal right adrenal gland (rad) anterior to the right... |
PMC545075_F3_1067.jpg | What is shown in this image? | Identification of adrenal agenesis using multi-embryo MRI Images of coronal sections from 2 embryos obtained using the multi-embryo technique (a, b) compared with images from the same embryos obtained subsequently using the single embryo technique (a', b'). (a, a') Normal right adrenal gland (rad) anterior to the right... |
PMC545075_F5_1075.jpg | What object or scene is depicted here? | Identification of cardiac malformations in Ptdsr-/- embryos using multi-embryo MRI (a–e) Transverse thoracic sections showing the heart of heterozygous or wild-type control embryos from each litter. The left and right ventricles (lv, rv) are separated by the interventricular septum (ivs). The left and right atria (la, ... |
PMC545075_F5_1078.jpg | What is the core subject represented in this visual? | Identification of cardiac malformations in Ptdsr-/- embryos using multi-embryo MRI (a–e) Transverse thoracic sections showing the heart of heterozygous or wild-type control embryos from each litter. The left and right ventricles (lv, rv) are separated by the interventricular septum (ivs). The left and right atria (la, ... |
PMC545075_F5_1074.jpg | What is the main focus of this visual representation? | Identification of cardiac malformations in Ptdsr-/- embryos using multi-embryo MRI (a–e) Transverse thoracic sections showing the heart of heterozygous or wild-type control embryos from each litter. The left and right ventricles (lv, rv) are separated by the interventricular septum (ivs). The left and right atria (la, ... |
PMC545075_F5_1069.jpg | What is the principal component of this image? | Identification of cardiac malformations in Ptdsr-/- embryos using multi-embryo MRI (a–e) Transverse thoracic sections showing the heart of heterozygous or wild-type control embryos from each litter. The left and right ventricles (lv, rv) are separated by the interventricular septum (ivs). The left and right atria (la, ... |
PMC545075_F5_1070.jpg | What's the most prominent thing you notice in this picture? | Identification of cardiac malformations in Ptdsr-/- embryos using multi-embryo MRI (a–e) Transverse thoracic sections showing the heart of heterozygous or wild-type control embryos from each litter. The left and right ventricles (lv, rv) are separated by the interventricular septum (ivs). The left and right atria (la, ... |
PMC545075_F5_1077.jpg | What can you see in this picture? | Identification of cardiac malformations in Ptdsr-/- embryos using multi-embryo MRI (a–e) Transverse thoracic sections showing the heart of heterozygous or wild-type control embryos from each litter. The left and right ventricles (lv, rv) are separated by the interventricular septum (ivs). The left and right atria (la, ... |
PMC545075_F5_1072.jpg | What is the focal point of this photograph? | Identification of cardiac malformations in Ptdsr-/- embryos using multi-embryo MRI (a–e) Transverse thoracic sections showing the heart of heterozygous or wild-type control embryos from each litter. The left and right ventricles (lv, rv) are separated by the interventricular septum (ivs). The left and right atria (la, ... |
PMC545075_F5_1071.jpg | What is being portrayed in this visual content? | Identification of cardiac malformations in Ptdsr-/- embryos using multi-embryo MRI (a–e) Transverse thoracic sections showing the heart of heterozygous or wild-type control embryos from each litter. The left and right ventricles (lv, rv) are separated by the interventricular septum (ivs). The left and right atria (la, ... |
PMC545075_F5_1073.jpg | What is the principal component of this image? | Identification of cardiac malformations in Ptdsr-/- embryos using multi-embryo MRI (a–e) Transverse thoracic sections showing the heart of heterozygous or wild-type control embryos from each litter. The left and right ventricles (lv, rv) are separated by the interventricular septum (ivs). The left and right atria (la, ... |
PMC545075_F6_1117.jpg | What's the most prominent thing you notice in this picture? | Cardiac malformations and thymus hypoplasia in Ptdsr-/- embryos. (a–c) Transverse and oblique (through the plane of the ascending aorta) sections, and 3D reconstruction (left-ventral oblique view) of a heart of a wild-type embryo at 15.5 dpc. The left and right ventricles (lv, rv) are separated by the interventricular ... |
PMC545075_F6_1109.jpg | What is the focal point of this photograph? | Cardiac malformations and thymus hypoplasia in Ptdsr-/- embryos. (a–c) Transverse and oblique (through the plane of the ascending aorta) sections, and 3D reconstruction (left-ventral oblique view) of a heart of a wild-type embryo at 15.5 dpc. The left and right ventricles (lv, rv) are separated by the interventricular ... |
PMC545075_F6_1106.jpg | What is the core subject represented in this visual? | Cardiac malformations and thymus hypoplasia in Ptdsr-/- embryos. (a–c) Transverse and oblique (through the plane of the ascending aorta) sections, and 3D reconstruction (left-ventral oblique view) of a heart of a wild-type embryo at 15.5 dpc. The left and right ventricles (lv, rv) are separated by the interventricular ... |
PMC545075_F6_1110.jpg | What is the focal point of this photograph? | Cardiac malformations and thymus hypoplasia in Ptdsr-/- embryos. (a–c) Transverse and oblique (through the plane of the ascending aorta) sections, and 3D reconstruction (left-ventral oblique view) of a heart of a wild-type embryo at 15.5 dpc. The left and right ventricles (lv, rv) are separated by the interventricular ... |
PMC545075_F6_1115.jpg | What is the dominant medical problem in this image? | Cardiac malformations and thymus hypoplasia in Ptdsr-/- embryos. (a–c) Transverse and oblique (through the plane of the ascending aorta) sections, and 3D reconstruction (left-ventral oblique view) of a heart of a wild-type embryo at 15.5 dpc. The left and right ventricles (lv, rv) are separated by the interventricular ... |
PMC545075_F6_1105.jpg | What does this image primarily show? | Cardiac malformations and thymus hypoplasia in Ptdsr-/- embryos. (a–c) Transverse and oblique (through the plane of the ascending aorta) sections, and 3D reconstruction (left-ventral oblique view) of a heart of a wild-type embryo at 15.5 dpc. The left and right ventricles (lv, rv) are separated by the interventricular ... |
PMC545075_F6_1111.jpg | Can you identify the primary element in this image? | Cardiac malformations and thymus hypoplasia in Ptdsr-/- embryos. (a–c) Transverse and oblique (through the plane of the ascending aorta) sections, and 3D reconstruction (left-ventral oblique view) of a heart of a wild-type embryo at 15.5 dpc. The left and right ventricles (lv, rv) are separated by the interventricular ... |
PMC545075_F6_1113.jpg | What is the principal component of this image? | Cardiac malformations and thymus hypoplasia in Ptdsr-/- embryos. (a–c) Transverse and oblique (through the plane of the ascending aorta) sections, and 3D reconstruction (left-ventral oblique view) of a heart of a wild-type embryo at 15.5 dpc. The left and right ventricles (lv, rv) are separated by the interventricular ... |
PMC545075_F6_1108.jpg | What is the principal component of this image? | Cardiac malformations and thymus hypoplasia in Ptdsr-/- embryos. (a–c) Transverse and oblique (through the plane of the ascending aorta) sections, and 3D reconstruction (left-ventral oblique view) of a heart of a wild-type embryo at 15.5 dpc. The left and right ventricles (lv, rv) are separated by the interventricular ... |
PMC545075_F6_1107.jpg | What is the principal component of this image? | Cardiac malformations and thymus hypoplasia in Ptdsr-/- embryos. (a–c) Transverse and oblique (through the plane of the ascending aorta) sections, and 3D reconstruction (left-ventral oblique view) of a heart of a wild-type embryo at 15.5 dpc. The left and right ventricles (lv, rv) are separated by the interventricular ... |
PMC545075_F6_1116.jpg | What is being portrayed in this visual content? | Cardiac malformations and thymus hypoplasia in Ptdsr-/- embryos. (a–c) Transverse and oblique (through the plane of the ascending aorta) sections, and 3D reconstruction (left-ventral oblique view) of a heart of a wild-type embryo at 15.5 dpc. The left and right ventricles (lv, rv) are separated by the interventricular ... |
PMC545075_F7_1097.jpg | What is the dominant medical problem in this image? | Cardiac malformations in Ptdsr-/- embryos: analysis using histology Embryos analyzed by MRI (Figure 3) were sectioned transversely and stained with hematoxylin and eosin. (a–c) Serial caudal to cranial sections of the wild-type embryo showing normal cardiac and vascular anatomy. The left and right ventricles (lv, rv) a... |
PMC545075_F7_1096.jpg | What object or scene is depicted here? | Cardiac malformations in Ptdsr-/- embryos: analysis using histology Embryos analyzed by MRI (Figure 3) were sectioned transversely and stained with hematoxylin and eosin. (a–c) Serial caudal to cranial sections of the wild-type embryo showing normal cardiac and vascular anatomy. The left and right ventricles (lv, rv) a... |
PMC545075_F7_1099.jpg | What is the focal point of this photograph? | Cardiac malformations in Ptdsr-/- embryos: analysis using histology Embryos analyzed by MRI (Figure 3) were sectioned transversely and stained with hematoxylin and eosin. (a–c) Serial caudal to cranial sections of the wild-type embryo showing normal cardiac and vascular anatomy. The left and right ventricles (lv, rv) a... |
PMC545075_F7_1100.jpg | What is the core subject represented in this visual? | Cardiac malformations in Ptdsr-/- embryos: analysis using histology Embryos analyzed by MRI (Figure 3) were sectioned transversely and stained with hematoxylin and eosin. (a–c) Serial caudal to cranial sections of the wild-type embryo showing normal cardiac and vascular anatomy. The left and right ventricles (lv, rv) a... |
PMC545075_F7_1098.jpg | What can you see in this picture? | Cardiac malformations in Ptdsr-/- embryos: analysis using histology Embryos analyzed by MRI (Figure 3) were sectioned transversely and stained with hematoxylin and eosin. (a–c) Serial caudal to cranial sections of the wild-type embryo showing normal cardiac and vascular anatomy. The left and right ventricles (lv, rv) a... |
PMC545075_F7_1102.jpg | What is the main focus of this visual representation? | Cardiac malformations in Ptdsr-/- embryos: analysis using histology Embryos analyzed by MRI (Figure 3) were sectioned transversely and stained with hematoxylin and eosin. (a–c) Serial caudal to cranial sections of the wild-type embryo showing normal cardiac and vascular anatomy. The left and right ventricles (lv, rv) a... |
PMC545075_F7_1104.jpg | What's the most prominent thing you notice in this picture? | Cardiac malformations in Ptdsr-/- embryos: analysis using histology Embryos analyzed by MRI (Figure 3) were sectioned transversely and stained with hematoxylin and eosin. (a–c) Serial caudal to cranial sections of the wild-type embryo showing normal cardiac and vascular anatomy. The left and right ventricles (lv, rv) a... |
PMC545075_F7_1103.jpg | What is the focal point of this photograph? | Cardiac malformations in Ptdsr-/- embryos: analysis using histology Embryos analyzed by MRI (Figure 3) were sectioned transversely and stained with hematoxylin and eosin. (a–c) Serial caudal to cranial sections of the wild-type embryo showing normal cardiac and vascular anatomy. The left and right ventricles (lv, rv) a... |
PMC545077_F4_1095.jpg | What is the central feature of this picture? | The corneal stroma in a case of fungal keratitis shows diffuse TUNEL positivity in the zone of inflammation (*) as well as discrete positive staining in the peripheral keratocytes away from zone of inflammation (arrow head) (TUNEL, ×250) [Left]. The higher magnification of the same shows TUNEL positive nuclei of the ke... |
PMC545077_F4_1094.jpg | What's the most prominent thing you notice in this picture? | The corneal stroma in a case of fungal keratitis shows diffuse TUNEL positivity in the zone of inflammation (*) as well as discrete positive staining in the peripheral keratocytes away from zone of inflammation (arrow head) (TUNEL, ×250) [Left]. The higher magnification of the same shows TUNEL positive nuclei of the ke... |
PMC545208_pmed-0020019-g003_1119.jpg | Describe the main subject of this image. | T2-Weighted Magnetic Resonance Imaging Showing Blood in the Arterial Wall and Narrowing of the Lumen of the Left Internal Carotid ArteryThis is also known as the “crescent sign,” a hallmark of internal carotid artery dissection. |
PMC545208_pmed-0020019-g003_1118.jpg | What is the focal point of this photograph? | T2-Weighted Magnetic Resonance Imaging Showing Blood in the Arterial Wall and Narrowing of the Lumen of the Left Internal Carotid ArteryThis is also known as the “crescent sign,” a hallmark of internal carotid artery dissection. |
PMC545597_F1_1121.jpg | What does this image primarily show? | Circular representation of the B. licheniformis ATCC 14580 chromosome. Circles are numbered from 1 (outermost) to 7 (innermost). Circles 1 and 2 show the locations of predicted CDSs on the + and - strands, respectively; circle 3, %G+C; circle 4, GC skew ((G-C/G+C)); circle 5, homology with B. subtilis 168; circle 6, ho... |
PMC545800_F2_1129.jpg | What is the principal component of this image? | Targeting of GFP-MRP7 and GFP-GSA to peroxisomes in yeast cells. Fluorescence of CB80 yeast cells expressing (a) GFP and DsRed-SKL; (b) GFP-SKL and DsRed-SKL; (c) GFP-MRP7 and DsRed-SKL; or (d) GFP-GSA and DsRed-SKL. Transformed cells were cultured on oleate and observed live for fluorescence. Control experiments (a) s... |
PMC545800_F2_1122.jpg | Describe the main subject of this image. | Targeting of GFP-MRP7 and GFP-GSA to peroxisomes in yeast cells. Fluorescence of CB80 yeast cells expressing (a) GFP and DsRed-SKL; (b) GFP-SKL and DsRed-SKL; (c) GFP-MRP7 and DsRed-SKL; or (d) GFP-GSA and DsRed-SKL. Transformed cells were cultured on oleate and observed live for fluorescence. Control experiments (a) s... |
PMC545800_F2_1123.jpg | What is the core subject represented in this visual? | Targeting of GFP-MRP7 and GFP-GSA to peroxisomes in yeast cells. Fluorescence of CB80 yeast cells expressing (a) GFP and DsRed-SKL; (b) GFP-SKL and DsRed-SKL; (c) GFP-MRP7 and DsRed-SKL; or (d) GFP-GSA and DsRed-SKL. Transformed cells were cultured on oleate and observed live for fluorescence. Control experiments (a) s... |
PMC545800_F2_1125.jpg | What object or scene is depicted here? | Targeting of GFP-MRP7 and GFP-GSA to peroxisomes in yeast cells. Fluorescence of CB80 yeast cells expressing (a) GFP and DsRed-SKL; (b) GFP-SKL and DsRed-SKL; (c) GFP-MRP7 and DsRed-SKL; or (d) GFP-GSA and DsRed-SKL. Transformed cells were cultured on oleate and observed live for fluorescence. Control experiments (a) s... |
PMC545800_F2_1126.jpg | Describe the main subject of this image. | Targeting of GFP-MRP7 and GFP-GSA to peroxisomes in yeast cells. Fluorescence of CB80 yeast cells expressing (a) GFP and DsRed-SKL; (b) GFP-SKL and DsRed-SKL; (c) GFP-MRP7 and DsRed-SKL; or (d) GFP-GSA and DsRed-SKL. Transformed cells were cultured on oleate and observed live for fluorescence. Control experiments (a) s... |
PMC545800_F2_1131.jpg | What is the main focus of this visual representation? | Targeting of GFP-MRP7 and GFP-GSA to peroxisomes in yeast cells. Fluorescence of CB80 yeast cells expressing (a) GFP and DsRed-SKL; (b) GFP-SKL and DsRed-SKL; (c) GFP-MRP7 and DsRed-SKL; or (d) GFP-GSA and DsRed-SKL. Transformed cells were cultured on oleate and observed live for fluorescence. Control experiments (a) s... |
PMC545800_F2_1124.jpg | What can you see in this picture? | Targeting of GFP-MRP7 and GFP-GSA to peroxisomes in yeast cells. Fluorescence of CB80 yeast cells expressing (a) GFP and DsRed-SKL; (b) GFP-SKL and DsRed-SKL; (c) GFP-MRP7 and DsRed-SKL; or (d) GFP-GSA and DsRed-SKL. Transformed cells were cultured on oleate and observed live for fluorescence. Control experiments (a) s... |
PMC545935_F4_1137.jpg | What key item or scene is captured in this photo? | Heparin, but not RAP, competes for DiI-apoE-VLDL uptake by adipocytes. Differentiated adipocytes were cultured on glass coverslips and incubated with DiI-labeled apoE-VLDL (4 μg/ml) in the presence or absence (upper panel) of either heparin (500 μg/ml, middle panel) or RAP-GST (50 μg/ml, lower panel) at 37°C for 3 h. C... |
PMC545935_F4_1136.jpg | What is shown in this image? | Heparin, but not RAP, competes for DiI-apoE-VLDL uptake by adipocytes. Differentiated adipocytes were cultured on glass coverslips and incubated with DiI-labeled apoE-VLDL (4 μg/ml) in the presence or absence (upper panel) of either heparin (500 μg/ml, middle panel) or RAP-GST (50 μg/ml, lower panel) at 37°C for 3 h. C... |
PMC545935_F4_1133.jpg | What is the dominant medical problem in this image? | Heparin, but not RAP, competes for DiI-apoE-VLDL uptake by adipocytes. Differentiated adipocytes were cultured on glass coverslips and incubated with DiI-labeled apoE-VLDL (4 μg/ml) in the presence or absence (upper panel) of either heparin (500 μg/ml, middle panel) or RAP-GST (50 μg/ml, lower panel) at 37°C for 3 h. C... |
PMC545935_F4_1132.jpg | What stands out most in this visual? | Heparin, but not RAP, competes for DiI-apoE-VLDL uptake by adipocytes. Differentiated adipocytes were cultured on glass coverslips and incubated with DiI-labeled apoE-VLDL (4 μg/ml) in the presence or absence (upper panel) of either heparin (500 μg/ml, middle panel) or RAP-GST (50 μg/ml, lower panel) at 37°C for 3 h. C... |
PMC545935_F4_1135.jpg | What stands out most in this visual? | Heparin, but not RAP, competes for DiI-apoE-VLDL uptake by adipocytes. Differentiated adipocytes were cultured on glass coverslips and incubated with DiI-labeled apoE-VLDL (4 μg/ml) in the presence or absence (upper panel) of either heparin (500 μg/ml, middle panel) or RAP-GST (50 μg/ml, lower panel) at 37°C for 3 h. C... |
PMC545950_F1_1139.jpg | What is the dominant medical problem in this image? | Phase-contrast photomicrographs of fragile X progenitor cells The figure shows clusters/spheres during the initial stages (2–3 days after plating) of adherence to a fibronectin substrate. (A) 4×; (B) 10×; (C) 20×. Confluent serum- and growth factor-expanded cultures were serum deprived for one week in the presence of g... |
PMC545950_F1_1138.jpg | What is the principal component of this image? | Phase-contrast photomicrographs of fragile X progenitor cells The figure shows clusters/spheres during the initial stages (2–3 days after plating) of adherence to a fibronectin substrate. (A) 4×; (B) 10×; (C) 20×. Confluent serum- and growth factor-expanded cultures were serum deprived for one week in the presence of g... |
PMC546198_F1_1149.jpg | What's the most prominent thing you notice in this picture? | A Plain radiograph of the right shoulder, showing an irregular, mixed lytic and sclerotic lesion in the glenoid (arrow), that was not appreciated by the reporting radiologist. B Arthrogram performed prior to hydrodilatation. C Coronal TSE post-contrast MR image, showing a diffusely enhansive scapular lesion extending i... |
PMC546198_F1_1151.jpg | What key item or scene is captured in this photo? | A Plain radiograph of the right shoulder, showing an irregular, mixed lytic and sclerotic lesion in the glenoid (arrow), that was not appreciated by the reporting radiologist. B Arthrogram performed prior to hydrodilatation. C Coronal TSE post-contrast MR image, showing a diffusely enhansive scapular lesion extending i... |
PMC546198_F1_1150.jpg | What stands out most in this visual? | A Plain radiograph of the right shoulder, showing an irregular, mixed lytic and sclerotic lesion in the glenoid (arrow), that was not appreciated by the reporting radiologist. B Arthrogram performed prior to hydrodilatation. C Coronal TSE post-contrast MR image, showing a diffusely enhansive scapular lesion extending i... |
PMC546198_F2_1165.jpg | What can you see in this picture? | A Plain radiograph of the left shoulder showing a lytic lesion affecting the proximal humerus, with cortical irregularity medially (arrow), that was not initially recognized. B At the time of arthrographic distension, the lesion (arrow) was more apparent, but remained unnoticed. C Sagittal TSE post-contrast MR image sh... |
PMC546198_F2_1166.jpg | What can you see in this picture? | A Plain radiograph of the left shoulder showing a lytic lesion affecting the proximal humerus, with cortical irregularity medially (arrow), that was not initially recognized. B At the time of arthrographic distension, the lesion (arrow) was more apparent, but remained unnoticed. C Sagittal TSE post-contrast MR image sh... |
PMC546198_F2_1162.jpg | What key item or scene is captured in this photo? | A Plain radiograph of the left shoulder showing a lytic lesion affecting the proximal humerus, with cortical irregularity medially (arrow), that was not initially recognized. B At the time of arthrographic distension, the lesion (arrow) was more apparent, but remained unnoticed. C Sagittal TSE post-contrast MR image sh... |
PMC546198_F3_1158.jpg | Describe the main subject of this image. | A Initial plain radiographs of the shoulder were unremarkable. B Repeat radiographs after two years of failed treatment, showing an irregular mixed lytic and sclerotic lesion destroying the coracoid process of the scapula (arrow), which was not appreciated. C Arthrogram performed prior to hydrodilatation similarly show... |
PMC546198_F3_1155.jpg | What stands out most in this visual? | A Initial plain radiographs of the shoulder were unremarkable. B Repeat radiographs after two years of failed treatment, showing an irregular mixed lytic and sclerotic lesion destroying the coracoid process of the scapula (arrow), which was not appreciated. C Arthrogram performed prior to hydrodilatation similarly show... |
PMC546198_F3_1160.jpg | Describe the main subject of this image. | A Initial plain radiographs of the shoulder were unremarkable. B Repeat radiographs after two years of failed treatment, showing an irregular mixed lytic and sclerotic lesion destroying the coracoid process of the scapula (arrow), which was not appreciated. C Arthrogram performed prior to hydrodilatation similarly show... |
PMC546198_F3_1156.jpg | Can you identify the primary element in this image? | A Initial plain radiographs of the shoulder were unremarkable. B Repeat radiographs after two years of failed treatment, showing an irregular mixed lytic and sclerotic lesion destroying the coracoid process of the scapula (arrow), which was not appreciated. C Arthrogram performed prior to hydrodilatation similarly show... |
PMC546198_F4_1141.jpg | What's the most prominent thing you notice in this picture? | Patient had persistent pain and stiffness following hydrodilatation. A Plain shoulder radiographs were normal. B STIR MR image showing multiple high signal intensity lesions in the supraspinatus muscle. A presumptive diagnosis of metastatic squamous cell carcinoma was made. |
PMC546198_F4_1142.jpg | What is the focal point of this photograph? | Patient had persistent pain and stiffness following hydrodilatation. A Plain shoulder radiographs were normal. B STIR MR image showing multiple high signal intensity lesions in the supraspinatus muscle. A presumptive diagnosis of metastatic squamous cell carcinoma was made. |
PMC546198_F5_1144.jpg | What is being portrayed in this visual content? | A Initial plain radiographs of the right shoulder appeared normal. B CT scan was performed after a year of progressive shoulder pain and stiffness, showing a destructive lesion involving the glenoid (arrow). C Axial T1-weighted and post-contrast (D) MR images showing destruction of the glenoid with an associated soft t... |
PMC546198_F5_1146.jpg | What is the main focus of this visual representation? | A Initial plain radiographs of the right shoulder appeared normal. B CT scan was performed after a year of progressive shoulder pain and stiffness, showing a destructive lesion involving the glenoid (arrow). C Axial T1-weighted and post-contrast (D) MR images showing destruction of the glenoid with an associated soft t... |
PMC546198_F5_1143.jpg | What stands out most in this visual? | A Initial plain radiographs of the right shoulder appeared normal. B CT scan was performed after a year of progressive shoulder pain and stiffness, showing a destructive lesion involving the glenoid (arrow). C Axial T1-weighted and post-contrast (D) MR images showing destruction of the glenoid with an associated soft t... |
PMC546198_F5_1147.jpg | What is the central feature of this picture? | A Initial plain radiographs of the right shoulder appeared normal. B CT scan was performed after a year of progressive shoulder pain and stiffness, showing a destructive lesion involving the glenoid (arrow). C Axial T1-weighted and post-contrast (D) MR images showing destruction of the glenoid with an associated soft t... |
PMC546198_F5_1145.jpg | What's the most prominent thing you notice in this picture? | A Initial plain radiographs of the right shoulder appeared normal. B CT scan was performed after a year of progressive shoulder pain and stiffness, showing a destructive lesion involving the glenoid (arrow). C Axial T1-weighted and post-contrast (D) MR images showing destruction of the glenoid with an associated soft t... |
PMC546200_F1_1170.jpg | Describe the main subject of this image. | Scanning electron micrograph survey of pumice granules and biofilm development. Before colonisation (A) pumice granules are blank. After 6 month of operation (B), rod shaped cells cover the pumice surface. In the 12 month biofilm, an abundant exopolymeric matrix is visible on pumice granules both at the bottom (C) and ... |
PMC546200_F1_1168.jpg | What's the most prominent thing you notice in this picture? | Scanning electron micrograph survey of pumice granules and biofilm development. Before colonisation (A) pumice granules are blank. After 6 month of operation (B), rod shaped cells cover the pumice surface. In the 12 month biofilm, an abundant exopolymeric matrix is visible on pumice granules both at the bottom (C) and ... |
PMC546208_F4_1173.jpg | What is shown in this image? | Scrib is not localized in focal adhesions in CV-1 cells, and is dispensable for targeting LPP to these structures. Upper panels: CV-1 cells, grown on glass coverslips, were double labelled with Scrib-472 antibodies (left panel) and anti-vinculin antibodies (right panel) used as a marker for focal adhesions. Lower panel... |
PMC546208_F4_1174.jpg | What key item or scene is captured in this photo? | Scrib is not localized in focal adhesions in CV-1 cells, and is dispensable for targeting LPP to these structures. Upper panels: CV-1 cells, grown on glass coverslips, were double labelled with Scrib-472 antibodies (left panel) and anti-vinculin antibodies (right panel) used as a marker for focal adhesions. Lower panel... |
PMC546208_F4_1171.jpg | What is being portrayed in this visual content? | Scrib is not localized in focal adhesions in CV-1 cells, and is dispensable for targeting LPP to these structures. Upper panels: CV-1 cells, grown on glass coverslips, were double labelled with Scrib-472 antibodies (left panel) and anti-vinculin antibodies (right panel) used as a marker for focal adhesions. Lower panel... |
PMC546208_F4_1172.jpg | What is the core subject represented in this visual? | Scrib is not localized in focal adhesions in CV-1 cells, and is dispensable for targeting LPP to these structures. Upper panels: CV-1 cells, grown on glass coverslips, were double labelled with Scrib-472 antibodies (left panel) and anti-vinculin antibodies (right panel) used as a marker for focal adhesions. Lower panel... |
PMC546208_F5_1175.jpg | What stands out most in this visual? | Scrib and LPP are localized in cell-cell contacts but are dispensable for targeting each other to these structures. Upper panels: MDCKII cells, grown on glass coverslips, were double labelled with anti-LPP antibodies (left panel) and anti-Scrib antibodies (right panel). Lower panels: MDCKII stable cell lines, expressin... |
PMC546208_F5_1176.jpg | What key item or scene is captured in this photo? | Scrib and LPP are localized in cell-cell contacts but are dispensable for targeting each other to these structures. Upper panels: MDCKII cells, grown on glass coverslips, were double labelled with anti-LPP antibodies (left panel) and anti-Scrib antibodies (right panel). Lower panels: MDCKII stable cell lines, expressin... |
PMC546208_F5_1178.jpg | What is being portrayed in this visual content? | Scrib and LPP are localized in cell-cell contacts but are dispensable for targeting each other to these structures. Upper panels: MDCKII cells, grown on glass coverslips, were double labelled with anti-LPP antibodies (left panel) and anti-Scrib antibodies (right panel). Lower panels: MDCKII stable cell lines, expressin... |
PMC546208_F5_1179.jpg | Describe the main subject of this image. | Scrib and LPP are localized in cell-cell contacts but are dispensable for targeting each other to these structures. Upper panels: MDCKII cells, grown on glass coverslips, were double labelled with anti-LPP antibodies (left panel) and anti-Scrib antibodies (right panel). Lower panels: MDCKII stable cell lines, expressin... |
PMC546208_F5_1177.jpg | Can you identify the primary element in this image? | Scrib and LPP are localized in cell-cell contacts but are dispensable for targeting each other to these structures. Upper panels: MDCKII cells, grown on glass coverslips, were double labelled with anti-LPP antibodies (left panel) and anti-Scrib antibodies (right panel). Lower panels: MDCKII stable cell lines, expressin... |
PMC546208_F5_1180.jpg | What can you see in this picture? | Scrib and LPP are localized in cell-cell contacts but are dispensable for targeting each other to these structures. Upper panels: MDCKII cells, grown on glass coverslips, were double labelled with anti-LPP antibodies (left panel) and anti-Scrib antibodies (right panel). Lower panels: MDCKII stable cell lines, expressin... |
PMC546210_F7_1185.jpg | What is the main focus of this visual representation? | Immunocytochemistry of isolated mouse ventricular myocytes demonstrating the subcellular localization of Kir6.1, Kir6.2, SUR1 and SUR2 subunits. A: Double staining of a ventricular myocyte with the CAF-1 anti-Kir6.1 antibody (A1) and 76A anti-Kir6.2 antibody (A2). Panel A3 is an overlay of panels A1 and A2. Secondary a... |
PMC546210_F7_1184.jpg | What is the dominant medical problem in this image? | Immunocytochemistry of isolated mouse ventricular myocytes demonstrating the subcellular localization of Kir6.1, Kir6.2, SUR1 and SUR2 subunits. A: Double staining of a ventricular myocyte with the CAF-1 anti-Kir6.1 antibody (A1) and 76A anti-Kir6.2 antibody (A2). Panel A3 is an overlay of panels A1 and A2. Secondary a... |
PMC546210_F7_1182.jpg | What is the focal point of this photograph? | Immunocytochemistry of isolated mouse ventricular myocytes demonstrating the subcellular localization of Kir6.1, Kir6.2, SUR1 and SUR2 subunits. A: Double staining of a ventricular myocyte with the CAF-1 anti-Kir6.1 antibody (A1) and 76A anti-Kir6.2 antibody (A2). Panel A3 is an overlay of panels A1 and A2. Secondary a... |
PMC546210_F7_1186.jpg | What's the most prominent thing you notice in this picture? | Immunocytochemistry of isolated mouse ventricular myocytes demonstrating the subcellular localization of Kir6.1, Kir6.2, SUR1 and SUR2 subunits. A: Double staining of a ventricular myocyte with the CAF-1 anti-Kir6.1 antibody (A1) and 76A anti-Kir6.2 antibody (A2). Panel A3 is an overlay of panels A1 and A2. Secondary a... |
PMC546210_F7_1181.jpg | Describe the main subject of this image. | Immunocytochemistry of isolated mouse ventricular myocytes demonstrating the subcellular localization of Kir6.1, Kir6.2, SUR1 and SUR2 subunits. A: Double staining of a ventricular myocyte with the CAF-1 anti-Kir6.1 antibody (A1) and 76A anti-Kir6.2 antibody (A2). Panel A3 is an overlay of panels A1 and A2. Secondary a... |
PMC546210_F7_1183.jpg | What object or scene is depicted here? | Immunocytochemistry of isolated mouse ventricular myocytes demonstrating the subcellular localization of Kir6.1, Kir6.2, SUR1 and SUR2 subunits. A: Double staining of a ventricular myocyte with the CAF-1 anti-Kir6.1 antibody (A1) and 76A anti-Kir6.2 antibody (A2). Panel A3 is an overlay of panels A1 and A2. Secondary a... |
PMC546218_F1_1187.jpg | What is the dominant medical problem in this image? | Immunohistochemical studies of ILK in non-neoplastic pulmonary tissue and in NSCLC tissue. a non-neoplastic pulmonary tissue: ILK was not detected in epithelial cells, while ILK expression was found in many stromal cells. |
PMC546218_F2_1188.jpg | Describe the main subject of this image. | well differentiated adenocarcinoma: ILK protein was localized in both cytoplasms and nuclei. (Magnification, ×40 (Figure 1), ×16 (Figure 2), and ×40 (Figure 3)). |
PMC546218_F3_1189.jpg | What is shown in this image? | well differentiated adenocarcinoma: ILK protein was localized in both cytoplasms and nuclei. (Magnification, ×40 (Figure 1), ×16 (Figure 2), and ×40 (Figure 3)). |
PMC546218_F3_1190.jpg | What is being portrayed in this visual content? | well differentiated adenocarcinoma: ILK protein was localized in both cytoplasms and nuclei. (Magnification, ×40 (Figure 1), ×16 (Figure 2), and ×40 (Figure 3)). |
PMC546237_F1_1191.jpg | Describe the main subject of this image. | CT scan image showing the hepatic metastasis in segment VII. |
PMC546237_F2_1192.jpg | What's the most prominent thing you notice in this picture? | CT scan image showing the omental mass adjacent to bowel loop (circle around the omental mass). |
PMC546405_F4_1196.jpg | What's the most prominent thing you notice in this picture? | NaK2Cl cotransporter expression in human CP: Lateral ventricle plexuses were incubated with T4 (not thyroxine) antibody, which stains the secretory isoform 1 of the NaK2Cl (NKCC1) cotransporter protein. The T4 antibody (mouse monoclonal; 1:100) was from the University of Iowa Developmental Studies Hybridoma Bank (Iowa ... |
PMC546405_F4_1193.jpg | Can you identify the primary element in this image? | NaK2Cl cotransporter expression in human CP: Lateral ventricle plexuses were incubated with T4 (not thyroxine) antibody, which stains the secretory isoform 1 of the NaK2Cl (NKCC1) cotransporter protein. The T4 antibody (mouse monoclonal; 1:100) was from the University of Iowa Developmental Studies Hybridoma Bank (Iowa ... |
PMC546405_F4_1194.jpg | What stands out most in this visual? | NaK2Cl cotransporter expression in human CP: Lateral ventricle plexuses were incubated with T4 (not thyroxine) antibody, which stains the secretory isoform 1 of the NaK2Cl (NKCC1) cotransporter protein. The T4 antibody (mouse monoclonal; 1:100) was from the University of Iowa Developmental Studies Hybridoma Bank (Iowa ... |
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