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PMC1988786_F1_13771.jpg | What can you see in this picture? | Left side: angiography by direct splenic puncture shows the physiological venous drainage through the splenic vein to the portal vein; neo formed capillaries connect the spleen with the superior vena cava through thoraco-epigastric vein, and the inferior vena cava through the superficial epigastric vein. Right side: ma... |
PMC1988786_F1_13773.jpg | Can you identify the primary element in this image? | Left side: angiography by direct splenic puncture shows the physiological venous drainage through the splenic vein to the portal vein; neo formed capillaries connect the spleen with the superior vena cava through thoraco-epigastric vein, and the inferior vena cava through the superficial epigastric vein. Right side: ma... |
PMC1988786_F2_13769.jpg | What key item or scene is captured in this photo? | The liver is reperfused after cavo-portal transposition. pv = portal vein, cv = vena cava, smv = superior mesenteric vein, pdv = pancreatic-duodenal vein, rrv = right renal vein, lrv = left renal vein, cbd = common bile duct, ln = linfonode, rk = right kidney, sb = small bowel |
PMC1988812_F6_13781.jpg | What is the main focus of this visual representation? | Heart asymmetry was affected in gsk3β morphants. Normally, bmp4 transcripts accumulate predominantly on the left side of the heart tube at 20 hpf (A, B), and the left-predominant bmp4 asymmetry persists through the stages of jogging (G). However, in gsk3β morphants, the expression of bmp4 becomes symmetrical at 20 hpf ... |
PMC1988812_F6_13777.jpg | What is the dominant medical problem in this image? | Heart asymmetry was affected in gsk3β morphants. Normally, bmp4 transcripts accumulate predominantly on the left side of the heart tube at 20 hpf (A, B), and the left-predominant bmp4 asymmetry persists through the stages of jogging (G). However, in gsk3β morphants, the expression of bmp4 becomes symmetrical at 20 hpf ... |
PMC1988812_F6_13782.jpg | What stands out most in this visual? | Heart asymmetry was affected in gsk3β morphants. Normally, bmp4 transcripts accumulate predominantly on the left side of the heart tube at 20 hpf (A, B), and the left-predominant bmp4 asymmetry persists through the stages of jogging (G). However, in gsk3β morphants, the expression of bmp4 becomes symmetrical at 20 hpf ... |
PMC1988812_F6_13780.jpg | What key item or scene is captured in this photo? | Heart asymmetry was affected in gsk3β morphants. Normally, bmp4 transcripts accumulate predominantly on the left side of the heart tube at 20 hpf (A, B), and the left-predominant bmp4 asymmetry persists through the stages of jogging (G). However, in gsk3β morphants, the expression of bmp4 becomes symmetrical at 20 hpf ... |
PMC1988826_F1_13794.jpg | Can you identify the primary element in this image? | Subcellular localization of IκBα and p65/RelA in CD4+ T lymphocytes. Cells were treated or not with 20 nM LMB and then fixed, permeabilized and stained with specific antibodies against IκBα and p65/RelA. A secondary antibody conjugated with Texas Red (Molecular Probes) was used. Images were taken by confocal microscopy... |
PMC1988826_F1_13791.jpg | What is the dominant medical problem in this image? | Subcellular localization of IκBα and p65/RelA in CD4+ T lymphocytes. Cells were treated or not with 20 nM LMB and then fixed, permeabilized and stained with specific antibodies against IκBα and p65/RelA. A secondary antibody conjugated with Texas Red (Molecular Probes) was used. Images were taken by confocal microscopy... |
PMC1988826_F3_13785.jpg | What's the most prominent thing you notice in this picture? | Kinetic analysis of nuclear IκBα translocation. One CD4+ T lymphocyte transfected with EYFP-IκBα vector was photographed before and after treatment with LMB up to 30 minutes. Photographs were taken in vivo by confocal microscopy every minute after adding LMB. |
PMC1988826_F3_13790.jpg | What is shown in this image? | Kinetic analysis of nuclear IκBα translocation. One CD4+ T lymphocyte transfected with EYFP-IκBα vector was photographed before and after treatment with LMB up to 30 minutes. Photographs were taken in vivo by confocal microscopy every minute after adding LMB. |
PMC1988826_F3_13783.jpg | What does this image primarily show? | Kinetic analysis of nuclear IκBα translocation. One CD4+ T lymphocyte transfected with EYFP-IκBα vector was photographed before and after treatment with LMB up to 30 minutes. Photographs were taken in vivo by confocal microscopy every minute after adding LMB. |
PMC1988826_F3_13786.jpg | What can you see in this picture? | Kinetic analysis of nuclear IκBα translocation. One CD4+ T lymphocyte transfected with EYFP-IκBα vector was photographed before and after treatment with LMB up to 30 minutes. Photographs were taken in vivo by confocal microscopy every minute after adding LMB. |
PMC1988826_F3_13788.jpg | What is the dominant medical problem in this image? | Kinetic analysis of nuclear IκBα translocation. One CD4+ T lymphocyte transfected with EYFP-IκBα vector was photographed before and after treatment with LMB up to 30 minutes. Photographs were taken in vivo by confocal microscopy every minute after adding LMB. |
PMC1988826_F3_13787.jpg | What's the most prominent thing you notice in this picture? | Kinetic analysis of nuclear IκBα translocation. One CD4+ T lymphocyte transfected with EYFP-IκBα vector was photographed before and after treatment with LMB up to 30 minutes. Photographs were taken in vivo by confocal microscopy every minute after adding LMB. |
PMC1989140_pone-0000981-g002_13799.jpg | Can you identify the primary element in this image? | Demonstration of the variation in deposition pattern in the different organs.A. Cross-section of small intestine of AL312. The muscularis propria is converted into amyloid masses (Am). The mucosa is indicated by arrows. B. Section from the stomach of AL Es305 showing large amounts of amyloid between glands (Gl). C. Sec... |
PMC1989140_pone-0000981-g002_13801.jpg | What does this image primarily show? | Demonstration of the variation in deposition pattern in the different organs.A. Cross-section of small intestine of AL312. The muscularis propria is converted into amyloid masses (Am). The mucosa is indicated by arrows. B. Section from the stomach of AL Es305 showing large amounts of amyloid between glands (Gl). C. Sec... |
PMC1989140_pone-0000981-g002_13800.jpg | What's the most prominent thing you notice in this picture? | Demonstration of the variation in deposition pattern in the different organs.A. Cross-section of small intestine of AL312. The muscularis propria is converted into amyloid masses (Am). The mucosa is indicated by arrows. B. Section from the stomach of AL Es305 showing large amounts of amyloid between glands (Gl). C. Sec... |
PMC1989140_pone-0000981-g002_13802.jpg | What can you see in this picture? | Demonstration of the variation in deposition pattern in the different organs.A. Cross-section of small intestine of AL312. The muscularis propria is converted into amyloid masses (Am). The mucosa is indicated by arrows. B. Section from the stomach of AL Es305 showing large amounts of amyloid between glands (Gl). C. Sec... |
PMC1989140_pone-0000981-g002_13797.jpg | What is shown in this image? | Demonstration of the variation in deposition pattern in the different organs.A. Cross-section of small intestine of AL312. The muscularis propria is converted into amyloid masses (Am). The mucosa is indicated by arrows. B. Section from the stomach of AL Es305 showing large amounts of amyloid between glands (Gl). C. Sec... |
PMC1991594_pone-0000989-g003_13806.jpg | What is the focal point of this photograph? | Double strand breaks in pachytene spermatocytes detected using γH2AX immunohistochemistry on germ cell spreads.Immunodetection of SCP3 (red) and γH2AX (green) in TG-Ercc1 (A–C), Msh2 (E–G) and p53 (I–K) spermatocytes. The Sex body is highlighted with white arrows and foci are highlighted with arrowheads. Quantification... |
PMC1991594_pone-0000989-g003_13811.jpg | What is being portrayed in this visual content? | Double strand breaks in pachytene spermatocytes detected using γH2AX immunohistochemistry on germ cell spreads.Immunodetection of SCP3 (red) and γH2AX (green) in TG-Ercc1 (A–C), Msh2 (E–G) and p53 (I–K) spermatocytes. The Sex body is highlighted with white arrows and foci are highlighted with arrowheads. Quantification... |
PMC1991594_pone-0000989-g003_13813.jpg | What key item or scene is captured in this photo? | Double strand breaks in pachytene spermatocytes detected using γH2AX immunohistochemistry on germ cell spreads.Immunodetection of SCP3 (red) and γH2AX (green) in TG-Ercc1 (A–C), Msh2 (E–G) and p53 (I–K) spermatocytes. The Sex body is highlighted with white arrows and foci are highlighted with arrowheads. Quantification... |
PMC1991594_pone-0000989-g003_13810.jpg | What is being portrayed in this visual content? | Double strand breaks in pachytene spermatocytes detected using γH2AX immunohistochemistry on germ cell spreads.Immunodetection of SCP3 (red) and γH2AX (green) in TG-Ercc1 (A–C), Msh2 (E–G) and p53 (I–K) spermatocytes. The Sex body is highlighted with white arrows and foci are highlighted with arrowheads. Quantification... |
PMC1991594_pone-0000989-g003_13809.jpg | What is the principal component of this image? | Double strand breaks in pachytene spermatocytes detected using γH2AX immunohistochemistry on germ cell spreads.Immunodetection of SCP3 (red) and γH2AX (green) in TG-Ercc1 (A–C), Msh2 (E–G) and p53 (I–K) spermatocytes. The Sex body is highlighted with white arrows and foci are highlighted with arrowheads. Quantification... |
PMC1991594_pone-0000989-g003_13804.jpg | What is the dominant medical problem in this image? | Double strand breaks in pachytene spermatocytes detected using γH2AX immunohistochemistry on germ cell spreads.Immunodetection of SCP3 (red) and γH2AX (green) in TG-Ercc1 (A–C), Msh2 (E–G) and p53 (I–K) spermatocytes. The Sex body is highlighted with white arrows and foci are highlighted with arrowheads. Quantification... |
PMC1991594_pone-0000989-g003_13803.jpg | What is the central feature of this picture? | Double strand breaks in pachytene spermatocytes detected using γH2AX immunohistochemistry on germ cell spreads.Immunodetection of SCP3 (red) and γH2AX (green) in TG-Ercc1 (A–C), Msh2 (E–G) and p53 (I–K) spermatocytes. The Sex body is highlighted with white arrows and foci are highlighted with arrowheads. Quantification... |
PMC1991594_pone-0000989-g003_13805.jpg | What is shown in this image? | Double strand breaks in pachytene spermatocytes detected using γH2AX immunohistochemistry on germ cell spreads.Immunodetection of SCP3 (red) and γH2AX (green) in TG-Ercc1 (A–C), Msh2 (E–G) and p53 (I–K) spermatocytes. The Sex body is highlighted with white arrows and foci are highlighted with arrowheads. Quantification... |
PMC1993828_pone-0000948-g004_13816.jpg | What stands out most in this visual? | (a) Electron micrograph of thin section of an abnormally shaped nucleus (dotted outline) with a n-MTB due to overexpression of the ned1 gene [6].The n-MTB extends across the nucleus but is only partially visible in this section. Based on this and the other sections (not shown), we estimate that the bulge dimensions are... |
PMC1994067_F2_13817.jpg | What is the dominant medical problem in this image? | Typical FESEM images and TEM images of the γ-Mn3O4 spheres with radiated spherulitic nanorods. a: FESEM image at a low magnification, indicating that the γ-Mn3O4 spheres can be fabricated on a large scale. b: FESEM image at a high magnification, revealing the nanorods were fixed on the surfaces of the spheres. c: TEM i... |
PMC1994067_F2_13818.jpg | What is the core subject represented in this visual? | Typical FESEM images and TEM images of the γ-Mn3O4 spheres with radiated spherulitic nanorods. a: FESEM image at a low magnification, indicating that the γ-Mn3O4 spheres can be fabricated on a large scale. b: FESEM image at a high magnification, revealing the nanorods were fixed on the surfaces of the spheres. c: TEM i... |
PMC1994588_pone-0000998-g006_13821.jpg | What is the dominant medical problem in this image? | Spatial image microscopy of fibrillar structures.Panel A. Cut end of a dragline incubated in 8 M urea. High resolution stereo image was acquired with a Zeiss Neofluar 100x/NA 1.3 oil immersion objective. A stereo lorgnette is required for obtaining the 3D effect. The upper arrows will appear as one arrow behind the obj... |
PMC1994588_pone-0000998-g006_13822.jpg | What is the core subject represented in this visual? | Spatial image microscopy of fibrillar structures.Panel A. Cut end of a dragline incubated in 8 M urea. High resolution stereo image was acquired with a Zeiss Neofluar 100x/NA 1.3 oil immersion objective. A stereo lorgnette is required for obtaining the 3D effect. The upper arrows will appear as one arrow behind the obj... |
PMC1994588_pone-0000998-g006_13823.jpg | What stands out most in this visual? | Spatial image microscopy of fibrillar structures.Panel A. Cut end of a dragline incubated in 8 M urea. High resolution stereo image was acquired with a Zeiss Neofluar 100x/NA 1.3 oil immersion objective. A stereo lorgnette is required for obtaining the 3D effect. The upper arrows will appear as one arrow behind the obj... |
PMC1994593_pone-0001007-g001_13824.jpg | What is the focal point of this photograph? | [124I]FIAU signal in established infections as imaged by PET/CT: Fused PET and CT images, taken at 2 hours after radiotracer administration, are shown for the following cases.(a) septic arthritis (right knee, Patient 1), (b) septic arthritis (right knee, Patient 4), (c) osteomyelitis (left distal tibia, Patient 5), (d)... |
PMC1994593_pone-0001007-g001_13827.jpg | What is being portrayed in this visual content? | [124I]FIAU signal in established infections as imaged by PET/CT: Fused PET and CT images, taken at 2 hours after radiotracer administration, are shown for the following cases.(a) septic arthritis (right knee, Patient 1), (b) septic arthritis (right knee, Patient 4), (c) osteomyelitis (left distal tibia, Patient 5), (d)... |
PMC1994955_F1_13830.jpg | What's the most prominent thing you notice in this picture? | Magnetic Resonance Imaging of the Brain: a large mass in the clivus extending anteriorly to involve the nasopharynx and sphenoid sinus and posteriorly to destroy the clivus and lie anterior to the pons. |
PMC1994955_F1_13829.jpg | What key item or scene is captured in this photo? | Magnetic Resonance Imaging of the Brain: a large mass in the clivus extending anteriorly to involve the nasopharynx and sphenoid sinus and posteriorly to destroy the clivus and lie anterior to the pons. |
PMC1994957_F1_13831.jpg | Describe the main subject of this image. | The primary lesion of the sigmoid colon. Sigmoid colon cancer was suspected by barium enema and colonoscopy (a). Histological examination revealed the tumor to be a well-differentiated adenocarcinoma invading the subserosa with two lymph nodes metastases (T3, N1, M0). Tumor cells were not identified at the surgical mar... |
PMC1994957_F1_13833.jpg | What is the principal component of this image? | The primary lesion of the sigmoid colon. Sigmoid colon cancer was suspected by barium enema and colonoscopy (a). Histological examination revealed the tumor to be a well-differentiated adenocarcinoma invading the subserosa with two lymph nodes metastases (T3, N1, M0). Tumor cells were not identified at the surgical mar... |
PMC1994957_F2_13835.jpg | What key item or scene is captured in this photo? | Follow-up colonoscopy. We suspected the first anastomotic recurrence by colonoscopy in January 2000. Although an irregular lesion was noticed at the suture line by colonoscopy, pathological examination of the biopsy was unable to confirm malignant cells in the specimen (a). The next colonoscopy, which was performed nin... |
PMC1994957_F2_13834.jpg | What is the focal point of this photograph? | Follow-up colonoscopy. We suspected the first anastomotic recurrence by colonoscopy in January 2000. Although an irregular lesion was noticed at the suture line by colonoscopy, pathological examination of the biopsy was unable to confirm malignant cells in the specimen (a). The next colonoscopy, which was performed nin... |
PMC1995191_F2_13838.jpg | Describe the main subject of this image. | a-b. Oral photographs from the affected individual (IV:2 in Fig. 1). The primary teeth showed shade of brown and almost complete attrition of the enmel layer. c. Panorex radiographs from the affected individual (IV:2 in Fig. 1). |
PMC1995191_F2_13837.jpg | What is the principal component of this image? | a-b. Oral photographs from the affected individual (IV:2 in Fig. 1). The primary teeth showed shade of brown and almost complete attrition of the enmel layer. c. Panorex radiographs from the affected individual (IV:2 in Fig. 1). |
PMC1995191_F2_13836.jpg | What is the dominant medical problem in this image? | a-b. Oral photographs from the affected individual (IV:2 in Fig. 1). The primary teeth showed shade of brown and almost complete attrition of the enmel layer. c. Panorex radiographs from the affected individual (IV:2 in Fig. 1). |
PMC1995192_F2_13839.jpg | Can you identify the primary element in this image? | preoperative panoramic radiographs showing features of dentin dysplasia type I. |
PMC1995192_F4_13843.jpg | Describe the main subject of this image. | postoperative panoramic radiographs after tooth extraction and bone augmentation. |
PMC1995192_F5_13842.jpg | What does this image primarily show? | stereolithographic templates with drill-guide tubes manufactured on three-dimensional stereolithographic models of the mandible and maxilla. |
PMC1995192_F5_13841.jpg | What is shown in this image? | stereolithographic templates with drill-guide tubes manufactured on three-dimensional stereolithographic models of the mandible and maxilla. |
PMC1995192_F6_13840.jpg | Describe the main subject of this image. | postoperative panoramic radiographs after implant setting and bone augmentation. |
PMC1995203_F2_13847.jpg | What is the main focus of this visual representation? | Photomicrograph of hematoxylin & eosin stained slide (low [A] and high [B] magnification views) showing patchy fibrosed areas, obliterated bronchiole and chronic inflammatory infiltrate with preserved lung architecture. |
PMC1995203_F2_13848.jpg | What does this image primarily show? | Photomicrograph of hematoxylin & eosin stained slide (low [A] and high [B] magnification views) showing patchy fibrosed areas, obliterated bronchiole and chronic inflammatory infiltrate with preserved lung architecture. |
PMC1995207_F3_13849.jpg | What does this image primarily show? | DALYs lost per 1000 population due to malaria in Sudan in 2002 by age and sex. In both males and females, the greatest loss of DALYs due to malaria was in children below 5 years. The burden dropped considerably in older ages. Females had a higher burden than males in all age groups. |
PMC1995209_F6_13850.jpg | What is the principal component of this image? | LORETA: Source localization for the word rotation effect. For each individual, LORETAs were performed on the ERP difference-wave of rotated minus standard words in the N1 latency range (start 160, duration 20). Both grand mean LORETA (label = GND) and individual solutions show a strong focus of activity (in nAm) in the... |
PMC1995209_F6_13853.jpg | What key item or scene is captured in this photo? | LORETA: Source localization for the word rotation effect. For each individual, LORETAs were performed on the ERP difference-wave of rotated minus standard words in the N1 latency range (start 160, duration 20). Both grand mean LORETA (label = GND) and individual solutions show a strong focus of activity (in nAm) in the... |
PMC1995209_F6_13852.jpg | Describe the main subject of this image. | LORETA: Source localization for the word rotation effect. For each individual, LORETAs were performed on the ERP difference-wave of rotated minus standard words in the N1 latency range (start 160, duration 20). Both grand mean LORETA (label = GND) and individual solutions show a strong focus of activity (in nAm) in the... |
PMC1995209_F6_13851.jpg | What is being portrayed in this visual content? | LORETA: Source localization for the word rotation effect. For each individual, LORETAs were performed on the ERP difference-wave of rotated minus standard words in the N1 latency range (start 160, duration 20). Both grand mean LORETA (label = GND) and individual solutions show a strong focus of activity (in nAm) in the... |
PMC1995209_F8_13856.jpg | What does this image primarily show? | LORETA: Source localization for the letter recognition effect (orthographic analysis). Top: LORETA performed on the grand-mean target/non-target difference-wave between 160 and 180 ms (grid spacing = 20, ratio = 3) showing a strong focus of activation (in nAm) in the left fusiform gyrus (BA 37; x = -43, y = -57, z = 3)... |
PMC1995209_F8_13857.jpg | What object or scene is depicted here? | LORETA: Source localization for the letter recognition effect (orthographic analysis). Top: LORETA performed on the grand-mean target/non-target difference-wave between 160 and 180 ms (grid spacing = 20, ratio = 3) showing a strong focus of activation (in nAm) in the left fusiform gyrus (BA 37; x = -43, y = -57, z = 3)... |
PMC1995209_F8_13854.jpg | What is the principal component of this image? | LORETA: Source localization for the letter recognition effect (orthographic analysis). Top: LORETA performed on the grand-mean target/non-target difference-wave between 160 and 180 ms (grid spacing = 20, ratio = 3) showing a strong focus of activation (in nAm) in the left fusiform gyrus (BA 37; x = -43, y = -57, z = 3)... |
PMC1995209_F8_13855.jpg | What's the most prominent thing you notice in this picture? | LORETA: Source localization for the letter recognition effect (orthographic analysis). Top: LORETA performed on the grand-mean target/non-target difference-wave between 160 and 180 ms (grid spacing = 20, ratio = 3) showing a strong focus of activation (in nAm) in the left fusiform gyrus (BA 37; x = -43, y = -57, z = 3)... |
PMC1995452_F5_13864.jpg | What key item or scene is captured in this photo? | By E14.5, chorda tympani fibers have innervated fungiform papillae. Chorda tympani fibers have a stereotypical branching pattern in the tongue (A). A higher magnification view of the area outlined in (A) illustrates that each fiber bundle ends in a distinctive bulb shape known as a neural bud (B, arrows). Neural buds f... |
PMC1995452_F5_13860.jpg | What key item or scene is captured in this photo? | By E14.5, chorda tympani fibers have innervated fungiform papillae. Chorda tympani fibers have a stereotypical branching pattern in the tongue (A). A higher magnification view of the area outlined in (A) illustrates that each fiber bundle ends in a distinctive bulb shape known as a neural bud (B, arrows). Neural buds f... |
PMC1995452_F5_13863.jpg | What is the central feature of this picture? | By E14.5, chorda tympani fibers have innervated fungiform papillae. Chorda tympani fibers have a stereotypical branching pattern in the tongue (A). A higher magnification view of the area outlined in (A) illustrates that each fiber bundle ends in a distinctive bulb shape known as a neural bud (B, arrows). Neural buds f... |
PMC1995452_F5_13861.jpg | What is the principal component of this image? | By E14.5, chorda tympani fibers have innervated fungiform papillae. Chorda tympani fibers have a stereotypical branching pattern in the tongue (A). A higher magnification view of the area outlined in (A) illustrates that each fiber bundle ends in a distinctive bulb shape known as a neural bud (B, arrows). Neural buds f... |
PMC1995452_F5_13865.jpg | What stands out most in this visual? | By E14.5, chorda tympani fibers have innervated fungiform papillae. Chorda tympani fibers have a stereotypical branching pattern in the tongue (A). A higher magnification view of the area outlined in (A) illustrates that each fiber bundle ends in a distinctive bulb shape known as a neural bud (B, arrows). Neural buds f... |
PMC1995452_F6_13869.jpg | What is the central feature of this picture? | DiI-labeling reveals that normal innervation patterns (A, D) are disrupted by overexpression of BDNF (B, E) and loss of BDNF (C, F). By the first day of targeting (E14.5), wild type mice have very stereotyped innervation patterns, and each fiber bundle branch ends in a neural bud (A). Overexpression of BDNF throughout ... |
PMC1995452_F6_13868.jpg | What object or scene is depicted here? | DiI-labeling reveals that normal innervation patterns (A, D) are disrupted by overexpression of BDNF (B, E) and loss of BDNF (C, F). By the first day of targeting (E14.5), wild type mice have very stereotyped innervation patterns, and each fiber bundle branch ends in a neural bud (A). Overexpression of BDNF throughout ... |
PMC1995452_F6_13870.jpg | What can you see in this picture? | DiI-labeling reveals that normal innervation patterns (A, D) are disrupted by overexpression of BDNF (B, E) and loss of BDNF (C, F). By the first day of targeting (E14.5), wild type mice have very stereotyped innervation patterns, and each fiber bundle branch ends in a neural bud (A). Overexpression of BDNF throughout ... |
PMC1995452_F6_13871.jpg | What is the central feature of this picture? | DiI-labeling reveals that normal innervation patterns (A, D) are disrupted by overexpression of BDNF (B, E) and loss of BDNF (C, F). By the first day of targeting (E14.5), wild type mice have very stereotyped innervation patterns, and each fiber bundle branch ends in a neural bud (A). Overexpression of BDNF throughout ... |
PMC1995452_F6_13867.jpg | What can you see in this picture? | DiI-labeling reveals that normal innervation patterns (A, D) are disrupted by overexpression of BDNF (B, E) and loss of BDNF (C, F). By the first day of targeting (E14.5), wild type mice have very stereotyped innervation patterns, and each fiber bundle branch ends in a neural bud (A). Overexpression of BDNF throughout ... |
PMC1995452_F6_13866.jpg | What stands out most in this visual? | DiI-labeling reveals that normal innervation patterns (A, D) are disrupted by overexpression of BDNF (B, E) and loss of BDNF (C, F). By the first day of targeting (E14.5), wild type mice have very stereotyped innervation patterns, and each fiber bundle branch ends in a neural bud (A). Overexpression of BDNF throughout ... |
PMC1995759_pone-0001009-g006_13880.jpg | What is being portrayed in this visual content? | Colocalization of recombinant OVA proteins with MHC class II in murine BMDCs.MHC II-eGFP BMDCs were incubated with AF568 labeled-recombinant OVA protein (2μM) for 10 min. The live cells were then washed and kept on ice until imaging by confocal microscopy. Bar denotes 10 µM scale. Upper left: brightfield images. Upper ... |
PMC1995759_pone-0001009-g006_13873.jpg | What is the central feature of this picture? | Colocalization of recombinant OVA proteins with MHC class II in murine BMDCs.MHC II-eGFP BMDCs were incubated with AF568 labeled-recombinant OVA protein (2μM) for 10 min. The live cells were then washed and kept on ice until imaging by confocal microscopy. Bar denotes 10 µM scale. Upper left: brightfield images. Upper ... |
PMC1995759_pone-0001009-g006_13881.jpg | What is shown in this image? | Colocalization of recombinant OVA proteins with MHC class II in murine BMDCs.MHC II-eGFP BMDCs were incubated with AF568 labeled-recombinant OVA protein (2μM) for 10 min. The live cells were then washed and kept on ice until imaging by confocal microscopy. Bar denotes 10 µM scale. Upper left: brightfield images. Upper ... |
PMC1995759_pone-0001009-g006_13875.jpg | What is the core subject represented in this visual? | Colocalization of recombinant OVA proteins with MHC class II in murine BMDCs.MHC II-eGFP BMDCs were incubated with AF568 labeled-recombinant OVA protein (2μM) for 10 min. The live cells were then washed and kept on ice until imaging by confocal microscopy. Bar denotes 10 µM scale. Upper left: brightfield images. Upper ... |
PMC1995759_pone-0001009-g006_13878.jpg | What is the main focus of this visual representation? | Colocalization of recombinant OVA proteins with MHC class II in murine BMDCs.MHC II-eGFP BMDCs were incubated with AF568 labeled-recombinant OVA protein (2μM) for 10 min. The live cells were then washed and kept on ice until imaging by confocal microscopy. Bar denotes 10 µM scale. Upper left: brightfield images. Upper ... |
PMC1995759_pone-0001009-g006_13877.jpg | What is shown in this image? | Colocalization of recombinant OVA proteins with MHC class II in murine BMDCs.MHC II-eGFP BMDCs were incubated with AF568 labeled-recombinant OVA protein (2μM) for 10 min. The live cells were then washed and kept on ice until imaging by confocal microscopy. Bar denotes 10 µM scale. Upper left: brightfield images. Upper ... |
PMC1995759_pone-0001009-g006_13876.jpg | What is the main focus of this visual representation? | Colocalization of recombinant OVA proteins with MHC class II in murine BMDCs.MHC II-eGFP BMDCs were incubated with AF568 labeled-recombinant OVA protein (2μM) for 10 min. The live cells were then washed and kept on ice until imaging by confocal microscopy. Bar denotes 10 µM scale. Upper left: brightfield images. Upper ... |
PMC1995759_pone-0001009-g006_13872.jpg | What can you see in this picture? | Colocalization of recombinant OVA proteins with MHC class II in murine BMDCs.MHC II-eGFP BMDCs were incubated with AF568 labeled-recombinant OVA protein (2μM) for 10 min. The live cells were then washed and kept on ice until imaging by confocal microscopy. Bar denotes 10 µM scale. Upper left: brightfield images. Upper ... |
PMC1995759_pone-0001009-g006_13874.jpg | Describe the main subject of this image. | Colocalization of recombinant OVA proteins with MHC class II in murine BMDCs.MHC II-eGFP BMDCs were incubated with AF568 labeled-recombinant OVA protein (2μM) for 10 min. The live cells were then washed and kept on ice until imaging by confocal microscopy. Bar denotes 10 µM scale. Upper left: brightfield images. Upper ... |
PMC1997107_F1_13883.jpg | What stands out most in this visual? | Low power view of colon wall with mucosa, submucosa and muscularis propria. Mucosa shows extensive necrosis while muscularis propria and submucosa are spared (original magnification × 20). |
PMC1997107_F1_13882.jpg | What does this image primarily show? | Low power view of colon wall with mucosa, submucosa and muscularis propria. Mucosa shows extensive necrosis while muscularis propria and submucosa are spared (original magnification × 20). |
PMC2000357_pone-0001019-g028_13884.jpg | What is the central feature of this picture? | Lumbar extension in Homo and Pan.
(A)-Lumbar extension in human with six lumbar vertebrae. (B)-lumbar flexion in same individual. (C)-Superimposed images in flexion and extension showing that even with six lumbars, most extension takes place between L4 and the sacrum in humans. (D)-Short lumbar spine with heavy iliolum... |
PMC2000357_pone-0001019-g028_13885.jpg | Describe the main subject of this image. | Lumbar extension in Homo and Pan.
(A)-Lumbar extension in human with six lumbar vertebrae. (B)-lumbar flexion in same individual. (C)-Superimposed images in flexion and extension showing that even with six lumbars, most extension takes place between L4 and the sacrum in humans. (D)-Short lumbar spine with heavy iliolum... |
PMC2000357_pone-0001019-g028_13887.jpg | Describe the main subject of this image. | Lumbar extension in Homo and Pan.
(A)-Lumbar extension in human with six lumbar vertebrae. (B)-lumbar flexion in same individual. (C)-Superimposed images in flexion and extension showing that even with six lumbars, most extension takes place between L4 and the sacrum in humans. (D)-Short lumbar spine with heavy iliolum... |
PMC2000459_F5_13890.jpg | What is the principal component of this image? | Calculation of strain-rate using the velocity gradient. Longitudinal velocities using two ROI points in the same recording as figure 3. Y-axis represents velocity (cm/s), X-axis represents time (one cardiac cycle). IVC = isovolumic contraction; IVR = isovolumic relaxation. Calculation of strain-rate (SR) can be derived... |
PMC2000459_F5_13888.jpg | What stands out most in this visual? | Calculation of strain-rate using the velocity gradient. Longitudinal velocities using two ROI points in the same recording as figure 3. Y-axis represents velocity (cm/s), X-axis represents time (one cardiac cycle). IVC = isovolumic contraction; IVR = isovolumic relaxation. Calculation of strain-rate (SR) can be derived... |
PMC2000459_F5_13889.jpg | What is the central feature of this picture? | Calculation of strain-rate using the velocity gradient. Longitudinal velocities using two ROI points in the same recording as figure 3. Y-axis represents velocity (cm/s), X-axis represents time (one cardiac cycle). IVC = isovolumic contraction; IVR = isovolumic relaxation. Calculation of strain-rate (SR) can be derived... |
PMC2000459_F6_13891.jpg | What is the focal point of this photograph? | Impact of a stationary artifact on Doppler derived SR. TDI derived color coded M-mode of strain-rate in the lateral wall of one cardiac cycle. A stationary artifact (between white arrows) disturbs the velocity derived parameters. Note the reversal of the strain rate in the artifact and the overestimated SR below the ar... |
PMC2000459_F9_13893.jpg | What key item or scene is captured in this photo? | Impact of stationary artifact on 2DSE. 2DSE derived strain-rate of one cardiac cycle in the lateral wall in the same ultrasound examination of figure 6. Top left: B-mode recording with 2DSE ROI of the lateral wall. Bottom left: Color-coded M-mode of strain-rate values. The stationary artifact can be seen at the level o... |
PMC2000459_F14_13894.jpg | What key item or scene is captured in this photo? | Longitudinal strain of one cardiac cycle in the 4-chamber view using 2DSE after CRT device implantation. Note the synchronous contraction pattern of all wall segments and the increase in septal strain to the total ejection. The septal to lateral delay has decreased (distance between yellow and red arrow) after resynchr... |
PMC2000459_F14_13895.jpg | What key item or scene is captured in this photo? | Longitudinal strain of one cardiac cycle in the 4-chamber view using 2DSE after CRT device implantation. Note the synchronous contraction pattern of all wall segments and the increase in septal strain to the total ejection. The septal to lateral delay has decreased (distance between yellow and red arrow) after resynchr... |
PMC2000459_F14_13897.jpg | What can you see in this picture? | Longitudinal strain of one cardiac cycle in the 4-chamber view using 2DSE after CRT device implantation. Note the synchronous contraction pattern of all wall segments and the increase in septal strain to the total ejection. The septal to lateral delay has decreased (distance between yellow and red arrow) after resynchr... |
PMC2000466_F1_13898.jpg | What is the central feature of this picture? | Abdominal ultrasonography (A) and computed tomography (B) show a cystic lesion measuring 2.0 cm in maximal diameter at the left lateral segment of the liver with peripheral left lateral anterior subsegmental bile duct (B3) dilatation. Arrows head indicate the cystic lesion. |
PMC2000466_F1_13899.jpg | Describe the main subject of this image. | Abdominal ultrasonography (A) and computed tomography (B) show a cystic lesion measuring 2.0 cm in maximal diameter at the left lateral segment of the liver with peripheral left lateral anterior subsegmental bile duct (B3) dilatation. Arrows head indicate the cystic lesion. |
PMC2000466_F2_13900.jpg | What is the main focus of this visual representation? | Magnetic resonance imaging (MRI) reveals the cystic lesion as low in the T1-weighted image (A) and as high in the T2-weighted image (B). MR cholangiography shows a cystic lesion at the left lobe of the liver, but a filling defect in the bile duct and a communication between the cystic lesion and bile duct could not be ... |
PMC2000466_F2_13901.jpg | What key item or scene is captured in this photo? | Magnetic resonance imaging (MRI) reveals the cystic lesion as low in the T1-weighted image (A) and as high in the T2-weighted image (B). MR cholangiography shows a cystic lesion at the left lobe of the liver, but a filling defect in the bile duct and a communication between the cystic lesion and bile duct could not be ... |
PMC2000466_F2_13902.jpg | What is the dominant medical problem in this image? | Magnetic resonance imaging (MRI) reveals the cystic lesion as low in the T1-weighted image (A) and as high in the T2-weighted image (B). MR cholangiography shows a cystic lesion at the left lobe of the liver, but a filling defect in the bile duct and a communication between the cystic lesion and bile duct could not be ... |
PMC2000466_F3_13903.jpg | What is the main focus of this visual representation? | Endoscopic image of the duodenum shows mucin draining from a patulous papillary orifice (A). Endoscopic ultrasonography showed no mass protruding into the lumen in the bile duct and the cystic lesion at the left lateral segment of the liver (B). |
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