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PMC9419541_FIG2_387321.jpg | What is the focal point of this photograph? | Computerized tomography scan of the thorax with contrast.Showing bilateral retro-areolar fatty lesions consistent with gynecomastia. |
PMC9419571_fig2_387326.jpg | What is the focal point of this photograph? | Characterization of the 3D cervical epithelium model (A2EN). Transepithelial resistance values over the course of A2EN epithelial cell transwell 3D model set up (A). Histology (H&E) imaging (B) and electron microscopy (TEM) imaging (C) of the epithelial cells of the model 6 days post set-up. Confocal imaging of mucin g... |
PMC9419571_fig2_387324.jpg | What is the dominant medical problem in this image? | Characterization of the 3D cervical epithelium model (A2EN). Transepithelial resistance values over the course of A2EN epithelial cell transwell 3D model set up (A). Histology (H&E) imaging (B) and electron microscopy (TEM) imaging (C) of the epithelial cells of the model 6 days post set-up. Confocal imaging of mucin g... |
PMC9419571_fig2_387325.jpg | What stands out most in this visual? | Characterization of the 3D cervical epithelium model (A2EN). Transepithelial resistance values over the course of A2EN epithelial cell transwell 3D model set up (A). Histology (H&E) imaging (B) and electron microscopy (TEM) imaging (C) of the epithelial cells of the model 6 days post set-up. Confocal imaging of mucin g... |
PMC9419571_fig3_387328.jpg | What is shown in this image? | Characterization of the 3D vaginal epithelium model (VK2). Transepithelial resistance values over the course of VK2 epithelial cell transwell 3D model set up (A). Histology (H&E) imaging (B) and electron microscopy (TEM) imaging (C) of the epithelial cells of the model 8 days post set-up. Error bars represent SD. Image... |
PMC9419676_ivac117-F3_387334.jpg | Describe the main subject of this image. | Computed tomographic image of case number 3 in this study. (A) Preoperative computed tomographic image (coronal view). (B) Preoperative computed tomographic image (axial view). (C) Postoperative computed tomographic image (coronal view). (D) Postoperative computed tomographic image (axial view). |
PMC9419676_ivac117-F3_387332.jpg | What is the core subject represented in this visual? | Computed tomographic image of case number 3 in this study. (A) Preoperative computed tomographic image (coronal view). (B) Preoperative computed tomographic image (axial view). (C) Postoperative computed tomographic image (coronal view). (D) Postoperative computed tomographic image (axial view). |
PMC9419676_ivac117-F3_387331.jpg | What is the principal component of this image? | Computed tomographic image of case number 3 in this study. (A) Preoperative computed tomographic image (coronal view). (B) Preoperative computed tomographic image (axial view). (C) Postoperative computed tomographic image (coronal view). (D) Postoperative computed tomographic image (axial view). |
PMC9419682_ivac096-F1_387339.jpg | What is the main focus of this visual representation? | (A and B) Axial and coronal views of contrast-enhanced computed tomography of the chest, showing a filling defect in the main pulmonary artery, left pulmonary artery and right pulmonary artery. (C) Positron emission tomography showing FDG-avid filling defect in the pulmonary artery (arrow). (D) Postoperative computed t... |
PMC9419682_ivac096-F1_387337.jpg | What is the focal point of this photograph? | (A and B) Axial and coronal views of contrast-enhanced computed tomography of the chest, showing a filling defect in the main pulmonary artery, left pulmonary artery and right pulmonary artery. (C) Positron emission tomography showing FDG-avid filling defect in the pulmonary artery (arrow). (D) Postoperative computed t... |
PMC9419682_ivac096-F1_387338.jpg | What is being portrayed in this visual content? | (A and B) Axial and coronal views of contrast-enhanced computed tomography of the chest, showing a filling defect in the main pulmonary artery, left pulmonary artery and right pulmonary artery. (C) Positron emission tomography showing FDG-avid filling defect in the pulmonary artery (arrow). (D) Postoperative computed t... |
PMC9419682_ivac096-F2_387336.jpg | What is the central feature of this picture? | (A) The excised specimen, showing the left FDG, main pulmonary artery, left main bronchus and the intra-arterial tumour. (B) Pathology slide of the tumour, showing irregular proliferation of cells (white arrow). |
PMC9419682_ivac096-F2_387335.jpg | What can you see in this picture? | (A) The excised specimen, showing the left FDG, main pulmonary artery, left main bronchus and the intra-arterial tumour. (B) Pathology slide of the tumour, showing irregular proliferation of cells (white arrow). |
PMC9419698_ivac106-F1_387341.jpg | What's the most prominent thing you notice in this picture? | Assessment of the recipients’ physical traits on preoperative computed tomography. (A) The Haller index was calculated as the ratio between the maximum transverse diameter (the horizontal distance inside the ribcage) and the minimum anteroposterior diameter (the shortest distance between the vertebrae and the sternum);... |
PMC9419698_ivac106-F1_387342.jpg | What is the core subject represented in this visual? | Assessment of the recipients’ physical traits on preoperative computed tomography. (A) The Haller index was calculated as the ratio between the maximum transverse diameter (the horizontal distance inside the ribcage) and the minimum anteroposterior diameter (the shortest distance between the vertebrae and the sternum);... |
PMC9419848_FIG1_387349.jpg | What's the most prominent thing you notice in this picture? | MRI and MRA brain.MRI brain, plain and contrast imagingA) Coronal T2 weighted image showing conglomerated hyperintense cystic lesions with an eccentric hypointense nodule in the left Sylvian fissure (thin white arrow), in the region of the ICA bifurcation, irregular T2 hyper intensity is seen in left putamen, caudate a... |
PMC9419848_FIG1_387345.jpg | What does this image primarily show? | MRI and MRA brain.MRI brain, plain and contrast imagingA) Coronal T2 weighted image showing conglomerated hyperintense cystic lesions with an eccentric hypointense nodule in the left Sylvian fissure (thin white arrow), in the region of the ICA bifurcation, irregular T2 hyper intensity is seen in left putamen, caudate a... |
PMC9419848_FIG1_387352.jpg | What's the most prominent thing you notice in this picture? | MRI and MRA brain.MRI brain, plain and contrast imagingA) Coronal T2 weighted image showing conglomerated hyperintense cystic lesions with an eccentric hypointense nodule in the left Sylvian fissure (thin white arrow), in the region of the ICA bifurcation, irregular T2 hyper intensity is seen in left putamen, caudate a... |
PMC9419848_FIG1_387348.jpg | What's the most prominent thing you notice in this picture? | MRI and MRA brain.MRI brain, plain and contrast imagingA) Coronal T2 weighted image showing conglomerated hyperintense cystic lesions with an eccentric hypointense nodule in the left Sylvian fissure (thin white arrow), in the region of the ICA bifurcation, irregular T2 hyper intensity is seen in left putamen, caudate a... |
PMC9419848_FIG1_387347.jpg | What object or scene is depicted here? | MRI and MRA brain.MRI brain, plain and contrast imagingA) Coronal T2 weighted image showing conglomerated hyperintense cystic lesions with an eccentric hypointense nodule in the left Sylvian fissure (thin white arrow), in the region of the ICA bifurcation, irregular T2 hyper intensity is seen in left putamen, caudate a... |
PMC9419848_FIG1_387351.jpg | What key item or scene is captured in this photo? | MRI and MRA brain.MRI brain, plain and contrast imagingA) Coronal T2 weighted image showing conglomerated hyperintense cystic lesions with an eccentric hypointense nodule in the left Sylvian fissure (thin white arrow), in the region of the ICA bifurcation, irregular T2 hyper intensity is seen in left putamen, caudate a... |
PMC9419848_FIG1_387346.jpg | What object or scene is depicted here? | MRI and MRA brain.MRI brain, plain and contrast imagingA) Coronal T2 weighted image showing conglomerated hyperintense cystic lesions with an eccentric hypointense nodule in the left Sylvian fissure (thin white arrow), in the region of the ICA bifurcation, irregular T2 hyper intensity is seen in left putamen, caudate a... |
PMC9419897_FIG2_387344.jpg | What is the focal point of this photograph? | Patient's CT chest, lung window.Blue arrow: pneumonic patch |
PMC9419995_FIG1_387353.jpg | What's the most prominent thing you notice in this picture? | Computed tomography image of the chest showing lesions of subclavian lymphadenopathy (white arrows). |
PMC9419995_FIG2_387354.jpg | What is the central feature of this picture? | Computed tomography image of the chest showing lesions of axillary lymphadenopathy (white arrows). |
PMC9420018_awac081-F1_387361.jpg | Describe the main subject of this image. |
MRI scans of patients with biallelic variants in CACNA2D1 and determination of CACNA2D1 mRNA and α2δ-1 protein levels in patient-derived fibroblasts. (A) In Patient 1, T2-weighted sagittal MRI shows hypoplastic corpus callosum and T1-weighted axial image shows enlarged ventricles and frontotemporal CSF spaces at the a... |
PMC9420018_awac081-F1_387359.jpg | Describe the main subject of this image. |
MRI scans of patients with biallelic variants in CACNA2D1 and determination of CACNA2D1 mRNA and α2δ-1 protein levels in patient-derived fibroblasts. (A) In Patient 1, T2-weighted sagittal MRI shows hypoplastic corpus callosum and T1-weighted axial image shows enlarged ventricles and frontotemporal CSF spaces at the a... |
PMC9420021_awac130-F4_387362.jpg | What is being portrayed in this visual content? |
Lesion distribution map and radiological reporting. (A) Lesion overlap map of participants. Thirteen out of the 39 paediatric TBI patients tested in the study presented with focal lesions. These were regressed out of analysis on an individual bases. (B) Frequency of radiological reported focal pathology as percentage ... |
PMC9420040_FIG2_387364.jpg | What key item or scene is captured in this photo? | Axial T2-weighted MRI demonstrating intermediate to slightly low signal intensity of the orbital masses |
PMC9420040_FIG3_387365.jpg | What is the dominant medical problem in this image? | Axial MRI following gadolinium contrast demonstrating mild, homogenous contrast enhancement |
PMC9420063_fig4_387378.jpg | What is shown in this image? | Examples of the enhanced BDD10 K_val dataset. The results of our method show the most realistic and natural lighting, meanwhile preserving the whole scene details. (a) Low-light image. (b) LIME. (c) MSRCR. (d) RetinexNet. (e) WESPE. (f) DeepUPE. (g) HDRNet. (h) zeroDCE. (i) Enlightengan. (j) Ours. (k) Ours 512∗512. (l)... |
PMC9420063_fig4_387382.jpg | What key item or scene is captured in this photo? | Examples of the enhanced BDD10 K_val dataset. The results of our method show the most realistic and natural lighting, meanwhile preserving the whole scene details. (a) Low-light image. (b) LIME. (c) MSRCR. (d) RetinexNet. (e) WESPE. (f) DeepUPE. (g) HDRNet. (h) zeroDCE. (i) Enlightengan. (j) Ours. (k) Ours 512∗512. (l)... |
PMC9420063_fig4_387368.jpg | Describe the main subject of this image. | Examples of the enhanced BDD10 K_val dataset. The results of our method show the most realistic and natural lighting, meanwhile preserving the whole scene details. (a) Low-light image. (b) LIME. (c) MSRCR. (d) RetinexNet. (e) WESPE. (f) DeepUPE. (g) HDRNet. (h) zeroDCE. (i) Enlightengan. (j) Ours. (k) Ours 512∗512. (l)... |
PMC9420063_fig4_387370.jpg | What key item or scene is captured in this photo? | Examples of the enhanced BDD10 K_val dataset. The results of our method show the most realistic and natural lighting, meanwhile preserving the whole scene details. (a) Low-light image. (b) LIME. (c) MSRCR. (d) RetinexNet. (e) WESPE. (f) DeepUPE. (g) HDRNet. (h) zeroDCE. (i) Enlightengan. (j) Ours. (k) Ours 512∗512. (l)... |
PMC9420063_fig4_387389.jpg | What is the dominant medical problem in this image? | Examples of the enhanced BDD10 K_val dataset. The results of our method show the most realistic and natural lighting, meanwhile preserving the whole scene details. (a) Low-light image. (b) LIME. (c) MSRCR. (d) RetinexNet. (e) WESPE. (f) DeepUPE. (g) HDRNet. (h) zeroDCE. (i) Enlightengan. (j) Ours. (k) Ours 512∗512. (l)... |
PMC9420085_Fig1_387394.jpg | What object or scene is depicted here? | Low power magnification of cross sections of taenia coli muscle. At this magnification, the myosin filaments (some of them exhibiting ribbon-like features) are clearly visible even at 1.5-fold magnification. These shorter ribbons, and not the not recognizable regular arrangements of the actin filaments, later described... |
PMC9420085_Fig2_387392.jpg | What is the focal point of this photograph? | Low power cross section of an EM image of ABRM smooth muscle of Mytilus edulis. The black dots of variable diameter correspond to the myosin filaments, which additionally contain paramyosin and myorod. For more details, see “Discussion” section. Magnification: ×19,500 |
PMC9420085_Fig3_387391.jpg | What can you see in this picture? | Smooth muscle cell of taenia coli at high magnification. Note, the clear presence of the actin filament lattices. In contrast, most of the myosin filaments are not round but in the form of a ribbon-like shape of variable width. Magnification: ×107,500 |
PMC9420085_Fig4_387393.jpg | What is being portrayed in this visual content? | Cross section of molluscan smooth muscle. At this magnification, the myosin cross-bridges are often recognizable as projecting away from the thick filament’ surfaces or connections between the two kinds of actin filaments. The dense areas are structures analogous to the Z-line of skeletal muscle, also present in the ve... |
PMC9420085_Fig5_387398.jpg | What is the principal component of this image? | Paracrystals formed from purified light meromyosin fragment (LMM) of chicken gizzard myosin at low acidic conditions. Most commonly they were of the size shown in (B), but often they could be relatively broad (C) or rather long (D). Those in form of a short filament were very rare (A). Note the presence of the 7.15 nm ... |
PMC9420085_Fig5_387395.jpg | What stands out most in this visual? | Paracrystals formed from purified light meromyosin fragment (LMM) of chicken gizzard myosin at low acidic conditions. Most commonly they were of the size shown in (B), but often they could be relatively broad (C) or rather long (D). Those in form of a short filament were very rare (A). Note the presence of the 7.15 nm ... |
PMC9420085_Fig6_387400.jpg | Can you identify the primary element in this image? | Short filaments or assemblies formed from purified myosin rod fragments at low ionic strength (BW pH 5.6). In these rod filament preparations, there were many assemblies present, in which the filaments were splitting at one end forming arrowhead-like structures (labelled by letter “V”). Note also the presence of the 7.... |
PMC9420085_Fig7_387403.jpg | What can you see in this picture? | Filaments assembled from purified myosin rod fragment by slow dialysis against low ionic strength buffer at pH 5.6. Under these conditions, javelin-like filaments were formed, exhibiting the same 7.15 nm coiled-coil repeat. Noticeable in their appearance is the somewhat flattened shape, which sometimes resulted in a 90... |
PMC9420085_Fig8_387399.jpg | What's the most prominent thing you notice in this picture? | Threads formed from myosin rods after their solubilization at 0.6 M KCl under low acidic conditions (pH about 4.0) with subsequent neutralization (pH 6.8). Note the formation of extremely long thread-like structures, often in form of triple ribbons, which might be related to the coiled-coil structure of the proposed he... |
PMC9420085_Fig10_387401.jpg | What is the core subject represented in this visual? | Filaments assembled from pig stomach smooth muscle myosin purified by our improved procedure described in “Materials and methods” section. Note the excellent preservation of the myosin cross-bridges. All the previously described features of such long filaments are clearly seen (see “Introduction” section). This particu... |
PMC9420090_Fig4_387406.jpg | Describe the main subject of this image. | Results of the molecular and immunohistochemical study of alterations of cancer-related genes in the four morphologically distinct lesions find in the ovary and in the endometrium (see text for details) |
PMC9420090_Fig4_387405.jpg | What is the focal point of this photograph? | Results of the molecular and immunohistochemical study of alterations of cancer-related genes in the four morphologically distinct lesions find in the ovary and in the endometrium (see text for details) |
PMC9420090_Fig4_387404.jpg | What is the focal point of this photograph? | Results of the molecular and immunohistochemical study of alterations of cancer-related genes in the four morphologically distinct lesions find in the ovary and in the endometrium (see text for details) |
PMC9420091_Fig1_387414.jpg | What is the principal component of this image? | Representative EPNEC cases from the series investigated. a–c EPNEC of large cell type, unknown primary, brain metastasis, positive for INSM1 protein (b) and chromogranin A (c), with focal dot-like pattern. d, e EPNEC of large cell type, unknown primary, lymph node metastasis, positive for synaptophysin (e) and with hig... |
PMC9420091_Fig1_387411.jpg | What is the main focus of this visual representation? | Representative EPNEC cases from the series investigated. a–c EPNEC of large cell type, unknown primary, brain metastasis, positive for INSM1 protein (b) and chromogranin A (c), with focal dot-like pattern. d, e EPNEC of large cell type, unknown primary, lymph node metastasis, positive for synaptophysin (e) and with hig... |
PMC9420091_Fig1_387419.jpg | What is being portrayed in this visual content? | Representative EPNEC cases from the series investigated. a–c EPNEC of large cell type, unknown primary, brain metastasis, positive for INSM1 protein (b) and chromogranin A (c), with focal dot-like pattern. d, e EPNEC of large cell type, unknown primary, lymph node metastasis, positive for synaptophysin (e) and with hig... |
PMC9420091_Fig1_387415.jpg | What is the core subject represented in this visual? | Representative EPNEC cases from the series investigated. a–c EPNEC of large cell type, unknown primary, brain metastasis, positive for INSM1 protein (b) and chromogranin A (c), with focal dot-like pattern. d, e EPNEC of large cell type, unknown primary, lymph node metastasis, positive for synaptophysin (e) and with hig... |
PMC9420091_Fig1_387417.jpg | What is the focal point of this photograph? | Representative EPNEC cases from the series investigated. a–c EPNEC of large cell type, unknown primary, brain metastasis, positive for INSM1 protein (b) and chromogranin A (c), with focal dot-like pattern. d, e EPNEC of large cell type, unknown primary, lymph node metastasis, positive for synaptophysin (e) and with hig... |
PMC9420091_Fig1_387408.jpg | What does this image primarily show? | Representative EPNEC cases from the series investigated. a–c EPNEC of large cell type, unknown primary, brain metastasis, positive for INSM1 protein (b) and chromogranin A (c), with focal dot-like pattern. d, e EPNEC of large cell type, unknown primary, lymph node metastasis, positive for synaptophysin (e) and with hig... |
PMC9420091_Fig1_387410.jpg | Describe the main subject of this image. | Representative EPNEC cases from the series investigated. a–c EPNEC of large cell type, unknown primary, brain metastasis, positive for INSM1 protein (b) and chromogranin A (c), with focal dot-like pattern. d, e EPNEC of large cell type, unknown primary, lymph node metastasis, positive for synaptophysin (e) and with hig... |
PMC9420091_Fig1_387412.jpg | What is the focal point of this photograph? | Representative EPNEC cases from the series investigated. a–c EPNEC of large cell type, unknown primary, brain metastasis, positive for INSM1 protein (b) and chromogranin A (c), with focal dot-like pattern. d, e EPNEC of large cell type, unknown primary, lymph node metastasis, positive for synaptophysin (e) and with hig... |
PMC9420091_Fig1_387409.jpg | What is the principal component of this image? | Representative EPNEC cases from the series investigated. a–c EPNEC of large cell type, unknown primary, brain metastasis, positive for INSM1 protein (b) and chromogranin A (c), with focal dot-like pattern. d, e EPNEC of large cell type, unknown primary, lymph node metastasis, positive for synaptophysin (e) and with hig... |
PMC9420091_Fig1_387413.jpg | What is shown in this image? | Representative EPNEC cases from the series investigated. a–c EPNEC of large cell type, unknown primary, brain metastasis, positive for INSM1 protein (b) and chromogranin A (c), with focal dot-like pattern. d, e EPNEC of large cell type, unknown primary, lymph node metastasis, positive for synaptophysin (e) and with hig... |
PMC9420091_Fig1_387416.jpg | What stands out most in this visual? | Representative EPNEC cases from the series investigated. a–c EPNEC of large cell type, unknown primary, brain metastasis, positive for INSM1 protein (b) and chromogranin A (c), with focal dot-like pattern. d, e EPNEC of large cell type, unknown primary, lymph node metastasis, positive for synaptophysin (e) and with hig... |
PMC9420094_Fig1_387421.jpg | What is shown in this image? | Ultrasound features and macroscopic appearance. Main MFT focus with ultrasound features worrisome for papillary carcinoma that prompted fine needle aspiration (A). Cut surface of the MFT focus on the surgical specimen (B). Low-power microscopic appearance (C) |
PMC9420094_Fig1_387422.jpg | What is the dominant medical problem in this image? | Ultrasound features and macroscopic appearance. Main MFT focus with ultrasound features worrisome for papillary carcinoma that prompted fine needle aspiration (A). Cut surface of the MFT focus on the surgical specimen (B). Low-power microscopic appearance (C) |
PMC9420094_Fig2_387427.jpg | What is the dominant medical problem in this image? | Fine needle aspiration cytology. Scant colloid and small sheets of thyroid cells with anisonucleosis (A, 400 ×). Pseudo-papillary cluster (B, 400 ×). Mildly atypical cells, some with nuclear grooves (C, 600 × ; arrows). Occasional mitosis (D, 600 ×). Multinucleated giant cell (E, 200 ×). Macrophages intermixed with fol... |
PMC9420094_Fig2_387426.jpg | What is the dominant medical problem in this image? | Fine needle aspiration cytology. Scant colloid and small sheets of thyroid cells with anisonucleosis (A, 400 ×). Pseudo-papillary cluster (B, 400 ×). Mildly atypical cells, some with nuclear grooves (C, 600 × ; arrows). Occasional mitosis (D, 600 ×). Multinucleated giant cell (E, 200 ×). Macrophages intermixed with fol... |
PMC9420094_Fig2_387424.jpg | What is the focal point of this photograph? | Fine needle aspiration cytology. Scant colloid and small sheets of thyroid cells with anisonucleosis (A, 400 ×). Pseudo-papillary cluster (B, 400 ×). Mildly atypical cells, some with nuclear grooves (C, 600 × ; arrows). Occasional mitosis (D, 600 ×). Multinucleated giant cell (E, 200 ×). Macrophages intermixed with fol... |
PMC9420094_Fig2_387428.jpg | What does this image primarily show? | Fine needle aspiration cytology. Scant colloid and small sheets of thyroid cells with anisonucleosis (A, 400 ×). Pseudo-papillary cluster (B, 400 ×). Mildly atypical cells, some with nuclear grooves (C, 600 × ; arrows). Occasional mitosis (D, 600 ×). Multinucleated giant cell (E, 200 ×). Macrophages intermixed with fol... |
PMC9420094_Fig6_387432.jpg | What is shown in this image? | Histologic features. Millimetric MFT focus close to the outer surface of the thyroid gland mimicking at low magnification so-called occult sclerosing papillary thyroid carcinoma (A, 100 ×): MFT was an incidental diagnosis in a thyroid gland removed for other thyroid pathology. Follicles entrapped in the central fibrous... |
PMC9420094_Fig6_387431.jpg | What is the core subject represented in this visual? | Histologic features. Millimetric MFT focus close to the outer surface of the thyroid gland mimicking at low magnification so-called occult sclerosing papillary thyroid carcinoma (A, 100 ×): MFT was an incidental diagnosis in a thyroid gland removed for other thyroid pathology. Follicles entrapped in the central fibrous... |
PMC9420094_Fig6_387429.jpg | What is shown in this image? | Histologic features. Millimetric MFT focus close to the outer surface of the thyroid gland mimicking at low magnification so-called occult sclerosing papillary thyroid carcinoma (A, 100 ×): MFT was an incidental diagnosis in a thyroid gland removed for other thyroid pathology. Follicles entrapped in the central fibrous... |
PMC9420107_Fig5_387433.jpg | What is the principal component of this image? | Accelerated large-sample imaging with DeepSTORM DNA-PAINT.a Confocal microscopy image of an MNTB tissue section and a graphical representation of calyces organised within the MNTB region (inset; blue indicates principal cells and in grey are the postsynaptic Calyx of Held). b Large-area super-resolution image recorded ... |
PMC9420120_Fig1_387438.jpg | What is shown in this image? | Assessment of the formation of spheroids composed of ADSCs and cell viability.A IF staining showed that the spheroids composed of ADSCs had good morphology and the cells migrated from the spheroid, suggesting that the ADSCs maintained good proliferation and migration abilities after spheroid formation. B Images of diff... |
PMC9420120_Fig1_387442.jpg | What does this image primarily show? | Assessment of the formation of spheroids composed of ADSCs and cell viability.A IF staining showed that the spheroids composed of ADSCs had good morphology and the cells migrated from the spheroid, suggesting that the ADSCs maintained good proliferation and migration abilities after spheroid formation. B Images of diff... |
PMC9420120_Fig1_387435.jpg | What does this image primarily show? | Assessment of the formation of spheroids composed of ADSCs and cell viability.A IF staining showed that the spheroids composed of ADSCs had good morphology and the cells migrated from the spheroid, suggesting that the ADSCs maintained good proliferation and migration abilities after spheroid formation. B Images of diff... |
PMC9420120_Fig1_387439.jpg | What can you see in this picture? | Assessment of the formation of spheroids composed of ADSCs and cell viability.A IF staining showed that the spheroids composed of ADSCs had good morphology and the cells migrated from the spheroid, suggesting that the ADSCs maintained good proliferation and migration abilities after spheroid formation. B Images of diff... |
PMC9420120_Fig1_387441.jpg | Can you identify the primary element in this image? | Assessment of the formation of spheroids composed of ADSCs and cell viability.A IF staining showed that the spheroids composed of ADSCs had good morphology and the cells migrated from the spheroid, suggesting that the ADSCs maintained good proliferation and migration abilities after spheroid formation. B Images of diff... |
PMC9420134_Fig1_387448.jpg | What is being portrayed in this visual content? | Expression of human Tau disrupts eye development, reduces adult lifespan, and induces synapse loss and axonal retraction.a Examples of eyes from control [GMR-Gal4, UAS-mCD8GFP] versus hTau expressing animals [GMR-Gal4, UAS-hTau, UAS-ControlRi]. b Eye disruption scores for indicated genotypes. Data are presented as mean... |
PMC9420134_Fig1_387454.jpg | What is the focal point of this photograph? | Expression of human Tau disrupts eye development, reduces adult lifespan, and induces synapse loss and axonal retraction.a Examples of eyes from control [GMR-Gal4, UAS-mCD8GFP] versus hTau expressing animals [GMR-Gal4, UAS-hTau, UAS-ControlRi]. b Eye disruption scores for indicated genotypes. Data are presented as mean... |
PMC9420134_Fig1_387449.jpg | What is the dominant medical problem in this image? | Expression of human Tau disrupts eye development, reduces adult lifespan, and induces synapse loss and axonal retraction.a Examples of eyes from control [GMR-Gal4, UAS-mCD8GFP] versus hTau expressing animals [GMR-Gal4, UAS-hTau, UAS-ControlRi]. b Eye disruption scores for indicated genotypes. Data are presented as mean... |
PMC9420134_Fig1_387446.jpg | What object or scene is depicted here? | Expression of human Tau disrupts eye development, reduces adult lifespan, and induces synapse loss and axonal retraction.a Examples of eyes from control [GMR-Gal4, UAS-mCD8GFP] versus hTau expressing animals [GMR-Gal4, UAS-hTau, UAS-ControlRi]. b Eye disruption scores for indicated genotypes. Data are presented as mean... |
PMC9420134_Fig1_387450.jpg | What is the main focus of this visual representation? | Expression of human Tau disrupts eye development, reduces adult lifespan, and induces synapse loss and axonal retraction.a Examples of eyes from control [GMR-Gal4, UAS-mCD8GFP] versus hTau expressing animals [GMR-Gal4, UAS-hTau, UAS-ControlRi]. b Eye disruption scores for indicated genotypes. Data are presented as mean... |
PMC9420134_Fig1_387447.jpg | What key item or scene is captured in this photo? | Expression of human Tau disrupts eye development, reduces adult lifespan, and induces synapse loss and axonal retraction.a Examples of eyes from control [GMR-Gal4, UAS-mCD8GFP] versus hTau expressing animals [GMR-Gal4, UAS-hTau, UAS-ControlRi]. b Eye disruption scores for indicated genotypes. Data are presented as mean... |
PMC9420134_Fig1_387452.jpg | What is shown in this image? | Expression of human Tau disrupts eye development, reduces adult lifespan, and induces synapse loss and axonal retraction.a Examples of eyes from control [GMR-Gal4, UAS-mCD8GFP] versus hTau expressing animals [GMR-Gal4, UAS-hTau, UAS-ControlRi]. b Eye disruption scores for indicated genotypes. Data are presented as mean... |
PMC9420134_Fig1_387453.jpg | What's the most prominent thing you notice in this picture? | Expression of human Tau disrupts eye development, reduces adult lifespan, and induces synapse loss and axonal retraction.a Examples of eyes from control [GMR-Gal4, UAS-mCD8GFP] versus hTau expressing animals [GMR-Gal4, UAS-hTau, UAS-ControlRi]. b Eye disruption scores for indicated genotypes. Data are presented as mean... |
PMC9420135_Fig6_387464.jpg | What is the principal component of this image? | Electron micrographs of ultrathin sections in left ventricles of different experimental groups. (A, B) Control group showing myofibrils (MF) with narrow interfibrillar space. The oval euchromatic nucleus is seen in one fiber (N). Regular arrays of myofibrils are closely arranged within sarcomere (s) from Z line to Z li... |
PMC9420135_Fig6_387456.jpg | Can you identify the primary element in this image? | Electron micrographs of ultrathin sections in left ventricles of different experimental groups. (A, B) Control group showing myofibrils (MF) with narrow interfibrillar space. The oval euchromatic nucleus is seen in one fiber (N). Regular arrays of myofibrils are closely arranged within sarcomere (s) from Z line to Z li... |
PMC9420135_Fig6_387457.jpg | What can you see in this picture? | Electron micrographs of ultrathin sections in left ventricles of different experimental groups. (A, B) Control group showing myofibrils (MF) with narrow interfibrillar space. The oval euchromatic nucleus is seen in one fiber (N). Regular arrays of myofibrils are closely arranged within sarcomere (s) from Z line to Z li... |
PMC9420135_Fig6_387461.jpg | Can you identify the primary element in this image? | Electron micrographs of ultrathin sections in left ventricles of different experimental groups. (A, B) Control group showing myofibrils (MF) with narrow interfibrillar space. The oval euchromatic nucleus is seen in one fiber (N). Regular arrays of myofibrils are closely arranged within sarcomere (s) from Z line to Z li... |
PMC9420135_Fig6_387460.jpg | Can you identify the primary element in this image? | Electron micrographs of ultrathin sections in left ventricles of different experimental groups. (A, B) Control group showing myofibrils (MF) with narrow interfibrillar space. The oval euchromatic nucleus is seen in one fiber (N). Regular arrays of myofibrils are closely arranged within sarcomere (s) from Z line to Z li... |
PMC9420135_Fig6_387458.jpg | What is the core subject represented in this visual? | Electron micrographs of ultrathin sections in left ventricles of different experimental groups. (A, B) Control group showing myofibrils (MF) with narrow interfibrillar space. The oval euchromatic nucleus is seen in one fiber (N). Regular arrays of myofibrils are closely arranged within sarcomere (s) from Z line to Z li... |
PMC9420135_Fig6_387463.jpg | Describe the main subject of this image. | Electron micrographs of ultrathin sections in left ventricles of different experimental groups. (A, B) Control group showing myofibrils (MF) with narrow interfibrillar space. The oval euchromatic nucleus is seen in one fiber (N). Regular arrays of myofibrils are closely arranged within sarcomere (s) from Z line to Z li... |
PMC9420135_Fig6_387459.jpg | What key item or scene is captured in this photo? | Electron micrographs of ultrathin sections in left ventricles of different experimental groups. (A, B) Control group showing myofibrils (MF) with narrow interfibrillar space. The oval euchromatic nucleus is seen in one fiber (N). Regular arrays of myofibrils are closely arranged within sarcomere (s) from Z line to Z li... |
PMC9420135_Fig6_387462.jpg | What key item or scene is captured in this photo? | Electron micrographs of ultrathin sections in left ventricles of different experimental groups. (A, B) Control group showing myofibrils (MF) with narrow interfibrillar space. The oval euchromatic nucleus is seen in one fiber (N). Regular arrays of myofibrils are closely arranged within sarcomere (s) from Z line to Z li... |
PMC9420140_Fig3_387471.jpg | What is the dominant medical problem in this image? | Co-localisation of human CD1c+ DC with ferroptotic PTEC in fibrotic kidney tissue.Representative serial section immunohistochemical (IHC) staining of control/non-fibrotic (left panel) and fibrotic (middle panel) kidney tissue probed for (A) aquaporin-1, (B) GPX4, (C) 4-HNE and (D) CD1c. Regions of CD1c+ DC co-localisat... |
PMC9420140_Fig3_387468.jpg | What is the focal point of this photograph? | Co-localisation of human CD1c+ DC with ferroptotic PTEC in fibrotic kidney tissue.Representative serial section immunohistochemical (IHC) staining of control/non-fibrotic (left panel) and fibrotic (middle panel) kidney tissue probed for (A) aquaporin-1, (B) GPX4, (C) 4-HNE and (D) CD1c. Regions of CD1c+ DC co-localisat... |
PMC9420140_Fig3_387472.jpg | What is the principal component of this image? | Co-localisation of human CD1c+ DC with ferroptotic PTEC in fibrotic kidney tissue.Representative serial section immunohistochemical (IHC) staining of control/non-fibrotic (left panel) and fibrotic (middle panel) kidney tissue probed for (A) aquaporin-1, (B) GPX4, (C) 4-HNE and (D) CD1c. Regions of CD1c+ DC co-localisat... |
PMC9420140_Fig3_387465.jpg | What is the central feature of this picture? | Co-localisation of human CD1c+ DC with ferroptotic PTEC in fibrotic kidney tissue.Representative serial section immunohistochemical (IHC) staining of control/non-fibrotic (left panel) and fibrotic (middle panel) kidney tissue probed for (A) aquaporin-1, (B) GPX4, (C) 4-HNE and (D) CD1c. Regions of CD1c+ DC co-localisat... |
PMC9420140_Fig3_387469.jpg | What is being portrayed in this visual content? | Co-localisation of human CD1c+ DC with ferroptotic PTEC in fibrotic kidney tissue.Representative serial section immunohistochemical (IHC) staining of control/non-fibrotic (left panel) and fibrotic (middle panel) kidney tissue probed for (A) aquaporin-1, (B) GPX4, (C) 4-HNE and (D) CD1c. Regions of CD1c+ DC co-localisat... |
PMC9420140_Fig3_387470.jpg | What is the main focus of this visual representation? | Co-localisation of human CD1c+ DC with ferroptotic PTEC in fibrotic kidney tissue.Representative serial section immunohistochemical (IHC) staining of control/non-fibrotic (left panel) and fibrotic (middle panel) kidney tissue probed for (A) aquaporin-1, (B) GPX4, (C) 4-HNE and (D) CD1c. Regions of CD1c+ DC co-localisat... |
PMC9420140_Fig3_387467.jpg | Can you identify the primary element in this image? | Co-localisation of human CD1c+ DC with ferroptotic PTEC in fibrotic kidney tissue.Representative serial section immunohistochemical (IHC) staining of control/non-fibrotic (left panel) and fibrotic (middle panel) kidney tissue probed for (A) aquaporin-1, (B) GPX4, (C) 4-HNE and (D) CD1c. Regions of CD1c+ DC co-localisat... |
PMC9420173_FIG1_387477.jpg | What is shown in this image? | (A) Flexible nasopharyngolaryngoscopy with black arrows demonstrating plica ventricularis during phonation. (B) Flexible nasopharyngolaryngoscopy with black arrows demonstrating true vocal cords fixed within the paramedian position during inspiration. |
PMC9420173_FIG1_387478.jpg | What is the main focus of this visual representation? | (A) Flexible nasopharyngolaryngoscopy with black arrows demonstrating plica ventricularis during phonation. (B) Flexible nasopharyngolaryngoscopy with black arrows demonstrating true vocal cords fixed within the paramedian position during inspiration. |
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