image stringlengths 20 66 | question stringclasses 16
values | answer stringlengths 3 10.7k |
|---|---|---|
PMC9418177_Fig5_387038.jpg | What is being portrayed in this visual content? | Collagenase induced hemorrhage in the striatum observed with 3DULM in the early phase. (a) 3D renderings before, and 1h30 after stroke’s induction, and the day after (Supplementary Video S2). (b) Sagittal and coronal slices of 600 µm with velocity rendering at different timepoints. Hemorrhagic core wrapped with a white... |
PMC9418177_Fig5_387044.jpg | What's the most prominent thing you notice in this picture? | Collagenase induced hemorrhage in the striatum observed with 3DULM in the early phase. (a) 3D renderings before, and 1h30 after stroke’s induction, and the day after (Supplementary Video S2). (b) Sagittal and coronal slices of 600 µm with velocity rendering at different timepoints. Hemorrhagic core wrapped with a white... |
PMC9418177_Fig5_387042.jpg | What is the core subject represented in this visual? | Collagenase induced hemorrhage in the striatum observed with 3DULM in the early phase. (a) 3D renderings before, and 1h30 after stroke’s induction, and the day after (Supplementary Video S2). (b) Sagittal and coronal slices of 600 µm with velocity rendering at different timepoints. Hemorrhagic core wrapped with a white... |
PMC9418177_Fig5_387039.jpg | Can you identify the primary element in this image? | Collagenase induced hemorrhage in the striatum observed with 3DULM in the early phase. (a) 3D renderings before, and 1h30 after stroke’s induction, and the day after (Supplementary Video S2). (b) Sagittal and coronal slices of 600 µm with velocity rendering at different timepoints. Hemorrhagic core wrapped with a white... |
PMC9418187_Fig1_387047.jpg | What can you see in this picture? | Map showing the topography of the area, earthquake epicenters from April to December 200927, the lateral limit of the Gran Sasso aquifer (blue line) and the location of the analyzed springs. The yellow stars are the Mw6.2 2009 L’Aquila and Mw6.2 2016 Amatrice epicenters. The endpoints of sections in Fig. 2 are shown. R... |
PMC9418216_Fig1_387049.jpg | What is shown in this image? | Carina, CVC tip and thoracic vertebra display on the radiograph. CVC central venous catheter. |
PMC9418226_Fig2_387054.jpg | What's the most prominent thing you notice in this picture? | Illustration of longitudinal image and label alignment for AMD and Stargardt data. Note the hypo-fluorescence regions on the FAF images are AMD atrophic lesions (i.e., GA) (upper row) and Stargardt atrophic lesions (bottom row) respectively. |
PMC9418226_Fig2_387051.jpg | What can you see in this picture? | Illustration of longitudinal image and label alignment for AMD and Stargardt data. Note the hypo-fluorescence regions on the FAF images are AMD atrophic lesions (i.e., GA) (upper row) and Stargardt atrophic lesions (bottom row) respectively. |
PMC9418226_Fig6_387061.jpg | What can you see in this picture? | Illustration of the atrophy progression prediction results based on baseline images and Month 12 ground truth. |
PMC9418226_Fig6_387059.jpg | What object or scene is depicted here? | Illustration of the atrophy progression prediction results based on baseline images and Month 12 ground truth. |
PMC9418226_Fig6_387057.jpg | What can you see in this picture? | Illustration of the atrophy progression prediction results based on baseline images and Month 12 ground truth. |
PMC9418226_Fig6_387064.jpg | What is the central feature of this picture? | Illustration of the atrophy progression prediction results based on baseline images and Month 12 ground truth. |
PMC9418226_Fig6_387056.jpg | What is being portrayed in this visual content? | Illustration of the atrophy progression prediction results based on baseline images and Month 12 ground truth. |
PMC9418226_Fig6_387065.jpg | What is the central feature of this picture? | Illustration of the atrophy progression prediction results based on baseline images and Month 12 ground truth. |
PMC9418226_Fig6_387058.jpg | What does this image primarily show? | Illustration of the atrophy progression prediction results based on baseline images and Month 12 ground truth. |
PMC9418226_Fig6_387062.jpg | What is the core subject represented in this visual? | Illustration of the atrophy progression prediction results based on baseline images and Month 12 ground truth. |
PMC9418226_Fig6_387063.jpg | What is the dominant medical problem in this image? | Illustration of the atrophy progression prediction results based on baseline images and Month 12 ground truth. |
PMC9418233_Fig5_387071.jpg | What stands out most in this visual? | Time-lapse imaging of microglial membrane alterations after recombinant PLY exposure.a High-resolution video microscopy of microglia in transmission and fluorescent imaging (FM 4-64). The fragment in the first image is magnified in the following series (0 s—time-point of treatment; see also Supplementary movie M2). Bef... |
PMC9418233_Fig5_387081.jpg | What is the main focus of this visual representation? | Time-lapse imaging of microglial membrane alterations after recombinant PLY exposure.a High-resolution video microscopy of microglia in transmission and fluorescent imaging (FM 4-64). The fragment in the first image is magnified in the following series (0 s—time-point of treatment; see also Supplementary movie M2). Bef... |
PMC9418233_Fig5_387077.jpg | What is the principal component of this image? | Time-lapse imaging of microglial membrane alterations after recombinant PLY exposure.a High-resolution video microscopy of microglia in transmission and fluorescent imaging (FM 4-64). The fragment in the first image is magnified in the following series (0 s—time-point of treatment; see also Supplementary movie M2). Bef... |
PMC9418233_Fig5_387073.jpg | What is the focal point of this photograph? | Time-lapse imaging of microglial membrane alterations after recombinant PLY exposure.a High-resolution video microscopy of microglia in transmission and fluorescent imaging (FM 4-64). The fragment in the first image is magnified in the following series (0 s—time-point of treatment; see also Supplementary movie M2). Bef... |
PMC9418233_Fig5_387080.jpg | What is the main focus of this visual representation? | Time-lapse imaging of microglial membrane alterations after recombinant PLY exposure.a High-resolution video microscopy of microglia in transmission and fluorescent imaging (FM 4-64). The fragment in the first image is magnified in the following series (0 s—time-point of treatment; see also Supplementary movie M2). Bef... |
PMC9418233_Fig5_387070.jpg | What key item or scene is captured in this photo? | Time-lapse imaging of microglial membrane alterations after recombinant PLY exposure.a High-resolution video microscopy of microglia in transmission and fluorescent imaging (FM 4-64). The fragment in the first image is magnified in the following series (0 s—time-point of treatment; see also Supplementary movie M2). Bef... |
PMC9418233_Fig5_387067.jpg | What stands out most in this visual? | Time-lapse imaging of microglial membrane alterations after recombinant PLY exposure.a High-resolution video microscopy of microglia in transmission and fluorescent imaging (FM 4-64). The fragment in the first image is magnified in the following series (0 s—time-point of treatment; see also Supplementary movie M2). Bef... |
PMC9418233_Fig5_387069.jpg | What is shown in this image? | Time-lapse imaging of microglial membrane alterations after recombinant PLY exposure.a High-resolution video microscopy of microglia in transmission and fluorescent imaging (FM 4-64). The fragment in the first image is magnified in the following series (0 s—time-point of treatment; see also Supplementary movie M2). Bef... |
PMC9418233_Fig5_387079.jpg | What is the main focus of this visual representation? | Time-lapse imaging of microglial membrane alterations after recombinant PLY exposure.a High-resolution video microscopy of microglia in transmission and fluorescent imaging (FM 4-64). The fragment in the first image is magnified in the following series (0 s—time-point of treatment; see also Supplementary movie M2). Bef... |
PMC9418233_Fig5_387066.jpg | What is the focal point of this photograph? | Time-lapse imaging of microglial membrane alterations after recombinant PLY exposure.a High-resolution video microscopy of microglia in transmission and fluorescent imaging (FM 4-64). The fragment in the first image is magnified in the following series (0 s—time-point of treatment; see also Supplementary movie M2). Bef... |
PMC9418233_Fig5_387075.jpg | What is the focal point of this photograph? | Time-lapse imaging of microglial membrane alterations after recombinant PLY exposure.a High-resolution video microscopy of microglia in transmission and fluorescent imaging (FM 4-64). The fragment in the first image is magnified in the following series (0 s—time-point of treatment; see also Supplementary movie M2). Bef... |
PMC9418233_Fig5_387076.jpg | What is shown in this image? | Time-lapse imaging of microglial membrane alterations after recombinant PLY exposure.a High-resolution video microscopy of microglia in transmission and fluorescent imaging (FM 4-64). The fragment in the first image is magnified in the following series (0 s—time-point of treatment; see also Supplementary movie M2). Bef... |
PMC9418233_Fig5_387068.jpg | Can you identify the primary element in this image? | Time-lapse imaging of microglial membrane alterations after recombinant PLY exposure.a High-resolution video microscopy of microglia in transmission and fluorescent imaging (FM 4-64). The fragment in the first image is magnified in the following series (0 s—time-point of treatment; see also Supplementary movie M2). Bef... |
PMC9418249_Fig4_387087.jpg | Can you identify the primary element in this image? | The dynamics of the cellular membranes upon sub-cellular activation.a The cells expressing F-tractin-mCherry-p2a-CRY2mCFPiSH-p2a-CIBNEYFP-CAAX are illuminated by a single Bessel beam activation. The cross represents the activation site. To demonstrate the dynamic behavior of filamentous actin, intensity contours were p... |
PMC9418249_Fig4_387091.jpg | What is the central feature of this picture? | The dynamics of the cellular membranes upon sub-cellular activation.a The cells expressing F-tractin-mCherry-p2a-CRY2mCFPiSH-p2a-CIBNEYFP-CAAX are illuminated by a single Bessel beam activation. The cross represents the activation site. To demonstrate the dynamic behavior of filamentous actin, intensity contours were p... |
PMC9418249_Fig4_387096.jpg | What's the most prominent thing you notice in this picture? | The dynamics of the cellular membranes upon sub-cellular activation.a The cells expressing F-tractin-mCherry-p2a-CRY2mCFPiSH-p2a-CIBNEYFP-CAAX are illuminated by a single Bessel beam activation. The cross represents the activation site. To demonstrate the dynamic behavior of filamentous actin, intensity contours were p... |
PMC9418249_Fig4_387084.jpg | Can you identify the primary element in this image? | The dynamics of the cellular membranes upon sub-cellular activation.a The cells expressing F-tractin-mCherry-p2a-CRY2mCFPiSH-p2a-CIBNEYFP-CAAX are illuminated by a single Bessel beam activation. The cross represents the activation site. To demonstrate the dynamic behavior of filamentous actin, intensity contours were p... |
PMC9418249_Fig4_387092.jpg | What object or scene is depicted here? | The dynamics of the cellular membranes upon sub-cellular activation.a The cells expressing F-tractin-mCherry-p2a-CRY2mCFPiSH-p2a-CIBNEYFP-CAAX are illuminated by a single Bessel beam activation. The cross represents the activation site. To demonstrate the dynamic behavior of filamentous actin, intensity contours were p... |
PMC9418249_Fig4_387097.jpg | Can you identify the primary element in this image? | The dynamics of the cellular membranes upon sub-cellular activation.a The cells expressing F-tractin-mCherry-p2a-CRY2mCFPiSH-p2a-CIBNEYFP-CAAX are illuminated by a single Bessel beam activation. The cross represents the activation site. To demonstrate the dynamic behavior of filamentous actin, intensity contours were p... |
PMC9418249_Fig4_387095.jpg | Can you identify the primary element in this image? | The dynamics of the cellular membranes upon sub-cellular activation.a The cells expressing F-tractin-mCherry-p2a-CRY2mCFPiSH-p2a-CIBNEYFP-CAAX are illuminated by a single Bessel beam activation. The cross represents the activation site. To demonstrate the dynamic behavior of filamentous actin, intensity contours were p... |
PMC9418249_Fig4_387088.jpg | What is the principal component of this image? | The dynamics of the cellular membranes upon sub-cellular activation.a The cells expressing F-tractin-mCherry-p2a-CRY2mCFPiSH-p2a-CIBNEYFP-CAAX are illuminated by a single Bessel beam activation. The cross represents the activation site. To demonstrate the dynamic behavior of filamentous actin, intensity contours were p... |
PMC9418249_Fig4_387089.jpg | What is shown in this image? | The dynamics of the cellular membranes upon sub-cellular activation.a The cells expressing F-tractin-mCherry-p2a-CRY2mCFPiSH-p2a-CIBNEYFP-CAAX are illuminated by a single Bessel beam activation. The cross represents the activation site. To demonstrate the dynamic behavior of filamentous actin, intensity contours were p... |
PMC9418249_Fig4_387090.jpg | What is shown in this image? | The dynamics of the cellular membranes upon sub-cellular activation.a The cells expressing F-tractin-mCherry-p2a-CRY2mCFPiSH-p2a-CIBNEYFP-CAAX are illuminated by a single Bessel beam activation. The cross represents the activation site. To demonstrate the dynamic behavior of filamentous actin, intensity contours were p... |
PMC9418249_Fig5_387082.jpg | What is the dominant medical problem in this image? | The time-dependent trajectories of the cell in the guided migration experiment.The cell expressing EGFR-CRY2olig-mApplex3 was stimulated by a 1 nW Bessel fan. Different colors represent different time points. The individual LLSM 3D rendering images of the cell at different times, and the stimulated areas are depicted a... |
PMC9418261_Fig9_387100.jpg | What is the main focus of this visual representation? | Qualitative validation of simulation results. (a) Synthetic PET image generated by the current mathematical model; (b) [18F]FDG PET imaging shows high uptake of [18F]FDG, suggesting the possibility of advanced gastric cancer80; (c) Upper gastrointestinal endoscopy image shows a large (3.5 cm) pedunculated polyp-shaped ... |
PMC9418261_Fig9_387098.jpg | What key item or scene is captured in this photo? | Qualitative validation of simulation results. (a) Synthetic PET image generated by the current mathematical model; (b) [18F]FDG PET imaging shows high uptake of [18F]FDG, suggesting the possibility of advanced gastric cancer80; (c) Upper gastrointestinal endoscopy image shows a large (3.5 cm) pedunculated polyp-shaped ... |
PMC9418274_Fig3_387101.jpg | What is the central feature of this picture? | SPECT/CT images of a 74-year-old male patient with left painful total knee arthroplasty (TKA). Mechanical alignment and TKA position were assessed using a customized validated 3D-software “Orthoexpert®”. a–g show angle measurements of the femoral (b–d) and tibial (e–g) component. The increased internal rotation of 4° o... |
PMC9418274_Fig3_387103.jpg | Can you identify the primary element in this image? | SPECT/CT images of a 74-year-old male patient with left painful total knee arthroplasty (TKA). Mechanical alignment and TKA position were assessed using a customized validated 3D-software “Orthoexpert®”. a–g show angle measurements of the femoral (b–d) and tibial (e–g) component. The increased internal rotation of 4° o... |
PMC9418274_Fig3_387102.jpg | What is the focal point of this photograph? | SPECT/CT images of a 74-year-old male patient with left painful total knee arthroplasty (TKA). Mechanical alignment and TKA position were assessed using a customized validated 3D-software “Orthoexpert®”. a–g show angle measurements of the femoral (b–d) and tibial (e–g) component. The increased internal rotation of 4° o... |
PMC9418277_Fig4_387105.jpg | What is the core subject represented in this visual? | Magnetic resonance imaging evaluation of the volume of the implant aggregate and the newly formed adipose tissue. The red dotted lines indicate the area of the implant aggregate, and the yellow dotted lines indicate the area of newly-formed adipose tissue. The areas of the implant aggregates were confirmed at all time ... |
PMC9418277_Fig4_387106.jpg | What object or scene is depicted here? | Magnetic resonance imaging evaluation of the volume of the implant aggregate and the newly formed adipose tissue. The red dotted lines indicate the area of the implant aggregate, and the yellow dotted lines indicate the area of newly-formed adipose tissue. The areas of the implant aggregates were confirmed at all time ... |
PMC9418277_Fig4_387104.jpg | What is the dominant medical problem in this image? | Magnetic resonance imaging evaluation of the volume of the implant aggregate and the newly formed adipose tissue. The red dotted lines indicate the area of the implant aggregate, and the yellow dotted lines indicate the area of newly-formed adipose tissue. The areas of the implant aggregates were confirmed at all time ... |
PMC9418298_Fig4_387107.jpg | What does this image primarily show? | Anterior segment optical coherence tomography 2 weeks after DMEK of the same case shown in Fig. 1. The DMEK graft extends beyond the stromal interface of the previous PK, where it is not fully attached (arrowheads). Because the DMEK graft was attached outside the interface, no rebubbling was performed (arrows). During ... |
PMC9418299_Fig1_387111.jpg | What does this image primarily show? | A delineation of the observed anomaly. The presence of local correlations that mirror the pattern of gyral folds emerges clearly, even in the case of noise. The figure shows surface-based, vertex-wise neighborhood correlation maps for three separate sets of volumetric data: noise (top row), resting-state (middle) and t... |
PMC9418299_Fig1_387113.jpg | What is the core subject represented in this visual? | A delineation of the observed anomaly. The presence of local correlations that mirror the pattern of gyral folds emerges clearly, even in the case of noise. The figure shows surface-based, vertex-wise neighborhood correlation maps for three separate sets of volumetric data: noise (top row), resting-state (middle) and t... |
PMC9418299_Fig1_387112.jpg | What is the core subject represented in this visual? | A delineation of the observed anomaly. The presence of local correlations that mirror the pattern of gyral folds emerges clearly, even in the case of noise. The figure shows surface-based, vertex-wise neighborhood correlation maps for three separate sets of volumetric data: noise (top row), resting-state (middle) and t... |
PMC9418303_Fig3_387119.jpg | What is the central feature of this picture? | Mako computed tomographic robotic planning of alignment landmarks. CT images and 3D reconstructions were based on preoperative CTs within the Mako software, demonstrating distal femoral and proximal tibial landmarks and selection of the femoral head and ankle centre. Landmark acquisition was based on points at the most... |
PMC9418303_Fig3_387116.jpg | What is the central feature of this picture? | Mako computed tomographic robotic planning of alignment landmarks. CT images and 3D reconstructions were based on preoperative CTs within the Mako software, demonstrating distal femoral and proximal tibial landmarks and selection of the femoral head and ankle centre. Landmark acquisition was based on points at the most... |
PMC9418303_Fig3_387115.jpg | What key item or scene is captured in this photo? | Mako computed tomographic robotic planning of alignment landmarks. CT images and 3D reconstructions were based on preoperative CTs within the Mako software, demonstrating distal femoral and proximal tibial landmarks and selection of the femoral head and ankle centre. Landmark acquisition was based on points at the most... |
PMC9418303_Fig3_387114.jpg | Can you identify the primary element in this image? | Mako computed tomographic robotic planning of alignment landmarks. CT images and 3D reconstructions were based on preoperative CTs within the Mako software, demonstrating distal femoral and proximal tibial landmarks and selection of the femoral head and ankle centre. Landmark acquisition was based on points at the most... |
PMC9418303_Fig3_387120.jpg | What can you see in this picture? | Mako computed tomographic robotic planning of alignment landmarks. CT images and 3D reconstructions were based on preoperative CTs within the Mako software, demonstrating distal femoral and proximal tibial landmarks and selection of the femoral head and ankle centre. Landmark acquisition was based on points at the most... |
PMC9418313_Fig6_387121.jpg | What does this image primarily show? | LPD drives membrane adhesion in the presence of endophilin and might stabilize membrane bud formation at FEME sites.a Time-lapse images of GUVs tubulated in the presence of endophilin before and after the addition of LPD850–1250 showing recruitment of LPD causes contraction of generated tubules. Top panel, GUVs enriche... |
PMC9418313_Fig6_387130.jpg | Can you identify the primary element in this image? | LPD drives membrane adhesion in the presence of endophilin and might stabilize membrane bud formation at FEME sites.a Time-lapse images of GUVs tubulated in the presence of endophilin before and after the addition of LPD850–1250 showing recruitment of LPD causes contraction of generated tubules. Top panel, GUVs enriche... |
PMC9418313_Fig6_387131.jpg | What object or scene is depicted here? | LPD drives membrane adhesion in the presence of endophilin and might stabilize membrane bud formation at FEME sites.a Time-lapse images of GUVs tubulated in the presence of endophilin before and after the addition of LPD850–1250 showing recruitment of LPD causes contraction of generated tubules. Top panel, GUVs enriche... |
PMC9418313_Fig6_387128.jpg | Describe the main subject of this image. | LPD drives membrane adhesion in the presence of endophilin and might stabilize membrane bud formation at FEME sites.a Time-lapse images of GUVs tubulated in the presence of endophilin before and after the addition of LPD850–1250 showing recruitment of LPD causes contraction of generated tubules. Top panel, GUVs enriche... |
PMC9418313_Fig6_387127.jpg | What is the main focus of this visual representation? | LPD drives membrane adhesion in the presence of endophilin and might stabilize membrane bud formation at FEME sites.a Time-lapse images of GUVs tubulated in the presence of endophilin before and after the addition of LPD850–1250 showing recruitment of LPD causes contraction of generated tubules. Top panel, GUVs enriche... |
PMC9418313_Fig6_387122.jpg | What is the core subject represented in this visual? | LPD drives membrane adhesion in the presence of endophilin and might stabilize membrane bud formation at FEME sites.a Time-lapse images of GUVs tubulated in the presence of endophilin before and after the addition of LPD850–1250 showing recruitment of LPD causes contraction of generated tubules. Top panel, GUVs enriche... |
PMC9418313_Fig6_387125.jpg | What can you see in this picture? | LPD drives membrane adhesion in the presence of endophilin and might stabilize membrane bud formation at FEME sites.a Time-lapse images of GUVs tubulated in the presence of endophilin before and after the addition of LPD850–1250 showing recruitment of LPD causes contraction of generated tubules. Top panel, GUVs enriche... |
PMC9418327_Fig5_387140.jpg | What is the core subject represented in this visual? | Dfd–Exd activates AP2x-377 via binding sites in domain 3.a Schematic representation of mutations inserted in domains 2 and 3 of AP2x-377 to disrupt the Dfd–Exd binding sites (indicated by an asterisk) identified by EMSAs. Transgenes were generated to express GAL4 under the control of the different mutated AP2x-377 enha... |
PMC9418327_Fig5_387133.jpg | What object or scene is depicted here? | Dfd–Exd activates AP2x-377 via binding sites in domain 3.a Schematic representation of mutations inserted in domains 2 and 3 of AP2x-377 to disrupt the Dfd–Exd binding sites (indicated by an asterisk) identified by EMSAs. Transgenes were generated to express GAL4 under the control of the different mutated AP2x-377 enha... |
PMC9418327_Fig5_387134.jpg | What is the core subject represented in this visual? | Dfd–Exd activates AP2x-377 via binding sites in domain 3.a Schematic representation of mutations inserted in domains 2 and 3 of AP2x-377 to disrupt the Dfd–Exd binding sites (indicated by an asterisk) identified by EMSAs. Transgenes were generated to express GAL4 under the control of the different mutated AP2x-377 enha... |
PMC9418327_Fig5_387135.jpg | What can you see in this picture? | Dfd–Exd activates AP2x-377 via binding sites in domain 3.a Schematic representation of mutations inserted in domains 2 and 3 of AP2x-377 to disrupt the Dfd–Exd binding sites (indicated by an asterisk) identified by EMSAs. Transgenes were generated to express GAL4 under the control of the different mutated AP2x-377 enha... |
PMC9418327_Fig5_387139.jpg | Describe the main subject of this image. | Dfd–Exd activates AP2x-377 via binding sites in domain 3.a Schematic representation of mutations inserted in domains 2 and 3 of AP2x-377 to disrupt the Dfd–Exd binding sites (indicated by an asterisk) identified by EMSAs. Transgenes were generated to express GAL4 under the control of the different mutated AP2x-377 enha... |
PMC9418327_Fig5_387137.jpg | What is the core subject represented in this visual? | Dfd–Exd activates AP2x-377 via binding sites in domain 3.a Schematic representation of mutations inserted in domains 2 and 3 of AP2x-377 to disrupt the Dfd–Exd binding sites (indicated by an asterisk) identified by EMSAs. Transgenes were generated to express GAL4 under the control of the different mutated AP2x-377 enha... |
PMC9418327_Fig5_387138.jpg | What is the core subject represented in this visual? | Dfd–Exd activates AP2x-377 via binding sites in domain 3.a Schematic representation of mutations inserted in domains 2 and 3 of AP2x-377 to disrupt the Dfd–Exd binding sites (indicated by an asterisk) identified by EMSAs. Transgenes were generated to express GAL4 under the control of the different mutated AP2x-377 enha... |
PMC9418327_Fig5_387136.jpg | What key item or scene is captured in this photo? | Dfd–Exd activates AP2x-377 via binding sites in domain 3.a Schematic representation of mutations inserted in domains 2 and 3 of AP2x-377 to disrupt the Dfd–Exd binding sites (indicated by an asterisk) identified by EMSAs. Transgenes were generated to express GAL4 under the control of the different mutated AP2x-377 enha... |
PMC9418336_f0015_387149.jpg | What does this image primarily show? | Input features derived from the PlanetScope mosaics. Rows show false-color infrared visualization of the seasonal median metrics, the texture of the third season NDVI median across different kernel sizes, contrast-enhancing features based on different texture kernels, and RGB composite of seasonal NDVI metrics. |
PMC9418336_f0015_387147.jpg | What is the main focus of this visual representation? | Input features derived from the PlanetScope mosaics. Rows show false-color infrared visualization of the seasonal median metrics, the texture of the third season NDVI median across different kernel sizes, contrast-enhancing features based on different texture kernels, and RGB composite of seasonal NDVI metrics. |
PMC9418336_f0015_387150.jpg | What object or scene is depicted here? | Input features derived from the PlanetScope mosaics. Rows show false-color infrared visualization of the seasonal median metrics, the texture of the third season NDVI median across different kernel sizes, contrast-enhancing features based on different texture kernels, and RGB composite of seasonal NDVI metrics. |
PMC9418336_f0015_387144.jpg | What is the focal point of this photograph? | Input features derived from the PlanetScope mosaics. Rows show false-color infrared visualization of the seasonal median metrics, the texture of the third season NDVI median across different kernel sizes, contrast-enhancing features based on different texture kernels, and RGB composite of seasonal NDVI metrics. |
PMC9418336_f0015_387145.jpg | What key item or scene is captured in this photo? | Input features derived from the PlanetScope mosaics. Rows show false-color infrared visualization of the seasonal median metrics, the texture of the third season NDVI median across different kernel sizes, contrast-enhancing features based on different texture kernels, and RGB composite of seasonal NDVI metrics. |
PMC9418336_f0015_387148.jpg | What is the focal point of this photograph? | Input features derived from the PlanetScope mosaics. Rows show false-color infrared visualization of the seasonal median metrics, the texture of the third season NDVI median across different kernel sizes, contrast-enhancing features based on different texture kernels, and RGB composite of seasonal NDVI metrics. |
PMC9418336_f0015_387153.jpg | What is being portrayed in this visual content? | Input features derived from the PlanetScope mosaics. Rows show false-color infrared visualization of the seasonal median metrics, the texture of the third season NDVI median across different kernel sizes, contrast-enhancing features based on different texture kernels, and RGB composite of seasonal NDVI metrics. |
PMC9418336_f0015_387154.jpg | What stands out most in this visual? | Input features derived from the PlanetScope mosaics. Rows show false-color infrared visualization of the seasonal median metrics, the texture of the third season NDVI median across different kernel sizes, contrast-enhancing features based on different texture kernels, and RGB composite of seasonal NDVI metrics. |
PMC9418336_f0015_387152.jpg | Describe the main subject of this image. | Input features derived from the PlanetScope mosaics. Rows show false-color infrared visualization of the seasonal median metrics, the texture of the third season NDVI median across different kernel sizes, contrast-enhancing features based on different texture kernels, and RGB composite of seasonal NDVI metrics. |
PMC9418373_f0015_387159.jpg | What can you see in this picture? | Computed tomography showing hypodense areas in the mandibular bone, skull, and cervical vertebra. |
PMC9418373_f0015_387158.jpg | What object or scene is depicted here? | Computed tomography showing hypodense areas in the mandibular bone, skull, and cervical vertebra. |
PMC9418395_Fig1_387167.jpg | What is the main focus of this visual representation? | Imaging of patients with inflammatory reaction after RPE-choroid transplantation. Patient 1–5 after retinal pigment epithelium (RPE) – choroid transplantation. A Optical coherence tomography (OCT)-image taken 2–6 weeks after surgery show an intact layer of transplanted RPE. B OCT-image during inflammation showing subre... |
PMC9418395_Fig1_387169.jpg | Can you identify the primary element in this image? | Imaging of patients with inflammatory reaction after RPE-choroid transplantation. Patient 1–5 after retinal pigment epithelium (RPE) – choroid transplantation. A Optical coherence tomography (OCT)-image taken 2–6 weeks after surgery show an intact layer of transplanted RPE. B OCT-image during inflammation showing subre... |
PMC9418395_Fig1_387162.jpg | What is the dominant medical problem in this image? | Imaging of patients with inflammatory reaction after RPE-choroid transplantation. Patient 1–5 after retinal pigment epithelium (RPE) – choroid transplantation. A Optical coherence tomography (OCT)-image taken 2–6 weeks after surgery show an intact layer of transplanted RPE. B OCT-image during inflammation showing subre... |
PMC9418395_Fig1_387163.jpg | What's the most prominent thing you notice in this picture? | Imaging of patients with inflammatory reaction after RPE-choroid transplantation. Patient 1–5 after retinal pigment epithelium (RPE) – choroid transplantation. A Optical coherence tomography (OCT)-image taken 2–6 weeks after surgery show an intact layer of transplanted RPE. B OCT-image during inflammation showing subre... |
PMC9418395_Fig1_387166.jpg | What is the main focus of this visual representation? | Imaging of patients with inflammatory reaction after RPE-choroid transplantation. Patient 1–5 after retinal pigment epithelium (RPE) – choroid transplantation. A Optical coherence tomography (OCT)-image taken 2–6 weeks after surgery show an intact layer of transplanted RPE. B OCT-image during inflammation showing subre... |
PMC9418395_Fig1_387161.jpg | What is the principal component of this image? | Imaging of patients with inflammatory reaction after RPE-choroid transplantation. Patient 1–5 after retinal pigment epithelium (RPE) – choroid transplantation. A Optical coherence tomography (OCT)-image taken 2–6 weeks after surgery show an intact layer of transplanted RPE. B OCT-image during inflammation showing subre... |
PMC9418395_Fig1_387165.jpg | Describe the main subject of this image. | Imaging of patients with inflammatory reaction after RPE-choroid transplantation. Patient 1–5 after retinal pigment epithelium (RPE) – choroid transplantation. A Optical coherence tomography (OCT)-image taken 2–6 weeks after surgery show an intact layer of transplanted RPE. B OCT-image during inflammation showing subre... |
PMC9418395_Fig2_387177.jpg | What can you see in this picture? | Imaging and histopathologic findings in a patient with an inflammatory reaction after RPE-choroid transplantation. Imaging (A-E) and histopathologic examination (F-I) of patient 2. Fundus shows a leopard-like pattern on the graft (A). At the time of inflammation fluorangiography shows no recurrence (B) and indocyanine ... |
PMC9418395_Fig2_387172.jpg | What stands out most in this visual? | Imaging and histopathologic findings in a patient with an inflammatory reaction after RPE-choroid transplantation. Imaging (A-E) and histopathologic examination (F-I) of patient 2. Fundus shows a leopard-like pattern on the graft (A). At the time of inflammation fluorangiography shows no recurrence (B) and indocyanine ... |
PMC9418395_Fig2_387170.jpg | Can you identify the primary element in this image? | Imaging and histopathologic findings in a patient with an inflammatory reaction after RPE-choroid transplantation. Imaging (A-E) and histopathologic examination (F-I) of patient 2. Fundus shows a leopard-like pattern on the graft (A). At the time of inflammation fluorangiography shows no recurrence (B) and indocyanine ... |
PMC9418395_Fig2_387174.jpg | What can you see in this picture? | Imaging and histopathologic findings in a patient with an inflammatory reaction after RPE-choroid transplantation. Imaging (A-E) and histopathologic examination (F-I) of patient 2. Fundus shows a leopard-like pattern on the graft (A). At the time of inflammation fluorangiography shows no recurrence (B) and indocyanine ... |
PMC9418395_Fig2_387178.jpg | What is the principal component of this image? | Imaging and histopathologic findings in a patient with an inflammatory reaction after RPE-choroid transplantation. Imaging (A-E) and histopathologic examination (F-I) of patient 2. Fundus shows a leopard-like pattern on the graft (A). At the time of inflammation fluorangiography shows no recurrence (B) and indocyanine ... |
PMC9418395_Fig2_387173.jpg | What is being portrayed in this visual content? | Imaging and histopathologic findings in a patient with an inflammatory reaction after RPE-choroid transplantation. Imaging (A-E) and histopathologic examination (F-I) of patient 2. Fundus shows a leopard-like pattern on the graft (A). At the time of inflammation fluorangiography shows no recurrence (B) and indocyanine ... |
PMC9418395_Fig2_387179.jpg | What's the most prominent thing you notice in this picture? | Imaging and histopathologic findings in a patient with an inflammatory reaction after RPE-choroid transplantation. Imaging (A-E) and histopathologic examination (F-I) of patient 2. Fundus shows a leopard-like pattern on the graft (A). At the time of inflammation fluorangiography shows no recurrence (B) and indocyanine ... |
PMC9418395_Fig2_387176.jpg | What's the most prominent thing you notice in this picture? | Imaging and histopathologic findings in a patient with an inflammatory reaction after RPE-choroid transplantation. Imaging (A-E) and histopathologic examination (F-I) of patient 2. Fundus shows a leopard-like pattern on the graft (A). At the time of inflammation fluorangiography shows no recurrence (B) and indocyanine ... |
PMC9418542_fig0001_387181.jpg | What stands out most in this visual? | Photograph of a 25 mm x 25 mm mc-Si solar cell sample mounted for grinding and polishing. |
Subsets and Splits
No community queries yet
The top public SQL queries from the community will appear here once available.