image stringlengths 20 66 | question stringclasses 16
values | answer stringlengths 3 10.7k |
|---|---|---|
PMC9426583_fig6_389077.jpg | What key item or scene is captured in this photo? | Van-FL staining of strain CSFR18 impaired in FtsZ expression. Filaments of strain CSFR18 (PND-ftsZ) (see the text for details) grown in BG11 medium (permissive conditions) were transferred to BG110 + NH4+ medium (restrictive conditions for ftsZ expression) and incubated under culture conditions. At the indicated times,... |
PMC9426583_fig6_389079.jpg | What is the central feature of this picture? | Van-FL staining of strain CSFR18 impaired in FtsZ expression. Filaments of strain CSFR18 (PND-ftsZ) (see the text for details) grown in BG11 medium (permissive conditions) were transferred to BG110 + NH4+ medium (restrictive conditions for ftsZ expression) and incubated under culture conditions. At the indicated times,... |
PMC9426583_fig6_389080.jpg | What key item or scene is captured in this photo? | Van-FL staining of strain CSFR18 impaired in FtsZ expression. Filaments of strain CSFR18 (PND-ftsZ) (see the text for details) grown in BG11 medium (permissive conditions) were transferred to BG110 + NH4+ medium (restrictive conditions for ftsZ expression) and incubated under culture conditions. At the indicated times,... |
PMC9426583_fig6_389074.jpg | What stands out most in this visual? | Van-FL staining of strain CSFR18 impaired in FtsZ expression. Filaments of strain CSFR18 (PND-ftsZ) (see the text for details) grown in BG11 medium (permissive conditions) were transferred to BG110 + NH4+ medium (restrictive conditions for ftsZ expression) and incubated under culture conditions. At the indicated times,... |
PMC9426583_fig6_389076.jpg | What does this image primarily show? | Van-FL staining of strain CSFR18 impaired in FtsZ expression. Filaments of strain CSFR18 (PND-ftsZ) (see the text for details) grown in BG11 medium (permissive conditions) were transferred to BG110 + NH4+ medium (restrictive conditions for ftsZ expression) and incubated under culture conditions. At the indicated times,... |
PMC9426583_fig6_389078.jpg | What key item or scene is captured in this photo? | Van-FL staining of strain CSFR18 impaired in FtsZ expression. Filaments of strain CSFR18 (PND-ftsZ) (see the text for details) grown in BG11 medium (permissive conditions) were transferred to BG110 + NH4+ medium (restrictive conditions for ftsZ expression) and incubated under culture conditions. At the indicated times,... |
PMC9426583_fig6_389081.jpg | What is the main focus of this visual representation? | Van-FL staining of strain CSFR18 impaired in FtsZ expression. Filaments of strain CSFR18 (PND-ftsZ) (see the text for details) grown in BG11 medium (permissive conditions) were transferred to BG110 + NH4+ medium (restrictive conditions for ftsZ expression) and incubated under culture conditions. At the indicated times,... |
PMC9426583_fig7_389108.jpg | What stands out most in this visual? | Van-FL staining of strain CSL109 impaired ZipN expression. Filaments of strain CSL109 (PND-zipN) (see the text for details) grown in BG11 medium (permissive conditions) were transferred to BG110 + NH4+ medium (restrictive conditions for zipN expression) and incubated under culture conditions. At the indicated times, sa... |
PMC9426583_fig7_389116.jpg | What is the central feature of this picture? | Van-FL staining of strain CSL109 impaired ZipN expression. Filaments of strain CSL109 (PND-zipN) (see the text for details) grown in BG11 medium (permissive conditions) were transferred to BG110 + NH4+ medium (restrictive conditions for zipN expression) and incubated under culture conditions. At the indicated times, sa... |
PMC9426583_fig7_389115.jpg | What is shown in this image? | Van-FL staining of strain CSL109 impaired ZipN expression. Filaments of strain CSL109 (PND-zipN) (see the text for details) grown in BG11 medium (permissive conditions) were transferred to BG110 + NH4+ medium (restrictive conditions for zipN expression) and incubated under culture conditions. At the indicated times, sa... |
PMC9426583_fig7_389113.jpg | What's the most prominent thing you notice in this picture? | Van-FL staining of strain CSL109 impaired ZipN expression. Filaments of strain CSL109 (PND-zipN) (see the text for details) grown in BG11 medium (permissive conditions) were transferred to BG110 + NH4+ medium (restrictive conditions for zipN expression) and incubated under culture conditions. At the indicated times, sa... |
PMC9426583_fig7_389109.jpg | What is the focal point of this photograph? | Van-FL staining of strain CSL109 impaired ZipN expression. Filaments of strain CSL109 (PND-zipN) (see the text for details) grown in BG11 medium (permissive conditions) were transferred to BG110 + NH4+ medium (restrictive conditions for zipN expression) and incubated under culture conditions. At the indicated times, sa... |
PMC9426583_fig7_389112.jpg | What is the dominant medical problem in this image? | Van-FL staining of strain CSL109 impaired ZipN expression. Filaments of strain CSL109 (PND-zipN) (see the text for details) grown in BG11 medium (permissive conditions) were transferred to BG110 + NH4+ medium (restrictive conditions for zipN expression) and incubated under culture conditions. At the indicated times, sa... |
PMC9426583_fig7_389114.jpg | What is the main focus of this visual representation? | Van-FL staining of strain CSL109 impaired ZipN expression. Filaments of strain CSL109 (PND-zipN) (see the text for details) grown in BG11 medium (permissive conditions) were transferred to BG110 + NH4+ medium (restrictive conditions for zipN expression) and incubated under culture conditions. At the indicated times, sa... |
PMC9426583_fig7_389107.jpg | What object or scene is depicted here? | Van-FL staining of strain CSL109 impaired ZipN expression. Filaments of strain CSL109 (PND-zipN) (see the text for details) grown in BG11 medium (permissive conditions) were transferred to BG110 + NH4+ medium (restrictive conditions for zipN expression) and incubated under culture conditions. At the indicated times, sa... |
PMC9426583_fig7_389106.jpg | What can you see in this picture? | Van-FL staining of strain CSL109 impaired ZipN expression. Filaments of strain CSL109 (PND-zipN) (see the text for details) grown in BG11 medium (permissive conditions) were transferred to BG110 + NH4+ medium (restrictive conditions for zipN expression) and incubated under culture conditions. At the indicated times, sa... |
PMC9426583_fig7_389111.jpg | What does this image primarily show? | Van-FL staining of strain CSL109 impaired ZipN expression. Filaments of strain CSL109 (PND-zipN) (see the text for details) grown in BG11 medium (permissive conditions) were transferred to BG110 + NH4+ medium (restrictive conditions for zipN expression) and incubated under culture conditions. At the indicated times, sa... |
PMC9426583_fig7_389110.jpg | What is being portrayed in this visual content? | Van-FL staining of strain CSL109 impaired ZipN expression. Filaments of strain CSL109 (PND-zipN) (see the text for details) grown in BG11 medium (permissive conditions) were transferred to BG110 + NH4+ medium (restrictive conditions for zipN expression) and incubated under culture conditions. At the indicated times, sa... |
PMC9426602_fig10_389119.jpg | What object or scene is depicted here? | AFM imaging of BUNV RNPs on mica in liquid. (A) AFM image of RNP with digital zooms displaying helical features. (B) High-resolution AFM image of RNP. (C) Correlation average along the length of a digitally straightened protein using a 20 nm reference section of the RNP in (A) (n = 80). Lines highlight the right-handed... |
PMC9426602_fig10_389120.jpg | What can you see in this picture? | AFM imaging of BUNV RNPs on mica in liquid. (A) AFM image of RNP with digital zooms displaying helical features. (B) High-resolution AFM image of RNP. (C) Correlation average along the length of a digitally straightened protein using a 20 nm reference section of the RNP in (A) (n = 80). Lines highlight the right-handed... |
PMC9426602_fig10_389117.jpg | Describe the main subject of this image. | AFM imaging of BUNV RNPs on mica in liquid. (A) AFM image of RNP with digital zooms displaying helical features. (B) High-resolution AFM image of RNP. (C) Correlation average along the length of a digitally straightened protein using a 20 nm reference section of the RNP in (A) (n = 80). Lines highlight the right-handed... |
PMC9426684_F1_389123.jpg | What is the dominant medical problem in this image? | Representative short-axis late gadolinium enhancement-cardiac magnetic resonance images (LGE-CMR) of various possible locations and extents of myocardial scar. The top images are the original LGE images, with the red arrows indicating the distribution of LGE (scar) in the LV wall segments. At the bottom are the segment... |
PMC9426684_F1_389127.jpg | What is shown in this image? | Representative short-axis late gadolinium enhancement-cardiac magnetic resonance images (LGE-CMR) of various possible locations and extents of myocardial scar. The top images are the original LGE images, with the red arrows indicating the distribution of LGE (scar) in the LV wall segments. At the bottom are the segment... |
PMC9426684_F1_389126.jpg | What is being portrayed in this visual content? | Representative short-axis late gadolinium enhancement-cardiac magnetic resonance images (LGE-CMR) of various possible locations and extents of myocardial scar. The top images are the original LGE images, with the red arrows indicating the distribution of LGE (scar) in the LV wall segments. At the bottom are the segment... |
PMC9426684_F1_389124.jpg | What stands out most in this visual? | Representative short-axis late gadolinium enhancement-cardiac magnetic resonance images (LGE-CMR) of various possible locations and extents of myocardial scar. The top images are the original LGE images, with the red arrows indicating the distribution of LGE (scar) in the LV wall segments. At the bottom are the segment... |
PMC9426684_F1_389125.jpg | What can you see in this picture? | Representative short-axis late gadolinium enhancement-cardiac magnetic resonance images (LGE-CMR) of various possible locations and extents of myocardial scar. The top images are the original LGE images, with the red arrows indicating the distribution of LGE (scar) in the LV wall segments. At the bottom are the segment... |
PMC9426684_F1_389128.jpg | What is shown in this image? | Representative short-axis late gadolinium enhancement-cardiac magnetic resonance images (LGE-CMR) of various possible locations and extents of myocardial scar. The top images are the original LGE images, with the red arrows indicating the distribution of LGE (scar) in the LV wall segments. At the bottom are the segment... |
PMC9426684_F6_389139.jpg | What is the main focus of this visual representation? | Examples of image segmentation results. The “Good” (correctly identifying the absence of myocardial scar due to MI), “Average” [correctly identifying the presence of the scar with DSC ∈ (0.4, 0.65)], and “Poor” (incorrect identification of the presence of the scar). Cases with DSC < 0.4 are not shown in the figure. |
PMC9426684_F6_389137.jpg | What is the dominant medical problem in this image? | Examples of image segmentation results. The “Good” (correctly identifying the absence of myocardial scar due to MI), “Average” [correctly identifying the presence of the scar with DSC ∈ (0.4, 0.65)], and “Poor” (incorrect identification of the presence of the scar). Cases with DSC < 0.4 are not shown in the figure. |
PMC9426684_F6_389130.jpg | What stands out most in this visual? | Examples of image segmentation results. The “Good” (correctly identifying the absence of myocardial scar due to MI), “Average” [correctly identifying the presence of the scar with DSC ∈ (0.4, 0.65)], and “Poor” (incorrect identification of the presence of the scar). Cases with DSC < 0.4 are not shown in the figure. |
PMC9426684_F6_389136.jpg | What is the principal component of this image? | Examples of image segmentation results. The “Good” (correctly identifying the absence of myocardial scar due to MI), “Average” [correctly identifying the presence of the scar with DSC ∈ (0.4, 0.65)], and “Poor” (incorrect identification of the presence of the scar). Cases with DSC < 0.4 are not shown in the figure. |
PMC9426684_F6_389140.jpg | What is the main focus of this visual representation? | Examples of image segmentation results. The “Good” (correctly identifying the absence of myocardial scar due to MI), “Average” [correctly identifying the presence of the scar with DSC ∈ (0.4, 0.65)], and “Poor” (incorrect identification of the presence of the scar). Cases with DSC < 0.4 are not shown in the figure. |
PMC9426684_F6_389141.jpg | What is shown in this image? | Examples of image segmentation results. The “Good” (correctly identifying the absence of myocardial scar due to MI), “Average” [correctly identifying the presence of the scar with DSC ∈ (0.4, 0.65)], and “Poor” (incorrect identification of the presence of the scar). Cases with DSC < 0.4 are not shown in the figure. |
PMC9426684_F6_389144.jpg | What is being portrayed in this visual content? | Examples of image segmentation results. The “Good” (correctly identifying the absence of myocardial scar due to MI), “Average” [correctly identifying the presence of the scar with DSC ∈ (0.4, 0.65)], and “Poor” (incorrect identification of the presence of the scar). Cases with DSC < 0.4 are not shown in the figure. |
PMC9426684_F6_389150.jpg | What is the principal component of this image? | Examples of image segmentation results. The “Good” (correctly identifying the absence of myocardial scar due to MI), “Average” [correctly identifying the presence of the scar with DSC ∈ (0.4, 0.65)], and “Poor” (incorrect identification of the presence of the scar). Cases with DSC < 0.4 are not shown in the figure. |
PMC9426684_F6_389147.jpg | Describe the main subject of this image. | Examples of image segmentation results. The “Good” (correctly identifying the absence of myocardial scar due to MI), “Average” [correctly identifying the presence of the scar with DSC ∈ (0.4, 0.65)], and “Poor” (incorrect identification of the presence of the scar). Cases with DSC < 0.4 are not shown in the figure. |
PMC9426684_F6_389133.jpg | What is the dominant medical problem in this image? | Examples of image segmentation results. The “Good” (correctly identifying the absence of myocardial scar due to MI), “Average” [correctly identifying the presence of the scar with DSC ∈ (0.4, 0.65)], and “Poor” (incorrect identification of the presence of the scar). Cases with DSC < 0.4 are not shown in the figure. |
PMC9426684_F6_389142.jpg | Can you identify the primary element in this image? | Examples of image segmentation results. The “Good” (correctly identifying the absence of myocardial scar due to MI), “Average” [correctly identifying the presence of the scar with DSC ∈ (0.4, 0.65)], and “Poor” (incorrect identification of the presence of the scar). Cases with DSC < 0.4 are not shown in the figure. |
PMC9426684_F6_389146.jpg | What can you see in this picture? | Examples of image segmentation results. The “Good” (correctly identifying the absence of myocardial scar due to MI), “Average” [correctly identifying the presence of the scar with DSC ∈ (0.4, 0.65)], and “Poor” (incorrect identification of the presence of the scar). Cases with DSC < 0.4 are not shown in the figure. |
PMC9426684_F6_389134.jpg | What is the central feature of this picture? | Examples of image segmentation results. The “Good” (correctly identifying the absence of myocardial scar due to MI), “Average” [correctly identifying the presence of the scar with DSC ∈ (0.4, 0.65)], and “Poor” (incorrect identification of the presence of the scar). Cases with DSC < 0.4 are not shown in the figure. |
PMC9426684_F6_389132.jpg | What object or scene is depicted here? | Examples of image segmentation results. The “Good” (correctly identifying the absence of myocardial scar due to MI), “Average” [correctly identifying the presence of the scar with DSC ∈ (0.4, 0.65)], and “Poor” (incorrect identification of the presence of the scar). Cases with DSC < 0.4 are not shown in the figure. |
PMC9426684_F6_389131.jpg | What's the most prominent thing you notice in this picture? | Examples of image segmentation results. The “Good” (correctly identifying the absence of myocardial scar due to MI), “Average” [correctly identifying the presence of the scar with DSC ∈ (0.4, 0.65)], and “Poor” (incorrect identification of the presence of the scar). Cases with DSC < 0.4 are not shown in the figure. |
PMC9426684_F6_389143.jpg | What is the core subject represented in this visual? | Examples of image segmentation results. The “Good” (correctly identifying the absence of myocardial scar due to MI), “Average” [correctly identifying the presence of the scar with DSC ∈ (0.4, 0.65)], and “Poor” (incorrect identification of the presence of the scar). Cases with DSC < 0.4 are not shown in the figure. |
PMC9426684_F6_389145.jpg | What can you see in this picture? | Examples of image segmentation results. The “Good” (correctly identifying the absence of myocardial scar due to MI), “Average” [correctly identifying the presence of the scar with DSC ∈ (0.4, 0.65)], and “Poor” (incorrect identification of the presence of the scar). Cases with DSC < 0.4 are not shown in the figure. |
PMC9426684_F8_389152.jpg | What is being portrayed in this visual content? | (A) Performance of the ResNet50 classification model (to determine presence/absence of myocardial scar) using the test dataset (N = 108). The low value of the precision score (0.19) makes the model unsatisfactory in determining the presence of absence of myocardial infarction. (B) Some examples of the prediction of the... |
PMC9426684_F8_389153.jpg | What is the main focus of this visual representation? | (A) Performance of the ResNet50 classification model (to determine presence/absence of myocardial scar) using the test dataset (N = 108). The low value of the precision score (0.19) makes the model unsatisfactory in determining the presence of absence of myocardial infarction. (B) Some examples of the prediction of the... |
PMC9426684_F8_389158.jpg | What's the most prominent thing you notice in this picture? | (A) Performance of the ResNet50 classification model (to determine presence/absence of myocardial scar) using the test dataset (N = 108). The low value of the precision score (0.19) makes the model unsatisfactory in determining the presence of absence of myocardial infarction. (B) Some examples of the prediction of the... |
PMC9426684_F8_389156.jpg | What is shown in this image? | (A) Performance of the ResNet50 classification model (to determine presence/absence of myocardial scar) using the test dataset (N = 108). The low value of the precision score (0.19) makes the model unsatisfactory in determining the presence of absence of myocardial infarction. (B) Some examples of the prediction of the... |
PMC9426684_F8_389154.jpg | What key item or scene is captured in this photo? | (A) Performance of the ResNet50 classification model (to determine presence/absence of myocardial scar) using the test dataset (N = 108). The low value of the precision score (0.19) makes the model unsatisfactory in determining the presence of absence of myocardial infarction. (B) Some examples of the prediction of the... |
PMC9426776_F2_389160.jpg | What is the focal point of this photograph? | Transplantation of hiPSC-CM and cardiac moving pattern before and after surgery. (A) First transplantation of hiPSC-CM patches onto the heart surface of a patient with severe cardiomyopathy. Left: hiPSC-CM patch was transplanted into the epicardium of the anterior and lateral walls of the LV through the fourth intercos... |
PMC9426776_F2_389162.jpg | What does this image primarily show? | Transplantation of hiPSC-CM and cardiac moving pattern before and after surgery. (A) First transplantation of hiPSC-CM patches onto the heart surface of a patient with severe cardiomyopathy. Left: hiPSC-CM patch was transplanted into the epicardium of the anterior and lateral walls of the LV through the fourth intercos... |
PMC9426776_F2_389161.jpg | What is the main focus of this visual representation? | Transplantation of hiPSC-CM and cardiac moving pattern before and after surgery. (A) First transplantation of hiPSC-CM patches onto the heart surface of a patient with severe cardiomyopathy. Left: hiPSC-CM patch was transplanted into the epicardium of the anterior and lateral walls of the LV through the fourth intercos... |
PMC9426776_F2_389159.jpg | What is shown in this image? | Transplantation of hiPSC-CM and cardiac moving pattern before and after surgery. (A) First transplantation of hiPSC-CM patches onto the heart surface of a patient with severe cardiomyopathy. Left: hiPSC-CM patch was transplanted into the epicardium of the anterior and lateral walls of the LV through the fourth intercos... |
PMC9426857_F1_389170.jpg | What is the dominant medical problem in this image? | Brain MRI in an 11-year-old male castrated domestic shorthair cat (Case 1) 3 months after the diagnosis of systemic blastomycosis and after experiencing two seizures after the latest antifungal treatment. Transverse T2-weighted (A), (D), and (G), T1-weighted (B), (E), and (H), and postcontrast T1-weighted (C), (F), and... |
PMC9426857_F1_389171.jpg | What is the focal point of this photograph? | Brain MRI in an 11-year-old male castrated domestic shorthair cat (Case 1) 3 months after the diagnosis of systemic blastomycosis and after experiencing two seizures after the latest antifungal treatment. Transverse T2-weighted (A), (D), and (G), T1-weighted (B), (E), and (H), and postcontrast T1-weighted (C), (F), and... |
PMC9426857_F1_389167.jpg | What object or scene is depicted here? | Brain MRI in an 11-year-old male castrated domestic shorthair cat (Case 1) 3 months after the diagnosis of systemic blastomycosis and after experiencing two seizures after the latest antifungal treatment. Transverse T2-weighted (A), (D), and (G), T1-weighted (B), (E), and (H), and postcontrast T1-weighted (C), (F), and... |
PMC9426857_F1_389166.jpg | What is being portrayed in this visual content? | Brain MRI in an 11-year-old male castrated domestic shorthair cat (Case 1) 3 months after the diagnosis of systemic blastomycosis and after experiencing two seizures after the latest antifungal treatment. Transverse T2-weighted (A), (D), and (G), T1-weighted (B), (E), and (H), and postcontrast T1-weighted (C), (F), and... |
PMC9426857_F1_389168.jpg | What does this image primarily show? | Brain MRI in an 11-year-old male castrated domestic shorthair cat (Case 1) 3 months after the diagnosis of systemic blastomycosis and after experiencing two seizures after the latest antifungal treatment. Transverse T2-weighted (A), (D), and (G), T1-weighted (B), (E), and (H), and postcontrast T1-weighted (C), (F), and... |
PMC9426857_F1_389164.jpg | What's the most prominent thing you notice in this picture? | Brain MRI in an 11-year-old male castrated domestic shorthair cat (Case 1) 3 months after the diagnosis of systemic blastomycosis and after experiencing two seizures after the latest antifungal treatment. Transverse T2-weighted (A), (D), and (G), T1-weighted (B), (E), and (H), and postcontrast T1-weighted (C), (F), and... |
PMC9426857_F1_389163.jpg | What object or scene is depicted here? | Brain MRI in an 11-year-old male castrated domestic shorthair cat (Case 1) 3 months after the diagnosis of systemic blastomycosis and after experiencing two seizures after the latest antifungal treatment. Transverse T2-weighted (A), (D), and (G), T1-weighted (B), (E), and (H), and postcontrast T1-weighted (C), (F), and... |
PMC9426857_F1_389165.jpg | What is the principal component of this image? | Brain MRI in an 11-year-old male castrated domestic shorthair cat (Case 1) 3 months after the diagnosis of systemic blastomycosis and after experiencing two seizures after the latest antifungal treatment. Transverse T2-weighted (A), (D), and (G), T1-weighted (B), (E), and (H), and postcontrast T1-weighted (C), (F), and... |
PMC9426857_F2_389173.jpg | What is the dominant medical problem in this image? | Repeat MRI examination of the cat in Figure 1 (Case 1), 4 years and 4 months after the initial MRI study. Transverse T2-weighted (A), T2-FLAIR (B), T1-weighted (C), diffusion-weighted imaging [DWI, (D)] and corresponding apparent diffusion coefficient (ADC) map (E), and postcontrast T1-weighted GRE with fat suppression... |
PMC9426857_F2_389174.jpg | What key item or scene is captured in this photo? | Repeat MRI examination of the cat in Figure 1 (Case 1), 4 years and 4 months after the initial MRI study. Transverse T2-weighted (A), T2-FLAIR (B), T1-weighted (C), diffusion-weighted imaging [DWI, (D)] and corresponding apparent diffusion coefficient (ADC) map (E), and postcontrast T1-weighted GRE with fat suppression... |
PMC9426857_F2_389176.jpg | What's the most prominent thing you notice in this picture? | Repeat MRI examination of the cat in Figure 1 (Case 1), 4 years and 4 months after the initial MRI study. Transverse T2-weighted (A), T2-FLAIR (B), T1-weighted (C), diffusion-weighted imaging [DWI, (D)] and corresponding apparent diffusion coefficient (ADC) map (E), and postcontrast T1-weighted GRE with fat suppression... |
PMC9426857_F2_389180.jpg | What is the core subject represented in this visual? | Repeat MRI examination of the cat in Figure 1 (Case 1), 4 years and 4 months after the initial MRI study. Transverse T2-weighted (A), T2-FLAIR (B), T1-weighted (C), diffusion-weighted imaging [DWI, (D)] and corresponding apparent diffusion coefficient (ADC) map (E), and postcontrast T1-weighted GRE with fat suppression... |
PMC9426857_F2_389172.jpg | What is the central feature of this picture? | Repeat MRI examination of the cat in Figure 1 (Case 1), 4 years and 4 months after the initial MRI study. Transverse T2-weighted (A), T2-FLAIR (B), T1-weighted (C), diffusion-weighted imaging [DWI, (D)] and corresponding apparent diffusion coefficient (ADC) map (E), and postcontrast T1-weighted GRE with fat suppression... |
PMC9426857_F2_389177.jpg | What is the focal point of this photograph? | Repeat MRI examination of the cat in Figure 1 (Case 1), 4 years and 4 months after the initial MRI study. Transverse T2-weighted (A), T2-FLAIR (B), T1-weighted (C), diffusion-weighted imaging [DWI, (D)] and corresponding apparent diffusion coefficient (ADC) map (E), and postcontrast T1-weighted GRE with fat suppression... |
PMC9426857_F2_389179.jpg | What is being portrayed in this visual content? | Repeat MRI examination of the cat in Figure 1 (Case 1), 4 years and 4 months after the initial MRI study. Transverse T2-weighted (A), T2-FLAIR (B), T1-weighted (C), diffusion-weighted imaging [DWI, (D)] and corresponding apparent diffusion coefficient (ADC) map (E), and postcontrast T1-weighted GRE with fat suppression... |
PMC9426857_F2_389178.jpg | Can you identify the primary element in this image? | Repeat MRI examination of the cat in Figure 1 (Case 1), 4 years and 4 months after the initial MRI study. Transverse T2-weighted (A), T2-FLAIR (B), T1-weighted (C), diffusion-weighted imaging [DWI, (D)] and corresponding apparent diffusion coefficient (ADC) map (E), and postcontrast T1-weighted GRE with fat suppression... |
PMC9426857_F2_389175.jpg | What's the most prominent thing you notice in this picture? | Repeat MRI examination of the cat in Figure 1 (Case 1), 4 years and 4 months after the initial MRI study. Transverse T2-weighted (A), T2-FLAIR (B), T1-weighted (C), diffusion-weighted imaging [DWI, (D)] and corresponding apparent diffusion coefficient (ADC) map (E), and postcontrast T1-weighted GRE with fat suppression... |
PMC9426857_F3_389194.jpg | What is the main focus of this visual representation? | Brain MRI in a 3-year-old domestic shorthair cat (Case 2) following a diagnosis of ocular blastomycosis and with concern for intracranial involvement. Transverse (A), dorsal (B), and midline sagittal (C) postcontrast T1-weighted images; transverse T2-weighted images [(D) and (G)], transverse T1-weighted images before [... |
PMC9426857_F3_389198.jpg | Can you identify the primary element in this image? | Brain MRI in a 3-year-old domestic shorthair cat (Case 2) following a diagnosis of ocular blastomycosis and with concern for intracranial involvement. Transverse (A), dorsal (B), and midline sagittal (C) postcontrast T1-weighted images; transverse T2-weighted images [(D) and (G)], transverse T1-weighted images before [... |
PMC9426857_F3_389192.jpg | What is the core subject represented in this visual? | Brain MRI in a 3-year-old domestic shorthair cat (Case 2) following a diagnosis of ocular blastomycosis and with concern for intracranial involvement. Transverse (A), dorsal (B), and midline sagittal (C) postcontrast T1-weighted images; transverse T2-weighted images [(D) and (G)], transverse T1-weighted images before [... |
PMC9426857_F3_389196.jpg | What is the central feature of this picture? | Brain MRI in a 3-year-old domestic shorthair cat (Case 2) following a diagnosis of ocular blastomycosis and with concern for intracranial involvement. Transverse (A), dorsal (B), and midline sagittal (C) postcontrast T1-weighted images; transverse T2-weighted images [(D) and (G)], transverse T1-weighted images before [... |
PMC9426857_F3_389193.jpg | What is shown in this image? | Brain MRI in a 3-year-old domestic shorthair cat (Case 2) following a diagnosis of ocular blastomycosis and with concern for intracranial involvement. Transverse (A), dorsal (B), and midline sagittal (C) postcontrast T1-weighted images; transverse T2-weighted images [(D) and (G)], transverse T1-weighted images before [... |
PMC9426857_F3_389191.jpg | What is the core subject represented in this visual? | Brain MRI in a 3-year-old domestic shorthair cat (Case 2) following a diagnosis of ocular blastomycosis and with concern for intracranial involvement. Transverse (A), dorsal (B), and midline sagittal (C) postcontrast T1-weighted images; transverse T2-weighted images [(D) and (G)], transverse T1-weighted images before [... |
PMC9426857_F3_389197.jpg | What does this image primarily show? | Brain MRI in a 3-year-old domestic shorthair cat (Case 2) following a diagnosis of ocular blastomycosis and with concern for intracranial involvement. Transverse (A), dorsal (B), and midline sagittal (C) postcontrast T1-weighted images; transverse T2-weighted images [(D) and (G)], transverse T1-weighted images before [... |
PMC9426857_F4_389182.jpg | What object or scene is depicted here? | Brain MRI in an estimated 7-year-old cat (Case 3) with presenting complaints of head pressing and progressive neurologic deficits. Transverse T2-weighted (A), T2-FLAIR (B), T2*-weighted GRE (C), T1-weighted (D), diffusion-weighted imaging [DWI, (E)] and corresponding ADC map (F), and postcontrast T1-weighted images in ... |
PMC9426857_F4_389188.jpg | What can you see in this picture? | Brain MRI in an estimated 7-year-old cat (Case 3) with presenting complaints of head pressing and progressive neurologic deficits. Transverse T2-weighted (A), T2-FLAIR (B), T2*-weighted GRE (C), T1-weighted (D), diffusion-weighted imaging [DWI, (E)] and corresponding ADC map (F), and postcontrast T1-weighted images in ... |
PMC9426857_F4_389181.jpg | What is the dominant medical problem in this image? | Brain MRI in an estimated 7-year-old cat (Case 3) with presenting complaints of head pressing and progressive neurologic deficits. Transverse T2-weighted (A), T2-FLAIR (B), T2*-weighted GRE (C), T1-weighted (D), diffusion-weighted imaging [DWI, (E)] and corresponding ADC map (F), and postcontrast T1-weighted images in ... |
PMC9426857_F4_389189.jpg | What is shown in this image? | Brain MRI in an estimated 7-year-old cat (Case 3) with presenting complaints of head pressing and progressive neurologic deficits. Transverse T2-weighted (A), T2-FLAIR (B), T2*-weighted GRE (C), T1-weighted (D), diffusion-weighted imaging [DWI, (E)] and corresponding ADC map (F), and postcontrast T1-weighted images in ... |
PMC9426857_F4_389184.jpg | What is the principal component of this image? | Brain MRI in an estimated 7-year-old cat (Case 3) with presenting complaints of head pressing and progressive neurologic deficits. Transverse T2-weighted (A), T2-FLAIR (B), T2*-weighted GRE (C), T1-weighted (D), diffusion-weighted imaging [DWI, (E)] and corresponding ADC map (F), and postcontrast T1-weighted images in ... |
PMC9426857_F4_389183.jpg | What is the dominant medical problem in this image? | Brain MRI in an estimated 7-year-old cat (Case 3) with presenting complaints of head pressing and progressive neurologic deficits. Transverse T2-weighted (A), T2-FLAIR (B), T2*-weighted GRE (C), T1-weighted (D), diffusion-weighted imaging [DWI, (E)] and corresponding ADC map (F), and postcontrast T1-weighted images in ... |
PMC9426880_pone.0273707.g002_389199.jpg | What object or scene is depicted here? | Observations of white-tailed deer made during aerial surveys (yellow circles), roads (blue lines), and timber cuts (red polygons) overlaid on a surface map of PC1 representing thermal cover and foraging areas for deer across the Adirondack Park, New York, USA, during winter 2015–2016.Low PC1 values represent areas with... |
PMC9426912_pone.0273431.g002_389201.jpg | What is the focal point of this photograph? | IOL depth measured using anterior-segment optical coherence tomography.IOL, intraocular lens, Post-ACD; postoperative anterior chamber depth. |
PMC9426912_pone.0273431.g002_389200.jpg | What stands out most in this visual? | IOL depth measured using anterior-segment optical coherence tomography.IOL, intraocular lens, Post-ACD; postoperative anterior chamber depth. |
PMC9426945_pone.0273214.g002_389202.jpg | What is the focal point of this photograph? | Fraction of total perfusion to the low ventilation-perfusion (V˙/Q˙) compartment and V˙/Q˙ value for high V˙/Q˙ compartment in relation to V˙/Q˙ value for low V˙/Q˙ compartment.Results shown for patients 2–5. Some values off-scale for higher values of V˙/Q˙ for the low V˙/Q˙ compartment. Differences between measured an... |
PMC9426945_pone.0273214.g004_389204.jpg | What can you see in this picture? | Multi-compartment distributions for V˙/Q˙.Results shown for patients 2–5. Distribution based on beta distribution with parameter μ = 10, as defined in Eq 33. Differences between measured and calculated arterial partial pressures for CO2 and O2 < 1x10-3 mmHg for all distributions. Q˙, perfusion; Q˙nsBM, total non-shunt ... |
PMC9427110_fig4_389207.jpg | What is the central feature of this picture? | 2D stitching and automated assessment of montage quality.(a) Schematic diagram of the montage transformation using point correspondences. (b) Montage 2D stitched section from mouse dataset 1 (publicly available at https://www.microns-explorer.org; MICrONS Consortium et al., 2021). (c) Single-acquisition tile from the s... |
PMC9427110_fig4_389215.jpg | What stands out most in this visual? | 2D stitching and automated assessment of montage quality.(a) Schematic diagram of the montage transformation using point correspondences. (b) Montage 2D stitched section from mouse dataset 1 (publicly available at https://www.microns-explorer.org; MICrONS Consortium et al., 2021). (c) Single-acquisition tile from the s... |
PMC9427110_fig4_389208.jpg | What is the core subject represented in this visual? | 2D stitching and automated assessment of montage quality.(a) Schematic diagram of the montage transformation using point correspondences. (b) Montage 2D stitched section from mouse dataset 1 (publicly available at https://www.microns-explorer.org; MICrONS Consortium et al., 2021). (c) Single-acquisition tile from the s... |
PMC9427110_fig4_389211.jpg | What is being portrayed in this visual content? | 2D stitching and automated assessment of montage quality.(a) Schematic diagram of the montage transformation using point correspondences. (b) Montage 2D stitched section from mouse dataset 1 (publicly available at https://www.microns-explorer.org; MICrONS Consortium et al., 2021). (c) Single-acquisition tile from the s... |
PMC9427110_fig4_389210.jpg | What stands out most in this visual? | 2D stitching and automated assessment of montage quality.(a) Schematic diagram of the montage transformation using point correspondences. (b) Montage 2D stitched section from mouse dataset 1 (publicly available at https://www.microns-explorer.org; MICrONS Consortium et al., 2021). (c) Single-acquisition tile from the s... |
PMC9427111_fig2_389217.jpg | Can you identify the primary element in this image? | Mitochondrial fragmentation precedes the swift adaptation to paraquat (PQ).(A) EM microscopy of cells before (panel 1) and after short-term stress (panel 2, red arrowheads mark representative mitochondria). Panel 3 shows the number of mitochondria per imaged cell (left) and the imaged cell area occupied by mitochondria... |
PMC9427111_fig2_389219.jpg | What is being portrayed in this visual content? | Mitochondrial fragmentation precedes the swift adaptation to paraquat (PQ).(A) EM microscopy of cells before (panel 1) and after short-term stress (panel 2, red arrowheads mark representative mitochondria). Panel 3 shows the number of mitochondria per imaged cell (left) and the imaged cell area occupied by mitochondria... |
PMC9427115_fig2s1_389230.jpg | What is the focal point of this photograph? | The identification of the 220 bp enhancer by promoter bashing.(A-A”’’) UAS-GFP driven by GMR35H02-Gal4 is initiated at the same time as endogenous Slp1 and Slp2 in neuroblasts marked by Dpn. (B-D’’) Expression of GFP reporters driven by SlpL1.5 (B-B’’) and its sub-segments Slpf1-220bp(C-C’’), Slpf2-592bp (D-D’’), and S... |
PMC9427115_fig2s1_389236.jpg | What is the central feature of this picture? | The identification of the 220 bp enhancer by promoter bashing.(A-A”’’) UAS-GFP driven by GMR35H02-Gal4 is initiated at the same time as endogenous Slp1 and Slp2 in neuroblasts marked by Dpn. (B-D’’) Expression of GFP reporters driven by SlpL1.5 (B-B’’) and its sub-segments Slpf1-220bp(C-C’’), Slpf2-592bp (D-D’’), and S... |
PMC9427115_fig2s1_389226.jpg | What does this image primarily show? | The identification of the 220 bp enhancer by promoter bashing.(A-A”’’) UAS-GFP driven by GMR35H02-Gal4 is initiated at the same time as endogenous Slp1 and Slp2 in neuroblasts marked by Dpn. (B-D’’) Expression of GFP reporters driven by SlpL1.5 (B-B’’) and its sub-segments Slpf1-220bp(C-C’’), Slpf2-592bp (D-D’’), and S... |
PMC9427115_fig2s1_389227.jpg | What is shown in this image? | The identification of the 220 bp enhancer by promoter bashing.(A-A”’’) UAS-GFP driven by GMR35H02-Gal4 is initiated at the same time as endogenous Slp1 and Slp2 in neuroblasts marked by Dpn. (B-D’’) Expression of GFP reporters driven by SlpL1.5 (B-B’’) and its sub-segments Slpf1-220bp(C-C’’), Slpf2-592bp (D-D’’), and S... |
PMC9427115_fig2s1_389232.jpg | Can you identify the primary element in this image? | The identification of the 220 bp enhancer by promoter bashing.(A-A”’’) UAS-GFP driven by GMR35H02-Gal4 is initiated at the same time as endogenous Slp1 and Slp2 in neuroblasts marked by Dpn. (B-D’’) Expression of GFP reporters driven by SlpL1.5 (B-B’’) and its sub-segments Slpf1-220bp(C-C’’), Slpf2-592bp (D-D’’), and S... |
Subsets and Splits
No community queries yet
The top public SQL queries from the community will appear here once available.