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PMC9420633_fig1_387621.jpg | What is the dominant medical problem in this image? | MRI obtained on admission demonstrating diffuse confluent symmetric T2 FLAIR hyperintensities in the supratentorial periventricular and deep white matter, sparing the subcortical U fibers, and in bilateral cerebellar hemispheres around the deep nuclei (a–c). A focus of T2 FLAIR hyperintensity is noted in the lateral le... |
PMC9420633_fig1_387618.jpg | What stands out most in this visual? | MRI obtained on admission demonstrating diffuse confluent symmetric T2 FLAIR hyperintensities in the supratentorial periventricular and deep white matter, sparing the subcortical U fibers, and in bilateral cerebellar hemispheres around the deep nuclei (a–c). A focus of T2 FLAIR hyperintensity is noted in the lateral le... |
PMC9420633_fig1_387620.jpg | Describe the main subject of this image. | MRI obtained on admission demonstrating diffuse confluent symmetric T2 FLAIR hyperintensities in the supratentorial periventricular and deep white matter, sparing the subcortical U fibers, and in bilateral cerebellar hemispheres around the deep nuclei (a–c). A focus of T2 FLAIR hyperintensity is noted in the lateral le... |
PMC9420633_fig1_387617.jpg | What is the core subject represented in this visual? | MRI obtained on admission demonstrating diffuse confluent symmetric T2 FLAIR hyperintensities in the supratentorial periventricular and deep white matter, sparing the subcortical U fibers, and in bilateral cerebellar hemispheres around the deep nuclei (a–c). A focus of T2 FLAIR hyperintensity is noted in the lateral le... |
PMC9420633_fig2_387625.jpg | What is shown in this image? | MRI obtained 10 days after admission demonstrating mild progression in diffuse white matter T2 FLAIR hyperintensity (a–c) with slightly increased involvement of the left lateral thalamus (arrow in (b)). Previously noted punctiform enhancement in the supratentorial periventricular white matter has nearly resolved with m... |
PMC9420633_fig2_387627.jpg | What is the main focus of this visual representation? | MRI obtained 10 days after admission demonstrating mild progression in diffuse white matter T2 FLAIR hyperintensity (a–c) with slightly increased involvement of the left lateral thalamus (arrow in (b)). Previously noted punctiform enhancement in the supratentorial periventricular white matter has nearly resolved with m... |
PMC9420633_fig2_387623.jpg | What stands out most in this visual? | MRI obtained 10 days after admission demonstrating mild progression in diffuse white matter T2 FLAIR hyperintensity (a–c) with slightly increased involvement of the left lateral thalamus (arrow in (b)). Previously noted punctiform enhancement in the supratentorial periventricular white matter has nearly resolved with m... |
PMC9420633_fig2_387624.jpg | What's the most prominent thing you notice in this picture? | MRI obtained 10 days after admission demonstrating mild progression in diffuse white matter T2 FLAIR hyperintensity (a–c) with slightly increased involvement of the left lateral thalamus (arrow in (b)). Previously noted punctiform enhancement in the supratentorial periventricular white matter has nearly resolved with m... |
PMC9420633_fig2_387622.jpg | What can you see in this picture? | MRI obtained 10 days after admission demonstrating mild progression in diffuse white matter T2 FLAIR hyperintensity (a–c) with slightly increased involvement of the left lateral thalamus (arrow in (b)). Previously noted punctiform enhancement in the supratentorial periventricular white matter has nearly resolved with m... |
PMC9420635_fig1_387629.jpg | What is the principal component of this image? | Computed tomography of the abdomen in coronal view. (a) Arterial phase demonstrates satisfactory enhancement of pancreatic artery (red arrow). (b) Venous phase demonstrates poor enhancement of pancreatic tail with surrounding inflammatory changes (red arrow). |
PMC9420635_fig1_387628.jpg | What is the main focus of this visual representation? | Computed tomography of the abdomen in coronal view. (a) Arterial phase demonstrates satisfactory enhancement of pancreatic artery (red arrow). (b) Venous phase demonstrates poor enhancement of pancreatic tail with surrounding inflammatory changes (red arrow). |
PMC9420650_fig2_387633.jpg | What stands out most in this visual? | Intracoronary ultrasound imaging of a male patient before and after treatment (62 years old, admitted to the hospital for CHD unstable angina pectoris). A–C shows the intracoronary ultrasound imaging performance of the patient before treatment, the anterior descending branch was occluded with ischemia symptoms; D–E sho... |
PMC9420650_fig2_387631.jpg | Can you identify the primary element in this image? | Intracoronary ultrasound imaging of a male patient before and after treatment (62 years old, admitted to the hospital for CHD unstable angina pectoris). A–C shows the intracoronary ultrasound imaging performance of the patient before treatment, the anterior descending branch was occluded with ischemia symptoms; D–E sho... |
PMC9420650_fig2_387632.jpg | Can you identify the primary element in this image? | Intracoronary ultrasound imaging of a male patient before and after treatment (62 years old, admitted to the hospital for CHD unstable angina pectoris). A–C shows the intracoronary ultrasound imaging performance of the patient before treatment, the anterior descending branch was occluded with ischemia symptoms; D–E sho... |
PMC9420650_fig2_387630.jpg | Can you identify the primary element in this image? | Intracoronary ultrasound imaging of a male patient before and after treatment (62 years old, admitted to the hospital for CHD unstable angina pectoris). A–C shows the intracoronary ultrasound imaging performance of the patient before treatment, the anterior descending branch was occluded with ischemia symptoms; D–E sho... |
PMC9420681_Fig2_387635.jpg | Describe the main subject of this image. | Coronal T2-weighted MR image at 2 months (A) and at 9 months (B). Both cystic (arrowheads) and solid (arrows) components show rapid increases after 7 months |
PMC9420683_Fig1_387640.jpg | What is shown in this image? | ROIs drawn to compute the time-enhancement curves. In A, a ROI on the pancreas was drawn on the largest pancreatic portion included in the CT study volume. While this portion is usually represented by the pancreatic head, in this case the pancreatic head was not included in the study volume due to a pathologic lymph no... |
PMC9420683_Fig1_387637.jpg | What is the core subject represented in this visual? | ROIs drawn to compute the time-enhancement curves. In A, a ROI on the pancreas was drawn on the largest pancreatic portion included in the CT study volume. While this portion is usually represented by the pancreatic head, in this case the pancreatic head was not included in the study volume due to a pathologic lymph no... |
PMC9420683_Fig1_387638.jpg | What is shown in this image? | ROIs drawn to compute the time-enhancement curves. In A, a ROI on the pancreas was drawn on the largest pancreatic portion included in the CT study volume. While this portion is usually represented by the pancreatic head, in this case the pancreatic head was not included in the study volume due to a pathologic lymph no... |
PMC9420732_Fig2_387647.jpg | What stands out most in this visual? | PDGFR-β is primarily expressed in CD31hiEmcnhi endothelial cells (ECs). a qRT‒PCR examination of PDGFR-β in CD31hiEmcnhi ECs and CD31loEmcnlo ECs of bone marrow from normal mice. FACS analysis (b) and quantification (c) of CD31hiEmcnhi ECs isolated from the bone marrow of the sham and 4-week-old and 8-week-old ACLT gro... |
PMC9420732_Fig2_387642.jpg | What does this image primarily show? | PDGFR-β is primarily expressed in CD31hiEmcnhi endothelial cells (ECs). a qRT‒PCR examination of PDGFR-β in CD31hiEmcnhi ECs and CD31loEmcnlo ECs of bone marrow from normal mice. FACS analysis (b) and quantification (c) of CD31hiEmcnhi ECs isolated from the bone marrow of the sham and 4-week-old and 8-week-old ACLT gro... |
PMC9420732_Fig2_387655.jpg | What's the most prominent thing you notice in this picture? | PDGFR-β is primarily expressed in CD31hiEmcnhi endothelial cells (ECs). a qRT‒PCR examination of PDGFR-β in CD31hiEmcnhi ECs and CD31loEmcnlo ECs of bone marrow from normal mice. FACS analysis (b) and quantification (c) of CD31hiEmcnhi ECs isolated from the bone marrow of the sham and 4-week-old and 8-week-old ACLT gro... |
PMC9420732_Fig2_387649.jpg | What is the focal point of this photograph? | PDGFR-β is primarily expressed in CD31hiEmcnhi endothelial cells (ECs). a qRT‒PCR examination of PDGFR-β in CD31hiEmcnhi ECs and CD31loEmcnlo ECs of bone marrow from normal mice. FACS analysis (b) and quantification (c) of CD31hiEmcnhi ECs isolated from the bone marrow of the sham and 4-week-old and 8-week-old ACLT gro... |
PMC9420732_Fig2_387641.jpg | What is being portrayed in this visual content? | PDGFR-β is primarily expressed in CD31hiEmcnhi endothelial cells (ECs). a qRT‒PCR examination of PDGFR-β in CD31hiEmcnhi ECs and CD31loEmcnlo ECs of bone marrow from normal mice. FACS analysis (b) and quantification (c) of CD31hiEmcnhi ECs isolated from the bone marrow of the sham and 4-week-old and 8-week-old ACLT gro... |
PMC9420732_Fig2_387654.jpg | What is being portrayed in this visual content? | PDGFR-β is primarily expressed in CD31hiEmcnhi endothelial cells (ECs). a qRT‒PCR examination of PDGFR-β in CD31hiEmcnhi ECs and CD31loEmcnlo ECs of bone marrow from normal mice. FACS analysis (b) and quantification (c) of CD31hiEmcnhi ECs isolated from the bone marrow of the sham and 4-week-old and 8-week-old ACLT gro... |
PMC9420732_Fig2_387648.jpg | What is the dominant medical problem in this image? | PDGFR-β is primarily expressed in CD31hiEmcnhi endothelial cells (ECs). a qRT‒PCR examination of PDGFR-β in CD31hiEmcnhi ECs and CD31loEmcnlo ECs of bone marrow from normal mice. FACS analysis (b) and quantification (c) of CD31hiEmcnhi ECs isolated from the bone marrow of the sham and 4-week-old and 8-week-old ACLT gro... |
PMC9420732_Fig2_387659.jpg | What is the focal point of this photograph? | PDGFR-β is primarily expressed in CD31hiEmcnhi endothelial cells (ECs). a qRT‒PCR examination of PDGFR-β in CD31hiEmcnhi ECs and CD31loEmcnlo ECs of bone marrow from normal mice. FACS analysis (b) and quantification (c) of CD31hiEmcnhi ECs isolated from the bone marrow of the sham and 4-week-old and 8-week-old ACLT gro... |
PMC9420732_Fig2_387646.jpg | Can you identify the primary element in this image? | PDGFR-β is primarily expressed in CD31hiEmcnhi endothelial cells (ECs). a qRT‒PCR examination of PDGFR-β in CD31hiEmcnhi ECs and CD31loEmcnlo ECs of bone marrow from normal mice. FACS analysis (b) and quantification (c) of CD31hiEmcnhi ECs isolated from the bone marrow of the sham and 4-week-old and 8-week-old ACLT gro... |
PMC9420732_Fig2_387652.jpg | What is the principal component of this image? | PDGFR-β is primarily expressed in CD31hiEmcnhi endothelial cells (ECs). a qRT‒PCR examination of PDGFR-β in CD31hiEmcnhi ECs and CD31loEmcnlo ECs of bone marrow from normal mice. FACS analysis (b) and quantification (c) of CD31hiEmcnhi ECs isolated from the bone marrow of the sham and 4-week-old and 8-week-old ACLT gro... |
PMC9420732_Fig2_387651.jpg | What is being portrayed in this visual content? | PDGFR-β is primarily expressed in CD31hiEmcnhi endothelial cells (ECs). a qRT‒PCR examination of PDGFR-β in CD31hiEmcnhi ECs and CD31loEmcnlo ECs of bone marrow from normal mice. FACS analysis (b) and quantification (c) of CD31hiEmcnhi ECs isolated from the bone marrow of the sham and 4-week-old and 8-week-old ACLT gro... |
PMC9420841_f3_387668.jpg | What is the focal point of this photograph? | Deletion of IFN-γ in Smad4TKO mice ameliorates colitis-associated colon cancer. (A) Survival curves of WT, Smad4TKO, IFN-γKO and Smad4TKO/IFN-γKO (DKO) mice. (B) Body weight of each genotype at 8 months of age (n=11). (C) Colon weight per length (mg/cm) (n=9). (D) Percentage of tumor-bearing mice (n=10), tumor size (n=... |
PMC9420841_f3_387667.jpg | What is the principal component of this image? | Deletion of IFN-γ in Smad4TKO mice ameliorates colitis-associated colon cancer. (A) Survival curves of WT, Smad4TKO, IFN-γKO and Smad4TKO/IFN-γKO (DKO) mice. (B) Body weight of each genotype at 8 months of age (n=11). (C) Colon weight per length (mg/cm) (n=9). (D) Percentage of tumor-bearing mice (n=10), tumor size (n=... |
PMC9420841_f3_387665.jpg | What is shown in this image? | Deletion of IFN-γ in Smad4TKO mice ameliorates colitis-associated colon cancer. (A) Survival curves of WT, Smad4TKO, IFN-γKO and Smad4TKO/IFN-γKO (DKO) mice. (B) Body weight of each genotype at 8 months of age (n=11). (C) Colon weight per length (mg/cm) (n=9). (D) Percentage of tumor-bearing mice (n=10), tumor size (n=... |
PMC9420841_f3_387663.jpg | What is being portrayed in this visual content? | Deletion of IFN-γ in Smad4TKO mice ameliorates colitis-associated colon cancer. (A) Survival curves of WT, Smad4TKO, IFN-γKO and Smad4TKO/IFN-γKO (DKO) mice. (B) Body weight of each genotype at 8 months of age (n=11). (C) Colon weight per length (mg/cm) (n=9). (D) Percentage of tumor-bearing mice (n=10), tumor size (n=... |
PMC9420845_fig2_387670.jpg | Describe the main subject of this image. | Defects in COPI function result in abnormally shaped oil bodies. (A,B) Relative MpRET1
(A) and MpSEC21 (B) mRNA expression levels in transgenic M. polymorpha plants with indicated transgenes measured by qRT-PCR. MpAPT was used as an internal reference. Data are presented as the means ± s.d. Significant differences betw... |
PMC9420845_fig2_387677.jpg | What is the main focus of this visual representation? | Defects in COPI function result in abnormally shaped oil bodies. (A,B) Relative MpRET1
(A) and MpSEC21 (B) mRNA expression levels in transgenic M. polymorpha plants with indicated transgenes measured by qRT-PCR. MpAPT was used as an internal reference. Data are presented as the means ± s.d. Significant differences betw... |
PMC9420845_fig2_387674.jpg | What is being portrayed in this visual content? | Defects in COPI function result in abnormally shaped oil bodies. (A,B) Relative MpRET1
(A) and MpSEC21 (B) mRNA expression levels in transgenic M. polymorpha plants with indicated transgenes measured by qRT-PCR. MpAPT was used as an internal reference. Data are presented as the means ± s.d. Significant differences betw... |
PMC9420845_fig2_387672.jpg | Describe the main subject of this image. | Defects in COPI function result in abnormally shaped oil bodies. (A,B) Relative MpRET1
(A) and MpSEC21 (B) mRNA expression levels in transgenic M. polymorpha plants with indicated transgenes measured by qRT-PCR. MpAPT was used as an internal reference. Data are presented as the means ± s.d. Significant differences betw... |
PMC9420845_fig2_387678.jpg | What is the principal component of this image? | Defects in COPI function result in abnormally shaped oil bodies. (A,B) Relative MpRET1
(A) and MpSEC21 (B) mRNA expression levels in transgenic M. polymorpha plants with indicated transgenes measured by qRT-PCR. MpAPT was used as an internal reference. Data are presented as the means ± s.d. Significant differences betw... |
PMC9420845_fig2_387675.jpg | What is the core subject represented in this visual? | Defects in COPI function result in abnormally shaped oil bodies. (A,B) Relative MpRET1
(A) and MpSEC21 (B) mRNA expression levels in transgenic M. polymorpha plants with indicated transgenes measured by qRT-PCR. MpAPT was used as an internal reference. Data are presented as the means ± s.d. Significant differences betw... |
PMC9420846_F2_387681.jpg | What does this image primarily show? | Representative images of histological analyses of the heart and arteries. Panel (A) myocardial collagen deposition: myocardial longitudinal sections of 7 µm thick were stained with Picrosirius Red and documented at ×400 magnification: myocytes can be identified in yellow and the fibers of collagen in red (bar-100 µm); ... |
PMC9420846_F2_387683.jpg | What is shown in this image? | Representative images of histological analyses of the heart and arteries. Panel (A) myocardial collagen deposition: myocardial longitudinal sections of 7 µm thick were stained with Picrosirius Red and documented at ×400 magnification: myocytes can be identified in yellow and the fibers of collagen in red (bar-100 µm); ... |
PMC9420846_F2_387684.jpg | Can you identify the primary element in this image? | Representative images of histological analyses of the heart and arteries. Panel (A) myocardial collagen deposition: myocardial longitudinal sections of 7 µm thick were stained with Picrosirius Red and documented at ×400 magnification: myocytes can be identified in yellow and the fibers of collagen in red (bar-100 µm); ... |
PMC9420847_f1_387687.jpg | What does this image primarily show? | Method of metastatic lesion segmentation. [68Ga]Ga-DOTA-TATE PET/CT before PRRT (bottom row) and after PRRT (upper row). |
PMC9420847_f1_387686.jpg | What is shown in this image? | Method of metastatic lesion segmentation. [68Ga]Ga-DOTA-TATE PET/CT before PRRT (bottom row) and after PRRT (upper row). |
PMC9420875_f3_387691.jpg | What is the main focus of this visual representation? | Morphological phenotype of liver-specific GDF15 transgenic (Tg) mice. (A, B) Representative hematoxylin and eosin staining images (40× magnification) of the thyroid glands from wild type (WT) (A) and GDF15-Tg mice (B). Red arrows indicate the isthmus. (C) Comparison of thyroid gland size between the two groups (n = 5).... |
PMC9420875_f3_387690.jpg | What's the most prominent thing you notice in this picture? | Morphological phenotype of liver-specific GDF15 transgenic (Tg) mice. (A, B) Representative hematoxylin and eosin staining images (40× magnification) of the thyroid glands from wild type (WT) (A) and GDF15-Tg mice (B). Red arrows indicate the isthmus. (C) Comparison of thyroid gland size between the two groups (n = 5).... |
PMC9420875_f3_387689.jpg | What is the focal point of this photograph? | Morphological phenotype of liver-specific GDF15 transgenic (Tg) mice. (A, B) Representative hematoxylin and eosin staining images (40× magnification) of the thyroid glands from wild type (WT) (A) and GDF15-Tg mice (B). Red arrows indicate the isthmus. (C) Comparison of thyroid gland size between the two groups (n = 5).... |
PMC9420875_f3_387688.jpg | What's the most prominent thing you notice in this picture? | Morphological phenotype of liver-specific GDF15 transgenic (Tg) mice. (A, B) Representative hematoxylin and eosin staining images (40× magnification) of the thyroid glands from wild type (WT) (A) and GDF15-Tg mice (B). Red arrows indicate the isthmus. (C) Comparison of thyroid gland size between the two groups (n = 5).... |
PMC9420875_f3_387694.jpg | What's the most prominent thing you notice in this picture? | Morphological phenotype of liver-specific GDF15 transgenic (Tg) mice. (A, B) Representative hematoxylin and eosin staining images (40× magnification) of the thyroid glands from wild type (WT) (A) and GDF15-Tg mice (B). Red arrows indicate the isthmus. (C) Comparison of thyroid gland size between the two groups (n = 5).... |
PMC9420944_f1_387698.jpg | What does this image primarily show? | Patient 1. (A) Axial 18F-fluciclovine PET/CT showing left perirectal lesion. (B) Axial MRI showing the same. (C) MR simulation with planned isodose lines. (D) MRgRT-acquired image with delivered isodose lines. Orange = rectum, green = GTV, red = PTV, bolded red = D100%, yellow = D90%, and cyan= D80%. |
PMC9420944_f1_387696.jpg | What is being portrayed in this visual content? | Patient 1. (A) Axial 18F-fluciclovine PET/CT showing left perirectal lesion. (B) Axial MRI showing the same. (C) MR simulation with planned isodose lines. (D) MRgRT-acquired image with delivered isodose lines. Orange = rectum, green = GTV, red = PTV, bolded red = D100%, yellow = D90%, and cyan= D80%. |
PMC9420944_f2_387701.jpg | What can you see in this picture? | Patient 2. (A) Sagittal 68Ga-PSMA-11 PET/CT showing bright posterior bladder wall uptake. (B) Axial MRI showing posterior bladder wall lesion. (C) MR simulation with planned isodose lines. (D) MRgRT-acquired image with delivered isodose lines. Green = GTV, red = PTV, brown = D110%, bold red = D100%, yellow = D90%, and ... |
PMC9420944_f2_387702.jpg | What does this image primarily show? | Patient 2. (A) Sagittal 68Ga-PSMA-11 PET/CT showing bright posterior bladder wall uptake. (B) Axial MRI showing posterior bladder wall lesion. (C) MR simulation with planned isodose lines. (D) MRgRT-acquired image with delivered isodose lines. Green = GTV, red = PTV, brown = D110%, bold red = D100%, yellow = D90%, and ... |
PMC9420944_f2_387700.jpg | Describe the main subject of this image. | Patient 2. (A) Sagittal 68Ga-PSMA-11 PET/CT showing bright posterior bladder wall uptake. (B) Axial MRI showing posterior bladder wall lesion. (C) MR simulation with planned isodose lines. (D) MRgRT-acquired image with delivered isodose lines. Green = GTV, red = PTV, brown = D110%, bold red = D100%, yellow = D90%, and ... |
PMC9420944_f2_387703.jpg | What is shown in this image? | Patient 2. (A) Sagittal 68Ga-PSMA-11 PET/CT showing bright posterior bladder wall uptake. (B) Axial MRI showing posterior bladder wall lesion. (C) MR simulation with planned isodose lines. (D) MRgRT-acquired image with delivered isodose lines. Green = GTV, red = PTV, brown = D110%, bold red = D100%, yellow = D90%, and ... |
PMC9420944_f3_387708.jpg | What does this image primarily show? | Patient 3. (A) Axial 18F-fluciclovine PET/CT showing bright uptake in the left posterior prostate. (B) MRI prostate showing left seminal vesicle invasion. (C) MRgRT-acquired treatment image at the level of mid-prostate. (D) MRgRT-acquired image at the level of seminal vesicle. Green = PTV 4,000 cGy, red = PTV 3,400 cGy... |
PMC9420944_f3_387706.jpg | What is the core subject represented in this visual? | Patient 3. (A) Axial 18F-fluciclovine PET/CT showing bright uptake in the left posterior prostate. (B) MRI prostate showing left seminal vesicle invasion. (C) MRgRT-acquired treatment image at the level of mid-prostate. (D) MRgRT-acquired image at the level of seminal vesicle. Green = PTV 4,000 cGy, red = PTV 3,400 cGy... |
PMC9420944_f3_387707.jpg | What is the core subject represented in this visual? | Patient 3. (A) Axial 18F-fluciclovine PET/CT showing bright uptake in the left posterior prostate. (B) MRI prostate showing left seminal vesicle invasion. (C) MRgRT-acquired treatment image at the level of mid-prostate. (D) MRgRT-acquired image at the level of seminal vesicle. Green = PTV 4,000 cGy, red = PTV 3,400 cGy... |
PMC9420944_f4_387704.jpg | What is the dominant medical problem in this image? | Patient 4. Left panel: diffusion weighted imaging with arrow indicating area of restricted diffusion and correlating location circled on coronal MRI. Right panel: Dose color wash of first fraction: (A) scheduled plan, (B) adapted (delivered) plan; red = PTV, cyan = rectum. |
PMC9420944_f5_387710.jpg | Describe the main subject of this image. | Patient 5. Left panel: Axial and coronal views of 18F-fluciclovine PET/CT with focal perirectal uptake inferior to implanted brachytherapy seeds. Middle panel: simulated ART plan with isodose lines. Right panel: Dose color wash of first fraction: (A) scheduled plan, (B) adapted (delivered) plan. Red lines denote the la... |
PMC9420944_f5_387713.jpg | What can you see in this picture? | Patient 5. Left panel: Axial and coronal views of 18F-fluciclovine PET/CT with focal perirectal uptake inferior to implanted brachytherapy seeds. Middle panel: simulated ART plan with isodose lines. Right panel: Dose color wash of first fraction: (A) scheduled plan, (B) adapted (delivered) plan. Red lines denote the la... |
PMC9420975_F1_387714.jpg | What is the focal point of this photograph? | Diagram illustrating the method used to measure the thickness of total soft tissue, paraspinal muscle and subcutaneous layer at the level of L5 through sagittal view on T2-weighted MRI. |
PMC9420992_F2_387718.jpg | What is the core subject represented in this visual? | APVS grades. APVS grade 0 (A), grade 1 (B), and grade 2 (C). Row (a) shows SWAN images of different grades, row (b) shows magnified APVS, and row (c) shows diffusion-weighted images with quantified volume. |
PMC9420992_F2_387717.jpg | What stands out most in this visual? | APVS grades. APVS grade 0 (A), grade 1 (B), and grade 2 (C). Row (a) shows SWAN images of different grades, row (b) shows magnified APVS, and row (c) shows diffusion-weighted images with quantified volume. |
PMC9420992_F2_387719.jpg | What is the core subject represented in this visual? | APVS grades. APVS grade 0 (A), grade 1 (B), and grade 2 (C). Row (a) shows SWAN images of different grades, row (b) shows magnified APVS, and row (c) shows diffusion-weighted images with quantified volume. |
PMC9420992_F2_387720.jpg | Can you identify the primary element in this image? | APVS grades. APVS grade 0 (A), grade 1 (B), and grade 2 (C). Row (a) shows SWAN images of different grades, row (b) shows magnified APVS, and row (c) shows diffusion-weighted images with quantified volume. |
PMC9420992_F2_387716.jpg | What can you see in this picture? | APVS grades. APVS grade 0 (A), grade 1 (B), and grade 2 (C). Row (a) shows SWAN images of different grades, row (b) shows magnified APVS, and row (c) shows diffusion-weighted images with quantified volume. |
PMC9420992_F2_387721.jpg | What is shown in this image? | APVS grades. APVS grade 0 (A), grade 1 (B), and grade 2 (C). Row (a) shows SWAN images of different grades, row (b) shows magnified APVS, and row (c) shows diffusion-weighted images with quantified volume. |
PMC9420993_F6_387725.jpg | What is shown in this image? | PCMRI image of a subject in the sagittal plane. (A) Re-phased image to show the background. (B) Magnitude image in which the flow is bright. (C,D) Are phase images showing the oscillation of CSF flow with bright and black color throughout the cardiac cycle [Reproduced from Mohammad et al. (67) with permission]. |
PMC9420993_F6_387722.jpg | What key item or scene is captured in this photo? | PCMRI image of a subject in the sagittal plane. (A) Re-phased image to show the background. (B) Magnitude image in which the flow is bright. (C,D) Are phase images showing the oscillation of CSF flow with bright and black color throughout the cardiac cycle [Reproduced from Mohammad et al. (67) with permission]. |
PMC9420993_F6_387724.jpg | What is the focal point of this photograph? | PCMRI image of a subject in the sagittal plane. (A) Re-phased image to show the background. (B) Magnitude image in which the flow is bright. (C,D) Are phase images showing the oscillation of CSF flow with bright and black color throughout the cardiac cycle [Reproduced from Mohammad et al. (67) with permission]. |
PMC9420993_F6_387723.jpg | What is the principal component of this image? | PCMRI image of a subject in the sagittal plane. (A) Re-phased image to show the background. (B) Magnitude image in which the flow is bright. (C,D) Are phase images showing the oscillation of CSF flow with bright and black color throughout the cardiac cycle [Reproduced from Mohammad et al. (67) with permission]. |
PMC9420993_F7_387726.jpg | What key item or scene is captured in this photo? | Visualization of CSF bulk flow in the perivascular space through two-photon microscopy. (A) Images for particle tracking velocimetry were acquired at 30 Hz. (B) Trajectories of tracked microspheres were superimposed on the image, showing that particles are transported within perivascular spaces [Reproduced from Mestre ... |
PMC9421101_FIG1_387730.jpg | What is the central feature of this picture? | Abdominal ultrasound scan shows a thickened wall of gall bladder (A) and hyperechoic cystic cavity (B) filled with sludge-like fluid. Liver appears to be pale. |
PMC9421101_FIG1_387729.jpg | What is the principal component of this image? | Abdominal ultrasound scan shows a thickened wall of gall bladder (A) and hyperechoic cystic cavity (B) filled with sludge-like fluid. Liver appears to be pale. |
PMC9421101_FIG4_387731.jpg | What is the core subject represented in this visual? | ERCP in LBS shows the CBD and CHD completely filled with thick limy bile.ERCP: endoscopic retrograde cholangiopancreaticography; CBD: common bile duct; CHD: common hepatic duct; LBS: Limy Bile Syndrome |
PMC9421102_FIG1_387739.jpg | What is the dominant medical problem in this image? | (A, B) The arterial (red) and venous (blue) vasculature of the intracranial cavity has been printed onto a skull base model illustrating the three-dimensional (3D) relationships between vascular and bony structures. (C) The dural venous sinuses have been 3D-printed onto the skull base in blue. (D) 3D-printed objects ca... |
PMC9421102_FIG1_387738.jpg | Can you identify the primary element in this image? | (A, B) The arterial (red) and venous (blue) vasculature of the intracranial cavity has been printed onto a skull base model illustrating the three-dimensional (3D) relationships between vascular and bony structures. (C) The dural venous sinuses have been 3D-printed onto the skull base in blue. (D) 3D-printed objects ca... |
PMC9421102_FIG1_387736.jpg | What is the core subject represented in this visual? | (A, B) The arterial (red) and venous (blue) vasculature of the intracranial cavity has been printed onto a skull base model illustrating the three-dimensional (3D) relationships between vascular and bony structures. (C) The dural venous sinuses have been 3D-printed onto the skull base in blue. (D) 3D-printed objects ca... |
PMC9421102_FIG2_387733.jpg | What is the principal component of this image? | (A, B) The dural venous sinuses (blue), the circle of Willis (red), and cranial nerves III, IV, and V (yellow) have been three-dimensional (3D)-printed to demonstrate their course in relation to the skull base. (C) The course of the internal carotid artery (red) is easily traceable. (D) 3D printing can be used to prese... |
PMC9421102_FIG2_387734.jpg | What is the principal component of this image? | (A, B) The dural venous sinuses (blue), the circle of Willis (red), and cranial nerves III, IV, and V (yellow) have been three-dimensional (3D)-printed to demonstrate their course in relation to the skull base. (C) The course of the internal carotid artery (red) is easily traceable. (D) 3D printing can be used to prese... |
PMC9421102_FIG2_387732.jpg | What is the focal point of this photograph? | (A, B) The dural venous sinuses (blue), the circle of Willis (red), and cranial nerves III, IV, and V (yellow) have been three-dimensional (3D)-printed to demonstrate their course in relation to the skull base. (C) The course of the internal carotid artery (red) is easily traceable. (D) 3D printing can be used to prese... |
PMC9421102_FIG2_387735.jpg | Describe the main subject of this image. | (A, B) The dural venous sinuses (blue), the circle of Willis (red), and cranial nerves III, IV, and V (yellow) have been three-dimensional (3D)-printed to demonstrate their course in relation to the skull base. (C) The course of the internal carotid artery (red) is easily traceable. (D) 3D printing can be used to prese... |
PMC9421102_FIG3_387740.jpg | What is the focal point of this photograph? | (A) The hip muscles have been drawn onto a real femur and pelvis bone to show the attachment of the major muscles responsible for hip movement. (B) Three-dimensional (3D)-printed spinal nerves can be studied in relation to various bony and vascular structures. (C) Muscles of facial expression and mastication are printe... |
PMC9421102_FIG3_387741.jpg | What stands out most in this visual? | (A) The hip muscles have been drawn onto a real femur and pelvis bone to show the attachment of the major muscles responsible for hip movement. (B) Three-dimensional (3D)-printed spinal nerves can be studied in relation to various bony and vascular structures. (C) Muscles of facial expression and mastication are printe... |
PMC9421102_FIG3_387744.jpg | What's the most prominent thing you notice in this picture? | (A) The hip muscles have been drawn onto a real femur and pelvis bone to show the attachment of the major muscles responsible for hip movement. (B) Three-dimensional (3D)-printed spinal nerves can be studied in relation to various bony and vascular structures. (C) Muscles of facial expression and mastication are printe... |
PMC9421102_FIG3_387743.jpg | What is the core subject represented in this visual? | (A) The hip muscles have been drawn onto a real femur and pelvis bone to show the attachment of the major muscles responsible for hip movement. (B) Three-dimensional (3D)-printed spinal nerves can be studied in relation to various bony and vascular structures. (C) Muscles of facial expression and mastication are printe... |
PMC9421105_Fig4_387747.jpg | What is the focal point of this photograph? | eGCX components and expression of relevant eGCX-related genes in ISCLS BOECs. A, B Representative images of fucose (A) in endothelial cells from subjects with ISCLS or healthy controls (n = 3/group) detected by UEA-1-FITC (green, A) and quantified (B). RFU = relative fluorescence units; original magnification = 10x |
PMC9421124_FIG2_387748.jpg | Can you identify the primary element in this image? | AP radiograph of the left ankle shows ossified fragments at the distal lateral malleolus (yellow arrow), similar to the appearance on prior radiographs.AP: anterior-posterior. |
PMC9421154_F13_387749.jpg | Can you identify the primary element in this image? | Data collection environment and inference results. Left) The data collection environment where a vehicle is moving around and images are generated from a bird's eye view of a simulated drone; top left: A robot simulator for environment setup and collection of training data; middle left: The collected images from the dr... |
PMC9421154_F13_387752.jpg | What is being portrayed in this visual content? | Data collection environment and inference results. Left) The data collection environment where a vehicle is moving around and images are generated from a bird's eye view of a simulated drone; top left: A robot simulator for environment setup and collection of training data; middle left: The collected images from the dr... |
PMC9421154_F13_387751.jpg | What is shown in this image? | Data collection environment and inference results. Left) The data collection environment where a vehicle is moving around and images are generated from a bird's eye view of a simulated drone; top left: A robot simulator for environment setup and collection of training data; middle left: The collected images from the dr... |
PMC9421254_F3_387756.jpg | Can you identify the primary element in this image? | SEM of ZnO (sample A) at magnifications of (A) 1,000 and (B) 20,000 times. SEM of ZnO/G/GO/MCNT composite aerogel (sample C) at a multiplicity of (C) 1,000 and (D) 20,000 times. |
PMC9421254_F3_387754.jpg | What object or scene is depicted here? | SEM of ZnO (sample A) at magnifications of (A) 1,000 and (B) 20,000 times. SEM of ZnO/G/GO/MCNT composite aerogel (sample C) at a multiplicity of (C) 1,000 and (D) 20,000 times. |
PMC9421254_F3_387755.jpg | What stands out most in this visual? | SEM of ZnO (sample A) at magnifications of (A) 1,000 and (B) 20,000 times. SEM of ZnO/G/GO/MCNT composite aerogel (sample C) at a multiplicity of (C) 1,000 and (D) 20,000 times. |
PMC9421254_F3_387757.jpg | What is shown in this image? | SEM of ZnO (sample A) at magnifications of (A) 1,000 and (B) 20,000 times. SEM of ZnO/G/GO/MCNT composite aerogel (sample C) at a multiplicity of (C) 1,000 and (D) 20,000 times. |
PMC9421258_f1_387767.jpg | What can you see in this picture? | Brain and Chest CT before and after surgery. (A) Brain CT before chemotherapy; (B) Chest CT before chemotherapy; (C) Day 30, a nodular lesion (3.2 cm × 2.8 cm, red arrow) in the post-basal segment of the left lower lobe with ground glass opacification; (D) Day 38, the initial nodular lesion was larger, and new lesion i... |
PMC9421258_f1_387760.jpg | What can you see in this picture? | Brain and Chest CT before and after surgery. (A) Brain CT before chemotherapy; (B) Chest CT before chemotherapy; (C) Day 30, a nodular lesion (3.2 cm × 2.8 cm, red arrow) in the post-basal segment of the left lower lobe with ground glass opacification; (D) Day 38, the initial nodular lesion was larger, and new lesion i... |
PMC9421258_f1_387758.jpg | Describe the main subject of this image. | Brain and Chest CT before and after surgery. (A) Brain CT before chemotherapy; (B) Chest CT before chemotherapy; (C) Day 30, a nodular lesion (3.2 cm × 2.8 cm, red arrow) in the post-basal segment of the left lower lobe with ground glass opacification; (D) Day 38, the initial nodular lesion was larger, and new lesion i... |
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