Category:Medical imaging
Jump to navigation
Jump to search
English: Medical imaging is the summation of technologies used to acquire images from body. Common in many modalities of medical imaging is an energy source which interacts with the body and a receiver which collects the information. Computed modalities use a computer to process and enhance collected information. Visible light images acquired with a digital camera or through a microscope does not belong here.
technique and process of creating visual representations of the interior of a body | |||||
Upload media | |||||
Instance of | |||||
---|---|---|---|---|---|
Subclass of |
| ||||
| |||||
![]() |
Subcategories
This category has the following 42 subcategories, out of 42 total.
*
A
B
- Breast computed tomographie (3 F)
C
- Cinematic rendering (4 F)
D
- Diagnostic errors (11 F)
- Diffuse optical imaging (4 F)
E
G
I
- Iterative reconstruction (18 F)
K
- Kymographs (59 F)
M
- Magnetic field imaging (7 F)
- Magnetic Particle Imaging (1 F)
- Media from BMC Medical Imaging (14 F)
- Medical photography (13 F)
O
- Optical imaging (86 F)
P
- PET/CT imaging (2 F)
R
S
T
- Medical thermography (9 F)
- Tomosynthesis (2 F)
U
V
W
- Whole-organ imaging (6 F)
X
Media in category "Medical imaging"
The following 200 files are in this category, out of 417 total.
(previous page) (next page)-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
Increased-Echogenicity-and-Radiodense-Foci-on-Echocardiogram-and-MicroCT-in-Murine-Myocarditis-pone.0159971.s012.ogv 1 min 7 s, 340 × 480; 7.1 MB
-
-
-
Inhomogeneity-Based-Characterization-of-Distribution-Patterns-on-the-Plasma-Membrane-pcbi.1005095.s017.ogv 5.0 s, 1,450 × 1,743; 1.16 MB
-
Intracoronary fluorescence data.png 1,939 × 643; 439 KB
-
Joshi Landmark Matching.png 1,498 × 600; 1.38 MB
-
Kapselgalerie.JPG 1,600 × 1,200; 760 KB
-
Kedge argent.png 201 × 200; 18 KB
-
Kedge echantillon.png 202 × 204; 17 KB
-
Kedge iode.png 201 × 200; 22 KB
-
-
-
-
-
-
-
-
-
-
LOGO IDETEC WK.jpg 1,254 × 309; 35 KB
-
Magnetic particle imaging signal encoding principles.jpg 1,200 × 835; 117 KB
-
-
-
Matrix of medical imaging.jpg 1,181 × 762; 256 KB
-
Medial-temporal-lobe-structures.png 1,200 × 505; 1 MB
-
-
Mikro-CT-System.png 552 × 459; 438 KB
-
MINC2 hierarchy.png 622 × 984; 47 KB
-
Minimum-Field-Strength-Simulator-for-Proton-Density-Weighted-MRI-pone.0154711.s001.ogv 10 s, 288 × 120; 597 KB
-
-
-
-
-
-
-
-
MRI method copy.tif 4,047 × 2,313; 35.71 MB
-
-
-
-
MRI-Based-Localisation-and-Quantification-of-Abscesses-following-Experimental-S.-aureus-Intravenous-pone.0154705.s008.ogv 3 min 26 s, 504 × 504; 22.19 MB
-
MriScanner.png 1,920 × 1,080; 1.09 MB
-
-
-
-
Nano-FTIR integrated with s-SNOM.jpg 858 × 642; 154 KB
-
Neurodegeneration-and-Epilepsy-in-a-Zebrafish-Model-of-CLN3-Disease-(Batten-Disease)-pone.0157365.s002.ogv 1 min 0 s, 854 × 480; 5.41 MB
-
-
Ocular OCT 3D View OD.gif 1,436 × 889; 5.01 MB
-
Ocular OCT OD IR30 no overlay.jpg 1,536 × 1,536; 1.91 MB
-
Ocular OCT OS IR30 overlay.jpg 768 × 768; 438 KB
-
OD Ocular IROCT 30 ART no overlay.gif 1,008 × 496; 8.5 MB
-
OD Ocular IROCT 30 ART ON no overlay.gif 1,008 × 496; 4.88 MB
-
Open-Source-Selective-Laser-Sintering-(OpenSLS)-of-Nylon-and-Biocompatible-Polycaprolactone-pone.0147399.s006.ogv 34 s, 1,920 × 1,080; 23.17 MB
-
-
Optical-Coherence-Tomography-and-Autofluorescence-Imaging-of-Human-Tonsil-pone.0115889.s001.ogv 5.2 s, 1,440 × 214; 7.9 MB
-
Optical-Coherence-Tomography-and-Autofluorescence-Imaging-of-Human-Tonsil-pone.0115889.s002.ogv 3.4 s, 886 × 512; 4.5 MB
-
Optical-Coherence-Tomography-and-Autofluorescence-Imaging-of-Human-Tonsil-pone.0115889.s003.ogv 35 s, 1,050 × 463; 51.82 MB
-
-
OS Ocular IROCT 30 ART ON no overlay.gif 1,008 × 496; 4.55 MB
-
OS Ocular IROCT 30 ART overlay.gif 1,008 × 496; 8.07 MB
-
Parametric Imaging of Vascular Signatures.jpg 960 × 960; 89 KB
-
PASchematics v2.png 960 × 720; 168 KB
-
Perceptualapplications.png 2,610 × 666; 1.73 MB
-
-
-
PRODUCTION MOBILES IDETEC.jpg 1,068 × 591; 85 KB
-
-
Radiografía Digital Normal.jpg 3,610 × 4,400; 2.29 MB
-
Realzada Ecualizada.tif 3,610 × 4,400; 30.3 MB
-
Red-and-Green-Fluorescence-from-Oral-Biofilms-pone.0168428.s003.ogv 17 s, 1,390 × 1,040; 49.25 MB
-
Reduction-of-the-Inflammatory-Responses-against-Alginate-Poly-L-Lysine-Microcapsules-by-Anti-pone.0109837.s001.ogv 50 s, 2,176 × 1,119; 12.82 MB
-
Right Way To Do IR Fever Screening.jpg 278 × 253; 64 KB
-
-
-
-
-
Romboencefalosinapsi Ecografia.jpg 718 × 482; 69 KB
-
Romboencefalosinapsi Risonanza.jpg 317 × 345; 22 KB
-
Rose phantom nima.png 390 × 305; 25 KB
-
Rose phantom settings.png 396 × 416; 25 KB
-
Rosiglitazone and Exercise Effect on MAT.svg 800 × 344; 624 KB
-
Rotations-Laminographie 1.png 907 × 535; 77 KB
-
SAx tag.gif 332 × 332; 850 KB
-
SchematicOfANuclearMedicineImagingComputerSystem-de.svg 371 × 520; 24 KB
-
Screenshot from 2020-04-22 16-25-15.png 476 × 335; 27 KB
-
Screenshot from 2020-04-22 16-27-45.png 478 × 335; 28 KB
-
-
-
-
-
-
-
Seeing-through-Musculoskeletal-Tissues-Improving-In-Situ-Imaging-of-Bone-and-the-Lacunar-pone.0150268.s010.ogv 19 s, 1,024 × 1,024; 1.92 MB
-
Seeing-through-Musculoskeletal-Tissues-Improving-In-Situ-Imaging-of-Bone-and-the-Lacunar-pone.0150268.s011.ogv 13 s, 1,024 × 1,024; 1.67 MB
-
Showing orbit as a surface.jpg 541 × 378; 50 KB
-
Siamak atlas.tif 618 × 276; 224 KB
-
Simulación Normal.jpg 3,610 × 4,400; 3.71 MB
-
-
-
-
SPIE Medical Imaging San Diego 2012.JPG 2,592 × 1,578; 1.66 MB
-
-
Stage-Specific-Changes-in-the-Water-Na+-Cl--and-K+-Contents-of-Organelles-during-Apoptosis-pone.0148727.s006.ogv 8.7 s, 1,514 × 1,023; 4.8 MB
-
-
Statistical-Analysis-of-Interactive-Surgical-Planning-Using-Shape-Descriptors-in-Mandibular-pone.0161524.s001.ogv 1 min 10 s, 704 × 640; 6.56 MB
-
-
Studierfenster DICOM Browser.png 1,281 × 820; 70 KB
-
Sub-µ-CT.png 1,028 × 616; 1.09 MB
-
Subcortical structures embedded in two-dimensional momentum space.png 1,277 × 703; 592 KB
-
Targeting-MT1-MMP-as-an-ImmunoPET-Based-Strategy-for-Imaging-Gliomas-pone.0158634.s004.ogv 9.7 s, 736 × 736; 3.19 MB
-
Targeting-MT1-MMP-as-an-ImmunoPET-Based-Strategy-for-Imaging-Gliomas-pone.0158634.s005.ogv 9.7 s, 560 × 560; 2.36 MB
-
Template-generation.png 1,358 × 885; 1.09 MB
-
Temporal-Non-Local-Means-Filtering-Reveals-Real-Time-Whole-Brain-Cortical-Interactions-in-Resting-pone.0158504.s002.ogv 2 min 20 s, 330 × 240; 10.66 MB
-
Temporal-Non-Local-Means-Filtering-Reveals-Real-Time-Whole-Brain-Cortical-Interactions-in-Resting-pone.0158504.s003.ogv 2 min 20 s, 330 × 240; 16.92 MB
-
Temporal-Non-Local-Means-Filtering-Reveals-Real-Time-Whole-Brain-Cortical-Interactions-in-Resting-pone.0158504.s004.ogv 2 min 20 s, 330 × 240; 8.15 MB
-
Tensile-Forces-Originating-from-Cancer-Spheroids-Facilitate-Tumor-Invasion-pone.0156442.s010.ogv 12 s, 550 × 550; 1.98 MB
-
Tensile-Forces-Originating-from-Cancer-Spheroids-Facilitate-Tumor-Invasion-pone.0156442.s011.ogv 2.5 s, 4,728 × 1,605; 12.92 MB
-
Tensile-Forces-Originating-from-Cancer-Spheroids-Facilitate-Tumor-Invasion-pone.0156442.s012.ogv 2.5 s, 2,080 × 1,392; 5.55 MB
-
Tensile-Forces-Originating-from-Cancer-Spheroids-Facilitate-Tumor-Invasion-pone.0156442.s013.ogv 5.0 s, 2,080 × 1,392; 4.51 MB
-
Tensile-Forces-Originating-from-Cancer-Spheroids-Facilitate-Tumor-Invasion-pone.0156442.s014.ogv 3.0 s, 1,920 × 1,080; 358 KB
-
Tensile-Forces-Originating-from-Cancer-Spheroids-Facilitate-Tumor-Invasion-pone.0156442.s015.ogv 2.0 s, 1,024 × 1,024; 2.56 MB
-
Tensile-Forces-Originating-from-Cancer-Spheroids-Facilitate-Tumor-Invasion-pone.0156442.s016.ogv 15 s, 872 × 872; 1.89 MB
-
The pigeons’ training environment.png 320 × 215; 165 KB
-
-
The-Acute-Phase-of-Experimental-Cardiogenic-Shock-Is-Counteracted-by-Microcirculatory-and-pone.0105213.s003.ogv 1 min 33 s, 480 × 360; 2.17 MB
-
-
-
The-Natural-History-of-Kidney-Graft-Cortical-Microcirculation-Determined-by-Real-Time-Contrast-pone.0150384.s001.ogv 1 min 18 s, 787 × 576; 8.94 MB
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
Time-Resolved-Imaging-of-Single-HIV-1-Uncoating-In-Vitro-and-in-Living-Cells-ppat.1005709.s015.ogv 12 s, 640 × 480; 1.51 MB
-
Time-Resolved-Imaging-of-Single-HIV-1-Uncoating-In-Vitro-and-in-Living-Cells-ppat.1005709.s016.ogv 16 s, 640 × 480; 1.21 MB
-
-
Tipo Voxel.jpg 995 × 1,037; 275 KB
-
TomographyPrinciple Illustration.png 794 × 1,123; 91 KB
-
TORNAI-SpectrumOfMedicalImaging.jpg 720 × 504; 117 KB
-
-
-
-
-
-
-
-
-
-
-
Tumor infiltrativo.jpg 880 × 299; 48 KB
-
Tumor na margem.jpg 960 × 720; 104 KB
-
UCA generation 1.jpg 143 × 143; 5 KB
-
ULM animation.ogg 17 s, 1,280 × 368; 3.04 MB
-
-
-
-
-
-
US normal abdominal aorta.JPG 2,269 × 2,089; 1.45 MB
-
US versus TCT Phantom.jpg 581 × 348; 47 KB
-
US versus TCT.jpg 603 × 303; 35 KB
-
-
-
Validation-of-a-Radiography-Based-Quantification-Designed-to-Longitudinally-Monitor-Soft-Tissue-pone.0159624.s001.ogv 3 min 55 s, 720 × 480; 6.21 MB
-
Validation-of-a-Radiography-Based-Quantification-Designed-to-Longitudinally-Monitor-Soft-Tissue-pone.0159624.s002.ogv 1 min 51 s, 720 × 480; 4.99 MB
-
Validation-of-a-Radiography-Based-Quantification-Designed-to-Longitudinally-Monitor-Soft-Tissue-pone.0159624.s003.ogv 5 min 5 s, 854 × 480; 15.96 MB
-
Vasography 2.jpg 315 × 240; 23 KB
-
Videofluoroscopy AnkleReplacement.jpg 663 × 598; 71 KB
-