An online MRI viewer opens DICOM files in the browser so you can inspect slices, switch planes when volume data is available, and request AI support based on rendered images to explain findings. Your raw files stay on your device for viewing.
Upload Your MRIDrop your MRI ZIP file or individual .dcm files. Supports all standard DICOM transfer syntaxes including JPEG Lossless.
Navigate through slices with keyboard arrows or the slider. Adjust windowing, zoom, pan, and measure distances.
4 AI models (GPT, Gemini, Claude, Grok) analyze independently. Claude synthesizes a unified report with findings and confidence levels.
MPR means viewing the same MRI volume in axial, sagittal, and coronal planes. When a DICOM series has enough slices, the viewer can reconstruct those planes from the raw DICOM files parsed locally in your browser.
3D rendering depends on the scan type, slice thickness, spacing, and your browser/device capability. AI analysis remains a support tool for clinician review, not a diagnosis, and does not replace clinician interpretation.
Compare MPR, 3D DICOM viewing, and volume renderingAI support can explain MRI report language and rendered image context, but it is not a licensed radiology second opinion. Use it to prepare better questions for your clinician, especially when a report mentions meniscus tears, ACL findings, cartilage loss, or bone marrow edema.
Read the AI MRI explanation guideRaw MRI files stay on your device for DICOM parsing, rendering, and viewing. If you request AI analysis, the app uses rendered images and minimal context.
Works in any modern browser — Chrome, Firefox, Safari, Edge. No plugins, no Java, no desktop software to download.
Four independent AI models can explain rendered MRI images. Each model provides its own findings, then Claude synthesizes a consensus report.
Multi-plane navigation, windowing presets (bone, soft tissue, brain), zoom up to 4x, pan, and distance measurement in millimeters.
T1, T2, PD, STIR, FLAIR, gradient echo, and fat-suppressed sequences. Sagittal, coronal, and axial planes.
Generate a professional report with structured findings, severity grading, model agreement, and recommendations for your physician.
DICOM (.dcm) — individual slice files
ZIP archives — containing DICOM series folders
JPEG Lossless (1.2.840.10008.1.2.4.70) transfer syntax
Explicit VR Little Endian, Implicit VR Little Endian
8-bit, 12-bit, and 16-bit pixel depth
MONOCHROME1 and MONOCHROME2 photometric interpretation
Yes, completely free with no hidden costs. You can view unlimited MRI scans in your browser. AI analysis requires credits ($10 per analysis session).
Absolutely. Your DICOM files are processed entirely in your browser using JavaScript and WebAssembly. Raw imaging data never leaves your device. Only rendered analysis images are sent to AI models for interpretation.
Our viewer supports all standard MRI sequences. For AI analysis, PD-weighted and T2-weighted sequences with fat suppression provide the most diagnostic information. The system automatically detects and optimizes for available sequences.
Yes. Our DICOM parser handles files from all major MRI manufacturers including Siemens, GE, Philips, Canon, and Hitachi. Both 1.5T and 3T field strengths are supported.
Our multi-model approach using 4 independent AI systems reduces false negatives through cross-referencing. Each model provides its own confidence level, and the synthesis indicates model agreement. This is for informational purposes only and does not replace professional radiological interpretation.
See all supported file formats → for the complete list.
On Analyze My Teeth, the viewer helps you review panoramic, bitewing, periapical, DICOM, and CBCT files for educational understanding before dentist, endodontist, oral surgery, or oral radiology review.
Review impacted wisdom teeth, implant planning anatomy, periapical lesions, root fracture concerns, jaw cysts, and TMJ bony findings as points to discuss with a dental professional.
Dental CT and CBCT files are easier to discuss when you know which tooth, root, canal, sinus, jaw structure, or panoramic X-ray finding is being shown.
AI explanations can organize visible imaging patterns, but they do not diagnose disease, replace clinical examination, or decide treatment. A dentist, oral surgeon, endodontist, or oral radiologist should confirm important findings.
Dental radiographs should be selected for a clinical reason and interpreted with the exam. Use this viewer to understand what is visible, then confirm tooth number, symptoms, radiation context, and treatment choices with a dental professional.
Often yes. A panoramic X-ray can show whether wisdom teeth are present, tilted, impacted, or close to nearby teeth. CBCT may be better when the dentist needs three-dimensional detail near the mandibular nerve, sinus, or roots.
Sometimes. Some root fractures are visible on periapical X-rays, but vertical or hairline fractures can be hidden by overlap, restorations, or projection angle. CBCT and an endodontic exam may be needed to confirm the concern.
CBCT is usually more useful when three-dimensional position changes care, such as impacted wisdom teeth, implant planning, root resorption, suspected fracture, periapical lesion extent, jaw cyst boundaries, or TMJ bone detail. Radiation exposure still needs a clinical reason.
A dentist should confirm the tooth number, symptoms, bite tests, pulp vitality, periodontal probing, previous treatment, image quality, and whether the imaging finding changes extraction, root canal, implant, or follow-up decisions.
AI cannot confirm pain source, pulp vitality, infection activity, cancer, biopsy need, or whether a tooth needs extraction, root canal treatment, implant surgery, or medication. It can miss subtle disease and can be fooled by artifacts.
Use the X-ray viewer for panoramic, bitewing, and periapical images. Use the CBCT or DICOM viewer when your dental office gave you a DICOM folder, ZIP export, or 3D volume.