A comprehensive guide to the MICRO platform — learn to navigate every feature, from browsing instruments and exploring the image library to using the simulation viewers, managing training notes, reporting bugs, and requesting new features.

Core principles of light microscopy, magnification, resolution, and optical components.

Staining procedures, tissue sectioning, slide preparation, and fixation methods.

TEM and SEM operation, sample preparation for EM, vacuum systems, and image interpretation.

CT, MRI, Ultrasound, and PET imaging protocols, safety, and quality assurance.

Non-destructive 3D imaging, tomographic reconstruction, phase contrast, and in-situ experiments.

Whole-slide imaging, AI-assisted diagnosis, annotation workflows, and quality metrics.

Intraoral, panoramic, and CBCT dental imaging techniques, anatomy, and pathology recognition.

Biosafety levels, chemical hazards, personal protective equipment, and emergency procedures for microscopy labs.

Tooth morphology, dental numbering systems, radiographic anatomy, and identification of common restorations.

Comprehensive CT scanner training covering technology, scan protocols, image interpretation, and diagnostic applications across all body regions.

In-depth MRI training covering magnetic resonance physics, pulse sequences, contrast mechanisms, and diagnostic applications across neurological, musculoskeletal, abdominal, and cardiac imaging.

Comprehensive ultrasound training from basic physics through diagnostic applications in abdominal, obstetric, vascular, cardiac, and musculoskeletal imaging.

Training in conventional radiography (X-ray) and fluoroscopy covering physics, technique, systematic interpretation, and diagnostic applications for chest, abdomen, musculoskeletal, and fluoroscopic studies.

Training in nuclear medicine imaging modalities including PET, PET/CT, SPECT, and therapeutic radionuclide applications. Covers radiopharmaceuticals, image acquisition, and diagnostic applications.

Comprehensive mammography training covering imaging technology, positioning, BI-RADS classification, screening guidelines, and diagnostic workup of breast lesions.