Uncover tumor heterogeneity, drug resistance, and disease progression — with a label-free, high-dimensional view of cancer biology. Use morphology to reveal phenotypic complexity that molecular assays often miss:

• Distinguish cancer subtypes
• Model disease states
• Enrich rare phenotypes in real time
• Monitor patients for MRD / relapse

Accelerate target validation and therapeutic screening with morphology-driven insights that go beyond traditional endpoints. Use morphology to power faster, more informative discovery workflows:

• Profile drug response phenotypes
• Identify off-target effects early
• Classify mechanisms of action
• Enrich responsive or resistant subpopulations

Characterize and optimize therapeutic cell populations without labels or perturbation — enabling safer, more effective therapies. Use morphology to ensure quality and consistency of engineered cell products:

• Assess phenotype and potency
• Monitor activation and exhaustion
• Enrich therapeutic subpopulations
• Detect unwanted or aberrant cells

Track cell state, differentiation, and pluripotency with high-dimensional morphological profiling — no staining required. Use morphology to understand and guide stem cell biology:

• Assess pluripotency and cell state
• Monitor differentiation trajectories
• Enrich desired stem/progenitor cells
• Detect heterogeneity within cultures

Gain unprecedented insights into ocular cell biology by capturing subtle morphological differences across rare and complex cell types. Use morphology to drive discovery and development in eye disease research:

• Differentiate healthy vs diseased cells
• Model degenerative disease progression
• Enrich stem/progenitor populations
• Support therapeutic development pipelines

Accelerate clone selection and optimization by linking cell morphology to productivity and stability — label-free and real time. Use morphology to streamline development of high-value cell lines:

• Screen for high-producing clones
• Monitor growth and viability
• Assess clonality and stability
• Enrich for high-quality phenotypes

Explore new frontiers with REM-I, where emerging ideas and exploratory studies become opportunities to reveal entirely new layers of biology. Use morphology to expand discovery into novel domains:

• Organ Transplant Rejection
• Agricultural Biology
• Aging & Senescence
• Toxicology & Drug Safety
• Neurobiology