In-cell smFRET tracking links membrane diffusion states with real-time structural dynamics using wide-field imaging and integrated analysis.
Engineered patient-specific bone marrow model predicts cancer metastasis and therapy response from serum in a non-invasive diagnostic.
Focused ultrasound opens the blood-brain barrier to boost peripheral extracellular vesicle release, enabling sensitive neurological biomarkers.
Peptide microarray identifies immunoreactive epitopes for high-specificity serodiagnosis of hemorrhagic fevers, distinguishing infection from vaccination.
In-situ wound-healing skinoids model four-stage skin repair in 2D/3D cultures, enabling high-throughput drug testing and safety evaluation.
A beam-splitting multiplex immunofluorescence method dramatically expands identifiable cell types, boosting throughput and diagnostics.
CRISPR-based platform detects exogenous DNA transfer and records temporal biological signals in engineered cells for rapid screening.
A holographic two-photon microscope enables simultaneous, high-resolution 3D neuronal imaging and optogenetic stimulation in vivo.
AI predicts focused ultrasound BBB openings from low-dose GBCA MRI, reducing gadolinium exposure and scan time.
Multi-tissue, vascularized organ-on-a-chip platform enables patient-specific, long-term modeling of systemic disease and metastasis.
SCAPE microscopy enables fast, high-resolution 3D imaging of live specimens with wide field of view and reduced photodamage.
GRIN-SCAPE enables high-speed, 3D deep-brain imaging in awake animals using GRIN lenses for wide-field, multispectral activity mapping.
Real-time, non-radioactive fluorescent assay tracks vesicular neurotransmitter leakage in cells for high-throughput neurological research.
A cross-platform, scalable neural data framework for real-time storage, processing, and retrieval across commercial neurotech devices.
Co-delivery platform stabilizes nucleic acid therapeutics with exosome carriers and RISC associations, boosting efficacy while reducing off-targets.