Biopico Systems, Inc.
Biopico Systems Inc. is dedicated to developing accurate biology models for precision medicine through innovative microfluidic technology. Their mission is to create functional organ tissues and multi-organ systems for therapeutic discoveries, drug testing, and organ repair, enabling better understanding of human physiology and disease.
Industries
Nr. of Employees
small (1-50)
Biopico Systems, Inc.
Irvine, California, United States, North America
Products
Multi-organ recirculation microfluidic system
A gravity-driven microfluidic system that enables passive unidirectional shear flow and programmable recirculation across multiple connected organ units to emulate physiological flow.
Glass-bottom multi-unit organ culture plate
Injection-molded disposable plate with glass bottoms and multiple multi-organ units (six-unit format referenced) designed for media recirculation and 3-D organ maturation from primary cells, cell lines, or iPSC-derived tissues.
Organotypic tissue constructs for repair and implantation studies
Engineered vascular and cardiac tissue constructs developed under microfluidic culture conditions for use in graft development and preclinical implantation research.
Multi-organ recirculation microfluidic system
A gravity-driven microfluidic system that enables passive unidirectional shear flow and programmable recirculation across multiple connected organ units to emulate physiological flow.
Glass-bottom multi-unit organ culture plate
Injection-molded disposable plate with glass bottoms and multiple multi-organ units (six-unit format referenced) designed for media recirculation and 3-D organ maturation from primary cells, cell lines, or iPSC-derived tissues.
Organotypic tissue constructs for repair and implantation studies
Engineered vascular and cardiac tissue constructs developed under microfluidic culture conditions for use in graft development and preclinical implantation research.
Services
Compound testing in 2-D and 3-D barrier and organ models
Laboratory testing of compounds using barrier and multi-organ tissue models to determine transport characteristics, toxicity, and off-target effects.
LC‑MS metabolic profiling of multi-organ cultures
Analytical workflows to sample culture media and perform LC‑MS to identify drug metabolites and biomarkers produced by specific organ units.
Compound testing in 2-D and 3-D barrier and organ models
Laboratory testing of compounds using barrier and multi-organ tissue models to determine transport characteristics, toxicity, and off-target effects.
LC‑MS metabolic profiling of multi-organ cultures
Analytical workflows to sample culture media and perform LC‑MS to identify drug metabolites and biomarkers produced by specific organ units.
Expertise Areas
- Multi-organ microfluidic culture
- Organ-on-chip toxicology and ADME‑Tox
- Tissue engineering and graft development
- Barrier and blood–brain barrier modeling
Key Technologies
- Microfluidics
- Gravity-driven unidirectional recirculation
- Laplace fluidic-stop channels
- 3D cell culture and organoids