DLOC Biosystems
DLOC Biosystems is dedicated to developing advanced organ-on-chip technology to make drug development faster, cheaper, and safer. Their mission is to create the most user-friendly and biomimetic organ-on-chip devices for in-vitro testing, enabling more accurate prediction of drug success and failure, ultimately reducing costs and increasing safety in drug development.
Industries
Nr. of Employees
small (1-50)
DLOC Biosystems
Discovery Park, Ramsgate Rd, Sandwich, CT13 9FF, United Kingdom.
Products
Duct-based organ-on-chip device (ductal scaffold)
Porous ductal scaffold-based organ-on-chip device designed to preserve 3D tissue architecture and the native microenvironment for in-vitro culture of human tissues.
Multi-chip plate (standardized HOC plate)
A multi-chip plate sized to a multi-well format (described as 12-well plate size) that connects multiple tissue chips into a standardized body-on-chip configuration.
Automated operating system for human-on-chip experiments
An automated instrument that controls fluid flow, sampling, and measurement across the multi-chip plate to model circulatory, immune and hormonal interactions between tissues.
AI-powered analysis platform for organ-on-chip data
Software platform that applies AI methods to outputs from organ-on-chip experiments to support drug-effect analysis and predictive assessments.
Duct-based organ-on-chip device (ductal scaffold)
Porous ductal scaffold-based organ-on-chip device designed to preserve 3D tissue architecture and the native microenvironment for in-vitro culture of human tissues.
Multi-chip plate (standardized HOC plate)
A multi-chip plate sized to a multi-well format (described as 12-well plate size) that connects multiple tissue chips into a standardized body-on-chip configuration.
Automated operating system for human-on-chip experiments
An automated instrument that controls fluid flow, sampling, and measurement across the multi-chip plate to model circulatory, immune and hormonal interactions between tissues.
AI-powered analysis platform for organ-on-chip data
Software platform that applies AI methods to outputs from organ-on-chip experiments to support drug-effect analysis and predictive assessments.
Services
Laboratory-based pre-clinical testing using human-derived 3D organ-on-chip models and connected multi-organ systems to evaluate drug safety and efficacy with longitudinal sampling and real-time measurements.
Laboratory-based pre-clinical testing using human-derived 3D organ-on-chip models and connected multi-organ systems to evaluate drug safety and efficacy with longitudinal sampling and real-time measurements.
Expertise Areas
- Organ-on-chip platform development
- 3D tissue engineering and extracellular matrix modeling
- Microfluidics and multiplexed fluid control
- AI/ML for multi-parameter assay analysis
Key Technologies
- Organ-on-chip scaffolds for ductal tissues
- Multiplexed micro-valving and micro-channel microfluidics
- Automated fluidic control and micro-sampling systems
- Real-time microscopy
News & Updates
Stars-of-science 1st-prize
Awarded by Qatar foundation.
Arab Entrepreneurship Rally 1st prize
Awarded by Bahrain Chamber of Commerce.
Grant award
Awarded by Kuwait Chamber of Commerce.
LIRA Forum 1st-prize
Awarded by Lebanese Ministry of Industry.
MIT Enterprise Forum 3rd prize
Recognition at MIT Enterprise Forum.
Darwazah Student Entrepreneurship contest 1st prize
Awarded by AUB Darwazah Center.
Stars-of-science 1st-prize
Awarded by Qatar foundation.
Arab Entrepreneurship Rally 1st prize
Awarded by Bahrain Chamber of Commerce.
Grant award
Awarded by Kuwait Chamber of Commerce.
LIRA Forum 1st-prize
Awarded by Lebanese Ministry of Industry.
MIT Enterprise Forum 3rd prize
Recognition at MIT Enterprise Forum.
Darwazah Student Entrepreneurship contest 1st prize
Awarded by AUB Darwazah Center.