The Challenge of Building Organs on a Chip
Recreating the environment of a human organ in a compact microfluidic device is essential for researchers across the biotech industry investigating potential solutions to human health challenges. However, creating a microfluidic device that accurately models cellular interactions in a stable, controlled microenvironment with consistent performance is a task even leading organ on a chip companies struggle with.
Taking a microfluidic device and putting an organ on the chip isn’t easy—unless you have a strategic partner on your side.
Take the Risks Out of Putting Organs on Chips
When your organ on a chip company forms a strategic partnership with a contract microfluidics manufacturer, you let experienced professionals shoulder the risks of designing, building, and distributing your product—saving on production costs at any scale of manufacturing, bringing more affordable devices to market faster, and ensuring reliability for your customers.
Accelerate Your Time-to-Market
Make Your Product More Affordable
Ensure Highly Reliable Results
Vantiva Precision BioDevices: A Strategic Partner for Organ-on-a-Chip Devices
Advanced Microfabrication Techniques
Our decades-spanning legacy of expertise in precision microfabrication and assembly, bonding, and welding techniques streamlines the process of accurately reproducing complex cellular structures and environments on your proposed organ-on-a-chip design.
Material Science Expertise
Our experience designing and manufacturing biomedical assay devices offers a wealth of knowledge in choosing the appropriate biocompatible materials to ensure device longevity and functionality while eliminating the risk of unwanted cellular interactions.
Robust Quality Control Systems
Our production, assembly, and distribution processes are all held to the strictest ISO 13485:2016 standards from start to finish, with rigorous protocols in place to monitor and maintain consistency in your organ-on-a-chip products across batches.
Specialty Designs and Comprehensive Microfluidic Testing
Our capabilities include reagent integration, applying speciality coatings, and laboratory testing to minimize your on resources and capital investments into your organ-on-a-chip designs and enable you to focus more on your own core offerings.
Who needs organ-on-a-chip devices?
Wherever researchers need to study the behavior of specific organs, microfluidic devices that fit the functionality and internal environment of that organ on a chip help achieve results faster, more accurately, and more feasibly than using a human organ sample—accelerating testing for personalized medicine, drug screening, and more.
Pharmaceutical Development
Testing the efficacy of new drug compounds or potential toxicity on human-like tissues to improve predictions of human responses
Medical Research
Investigating the mechanisms of diseases, interactions between different cell types, or changes in gene or protein expression
Toxicology Testing
Evaluating the effects of chemicals on human tissues, the long-term impact of low-level toxins, or the effects of environmental pollutants
Regenerative Medicine
Growing and differentiating stem cells, modeling diseases to test regenerative treatments, evaluating personalized therapies
Put Your Organ on a Chip Devices In the Right Hands
With the Vantiva Precision BioDevices team as your strategic partner, it’s never been easier or more cost-effective to deliver microfluidic devices that put an organ on the chip to researchers across the biomedical industry.
1
Optimize It!
We’re here to support you through the design process to figure out the best way to simulate an organ’s specific functions and environmental conditions on a microfluidic chip.
2
Prototype It!
With our in-house rapid prototyping capabilities, we can iterate on designs and materials to perfect your product design for quality, reliability, and cost-effective manufacturability.
3
Ship It!
We use global distribution logistics expertise to support your organ on a chip company in getting your product to market at any scale—from one to one million.
