ABOUT EMULATE
At Emulate, we understand that animal studies and reductionist models are limited because they are not based on integrated human biology.
By leveraging 21st century technologies, we are able to overcome these limitations with living human in vitro models that empower researchers to explore the biological mechanisms of health and disease. These microphysiological systems (MPS), commonly known as Organ-Chips, are setting a new standard for how we study biology and develop drugs, therapies, and cures for those who need them most.
FEATURED ARTICLES
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Personalized medicine struggles with models that fail to reflect real human biology. Organ-on-a-Chip systems recreate tissue complexity, helping predict patient-specific treatment responses.
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Modeling the human brain requires more than simplified systems. New approaches that incorporate diverse cell types are improving how researchers study neurovascular function with greater precision.
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As deep space missions return, new research is uncovering how human biology adapts beyond Earth. Advanced tissue models offer fresh insight into bone marrow response, opening new possibilities.
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Biologics are advancing rapidly, but complexity challenges traditional models. Gain insight into how human-relevant approaches like NAMs and microphysiological systems are gaining traction.
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Policy and scientific validation have aligned to shift drug development beyond animal models. New regulations and technologies are making human‑relevant methods the standard for preclinical research.
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NAMs are transforming toxicology with human-relevant, non-animal approaches. Learn what defines a NAM, how these methods work together, and why adoption is rapidly accelerating.
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Explore how the Emulate Liver-Chip S1 revolutionizes predictive toxicology by mimicking human liver biology, achieving superior sensitivity and specificity.
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This organ-on-a-chip model minimizes drug absorption while maintaining the essential architecture. Explore the specifications of this product engineered to model the human liver.
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Explore the current challenges of developing gene therapies, the potential of Organ-on-a-Chip technology, the future of gene therapy, and more.
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Discover the future of in vitro modeling at the Queen Mary+Emulate Organs-on-Chips Centre and unlock new possibilities in the field of predictive medicine.
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Learn why removing the mandate for animal testing would enable faster, more efficient, and more humane drug development, all while benefiting both patients and the pharmaceutical industry.
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Discover how Organ-on-a-Chip technology revolutionizes drug development, overcoming the limitations of traditional models to create more accurate, efficient pathways to life-saving treatments.
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The paradigm shift from animal to human Organ-Chips in preclinical research offers promising insights and efficiencies, crucial for advancing drug development and reducing human suffering.
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Learn about a more human-relevant platform that enables researchers to assess the trafficking and killing efficiency of immunotherapy as well as the proof-of-concept of immuno-oncology co-therapy.
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Examine how the Human Emulation System merges cutting-edge Organ-on-a-Chip technology with user-friendly design, paving the way for seamless experimentation and deeper insights into human biology.
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A promising class of engineered T-cell engaging bispecific antibodies (TCBs) is revolutionizing cancer treatment, but safety concerns persist. Organs-on-Chips offer a human-relevant solution.
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Examine how Organ-on-a-Chip technology, accurately mimicking human neuroinflammation, offers promising human-relevant avenues for neurodegenerative disease research and therapeutic development.
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See how the Colon Intestine-Chip has been employed to model cytokine-mediated inflammation and barrier disruption in the intestine.
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To address the challenges associated with conventional drug development models, a Colon Intestine-Chip has been developed to recapitulate the biology that drives inflammatory bowel disease.
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This study explores whether a species-specific, multicellular, in vitro hepatotoxicity assays utilizing Liver-Chips can provide a greater understanding of hepatotoxicity mechanisms than animal models.
CONTACT INFORMATION
Emulate
27 Drydock Ave
Boston, MA 02210
UNITED STATES
Phone: (844) 902-4477
FEATURED PRODUCTS
- An Organ-Chip Platform That Generates Human-Relevant Data At Scale
- A Revolutionary Consumable Empowering High-Throughput Organ-Chip Studies
- Complete Organ-Chip Solutions To Fast-Track Your Drug Discovery
- A Human-Relevant Liver Model With Minimal Drug Absorption
- Chip-R1™ Basic Research Kit
- Which Organ-Chip Design Is Right For You?
- Chip-R1™ Rigid Chip
- Organ-Chip Kits For Reproducible Results
- Culture Module That Sustains The Life Of Cells
- Human Proximal Tubule Kidney Bio-Kit
- Custom Organ-Chips For 3D Gel Matrices And Direct Compound Dosing
- Emulate Contract Research Services
- Custom Organ-Chip Models For A Wide Variety Of Applications
- The In Vitro Model Redefining Drug Discovery And Development
- Liver Bio-Kit
- Colon Intestine Bio-Kit
- Duodenum Intestine Bio-Kit
- Contract Research Services For Drug Discovery And Development
FEATURED WEBINARS
- Bridging The Gap Between Traditional Models And Human Biology
- Predictive Human Biology At Scale
- Breaking The Chains Of Conventional Drug Research Models
- Assessing Nephrotoxicity And Drug-Drug Interactions
- Accelerating The Study Of Viral Infection And Therapeutics
- A Faster, Human-Based Approach To AAV Optimization
- Utilizing The Colon Intestine-Chip To Investigate Mechanisms Of Gastrointestinal Disease
- Towards A More Predictive Model Of Human Biology: A Fireside Chat
- Organ-Chips Outperform Animal Models And Spheroids
- Predicting Hepatotoxicity With The Liver-Chip
- Organ-Chips For Drug Development
- Modeling Colorectal Cancer Progression
- Modeling Virus Evolution, Rapid Drug Repurposing With Human Airway Lung-Chips
- Improving In Vitro Cancer Modeling
- How To Confidently Predict Toxicity Of Preclinical Drug Candidates
- The FDA Modernization Act is Signed Into Law. Now What?
- Ex Vivo Systems: Translating Mechanisms To Human Oncology
- Democratizing Organ-On-A-Chip Technology
- How To Get Started With Organ-On-A-Chip Technology
- ChipChat With Emulate: Answering Your Organ-Chip Questions Live
- Assessing Reproductive Health With A Human Vagina-On-A-Chip
- A Pharmaceutical Perspective On Generating And Utilizing Multiomic Data
- Efficacy Evaluation Of AAV-Delivered Liver-Specific Promoters
- De-Risking Drug Development With Organ-On-A-Chip Contract Research Services
- Dissecting Cancer-Microbiome Interactions With Organoids, Organ-Chips
- Accelerating Drug Development For Inflammatory Bowel Disease With Organ-Chips
- A Regulatory Perspective: How Government Funding Spurs Scientific Innovation