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Empowering Progress Through Scientific
Discovery and Innovation
We take a collaborative approach to designing and implementing in vitro research programs. Your project will be assigned to an experienced team that will design, implement, and interpret the study results. We provide consulting support to ensure that study results can be used for your R&D programs and regulatory submissions, and meet the needs of your internal and external stakeholders. We view our clients as partners and have structured our processes to be flexible and adaptable to meet changing project requirements, and at the same time, ensure that we provide high-quality deliverables on time and within budget.
Our Services
Advance your research with our wide range of human and animal biospecimens. Our samples are readily available and can also be customized to your specifications.
Cell Biology/Disease Modeling
InceptiMed cell experts offer a range of custom isolation services from fresh whole blood to diseased tissues.
Hepatobiliary Disposition
We offer in vitro models to predict and quantitate hepatic uptake, intracellular concentration, basolateral and biliary disposition, DDIs, and other interaction effects.
​Metabolism
Our research services to investigate hepatic metabolism include:
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Reaction Phenotyping
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Metabolite Identification
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Metabolic Stability
Drug-Drug Interactions (DDI)
We design and implement Drug-Drug Interaction (DDI) studies to provide data that our clients use in their lead selection, optimization processes, and regulatory submissions.
Hepatotoxicity
We design and implement evaluations of hepatotoxicity including the following assessment programs:
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Predictive Toxicity
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Mechanistic Toxicity
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Cholestatic Hepatotoxicity
Microarray
InceptiMed Tissue Microarrays (TMAs) provide our customers with a screening tool representing multiple donors.
Gene Expression
Let our experienced scientists support you in the development of actionable data through mutational analysis, flow cytometry, and molecular pathology services.
Liver Disease Modeling
We have characterized biochemical mechanisms in the liver and have deep expertise in bile acid homeostasis, transporter function, xenobiotic metabolism, and gene regulation including the key nuclear receptors: AhR, CAR, PXR, FXR, and LXR.
Pathology/Clinical Data
Critical to understanding and modeling novel personalized therapeutics and diagnostic tools is a comprehensive view of data to allow the identification of association networks across patient cohorts.