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Latest Posters

Modeling Neurodegeneration
Poster

Discover a New Approach to Modeling Neurodegeneration

This poster demonstrates how a novel, precise and highly controlled iPSC reprogramming technology overcomes these limitations and enables the generation of mature cell types and isogenic models of neurodegenerative disease.
Poster

Optimized Human iPSC-Derived Sensory Neurons for Pain and Neuropathy Research

Many promising drugs which show efficacy in animal models have failed in the clinic due to interspecies variance in nociception mechanisms. Hence, consistent, scalable human in vitro models are required to accelerate potential therapeutics to the clinic.
Pure Neurons
Poster

Generating Pure, Consistent GABAergic Neurons From hiPSCs

While animal models and primary cells remain valuable resources, neuronal drug development faces many challenges. Not least, the variability and inaccuracy of traditional model systems can result in the failure to translate data into successful clinical trials.
Bit.bio Microglia Neurodegeneration
Poster

Functional, Reprogrammed Microglia To Study Neurodegeneration

Microglia play key roles in neurogenesis, synaptic remodeling, and are the first responders to infection in the brain. Hence, disease-relevant cell models are key to the success of neuroimmune and neurodegeneration research.
Single Cell
Poster

Whole Transcriptome Expression of FFPE Samples

Formaldehyde fixed & paraffin-embedded (FFPE) tissue blocks are one of the most commonly used and archived sample types. However, some preservation approaches can result in the degradation of RNA and hinder transcriptome profiling .
Immune Profiling for Disease
Poster

Precise Spatial Immune Profiling of PBMCs

This poster discusses the use of ChipCytometry, a modified approach to slide-based cytometry, which is a novel, highly multiplexed technology that preserves both plex and spatial context to deeply profile immune cell diversity at single-cell resolution.
Scale Up With Molecular Devices  content piece image
Poster

Scale Up With Molecular Devices

Whether you are working in cell line development, 3D biology, drug screening —or a combination of the three — technologies that maximize throughput and reproducibility can free up your time and give you greater insights.
Modeling Neurodegeneration Using a Human Isogenic System content piece image
Poster

Modeling Neurodegeneration Using a Human Isogenic System

Patient-derived induced pluripotent stem cells (iPSCs) enable generation of in vitro models that can recapitulate human disease phenotypes. However, conventional human iPSC differentiation protocols are often lengthy, inconsistent and difficult to scale.
Modeling Neurodegeneration: A Next-Generation Approach To Study Huntington’s Disease content piece image
Poster

Modeling Neurodegeneration: A Next-Generation Approach To Study Huntington’s Disease

To overcome these challenges, researchers have developed a proprietary gene-expression targeting strategy that can rapidly reprogram hiPSCs into pure somatic cell types in a scalable manner. This approach was used to develop a Huntington’s disease (HD) model carrying a 50CAG expansion in the huntingtin (HTT) gene.
Precise Morphological Analysis of Tumors With Whole Transcriptomics content piece image
Poster

Precise Morphological Analysis of Tumors With Whole Transcriptomics

Researchers require spatial information and high-plex gene expression data to understand how cells interact with tumors. However, molecular subtyping within a tumor type requires additional stratification at the tissue level to facilitate meaningful subsequent gene expression analysis.
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