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2009
Lucido AL
J Neurosci.
Rapid assembly of functional presynaptic boutons triggered by adhesive contacts.
2012
Magdesian MH
Biophys J.
AFM reveals differences in axonal resistance to injury.
2012
Liazoghli D
Biomaterials.
Substrate micropatterning to study myelination.
2013
Belkaid W
Biomaterials.
Cellular response to micropatterned substrates.
2013
Goldman JS et al.
Nat Neurosci.
Netrin-1 promotes excitatory synaptogenesis.
2029
Ricoult SG et al.
ACS Nano.
Digital nanodot gradients of biomolecules.
2014
Ionescu M et al.
Proc Natl Acad Sci USA.
Xylella fastidiosa outer membrane vesicles.
2015
Voegel TM et al.
PLoS One.
Characterization of Xylella fastidiosa PD1671.
Accelerate breakthroughs with human-based organ-on-a chip solutions that deliver faster, more predictive results.
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2009
Lucido AL
J Neurosci.
Rapid assembly of functional presynaptic boutons triggered by adhesive contacts.
2012
Magdesian MH
Biophys J.
AFM reveals differences in axonal resistance to injury.
2012
Liazoghli D
Biomaterials.
Substrate micropatterning to study myelination.
2013
Belkaid W
Biomaterials.
Cellular response to micropatterned substrates.
2013
Goldman JS et al.
Nat Neurosci.
Netrin-1 promotes excitatory synaptogenesis.
2013
Ricoult SG et al.
ACS Nano.
Digital nanodot gradients of biomolecules.
2014
Ionescu M et al.
Proc Natl Acad Sci USA.
Xylella fastidiosa outer membrane vesicles.
2015
Voegel TM et al.
PLoS One.
Characterization of Xylella fastidiosa PD1671.
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Join us at the MPS World Summit 2026 Will be at Booth #430
Come learn about our human-relevant NAMs platforms and how we will revolutionize neuroscience drug development with better models.
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iPSCs & Microfluidics: Innovative Approaches to Modeling Alzheimer's Disease
In this comprehensive session, we delve into the revolutionary uses of induced pluripotent stem cells (iPSCs) for creating patient-derived cell types, offering a more accurate and relevant model of human biology. Our collaborators at Ananda Devices discuss their state-of-the-art microfluidics platform, designed to facilitate earlier compound screening, thus reducing both time and financial investments in the drug discovery process.
Learn More
NAMs Technology Partn3Ring
This is main content Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor, consectetur adipiscing elit, sed do eiusmod tempor psum dolor sit
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Accelerate breakthroughs with human-based organ-on-a chip solutions that deliver faster, more predictive results.
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Languages: EN
Home
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Ananda
Resources
Publications
Search
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Category
2009
Lucido AL
J Neurosci.
Rapid assembly of functional presynaptic boutons triggered by adhesive contacts.
2012
Magdesian MH
Biophys J.
AFM reveals differences in axonal resistance to injury.
2012
Liazoghli D
Biomaterials.
Substrate micropatterning to study myelination.
2013
Belkaid W
Biomaterials.
Cellular response to micropatterned substrates.
2013
Goldman JS et al.
Nat Neurosci.
Netrin-1 promotes excitatory synaptogenesis.
2013
Ricoult SG et al.
ACS Nano.
Digital nanodot gradients of biomolecules.
2014
Ionescu M et al.
Proc Natl Acad Sci USA.
Xylella fastidiosa outer membrane vesicles.
2015
Voegel TM et al.
PLoS One.
Characterization of Xylella fastidiosa PD1671.
Product literature
Search
Sort By
Category
News&Events
Search
Sort By
Category
Join us at the MPS World Summit 2026 Will be at Booth #430
Come learn about our human-relevant NAMs platforms and how we will revolutionize neuroscience drug development with better models.
Learn More
Webinars
Search
Sort By
Category
iPSCs & Microfluidics: Innovative Approaches to Modeling Alzheimer's Disease
In this comprehensive session, we delve into the revolutionary uses of induced pluripotent stem cells (iPSCs) for creating patient-derived cell types, offering a more accurate and relevant model of human biology. Our collaborators at Ananda Devices discuss their state-of-the-art microfluidics platform, designed to facilitate earlier compound screening, thus reducing both time and financial investments in the drug discovery process.
Learn More
NAMs Technology Partn3Ring
This is main content Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor, consectetur adipiscing elit, sed do eiusmod tempor psum dolor sit
Learn More
Accelerate breakthroughs with human-based organ-on-a chip solutions that deliver faster, more predictive results.
Main Page
Home
About Us
Our Platforms
Our Services
Our News
Contact Us
Our Resources
Product literature
Publications
News&Events
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Copyright© 2026 Ananda Device. inc
|
Terms and Conditions
|
Languages: EN
Home
About Us
Our Platforms
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Contact Us
Client Portal
EN