Human iPSC-Derived Sensory Neurons for Functional Sensory Biology and Pharmacology Research
Get an exclusive first look at BrainXell’s newly launched human iPSC-derived sensory neurons and learn how they enable reproducible, human-relevant models for sensory transduction, pharmacology, and ion channel research.
hiPSC-Cardiomyocyte Platforms Enabling Comprehensive Cardiac Toxicity and Drug Efficacy Evaluation
Join our webinar to discover how our hiPSC-cardiomyocyte platform can accelerate your drug discovery by enabling comprehensive evaluation - from QT interval to contractility, and from acute to chronic - for both cardiac toxicity and therapeutic efficacy!
#ExpertAnswers: Matthew Sparks on Vascular-Tubular Crosstalk
Matthew Sparks discusses his latest findings on a system of vascular-epithelial in the kidney that regulates pressure natriuresis.
Vascular-Tubular Crosstalk in the Renin-Angiotensin System
Matthew Sparks, MD, explores the vascular-tubular crosstalk in the renin-angiotensin system that may play a key role in the regulation of pressure natriuresis.
#ExpertAnswers: Yalda Moayedi on Tongue-Innervating Mechanoreceptors
Yalda Moayedi answers questions from a recent webinar on her latest findings on tongue-innervating mechanoreceptors.
Identification and Classification of Tongue-Innervating Mechanoreceptors
Join Yalda Moayedi, PhD, for a discussion on how tongue-innervating neurons can be clearly identified and classified according to their mechanosensory functionalities.
20 Years of TRPV4: Exploring Science, Discovery, and Future Directions
A virtual conference to celebrate the 20-year anniversary of TRPV4 and discuss its importance across various biological systems and associated disease models.
