BMSEED: News
BMSEED is committed to driving innovation and creating a positive impact on the biomedical research community. Our mission is to develop and provide state-of-the-art devices that empower researchers, biomedical scientists, and healthcare professionals to push the boundaries of scientific discovery. Through our cutting-edge technologies, including stretchable microelectrode arrays and advanced cell-stretching systems, we aim to facilitate more effective and efficient biomedical studies. Our focus is on supporting the advancement of biomedical science, fostering collaboration, and enabling groundbreaking research that can transform healthcare. Whether through partnerships, product innovation, or knowledge sharing, BMSEED is dedicated to shaping the future of biomedicine.
Reach Out to BMSEED
Contact us at BMSEED if you're interested in the MEASSuRE system. Our team will walk you through how this tool can support and enhance your research.
Tackling Alzheimer's Research: Bridging the Gap in Preclinical Models
Alzheimer’s research has long been hindered by inadequate preclinical models, particularly the over-reliance on 2D animal-based systems, which fail to replicate the human brain's complexity. This limitation often leads to drug failures in clinical trials. Newer 3D microfluidic platforms, like BMSEED’s microelectrode array (sMEA), offer a more accurate model that mimics the brain’s natural environment. These platforms allow researchers to study critical interactions between neurons and glial cells and simulate the effects of traumatic brain injuries (TBI), which are linked to Alzheimer’s progression. By addressing these key pain points, this technology promises to accelerate drug development and provide more effective treatments for Alzheimer’s.
Unraveling the Details of Primary Neuron Cultures: Techniques, Applications, and Yields
What are primary neuron cultures and how are they developed? Explore the techniques for sourcing, culturing, and measuring protein and RNA yields from mouse models, and why these practices are vital for advancing our understanding of neuronal function and neuroscience research.
Understanding Neural Activity: The Basis of Brain Function
What is neural activity and how is it measured? Explore applications including EEG, fMRI, PET, and why studying neural activity is important for understanding brain disorders, cognitive science, and BCIs.
Understanding Confluency in Biology: Definitions, Uses, and Importance
What is confluency? Understand cell density measures and their applications in tissue engineering in drug discovery.
Exploring Flex Cells: Versatility in Cellular Research
What are flex cells? Explore 3D cell stretching devices and applications in research such as in drug discovery and development and regenerative medicine.
Navigating the World of Transfection: A Deep Dive
What is Transfection? Discover the difference between transfection and transduction, protocols, and common applications such as in gene therapy and vaccine development.
Trans-Epithelial Electrical Resistance (TEER): A Comprehensive Guide
What is Trans-Epithelial Electrical Resistance? Discover TEER’s definition, how it works, and its common applications.
The Benefits and Advantages of Digital EEG
Discover the advantages of digital EEG. Contact BMSEED for more information on in-vivo brain research applications of electroencephalograms.
What Exactly Is Alzheimer’s Disease?
Discover facts regarding Alzheimer’s disease and how far scientists have progressed to combat the illness. Contact BMSEED for more information.
What is World Spine Day?
World Spine Day takes place as part of Bone and Joint Decade Action Week to increase awareness regarding spinal health and related problems like spinal cord injuries.