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Neuroscience Multimethod Approach – Combining In Vivo and In Vitro optogenetics, chemogenetics, imaging and electrical recordings

Neuroscience Multimethod Approach – Combining In Vivo and In Vitro optogenetics, chemogenetics, imaging and electrical recordings

Development of new neuroscience technologies led to the development of multimethod research approaches. In this post, we go over the diversity of techniques involved in a particular project, including optogenetics, chemogenetics, fiber photometry, calcium imaging, electrophysiology, EEG and histology. ...
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Fundamentals Series: Basic Microscopy Calculator

Fundamentals Series: Basic Microscopy Calculator

The MCI Microscopy Calculator is finally here to assist you in ensuring optimised data ouput ...
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How to choose the best solution for my in vivo optical recording and/or stimulation experiment

How to choose the best solution for my in vivo optical recording and/or stimulation experiment

What is the perfect solution to answer my neuroscience research question? What is the difference between the "DiveScope" and an optical fiberscope? If you're interested in the latest methods for in vivo optical recording and stimulation, this overview of MCI's portfolio is for you. ...
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Quantum dots that light up TVs could be used for brain research

Quantum dots that light up TVs could be used for brain research

Quantum dots, known for their use in TV screens, could change the field of medical research. These nanoparticles may be used as optical sensors or imaging probes in living brains. Their long-lasting fluorescence compared to organic dyes makes them the ideal candidates for tracking cell behaviors or delivering drugs in the body. ...
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Your brain has ‘landmarks’ that drive neural traffic and help you make hard decisions

Your brain has ‘landmarks’ that drive neural traffic and help you make hard decisions

Using non-invasive MRI scans, researchers from the University of Melbourne establish the concept of senders and receivers in the brain. They discovered that some regions are better at sending electrical signals, while others are better at receiving them. This discovery might lead to better understanding of neural communication disruptions. ...
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