🔬 ✨ High-Resolution Imaging with #MegaSPIM! #MegaSPIM is setting new standards in light sheet microscopy by delivering unparalleled high-resolution volumetric imaging. Its capabilities extend across: - High-throughput imaging with exceptional detail. - Versatility for various tissue types, from thin sections and cleared thick sections to arrays of cleared whole rodent organs or organoids. - User-friendly software designed for seamless operation and streamlined post-processing. Just take a look at this remarkable image from Dr. Hongwei Dong's Lab at UCLA using #MegaSPIM for functional networking and connectome research. ➡ Want to see how #MegaSPIM can elevate your research? Learn more about MegaSPIM: https://lnkd.in/eXJKmD7m #lightsheet #3Dspatialbiology #imaging #neuroscience #research #brainresearch
LifeCanvas Technologies Inc.’s Post
More Relevant Posts
-
👀 More new data from the NeuraLeap module for the Ultima 2Pplus #multiphoton microscope #MicroscopyMonday! Dopaminergic neurons of the mouse ventral tegmental area. The 120-micron section was scanned using the Bruker Neuraleap and color-coded by depth. NeuraLeap's digital micromirror device (DMD) allows rapid switching between planes and enables the collection of multiple discrete planes across hundreds of microns of depth. #neuroscience
-
🧠 Imaris: The Future of Neuroscientific Research! Unlock advanced 3D reconstruction and arborization analysis with Imaris for Neuroscientists. Perfect for tracing neurons and blood vessels, this tool provides detailed measurements and a customizable interface for tailored research needs. 📊 Key Features: Robust neuron tracing with soma detection Segmentation of ROIs of 10s of GBs Branch and morphology statistics Enhance your research with Imaris' robust tracing and extensive statistics. Transform your microscopy image analysis today.https://t.ly/bnZxQ #Neuroscience #3DImaging #NeuronTracing #BloodVesselTracing #Microscopy #BiomedicalResearch #apellaser #LightingtheFuture
-
-
Different types of brain imaging: MRI scanners utilize strong magnetic fields, magnetic field gradients, and radio waves to produce images of the internal organs in the body. MRA, a specialized form of MRI, focuses specifically on the body's blood vessels. CT scans, on the other hand, are a series of X-ray images transformed into cross-sectional images of the brain. PET scans involve the use of a radioactive tracer that binds to glucose in the bloodstream. As the brain primarily relies on glucose for fuel, the tracer accumulates in regions with high brain activity. X-Ray shows bone/skull only. It does not show the brain. Best used to detect if there are bone fractures. Credit: Michael S. Tehrani #biology #neuroscience #medicine
-
-
Different types of brain imaging: MRI scanners utilize strong magnetic fields, magnetic field gradients, and radio waves to produce images of the internal organs in the body. MRA, a specialized form of MRI, focuses specifically on the body's blood vessels. CT scans, on the other hand, are a series of X-ray images transformed into cross-sectional images of the brain. PET scans involve the use of a radioactive tracer that binds to glucose in the bloodstream. As the brain primarily relies on glucose for fuel, the tracer accumulates in regions with high brain activity. X-Ray shows bone/skull only. It does not show the brain. Best used to detect if there are bone fractures. Credit: Michael S. Tehrani #biology #neuroscience #medicine
-
-
Calling all fluorescence microscopists: What are the biggest challenges you face in your work? 🤔 Is inconsistent illumination, phototoxicity, poor irradiance, limited fluorophore coverage, high cost of mercury or halogen bulbs, or frustrating, complex setups on your list? ➡️ https://lnkd.in/d3ECVdiB ⬅️ Our pE-400 Series offers a comprehensive solution to these common pitfalls. With precise control, uniform illumination, and advanced features, it's the answer to streamline your microscopy workflow. Explore how it can revolutionise your work and get in touch today! #FluorescenceMicroscopy #Research #bioimaging #cellbiology #optogenetics #neuroscience
-
-
Different brain imaging techniques: 👀 1. MRI scanners utilize strong magnetic fields, magnetic field gradients, and radio waves to produce images of the internal organs in the body. 2. MRA, a specialized form of MRI, focuses specifically on the body's blood vessels. 3. CT scans, on the other hand, are a series of X-ray images transformed into cross-sectional images of the brain. 4. PET scans involve the use of a radioactive tracer that binds to glucose in the bloodstream. As the brain primarily relies on glucose for fuel, the tracer accumulates in regions with high brain activity. 5. X-Ray shows bone/skull only. It does not show the brain. Best used to detect if there are bone fractures. Credit: Michael S. Tehrani #biology #neuroscience #medicine
-
-
Founder Trusted Inc // Expert in Residence, Harvard Graduate School of Design (ret) // InspireMeCollaboration.com // RenascentInc.com Demolition // PanjshirValleyEmeralds, Trusted Blockchain // 20,000+ Followers
Very good intel about X-Ray scans vs MRA vs MRI vs CT scan vs PET scan:
Different brain imaging techniques: 👀 1. MRI scanners utilize strong magnetic fields, magnetic field gradients, and radio waves to produce images of the internal organs in the body. 2. MRA, a specialized form of MRI, focuses specifically on the body's blood vessels. 3. CT scans, on the other hand, are a series of X-ray images transformed into cross-sectional images of the brain. 4. PET scans involve the use of a radioactive tracer that binds to glucose in the bloodstream. As the brain primarily relies on glucose for fuel, the tracer accumulates in regions with high brain activity. 5. X-Ray shows bone/skull only. It does not show the brain. Best used to detect if there are bone fractures. Credit: Michael S. Tehrani #biology #neuroscience #medicine
-
-
Supplementary information: Meaning of the abbreviations of the described Imaging techniques. MRI - Magnetic Resonance Imaging MRA - Magnetic Resonance Angiography CT - Computed Tomography PET SCAN - Positron Emission Tomography
Different brain imaging techniques: 👀 1. MRI scanners utilize strong magnetic fields, magnetic field gradients, and radio waves to produce images of the internal organs in the body. 2. MRA, a specialized form of MRI, focuses specifically on the body's blood vessels. 3. CT scans, on the other hand, are a series of X-ray images transformed into cross-sectional images of the brain. 4. PET scans involve the use of a radioactive tracer that binds to glucose in the bloodstream. As the brain primarily relies on glucose for fuel, the tracer accumulates in regions with high brain activity. 5. X-Ray shows bone/skull only. It does not show the brain. Best used to detect if there are bone fractures. Credit: Michael S. Tehrani #biology #neuroscience #medicine
-
