BMV MEDTECH GROUP CO., LTD’s Post

BPU100 with advanced imaging technology: ● Anatomical M mode ● Auto measurement of intima-media thickness(IMT) ● PHI pulse inversion tissue harmonic imaging + frequency composite technology Get better penetration and get a more detailed 2D image ● Speckle noise suppression technology Eliminate two-dimensional image speckle noise and significantly improve image signal-to-noise ratio. ● Color Doppler enhancement technology Effectively suppress color flow flash noise, improve blood flow resolution and sensitivity. ● Multi-beam parallel processing technology Quadruple beam parallel processing to ensure good image resolution while increasing image refresh frame rate.. ● Support B, C, PW, CW modes, Duplex& Triplex ,Wide-angle Steer scanning imaging, Panoramic imaging.

Static Field Correction in 2D and 3D Echo-Planar Imaging (EPI) Sequences Objectives • Provide background on sources of off-resonanceinduced image distortions in Echo-Planar Imaging (EPI) sequences and discuss correction strategies. • Demonstrate application of corrections in the product (2D-EPI) and in research packages (3D-EPI, 3D GRadient-And-Spin-Echo (GRASE), and 3D Arterial Spin Labeling) https://lnkd.in/dwGEy3x4

In recent research from The University of Manchester, our Helios 5 Laser PFIB was used to explore fs-laser ablation parameters for 2D/3D imaging using tri-beam #microscopy. Read the study to learn how the latest findings can assist in achieving high-quality imaging across a wide range of materials. https://ter.li/voccra #MaterialsScience

IR VIVO from Photon etc. Using near- and shortwave-infrared, IR VIVO benefits from reduced scattering as well as minimal tissue absorption and auto-fluorescence. This allows deeper, clearer imaging than standard optical imaging. It takes advantage of the most recent developments in SWIR imaging. It combines Photon etc.’s InGaAs camera (Alizé 1.7 or ZephIR 1.7) with novel illumination and powerful analytical software.

IR VIVO from Photon etc. Using near- and shortwave-infrared, IR VIVO benefits from reduced scattering as well as minimal tissue absorption and auto-fluorescence. This allows deeper, clearer imaging than standard optical imaging. It takes advantage of the most recent developments in SWIR imaging. It combines Photon etc.’s InGaAs camera (Alizé 1.7 or ZephIR 1.7) with novel illumination and powerful analytical software.

In 18F-NaF coronary PET imaging, silicone photomultipliers with digital photon counting PET showed superior imaging contrast and less image noise compared with photomultiplier tubes PET. Piotr Slomka Cedars-Sinai Read now👉https://bit.ly/4gxa26Z #cvnuc

Looking for a comprehensive solution for #CellImaging? The CELENA S Digital Imaging System offers it all! 😄 👨🔬 "An all-in-one platform for laboratories" ⭐⭐⭐⭐ ⚗️ Application Area: #CulturedMeat 3D #bioprinting 💬 "The Celena S microscope excels in delivering bright, high-resolution images with exceptional precision and contrast. "Its robust build, intuitive software, and versatility make it ideal for various applications, from routine cell culture to advanced multi-layer 3D scaffold imaging. "The user-friendly interface further enhance its appeal, making it a top choice for any research laboratory seeking reliability and advanced capabilities." https://ow.ly/FOO350SVyPa #lab #labequipment #cellculture

Lifesciencemarket.com Akrima | λ2 – Fluorescence Image Splitter now available! https://lnkd.in/eHhcpnFg The λ2-Image Splitter is a dual-channel image splitting optical device for fluorescence microscopy, designed to simultaneously capture images of two different channels (e.g., wavelengths) on a single camera sensor. This solution removes the complexity and need for using multiple cameras and circumvents the low temporal resolution issues associated with sequential imaging. The λ2 is engineered for precision and ease of use, ensuring maximum comfort for daily users. Its setup and alignment can be completed in just a few minutes, and its intuitive operation simplifies the workflow. Features: ✓ Image Splitting and Bypass for full chip imaging ✓ Setup and alignment in just a few minutes ✓ Tool-free setup and daily use ✓ User-friendly and intuitive handling ✓ High quality components and materials ✓ Minimal distortion due to central passing through optical elements ✓ True spatial separation and separate lenses for each channel ✓ Corrects chromatic aberration ✓ Offers the possibility for off-focus imaging (3D information) ✓ Quick-release camera mount ✓ Easy and fast way to mount camera ✓ Camera weight supported by solid aluminum body ✓ Space-saving camera mounting ✓ Change between cameras (e.g., EMCCD to (s)CMOS) ✓ Free rotation of camera chip for high-speed acquisition

Renal glomeruli help make up the basic filtration unit of the kidney, however their small size and complex structure can make their structure difficult to interrogate using diffraction-limited optical imaging. A new preprint article introduces a pipeline using #SuperResolution expansion #Microscopy #ExM for 3D imaging of whole glomeruli and #MachineLearning-based annotation and analysis of glomerular features. #Imaging of expanded samples for this study was performed using a Nikon A1R #Confocal system with 40X/1.15 LWD water immersion objective. Click to view the preprint: https://bit.ly/3OZkojG

AFM Master Class on Youtube: check out this session on phase imaging, currently the most popular AFM mode to obtain material contrast on a sample. This session includes a discussion of what it is exactly that the phase measures, and how it is useful, both as an imaging mode and as an important indicator for topographic imaging. https://hubs.la/Q02mnjWg0