Medical Device Developments的动态

Advanced medical imaging technologies like ultrasound, MRI, CT, PET scanners used for accurate diagnosis of diseases and conditions. Call us to know more about. #SriSrinivasaDiagnostics #MedicalImaging #Ultrasound #MRI #CTScan #PETScan #AccurateDiagnosis #AdvancedTechnology #HealthcareServices #DiagnosticServices #MedicalTechnology #HealthcareInnovation #MedicalAdvancement #KnowYourHealth

Cross-beam Compounding is a significant advancement in ultrasound technology that is transforming the way medical imaging is performed. An X shape is formed using scan lines to provide information from multiple angles, which improves image quality. This has a beneficial role in anatomically difficult areas with fewer artifacts and better clarity for accurate diagnoses from ultrasound images. This technique is described differently in the ultrasound machines of leading manufacturers; they use a combination of terms such as Cross-X-Beam, Compounding, or Beam Compounding to describe it. Nonetheless, there are other considerations: despite its effectiveness in eliminating artifacts, cross-beam compounding also has to be aware of certain limitations. Artifacts are not always non-beneficial; there are some which play a vital role in diagnosing diseases such as acoustic shadowing and enhancement. One significant drawback is that the frame rate reduction, which can adversely affect real-time imaging, especially when dealing with highly demanding procedures like needle insertion that require precision. Users need to weigh the balance between the reduction of artifacts and any potential impact on dynamic imaging settings; the selected approach must be consistent with the specific requirements set out for successful outcomes during medical procedures. A delicate balance in using this tool is to take into account its strengths, such as during detection, while deactivating it in cases where the outcome may be difficult to determine because of unknown factors. Keeping the right balance ensures the most accurate diagnostic results. #ultrasound #sonography #radiology #technology #future #medicalimaging

Magnetom Free.Max which utilizes Deep Resolve our AI-powered platform. In combination with Siemens engineering, these technologies are revolutionizing the way we diagnose and treat patients. Check out the power of artificial intelligence in the medical diagnostic space by viewing images below! #engineering #artificialintelligence #medical #siemenshealthineers #radiology #gamechanger

A CT, or computed tomography scan, is a medical imaging technique that uses X-rays and computer processing to create detailed cross-sectional images of the body. It allows healthcare providers to view internal organs, bones, and tissues with high precision, aiding in diagnosis and treatment planning for various conditions. The shades of gray in a CT scan indicate the density of internal structures: White: Dense tissues, like bone and calcifications Black or dark gray: Lucent tissues, like air and fat Gray: Soft tissues and fluid, including blood Here's an insight as to how to read a CT: #CT #radiology #mri #ultrasounds #labtests #diagnosis #medical #medicalimaging #health #healthcare

In the realm of ultrasound imaging, achieving the optimal balance between depth of penetration and image resolution is both a science and an art. Our engineers — specialists in ultrasound frequency and penetration balance — are masters of this craft. ? Ultrasound frequency refers to the range of signals the ultrasound array is designed to transmit and receive. It’s a critical parameter that influences the overall spatial resolution in ultrasound imaging. ? Gain and Output Power adjustments are a function that allows ultrasound operators to fine-tune the image's depth of penetration, contrast, and brightness, enabling them to obtain the best possible diagnostic information from the ultrasound examination. Fine-tuning ultrasound frequency and gain adjustment to match the clinical application is a painstaking process. But when the result is razor-sharp and crystal-clear images in otherwise challenging clinical cases, it’s well worth the investment. #Healthcare #Ultrasound #Technology For clearer images and precise diagnostics, connect with ultrasound experts at https://bit.ly/3RfNOtp

In the realm of ultrasound imaging, achieving the optimal balance between depth of penetration and image resolution is both a science and an art. Our engineers — specialists in ultrasound frequency and penetration balance — are masters of this craft. ? Ultrasound frequency refers to the range of signals the ultrasound array is designed to transmit and receive. It’s a critical parameter that influences the overall spatial resolution in ultrasound imaging. ? Gain and Output Power adjustments are a function that allows ultrasound operators to fine-tune the image's depth of penetration, contrast, and brightness, enabling them to obtain the best possible diagnostic information from the ultrasound examination. Fine-tuning ultrasound frequency and gain adjustment to match the clinical application is a painstaking process. But when the result is razor-sharp and crystal-clear images in otherwise challenging clinical cases, it’s well worth the investment. #Healthcare #Ultrasound #Technology For clearer images and precise diagnostics, connect with ultrasound experts at https://bit.ly/3RfNOtp

Advancements in medical technology are making X-ray procedures safer for everyone. Take the CT-5300 scanner by Philips, for example. This innovative device uses AI-based image reconstruction to achieve stunning results: ????% lower radiation dose ????% lower noise ????% improvement in low-contrast detectability It also powers a smart positioning camera that: ??Reduces patient positioning time by up to ????% ??Improves manual centering accuracy by up to ????% ??Increases consistency from user to user by up to ????% Next time you need an X-ray, remember the incredible technology making it safer and more efficient! #medicaltechnology #healthcareinnovation #aimedical #radiology #medicalimaging #patientcare #healthcaretech #healthtech

STATE OF THE ART PHOTON COUNTING CT What can CT do for you and your patients? OK everyone. Let's open up a new chapter of PCCT applications. Body imaging at large. For all the "Cardiac Imaging freaks", like myself, I can understand this might be less interesting, but it is time to move our attention also to non cardiovascular (and non Neurovascular, which we partially showed already) applications. Yes, this is important because one may think this is just a wonderful Cardiovascular Machine. Of course it is! but it is also a magnificent Whole Body Imaging Machine with yet-to-be-discovered killer applications. Ultra High Resolution Spectral Imaging of Pancreas (arterial phase; std and IODINE); check out the tail of the pancreas for some abnormalities. Let's start as usual with some simple anatomical details to allow everyone a bit of a grasp of the features of this new imaging technique. Ex. from axial dataset 1024x1024 matrix; FOV 200mm; source images 0.2/0.1-0.4/0.2mm; thickness/increment. Kernel Bv60. Maximum QIR iterative reconstructions level 4. PS: requires full-screen, fast streaming and maximum resolution. monasterio.it Photon Counting CT is changing the game, the field, the language, the priorities and in the end it will change the entire infrastructure of diagnostic medicine. Stay tuned and follow our updates on the fine tuning and applications of Photon Counting CT. #PCCT #photoncounting #QuantumHD #CT #computedtomography #yesCCT #coronaryarterydisease #ischemia #naeotomalpha Erica Maffei Antonella Meloni Carlo Cavaliere Bruna Punzo Liberatore Tramontano Dario Baldi Giuseppe Runza, MD, PhD Cesare Mantini Maria teresa Cannizzaro PierCarlo Gentile giovanni foti Angelo Luca Marco dal Brun Sara Seitun Giovanni Gentile Mario Finazzo Simona Celi Alberto Clemente Carmelo De Gori Pál Maurovich-Horvat Mohamed Gibreel Luca Saba AITeRTC - Associazione Italiana TSRM in TC Andrea Muratore Siemens Healthineers Roberta Busticchi Philipp Fischer Philipp Wolber Stefan Ulzheimer Sourabh Pagaria Giovanni L. Bernhard Schmidt

TIPS guidance with dual phase DynaCT, by Huibin Shi and Zhiping Yan el al from Zhongshan Hospital in Shanghai [1]. ? In my last post I shared the experience from University Hospital Tuebingen, using 3D markers from #DynaCT portography to guide portal vein puncture during TIPS procedure. ? Here is another alternative, a novel technique using dual-phase #DynaCT with selective injection. The 3D images of the hepatic artery and portal vein (PV) can be obtained simultaneously during one 3D dual-phase acquisition and overlaid on the dual-volume display mode in live ?uoroscopy for real-time PV puncture guidance. Volumetric imaging of the two vessels and their spatial relationship helps to construct the individualized shunt and reduce puncture related complications. ? ?? Not only are Siemens Healthineers the leader of technology innovations, but also the users keep innovating the clinical techniques. ? #InterventionalRadiology #SiemensHealthineers ? [1] Shi, H., Zhuang, Z., Zhang, S.?et al.?CBCT-based three-dimensional dual-phase vascular image fusion: a?novel technique for interventional real-time TIPS guidance.?Radiologie?(2024). https://lnkd.in/eMZmuMaM

Ultrasound imaging works by using high-frequency sound waves that are emitted from a handheld device called a transducer. These sound waves travel into the body and interact with different tissues, organs, and fluids. When the sound waves encounter boundaries between different types of tissue or reflect off internal structures like blood vessels, they produce echoes. These echoes are captured by the transducer and then processed by a computer to create real-time images on a screen. By analyzing these images, healthcare professionals can visualize and assess the condition of internal organs and structures. Additionally, Doppler ultrasound measures the speed and direction of blood flow by detecting changes in the pitch of the reflected sound waves, providing valuable information about vascular health. Ultrasound is a safe, non-invasive, and versatile imaging technique used for various medical diagnoses. ???? To learn more about our services and explore the capabilities of ultrasound imaging, we invite you to visit our website today! ??https://lnkd.in/gd92THFT #lasvegasultrasound #lasvegasultrasoundtech #lavegassonographer #lvsonographer #lasvegasechocardiogram #lasvegascardiacultrasound #lasvegasmobileultrasound #lasvegascardiology #lasvegasmedical #lasvegasecho