📆 We're counting down to the ENRS 2024 Annual Meeting, from August 8-11! In just one week, Maria Heyerly B.S.R.T. (R)(MR)MRSO(MRSC™️) and Jared Dixon will be in Washington DC to discuss how our advanced AI imaging solutions enhance disease assessment and monitoring. Connect with industry leaders and come by our booth to see the future of neuroimaging firsthand! 🧠 Looking forward to seeing you there! #ENRS #AI #radiology #neuroimaging #neuroquant
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Curious about how NeuroQuant can help streamline your workflow and improve disease surveillance? Come see us at ENRS!
📆 We're counting down to the ENRS 2024 Annual Meeting, from August 8-11! In just one week, Maria Heyerly B.S.R.T. (R)(MR)MRSO(MRSC™️) and Jared Dixon will be in Washington DC to discuss how our advanced AI imaging solutions enhance disease assessment and monitoring. Connect with industry leaders and come by our booth to see the future of neuroimaging firsthand! 🧠 Looking forward to seeing you there! #ENRS #AI #radiology #neuroimaging #neuroquant
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The NeuroShield MRI Volumetry tool's conceptual framework provides a visual representation of its seamless integration into the radiological workflow. With both cloud-based or on-premises deployment options, it effortlessly integrates with existing PACS, RIS, and Modality systems. Tailored to meet your individual needs, it allows you to customize parameters and workflows, ensuring alignment with specific protocols. Leveraging advanced AI algorithms, it gives volumetric analysis of MRI scans, empowering you to make informed decisions and improve radiological workflows. #NEUROShield #BrainVolumetry #AI #MedicalImaging #MRI #Healthcare #DiagnosticAccuracy #Radiology #NeuroImaging
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Medical Imaging Technologist | UHS Distinctions holder |Experienced Online Tutor| Microsoft PowerPoint specialist
🧠 CT Brain Scan Insight: Decoding Disorientation and Vision Loss In our latest case, a patient presented with disorientation and reduced vision. The CT brain scan revealed a supratentorial space-occupying lesion (SOL), suggesting a potential Astrocytoma or Glioblastoma Multiforme (GBM). 📝 Key Findings: - Supratentorial SOL - Differential Diagnosis: Astrocytoma/GBM 🔍 Why It Matters: Timely and accurate diagnosis through advanced imaging is crucial for effective treatment planning, especially in cases involving complex neurological symptoms. Stay tuned for more insights into the role of CT imaging in identifying critical brain pathologies. #MedicalImaging #Radiology #CTScan #Neuroscience #HealthcareInnovation
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In the Spring edition of the RCR Newsletter, we're exploring the utility of artificial intelligence in our specialties. Packed full of expert clinician insights, this issue offers a fascinating snapshot into the current state of #AI! Read more: https://lnkd.in/ezJNrMUa #Oncology #Radiology #AI #ArtificialIntelligence
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Global Brain Pet-Mri Systems Market size was valued at USD 296.36 Million in 2022 and is projected to reach USD 464.5 Million by 2031, growing at a CAGR of 5.12% from 2022 to 2031 according to a new report by Intellectual Market Insights Research. Request sample Report 👉 https://lnkd.in/dJVTJamt Report Focused on Top Companies: Siemens Healthineers GE HealthCare Philips Hitachi. Canon Medical Systems Corporation Bruker Aspect Imaging. MR-Solutions Ltd United Imaging Healthcare Mediso Medical Imaging Systems Cubresa Inc. Magnetic Insight, Inc MOLECUBES NV MR-Solutions Ltd IBA Molecular Spain S.A. PIRAMAL IMAGING LIMITED #brainmri #mri #radiology #neuroradiology #xray #radiologist #xraytech #medicalart #radiologylife #xrays #medicallife #radiologia #medicalimaging #interventionalradiology #radtech #petscan #loveradiology #radtechstudent #dementia #allthingsradiology #neuro #brain #radnet #stayrad #radical #allthingsrad #seizures #foamrad #ctscan #pws
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🥪 🤝 📚 Next up in our Lunch & Learn Session is Dr. Benjamin Bender, Head of #MRI section at Department of Diagnostic and Interventional Neuroradiology at Universitätsklinikum Tübingen, with a great #lecture on: "New MR contrasts and possibilities of #AI in #Neurooncology" 🔬 Glioma metabolism is complex and in-vivo imaging of #glioma metabolism is even more challenging. Dr. Bender will give an introduction into some old and some emerging #MR technologies like MR Spectroscopy and CEST #imaging, postprocessing techniques like automatic segmentation and their possibilities but also current limitations in clinical practice. 📅 April 24, 2024 🕧 12:30pm (CEST) ℹ https://lnkd.in/e48XJhzQ #cancerresearch
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Zabramski classification of cavernous malformations A type 1 cavernous malformation is one with acute or subacute hemorrhage characterized radiographically by hyperintense T1 signal and hyper- or hypointense T2 core (1st panel, axial T2 brain MRI). Pathologically, these lesions display subacute hemorrhage surrounded by hemosiderin-laden macrophages and gliotic brain. A type 2 cavernous malformation is the classic-appearing "popcorn"-like lesion characterized radiographically by a mixed reticulated core on T1 and T2 images (2nd panel, axial T2 brain MRI). There is often a "ring" of hemosiderin (hypointense T2). This correlates pathologically with loculated, intracavernous hemorrhage and thrombosis, surrounded by gliotic hemosiderin-stained brain. A type 3 cavernous malformation is hypointense on both T1 and T2. Pathologically, type 3 cavernous malformations display chronic hemorrhage with hemosiderin. Type 4 cavernous malformations are not visible on standard MRI sequences. They can only be visualized on hemosiderin-sensitive sequences (gradient echo or susceptibility-weighted imaging [SWI]) #neuroradiology #neuroimaging #neuroradiologist #Radiology #vascularmalformations
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🕒 Ever asked whether there are chronobiological trends in your PI-RADS assessment ❓ 💡 Check out this insightful #EJR highlight paper 🖇️ https://lnkd.in/dMjPdZ4D 🇪 🇸 🇸 🇪 🇳 🇹 🇮 🇦 🇱 🇸 1️⃣ This study shows chronobiological trends in PI-RADS assessment of prostate MRI reports. 2️⃣ Higher malignancy scores are assigned towards the end of the working day. 3️⃣ Factors such as fatigue, workload, and circadian rhythms may influence decision-making. 4️⃣ This suggests potential for AI assistance to offset human fatigue and other influences. 5️⃣ Further research is needed to understand these temporal effects and develop mitigation strategies. 🤝 congratulations to the authors Anton Becker, Sungmin Woo, Doris Leithner, @Angela Tong, @Marius Mayerhoefer, @H. Alberto Vargas #ProstateMRI #Radiology #AIinHealthcare #Chronobiology #EJRPaper
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💡 AI on the membrane? OMU graduate student Yasuhito Mitsuyama and Associate Professor Daiju Ueda have discovered ChatGPT’s diagnostic accuracy using brain tumor MRI reports in comparison to radiologists. Based on the post-operative outcome, ChatGPT, two neuroradiologists, and three general radiologists’ performance accuracies were calculated. Published in European Radiology, their findings reveal AI’s potential as an asset in the radiology field. 🔗 ChatGPT shows human-level assessment of brain tumor MRI reports https://lnkd.in/eHGqSFkJ 📄 Paper information Journal: European Radiology Title: Comparative Analysis of GPT-4 based ChatGPT's Diagnostic Performance with Radiologists Using Real-World Radiology Reports of Brain Tumors DOI: 10.1007/s00330-024-11032-8 Author(s): Yasuhito Mitsuyama, Hiroyuki Tatekawa, Hirotaka Takita, Fumi Sasaki, Akane Tashiro, Satoshi Oue, Shannon L Walston, Yuta Nonomiya, Ayumi Shintani, Yukio Miki, Daiju Ueda Publication date: 28 August 2024 URL: https://lnkd.in/eG4BmrwE #OMU #ChatGPT #AI #brains #cancer #tumor #Osaka #Japan #MRI #radiology #diagnostics
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Accurate, Reliable and Optimized functional MAgnetic resonance imaging at unprecedented field strength for unique exploration of the human brain
Slab-pTx TSE with AROMA tools. DZNE led the developments of a robust and user-friendly method for designing RF excitation pulses, specifically for highly demanding 3D turbo-spin-echo sequences in ultra-high field MRI, with slab-select capabilities. These new pulses create phase-coherent excitation patterns that boost signal intensity while enabling acquisition speed-up. Additionally, the use of universal pulses ensures consistent performance across different subjects and simplifies application. Our measurements at 7T demonstrate that these new pulses produce more homogeneous images compared to existing methods like B1-shimmed 2D TSE. More details can be found in the MRM article: https://lnkd.in/dbY3yASv CEA ETH Zürich German Center for Neurodegenerative Diseases (DZNE) Maastricht University University of Glasgow Skope Magnetic Resonance Technologies #imagery #mri #neurosciences #fMRI #SNR #MR #brainimaging #radiology #publication #neurospin #invivo #brain
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VP of Global Sales, Cortechs.ai
2moLooking forward to seeing everyone in DC!