CEA-Leti’s Post

Have you ever wished for more hours in a day? With the Axioscan 7, you can free up your time while still producing results. This automated scanner can even work while you sleep, allowing you to focus on more advanced and critical tasks during your waking hours. Imagine how much more productive you could be if you didn't have to spend hours manually scanning slides! As one satisfied user noted, "If I could redo my Ph.D. with that kind of equipment, I would have saved so much time." Upgrade your productivity with the Axioscan 7. #Automatedmicroscopy #aiready #teamZEISS

Precision at the microscopic level in the body: we already enable these capabilities with our innovative technologies. 🔬 ZEISS Axioscan from ZEISS Microscopy gathers up layers upon layers of high-quality images using different techniques to find a circulating tumor cell (CTC) in a single blood draw. Studying CTCs with automated imaging could change the way we care for #cancer patients. It can help predict future outcomes and anticipate how patients will respond to treatments. This makes treatment more effective and focused on the specific needs of each patient. #WorldCancerDay #ZEISS #CloseTheCareGap #Innovation #Health #ArtificialIntelligence

AI, a buzz word? Definitely not if you consider what a world of difference it means when used in the medical world. ZEISS microscopy, enables here doctors and consecutively patients, to early detect and predict tumor spreading. A best treatment procedure is the result! AI embrace it, when used intellectually.

NanoBots to Target Cancer Cells with Precision! In a revolutionary step for healthcare, Swedish scientists have developed nanobots using DNA origami that can precisely target and destroy cancer cells while leaving healthy tissue unharmed. In lab tests, these advanced bots reduced tumor growth in mice by 70%, marking a major leap in cancer treatment. This technology showcases the incredible potential of nanotechnology and AI in medicine, enabling more precise and personalized treatments. As we look forward, innovations like these will redefine healthcare, bringing us closer to safer and smarter disease management. #HealthcareInnovation #Nanotechnology #FutureOfMedicine #ArtificialIntelligence #AI

🔬 Excited to share a groundbreaking technology for understanding spatial organization in tissues! The new tool, Starfysh, uses deep generative modeling to perform reference-free deconvolution of cell types in complex tissues, enhancing spatial analysis and revealing unique cell states. 🌟 🧬 Starfysh has successfully characterized spatial heterogeneity in breast tumors, shedding light on intricate interactions between tumor cells and immune cells. This innovative approach provides insights into tumor heterogeneity, intratumoral interactions, and potential therapeutic targets based on spatial organization. 💡 #SpatialTranscriptomics #CancerResearch #Biotechnology 🚀

📣 New Article Published Online 📣   📚 Review: Soft tissue sarcoma: clinical recognition and approach to the loneliest cancer ✒ Authors: Sujan Shakya, Erandathie Lasanda Banneyake, Sumita Cholekho, Janith Singh, Xiang Zhou   💡 The purpose of this review is to raise awareness of STSs so that early recognition, accurate work-up, overview of conventional treatment plans, and appropriate referral to a tumor center can be achieved, avoiding whoop situations, and improving patient outcomes. In addition, insight into the advances in immunotherapy, nanotechnology, and artificial intelligence (AI) can lead to STS diagnosis and treatment prognosis.   #SoftTissueSarcoma, #SoftTissueLump, #ReferralSystem, #Biopsy, #Diagnosis, #Treatments   🔎 Read the full article: https://lnkd.in/gnkzk79b 🔎 PDF: https://lnkd.in/gkvRzMND

We're excited to introduce our latest innovation in digital pathology: Enhancing interoperability in digital HER2 FISH enumeration. Tissue matching between brightfield and FISH specimen allows to specifically target tumor regions with highest protein expression when selecting areas for high magnification scanning of the FISH slide. This new integrated workflow, allowing to use the region of interest marked by the pathologist on the H&E or IHC image acquired on a third-party scanning platform, with the FISH image acquired on the ASI system, is envisioned to enhance both accuracy and efficiency when performing digital FISH. Learn more about this new workflow: https://lnkd.in/dj5KTDqy Together, we can transform cancer diagnosis and treatment. #DigitalPathology #USCAP2024 #Innovation #CancerResearch #HER2 

Uncover new biological insights with spatial sequencing and multi-modal analysis of transcript, protein, and fluorescent H&E over 40 cm² of imaging area in a single daily run. The G4X has the potential to be a breakthrough platform for cancer research, powering larger studies and cost-effective multiomic 3D reconstruction of the tumor microenvironment.    Dive into the latest G4X poster to discover how this spatial sequencing technology empowers in situ studies at unparalleled throughput: https://lnkd.in/gymFG3bV   #spatialtranscriptomics #AACR #cancerresearch 

A recent editorial by S. Danti et al. highlights how 3D biomaterial-assisted in vitro models are transforming cancer research by offering a more accurate representation of tumor biology compared to traditional 2D cultures. These advanced models, supported by platforms like #MIVO, significantly improve the mimicry of in vivo cell interactions, tissue architecture, and therapeutic responses. The MIVO platform provides a highly biomimetic system that precisely models the #TumorMicroenvironment, leading to enhanced predictivity in drug sensitivity and treatment outcomes. It allows researchers to explore complex biological processes—such as cellular responses to therapies—far beyond the capabilities of conventional 2D models.

To improve peoples’ health through meaningfull innovations.🩻 More predictive, more accurate and more efficient diagnosis.🧑⚕️ Fantastic technology: Spectral computer tomography: could we detect and treat cancer now more precisely?🦀 Looking forward to hear experience from users and news for oncology diagnostics👌 #imaging #spectral computer tomography #oncology