From the instance, I first understood the interdependent relationship between biology and technology, I realized that Biomedical Engineering is more than just a field- it serves as a bridge connecting the profound complexity of human physiology with the precision of engineering. The impact of advanced medical devices, imaging techniques and computational models is profound on healthcare. This vast influence is what drew me towards this field.
Kriti Agrawal’s Post
More Relevant Posts
-
Excited to share that our paper, "Heart Disease Detection Using ECG Waveforms" has been published in MAT Journals(Journal of Advancement in Electronics Signal Processing) Check out the full paper to explore our findings and contributions to the field of biomedical engineering. #BiomedicalEngineering #Innovation #Research #HeartDisease #ECGanalysis #Healthcare #MATJournals #Publication
-
-
#AvailableForLicense: MIRO, a universal system-aware solution based on local noise correction with broad applicability to current microscopy platforms, effectively extracts biological features from noise, representing a significant leap for fluorescence microscopy image restoration. Developed by Dr. Shu Jia and Dr. Biagio Mandracchia. The Wallace H. Coulter Department of Biomedical Engineering at Georgia Tech and Emory University #imagerestoration #fluorescencemicroscopy #noisecorrection #microscopy #imagedenoising https://ow.ly/w2xe50PGP0c
-
Can you share an example of how you've used computational modeling in your work as a biomedical engineer and what impact it had on the project outcome? Submit your answer to this question on Featured, and get featured on BiomedicalEngineering.io: https://lnkd.in/gNncseir Deadline: 2024-Jul-23 #Biomedical #BiomedicalEngineering #BiomedicalEngineer
Can you share an example of how you've used computational modeling in your work as a biomedical engineer and what impact it had on the project outcome?
featured.com
-
How are computational tools revolutionizing biomedical research?💻🧬 This book bridges the gap between computational tools and real-world biomedical challenges, offering foundational knowledge and advanced applications. Key highlights include: 🔬 Molecular Modeling ⚙️ Algorithms & Protocols 💡 Applications in Drug Development 🧠 Analysis of RNA interference, circular RNAs, and brain-derived neurotrophic factors 🔗Read Now: https://bit.ly/4gmuTd0 Editor: Yee Siew Choong Title: Computational Modeling and Simulation in Biomedical Research What excites you most about computational advancements in healthcare? Let’s connect and discuss!📖 #ComputationalModelling #Biomedical #BenthamScience
-
-
There is enormous potential in acoustic biofabrication, according to a new review article published in Nature. As scientists continue developing advanced techniques to create structures that mimic human tissues, sound-based technologies are a less explored area but offer real promise. Biofabrication—the generation of complex and biologically functional products from raw materials such as living cells or molecules—includes acoustic-based cell assembly and acoustic-assisted scaffold fabrication, applications that are safe for cells and allow precise, high-speed assembly of complex structures. By combining sound-based methods with traditional approaches, researchers see great potential for revolutionising tissue engineering and medical science in the near future. Read the review: https://lnkd.in/gyT8n6gt
-
-
Fantastic opportunity to host our #NCRISHealth colleagues from EMBL Australia at Monash Biomedical Imaging (MBI). MBI offers advanced technologies and world-class expertise for preclinical and clinical studies. Their equipment includes human 0.064T and 3T MRI scanners, and MR-PET, as well as preclinical 9.4T MRI, CT, ultrasound, focused ultrasound, PET and FLECT-CT systems. MBI also provides radiochemistry facilities for PET and SPECT radionuclides and expertise in developing radiopharmaceuticals. MBI is co-located with the Australian Synchrotron, Monash University, and Alfred Health, enhancing research and translational capabilities. Find out more about our capabilities: https://lnkd.in/gAgvrh8F
Thank you to Monash Biomedical Imaging for expertly guiding our #EMBLAPhD Course students through your state-of-art imaging technologies yesterday! It was an amazing opportunity for the next generation of Australian scientists to see how the National Imaging Facility enables research into the greatest health challenges of our time and to learn about the importance of research infrastructure 🔬 #NCRISimpact
-
-
To my fellow friends in #scicomm and science in general: what's up with these kinds of visuals nowadays? When did publication visuals become an unstructured mess of 10+ panels, with impenetrable captions? There are 7 of these visuals in a single article! Am I just going crazy? In which fields is this considered normal? Is this specific to biomedical sciences?
-
-
Volume 6: Artificial Intelligence in Healthcare 🖥 🧠 💡 Welcome back again to the Biomedical Engineering world! Today, we present our sixth and last volume of our Biomedical Engineering journal, which is about Artificial Intelligence in Healthcare. This is one of the most innovative fields and it is having a bigger impact in our lives day by day!