Green H2 World’s Post

🌟 Exciting Breakthrough in Ovarian Cancer Detection! 🌟 Researchers at Virginia Commonwealth University are on the brink of a medical revolution with the development of a urine-based test for early detection of ovarian cancer. This innovative approach, using cutting-edge nanotechnology, aims to analyze specific peptides in urine that signal the presence of ovarian cancer. 🧬💡 Currently, ovarian cancer often goes undetected until advanced stages due to the lack of effective screening methods. This new research, however, could change the game by offering a non-invasive, efficient, and accurate way to catch the disease earlier than ever before. Published in the Journal of the American Chemical Society and soon to be presented at the Biophysical Society Annual Meeting, this promising discovery could complement existing diagnostic tools and significantly improve early detection and treatment outcomes. 💪🎗️ #ovariancancerawareness #medicalinnovation #nanotechnology #cancerresearch #earlydetectionsaveslives

Exciting developments in cancer research! 🧪 The venom of the Brazilian wasp Polybia paulista contains a molecule called MP1, which can selectively target and kill cancer cells by creating holes in their membranes. 🎯 This innovative approach has the potential to revolutionize cancer treatment, especially when combined with nanotechnology for precise delivery. 🔬 As we explore nature's solutions for medical challenges, we move closer to breakthroughs that could save lives. 🌍 #CancerResearch #Innovation #Biotechnology #WaspVenom #biobypriti

Insightful Seminar on Nanoparticle-Mediated Hyperthermia 🌐 We're excited to share highlights from a recent online seminar titled "Benefits of Local Hyperthermia Mediated by Nanoparticles Under NIR Irradiation," given by Dr. Francisco Jose Teran Teran from NANOTECH SOLUTIONS, Spain. This enlightening seminar took place online on June 28th and was attended by the entire STRIKE network. Dr. Teran provided an in-depth introduction to the use of nanoparticles to induce hyperthermia. A key focus was on the application of this technology in oncology, where it shows significant promise for targeting cancer cells more precisely, reducing side effects, and improving treatment efficacy both in vitro and in vivo. The seminar was organized to help us in STRIKE network to understand how to leverage this cutting-edge technology in our own research. The insights gained will be instrumental in advancing our studies and developing more effective treatments for osteosarcoma and other cancers. We are grateful for Dr. Teran's valuable insights and the opportunity to expand our knowledge on this topic. Looking forward to more such informative sessions! #Innovative #OpenSicence #research #HorizonEU #MSCA #Osteosarcoma #nanomaterials #nanomedicine #Nanotechnology #Hyperthermia #STRIKENetwork #Innovation

📣Check out the #Article "Multiphysics Modeling of Low-Intensity Pulsed Ultrasound Induced Chemotherapeutic Drug Release from the Surface of Gold Nanoparticles" 🧐by Tyler K. Hornsby, PhD, Farshad Moradi Kashkooli, et al. Toronto Metropolitan University Access the full paper👉 https://lnkd.in/dt39QJSi Keywords: DLVO theory; low-intensity pulsed ultrasound; gold nanoparticles; doxorubicin; ultrasound-triggered drug release; targeted cancer treatment

🧬 Modeling Cisplatin Activation with QuantistryLab Cisplatin, a pioneering metal-based anticancer drug, is crucial in cancer treatment. It activates by reacting with water in cells, allowing it to target cancer DNA. We explored this reaction using QuantistryLab’s virtual quantum nanoreactor, which runs metadynamics simulations to identify reaction products, complementing experiments and accelerating research. Read our use case: https://lnkd.in/gdgcW_h2 ▶️ If you want to know how Quantistry can help you upgrade your R&D get in touch: https://lnkd.in/gE8uy8rA #simulation #chemistry #research #science #health #quantistrylab

📢 Hot off the press in #ACS_AMI! Our team delved into the realm of nanoparticle targeting to tackle questions: ⚓️ How many anchors? 🧬 How many antibodies? 🔬 How many nanoparticles? 🎯 And how specific the cell targeting is? Read about our study and join Pegah Bagheri and me on the journey toward achieving higher binding specificity of #nanoparticles 🛣 📖 http://bit.ly/3x6ocKp Huge thanks to our incredible team of co-authors! 🙌 USC Viterbi School of Engineering CSI-Cancer: USC Michelson Center Convergent Science Institute in Cancer

Our recent research has been featured on the inside cover of Advanced Science. The cover art reflects our work on detecting extracellular vesicle glycans using our nanotechnology platform for early lung cancer detection. Read the full paper here: https://lnkd.in/gyH95gG2 #AdvancedScience #ExtracellularVesicles #EVs #EarlyDiagnosis #CancerResearch

Revolutionizing Cancer Treatment 🔬 Recent research has shown a groundbreaking method to combat cancer using vibrating aminocyanine molecules, potentially revolutionizing treatment. These molecules, stimulated by near-infrared light, can rupture cancer cell membranes, offering a non-invasive therapy alternative. The method, termed "molecular jackhammers," was developed by a team from Rice University, Texas A&M University, and the University of Texas, showing up to 99% efficacy in lab tests and significant results in animal trials. Published in Nature Chemistry, the study highlights the potential of near-infrared light for deeper body penetration, targeting tumors within bones and organs. The plasmons induced in these molecules cause synchronized vibrations, acting as molecular arms to break apart cancer cell membranes. This novel approach, still in early stages, promises a new direction for cancer treatment, focusing on mechanical forces at a molecular level. Study: https://lnkd.in/eHDZh6w4 Science News: Engineering Trek 👨🔬 #science #cancer #tech #engineering #biology

Turning the Tide on Late-Stage Cancer: New Phase Brings Breakthrough Technology to Destroy Malignant Cells Cutting-edge Sarah Nanotechnology System delivers a measured delivery of thermal energy directly to cancer tumors , without harming healthy tissues. Biocompatible nanoparticles activated in RF field to apply electromagnetic hyperthermia show encouraging results in early clinical trials, providing renewed hope for patients with little remaining options. Heading to clinical trials in the U.S., New Phase is taking a bold step towards significantly improving the efficacy of treating cancer and improving quality of life Ready to learn more about the Sarah Nanotechnology System? Email info@newphase.co.il #CancerTreatment #ClinicalTrials #Biotechnology #MedTech #NewPhase

Mira Barda-Saad LAB and her team has made a groundbreaking discovery in the fight against cancer. Using cutting-edge nanotechnology, they've found a way to rejuvenate our body's natural killer cells, supercharging our immune system's ability to combat tumors. This innovative approach could revolutionize cancer treatment, making our own bodies more effective at fighting cancer. It's a perfect example of how thinking small can lead to big breakthroughs in medicine. Check out our latest video to learn more about this fascinating research and its potential impact on cancer therapy. #CancerResearch #Immunotherapy #MedicalInnovation #Nanotechnology #BarIlanUniversity