Neuome Technologies Private Limited’s Post

Physician and engineer Giovanni Traverso combines domains to create innovative health solutions for individuals and populations. Traverso, the Karl Van Tassel (1925) Career Development Professor, associate professor of mechanical engineering, and a gastroenterologist at Brigham and Women’s Hospital, found an early passion for molecular genetics, leading to an interdisciplinary career helping others. “Not only can we help individuals,” Traverso shares, “we can help populations.” Full article ✍ https://lnkd.in/ezgUnKFd Video 🎥 https://lnkd.in/eP52JGsh

🎉 Excited to share that our paper has been published in Molecular Metabolism! During my time as a research assistant at the Sabatini lab, I had the privilege to contribute to this groundbreaking research exploring Growth Differentiation Factor 15 (GDF15) and its receptor, GDNF Family Receptor Alpha-like (GFRAL). The findings provide key insights into the specificity of GDF15, and GFRAL-based therapies currently being developed for cancer cachexia. This work marks an important step in understanding the therapeutic potential of GDF15/GFRAL pathways, and I am thrilled to have been part of this incredible team. A big thank you to my colleagues and mentors at RI-MUHC | Research Institute of the MUHC | #rimuhc#rimuhc#rimuhc for their guidance and collaboration! 📄 Read the full paper here: https://lnkd.in/eTTcxeyy

Step into the world of cutting-edge research with Franco Cavaleri as he delves into the fascinating realm of brain-derived neurotrophic factor (BDNF) expression. Meanwhile, another lab station is all about transforming those stubborn fat stores into usable energy. Special cells called diplocytes are under the microscope, and Biologic has their eye on a product called ThermoGallate™. The goal? Amplify those fat-burning processes for easier weight management. This is just a taste of the exciting science happening at Biologic. 📽️: https://lnkd.in/gK8jy6Er #biologicpharmamedical #francocavaleri #BrainHealth #BDNF #FatBurningScience #ThermoGallate #WeightManagement #InnovativeScience #BiologicResearch #ScientificBreakthroughs #HealthScience #MetabolicHealth #BrainFunction #WeightLossGoals #ResearchInsights #BiologicLab

➡️ Come & take a closer look at our partners and their work! 👀 🌊 Today we get to know our colleague, Ksenia Orekhova, researcher at the Department of Biomedicine and Food Science of the Università degli Studi di Padova (UNIPD) / University of Padua. 👩🔬 She explains her work within #DIAPHONIA, which is about the connection between #underwaternoise and brain damages 🧠 in both #fish 🐟 and #dolphins 🐬 . Do you have any questions for Ksenia? #EUResearch #JPIOceans

✨ Excited to share that our latest manuscript is now published! 🎉 Our study on the effect of shear stress on erythroid differentiation is now available in Scientific Reports! In this work, we explored how bioreactor-induced mechanical forces influence erythroid differentiation, uncovering insights that could advance the development of large-scale production of red blood cells for transfusion. This project was a true collaborative effort! I am grateful to have worked alongside Asena Abay and an amazing team of co-authors: Joan Gallego, Francesca Aglialoro, PhD, nurcan yagci, Eszter Varga, Tieme Bijlsma, Justine Sohler, Kerly Fu, Julie Reisz Haines, Amy Argabright, Angelo D'Alessandro, Arthur Svendsen under the guidance and supervision of Emile van den Akker and Marieke von Lindern. This accomplishment wouldn’t have been possible without everyone’s dedication and collaboration! You can read the full paper here: https://lnkd.in/dR3qCitn Looking forward to seeing how these findings contribute to advancing this exciting field! #Research #Collaboration #Erythropoiesis #Bioreactors #ShearStress #ScientificReports #Research #Collaboration #Publication #Science

We're excited to introduce SymProFold! SymProFold enables rapid prediction of the repetitive supramolecular protein assemblies like bacterial and archaeal surface layers (S-layers) and viral capsids. These symmetrical protein assemblies act as protective shields for microorganisms / viruses. While traditional experimental methods for determining these structures could take months or years, SymProFold reduces this to a few hours. The SymProFold method also saves resources by allowing precise experiment design based on the predictions. In the Nature Communications paper, we describe the method and present 20 predicted structures, supported by experimental data. The potential applications are vast—from designing drugs to stop pathogenic bacteria from building their protective layers to innovations in nano-design for medicine, biosensors, and advanced coatings. Big thanks goes to the team – Christoph Buhlheller, Theo Sagmeister, Christoph Grininger and Nina Gubensäk!!! and collaborators Uwe B. Sleytr and Isabel Usón! Publication: https://lnkd.in/duiGYdD2 UniGraz: https://lnkd.in/dYqCpsak GitHub: https://lnkd.in/dy-eS_Cu Foto: Uni Graz/Tzivanopoulos #UniGraz #FWF #docfunds #BioMolStruct #SymProFold #ResearchInnovation #NatureCommunications #NAWIGraz #Slayers #Nanotechnology #AIinScience

📌Welcome to another exciting episode of “my project in a nutshell” series. Today, our 🧑🏻🔬ESR Selin Akpınar Adscheid describes her project with 3 simple words! From polymer to the formulation of tiny particles to the ➡️brain 🧠 for the treatment of central nervous system-related ailments! 🕹️Click on this link for the full video⤵️ https://shorturl.at/ioEGx 🌎bio2brain.eu #science #bio2brain #euproject #phd #research

🌟 Kudos to Paulomi Roy and Sudipta Das Gupta! 🌟 We are excited to share that our talented students, Paulomi Roy and Sudipta Das Gupta, have achieved remarkable success with their project on the ‘Phytochemical Analysis of Partially Purified Compounds from Chromolaena odorata Leaves and its Bioactivity against Multidrug Resistant (MDR) Pathogens - Backed by Molecular Docking Studies.’ Their groundbreaking research delves into the potential of Chromolaena odorata leaves to combat MDR pathogens, a significant step forward in the fight against antibiotic resistance. By utilizing molecular docking studies, they have identified bioactive compounds that could pave the way for new, effective treatments. This achievement is a testament to their dedication and innovative thinking. Their work not only contributes to the scientific community but also inspires their peers to pursue research that addresses critical global health challenges. Join us in celebrating Paulomi and Sudipta for their outstanding contribution to science and their commitment to making a difference. 🌿🔬 #ResearchExcellence #AntibioticResistance #InnovativeResearch #StudentSuccess #ProudMoment #OxfordCollegeOfScience #FutureScientists #Congratulations

The most important driver on the abstraction layer of Science (== Understanding) is to identify which questions need answering and to answer them correctly - however Scientist is FATALLY confounded if Scientist lacks objectivity and wants a certain solution to a problem. So - why would anybody who sells obesity drugs want a solution that works which the individual can govern themselves? This is a very significant problem and isn't restricted to Scientist but anybody who makes a personal gain from anything - for instance, the guy who laid my paving refused to tell me how - fearing that I'd do it myself and so not give him any money to do it. Corporations want a product they can sell and Academics want papers -- at least in Diabesity - we can summarise the problem and solution in a sentence or two. If nobody has Diabesity then there're no drugs or papers to be had - so both types tasked with solving the Diabesity epidemic bear a subjective bias. David Allison - this is the answer to why people don't trust 'experts' that give eg 'nutritional' advice (one of your former threads, also another one of yours was on 'bias') - a lack of trust which arises because of the financial incentive which underlies the things people do. Diabesity is such a problem now that somebody has to be prepared to tell the truth before the world's health systems collapse. The truth - raw vegan keto + exercise in a social (flat structured) environment - in which LEARNING (of whatever the individual loves) is supported. So - in summary - a PRO-mitochondrial physical + PRO-moral informational environment IS the solution.

Our recent scientific research at Regenera Activa has led to a breakthrough discovery: the precise quantification of 55 Billions Smart Exosomes within our AMT® Triad. What does this mean? Our Smart Exosomes are autologous, derived directly from the patient's own cells, ensuring a tissue-specific regenerative process that's as unique as their DNA. These are not just any exosomes; they're Human Smart Exosomes, the messengers of healing that deliver a targeted regenerative message for each individual's unique needs. With an accurate understanding of the healing process, our AMT® Triad is the only solution in the market, providing precision healing that's tailored, intelligent, and rooted in the patient's own biology. 🔗 Discover more about our discovery of 55 billions Human Smart Exosomes to drive personalized regeneration in the following white paper: https://lnkd.in/dFGvEugq