A fascinating paper explaining the multi-faceted benefits of Profhilo - have a read!
Guess which product from Dermocosmetica stimulates not only FOUR different types of collagen (1,3,4,&7), but elastin too? This product can also promote wound healing and maintain the vitality of fat stem cells. Check out this clinical paper explaining the science! https://lnkd.in/gZZZVEdE
Biotech C-Suite | Bringing biomedical innovation ideas to life | Ecosystem builder | Rotman Global Executive MBA candidate
At Endogena Therapeutics, Inc., we are revolutionizing treatment for retinal diseases! Check out our recent publication to learn how we used a single #smallmolecule to restore vision in a mouse model of retinal degeneration. #scientificresearch #regenerativemedicine #stemcells #drugdiscovery #clinicaltrials
Endogena is excited to share our latest publication in IJMS, titled "Small-Molecule-Directed Endogenous Regeneration of Visual Function in a Mammalian Retinal Degeneration Model". This groundbreaking study, done in collaboration with our University of Toronto partners, demonstrates the potential of a small molecule to stimulate endogenous regeneration in the eye to restore vision. This study represents a pivotal milestone in revolutionizing the treatment of vision impairment and reflects Endogena’s commitment to pioneering solutions for degenerative diseases and improving patient outcomes worldwide. https://lnkd.in/eGCeFC4J Do you need convincing on why retinal therapeutics is a good space to invest? See previous posting on "Investing in vision". #science #retina #biotech #regenerativemedicine #smallmolecules
The October issue of Cell Press Trends in Pharmacological Sciences is now available online! Explore the latest insights on various topics including targeting white adipose tissue for combating insulin resistance, SYK targeting in solid tumors, and quantum computing applications in clinical trial design(Hakan Doga, PhD, Aritra Bose, Daniel Blankenberg). Don't miss the Drug of the Month highlighting Ensifentrine for chronic obstructive pulmonary disease (Sandra HUBERT,Ayrin KÖK-CARRIERE, &Frédéric De Ceuninck). Reach out to me on here or at the Trends in Pharmacological Sciences website if you have an idea for a Drug of the Month, Scientific Life, Opinion, or Review article you wish to publish. #Pharmacology #Research #DrugDiscovery #ScienceCommunity
Revolutionizing Medicine: Human iPS Cell Chemical Reprogramming Kit Cellular reprogramming tools can manipulate cell identity, enabling the generation of desired cell types that provide broad applications in disease modeling, drug discovery and regenerative medicine. Chemical reprogramming approach synergistically targets cell signaling pathways and epigenetic modifiers without gene manipulation, and offers considerable advantages for the development of pharmacological and therapeutic strategies. Recently, a new scalable, efficient, and rapid chemical reprogramming approach was reported, which can induce human somatic cells into pluripotent stem cells (Guan, J et al., Nature, 2022; Liuyang, S et al., Cell Stem Cell, 2023). This kit, optimized from a patent in filing (METHODS FOR CHEMICAL REPROGRAMMING AND PLURIPOTENT STEM CELLS, PCT/CN2022/124960) and publication (Liuyang, S et al., Cell Stem Cell, 2023), can be used to generate human chemically induced pluripotent stem cell (hCiPSCs) from human adult adipose-derived stromal cells (hADSC) or skin dermal fibroblasts (HDFs).
📢Daily Paper Sharing: Advances in rationally engineered cytokines for precision therapy in diabetic wound healing hashtag #diabetic #wound 👥 Authors: Xinxin Zhang, Tingting Wang, Xiangqing Fan, Tianze Zhang, Rui Qiu, Yuqi Wu, Meixia Wang, Yizhi Zhang, Meng Li, Na Cai , Ying Guan, Hong-Hui Wang 🔑 Keywords: Cytokine engineering, diabetic wound healing, precision therapy, synthetic biology, rationally designed cytokines, molecular modifications 🎯 "...This review not only provides valuable perspectives on the future research directions but also offers insights into the potential clinical applications of these innovative therapies, aiming to significantly improve the outcomes for patients suffering from diabetic wounds." 👤 Academic Editor: Dominique J. Charron, Hospital Saint Louis, France 🔗 Read the full article: https://lnkd.in/gpBpk8VY
🔬 Cutting-edge Research Share! 🔥 Diabetic wound healing takes a leap with rational cytokine engineering! 🩹 Driven by Xinxin Zhang et al., explore precision therapies that merge #syntheticbiology & molecular wizardry. A must-read for healthcare innovators! 🌟 #DiabeticWound #PrecisionMedicine
📢Daily Paper Sharing: Advances in rationally engineered cytokines for precision therapy in diabetic wound healing hashtag #diabetic #wound 👥 Authors: Xinxin Zhang, Tingting Wang, Xiangqing Fan, Tianze Zhang, Rui Qiu, Yuqi Wu, Meixia Wang, Yizhi Zhang, Meng Li, Na Cai , Ying Guan, Hong-Hui Wang 🔑 Keywords: Cytokine engineering, diabetic wound healing, precision therapy, synthetic biology, rationally designed cytokines, molecular modifications 🎯 "...This review not only provides valuable perspectives on the future research directions but also offers insights into the potential clinical applications of these innovative therapies, aiming to significantly improve the outcomes for patients suffering from diabetic wounds." 👤 Academic Editor: Dominique J. Charron, Hospital Saint Louis, France 🔗 Read the full article: https://lnkd.in/gpBpk8VY
Managing Director, Strategy & Solutions, at Amazon Web Services (AWS) | Driving healthcare transformation via strategic, science-backed innovation
🚀 Researchers from the University of Pennsylvania have unveiled a game-changing “one-pot platform” for lightning-fast synthesis of lipid nanoparticles (LNPs) that deliver mRNA with pinpoint precision. Using cutting-edge amidine-incorporated degradable (AID) lipids and “click-like chemistry,” they’ve slashed synthesis time from weeks to just hours. This innovation promises targeted treatments for diseases in organs like the liver, lungs, and spleen, opening new frontiers in medicine. Dive into the future of mRNA delivery and therapeutic possibilities. #BiotechRevolution #mRNA #MedicalBreakthrough #LipidNanoparticles Read more: https://lnkd.in/eeGdBcNF
TB 500, also known as Thymosin Beta 4 peptide, is a synthetic peptide. It is derived from a protein called Thymosin Beta 4 and is made up of 43-amino acid chain. TB 500 plays a crucial role in cell migration, tissue repair, and wound healing processes. This peptide is obtained through laboratory synthesis and has promising potential in regenerative medicine. We can administer TB 500 via subcutaneous injection. Due to its healing ability, TB 500 has gained significant interest in various medical and research applications. (Bock-Marquette et al. 2023) You can legally buy TB 500 at NuScience Peptides here. But how does TB 500 work? Let’s understand its mechanism of action.
Assistant Editor of Exploration of Immunology(EI, a free of charge and open access online journal. Now EI is indexed in Scopus, DOAJ, etc.)
📢Daily Paper Sharing: Advances in rationally engineered cytokines for precision therapy in diabetic wound healing hashtag #diabetic #wound 👥 Authors: Xinxin Zhang, Tingting Wang, Xiangqing Fan, Tianze Zhang, Rui Qiu, Yuqi Wu, Meixia Wang, Yizhi Zhang, Meng Li, Na Cai , Ying Guan, Hong-Hui Wang 🔑 Keywords: Cytokine engineering, diabetic wound healing, precision therapy, synthetic biology, rationally designed cytokines, molecular modifications 🎯 "...This review not only provides valuable perspectives on the future research directions but also offers insights into the potential clinical applications of these innovative therapies, aiming to significantly improve the outcomes for patients suffering from diabetic wounds." 👤 Academic Editor: Dominique J. Charron, Hospital Saint Louis, France 🔗 Read the full article: https://lnkd.in/geqfCwRZ
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🔬Citation Break!📖 This citation investigates the relationship between Beta-Amyloid peptides and extracellular vesicles (EVs). The researchers wish to show how forms of Aβ might travel throughout the body, and how this process might be involved in the pathology of Alzheimer's Disease. Several rPeptide products were used for the authors’ experiments, SIMOA assays, and other analyses during their research: Beta-Amyloid (1-40) and (1-42) NaOH (A-1155 and A-1165) and sequence scrambled versions of each (A-1003 and A-1004). Paper: https://t.ly/b0LFC Beta-Amyloid Products: https://t.ly/w-f7N #Research #Development #rPeptide #Alzheimers #Experiment #NaOH #Scrambled #BetaAmyloid