An enriching session led by Prof. Ashok Kumar, showcasing cutting-edge advancements in biomaterials and regenerative medicine. His pioneering work in tissue engineering offers promising solutions for bone repair and beyond. #Biotechnology #ResearchExcellence #Re4M #ResearchforMinds #IITJammu
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In this article we delve into the world of biomaterials and their transformative impact on healthcare. https://bit.ly/3P6MtoX Join us to uncover the potential of bioactive scaffolds, bioresorbable implants, injectable hydrogels, organs-on-a-chip, and self-healing biomaterials in revolutionizing life sciences research. We're advancing biomedical innovation through curiosity and shared knowledge. Be curious.
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Discover the innovative approach of using bioactive elements like zinc, magnesium, and silicon in bone tissue engineering. This article highlights the potential of these elements, incorporated into biomaterials, to enhance bone regeneration safely and effectively, providing a clinically viable strategy for advanced bone health. #biomaterials #bonehealth #precisebioscience
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Thrilled to share the latest publication by DTU - Technical University of Denmark, Shiraz University of Medical Sciences, UMC Utrecht and Eindhoven University of Technology. The multicentric group, led by Professor Alireza Dolatshahi-Pirouz, developed a novel bacteria-derived polysaccharide hydrogel, coined Pantoan Methacrylate, to be used as a smart functional bioink for tissue engineering applications. The novel ink was proven to be suitable for 3D bioprinting applications and successfully processed using a REGENHU platform for muscle tissue engineering applications, targeting Volumetric Muscle Loss (VML) injury treatment. The research study highlighted the biomimetic properties of the novel biomaterial formulation, and its capability to guide muscle progenitor cells into fused, aligned tubes, facilitating their transition into functional muscle tissue. As stated by the authors this novel, sustainable, and cost-effective material may hold great promises for more efficient therapeutic treatments for VML as well as the fabrication of in-vitro models for drug screening and disease modeling applications Interested in more details? Reference article: https://lnkd.in/dywpMkeC REGENHU bioprinting solutions: www.regenhu.com #3DBioprinting #Bioprinting #Bioinks #VolumetricMuscleLoss #TissueEngineering #SustainableBioinks #SmartBioinks #Bacteria #Pantoan
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In this article we delve into the world of biomaterials and their transformative impact on healthcare. https://bit.ly/482uYii Join us to uncover the potential of bioactive scaffolds, bioresorbable implants, injectable hydrogels, organs-on-a-chip, and self-healing biomaterials in revolutionizing life sciences research. We're advancing biomedical innovation through curiosity and shared knowledge. Be curious.
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🧪 𝗘𝘅𝗰𝗶𝘁𝗶𝗻𝗴 𝗔𝗱𝘃𝗮𝗻𝗰𝗲𝘀 𝗶𝗻 𝗕𝗶𝗼𝗺𝗮𝘁𝗲𝗿𝗶𝗮𝗹𝘀 𝗳𝗼𝗿 𝗧𝗶𝘀𝘀𝘂𝗲 𝗘𝗻𝗴𝗶𝗻𝗲𝗲𝗿𝗶𝗻𝗴 A recent study titled "Unveiling the potential of biomaterials and their synergistic fusion in tissue engineering" highlights the transformative potential of biomaterials in #regenerativemedicine. The study emphasizes the importance of combining biology, engineering, and medicine to create functional tissues capable of repairing or replacing damaged organs and tissues. Key insights include the critical role of 3D scaffolds in mimicking the natural tissue microenvironment and supporting cell growth, as well as innovations in 4D #bioprinting using smart materials for responsive stimulation and intelligent tissue architectures. At Humabiologics, we are proud to be at the forefront of this innovative field. Our focus on human-derived #biomaterials aligns perfectly with the study's emphasis on advanced biomaterials for effective tissue regeneration. By providing high-quality, clinically relevant biomaterials, we aim to support groundbreaking research and advancements in regenerative medicine, #tissueengineering, and #biomedicalresearch. Our commitment to innovation and excellence ensures that researchers have the best tools available to achieve their goals in creating functional, life-changing therapies. 🔗 Read the full research here: https://lnkd.in/g2hpMBDy
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Bionic organs? It's happening! 🌐🔬 Recently, our academic club 'Materials in Medicine' had the incredible opportunity to participate in workshops exploring the biomedical applications of bioprinting at POLBIONICA. The workshops kicked off with inspiring lectures on the technical and chemical aspects of biomaterials tailored for soft tissue bioprinting. One of the highlights was the unveiling of a groundbreaking achievement - the world's ONLY bioreactor dedicated to cultivating a bioprinted pancreas with fully developed vascular systems. Imagine witnessing growth of a bioprinted organ, complete with its intricate network of blood vessels! It's incredible how innovative technologies are opening new horizons in the field of medicine. Taking part in such events leaves me feeling inspired and ready for the future of biomedical progress! 💡💪 #Biomedicine #Bioprinting #BionicOrgans #Innovation #ScienceAndTechnology #HealthcareRevolution
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Tissue Engineering and Regenerative Medicine | Founder and Managing Director of REMED at USERN | Founder and Manager of USERN office of Tabriz University of Medical Sciences
Glad to share a recent paper from REMED's researchers, entitled "Improving hemocompatibility in tissue-engineered products employing heparin-loaded nano platforms" The enhancement of hemocompatibility through the use of nanoplatforms loaded with heparin represents a highly desirable characteristic in the context of emerging tissue engineering applications. The significance of employing heparin in biological processes is unquestionable, owing to its ability to interact with a diverse range of proteins. It plays a crucial role in numerous biological processes by engaging in interactions with diverse proteins and hydrogels. This review provides a summary of recent endeavors focused on augmenting the hemocompatibility of tissue engineering methods through the utilization of nanoplatforms loaded with heparin. This study also provides a comprehensive review of the various applications of heparin-loaded nanofibers and nanoparticles, as well as the techniques employed for encapsulating heparin within these nanoplatforms. The biological and physical effects resulting from the encapsulation of heparin in nanoplatforms are examined. The potential applications of heparin-based materials in tissue engineering are also discussed, along with future perspectives in this field. Read the full text: https://lnkd.in/d2Na9aK5 Thanks to all the contributors; Mahsa Mohammadzadeh, Mehrnaz Mostafavi, Amir Abbas Seraji, Faezeh Esmaeili Ranjbar , Seyedeh Zoha Tabatabaei, Robabehbeygom Ghafelehbashi , Maede Afzali, and Farshad Lolasi. To contribute to the same projects, join the USERN Regenerative Medicine group | http://t.me/USERN_Remed #Regenerative_medicine; #Tissue_Engineering; #Encapsulation; #Hematocompatibility; #Heparin; #Nanofibers; #Nanoparticles; #Nanoplatforms
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𝐈𝐧𝐭𝐫𝐨𝐝𝐮𝐜𝐢𝐧𝐠 𝐇𝐮𝐦𝐚𝐃𝐞𝐫𝐦 𝐍𝐚𝐭𝐢𝐯𝐞 𝐒𝐂𝐑𝐄𝐄𝐍 𝐌𝐮𝐥𝐭𝐢-𝐖𝐞𝐥𝐥 𝐏𝐥𝐚𝐭𝐞. Our screen is coated with native human collagen types I, II, I/III, IV, and V, offering a versatile screening tool for your research needs. Derived from human tissue, this multi-well plate maintains the integrity of native collagen, ensuring optimal conditions for cell attachment, growth, and differentiation. It’s ideal for a wide range of applications in tissue engineering and regenerative medicine. Discover the difference in your research with native human collagen. #HumaDerm #RegenerativeMedicine #TissueEngineering #Collagen #Biomaterials #innovation Learn more: https://lnkd.in/gnhRfDNe
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"Revolutionize your business with our cutting-edge technology! 🚀 We're thrilled to announce our innovative technology is now available for licensing. Embrace the future and elevate your operations. Let's shape tomorrow together! #Innovation #TechnologyLicensing #BusinessTransformation"
💡 Technology Spotlight: A cocultured cardiomyocyte on chip (CoCo) with piezoelectric sensing Abstract The present invention seeks to expand the scope of laboratory systems by providing a benchtop technology for cell culture with co-culture capability and multiple simultaneous measurements of contractile output for cardiomyocytes. Problem Addressed by Claimed Invention The invention addresses a lack of model systems, more specifically, benchtop technologies for the study of the physiological effects of pharmaceuticals on cardiomyocytes, and other myocytes. The present invention can be used as a tool for non-invasive cardiomyocyte health and function research, personalized medicine and as a diagnostic tool. Benefits • Non-invasive piezoelectric measurement of myocyte health and function – contractile strength. • Two simultaneous measurements to obtain an accurate assessment of heart muscle contractile strength. • Co-culture of multiple cells. • Individual culture chambers for testing different cells or different drugs. • Small form factor that is amenable for microscopic imaging. The inventors are: Kartik Balachandran, Lexi Applequist, and Lance Cordes #Innovation, #IP, #economicdevelopment https://lnkd.in/gB_XXabN
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Things that are biomaterials: - Contact lenses - Dental fillings - Hip replacements - Stents and heart valves - Sutures Coming from a medical biotechnology background, I transitioned into focusing on biomaterials and stem cells for my PhD in Professor Dame Molly Stevens group—and I thoroughly enjoyed it! Biomaterials are a super fascinating area of study that is integral to so many aspects of healthcare. In this carousel, I explain what biomaterials are to different audiences. Take a look at the carousel to learn more and share your thoughts!
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