[IJDDP] Modeling complex arrhythmias in a dish? A review explores Human-Engineered Heart Constructs for disease modeling and drug screening, shaping personalized cardiology.
#tissueengineering #humanengineeredheartconstruct #diseasemodeling #drugdevelopment #arrhythmia
www.sciltp.com/journals/ijd...

Lucie Germain - 2026 Killam Prize - Killam Laureates Lucie Germain is recognized as a world leader in tissue engineering and regenerative medicine and for translating her discoveries to the clinic. Her fundamental research focuses on developing therapie...

(1/2) Congratulations to Dr. Lucie Germain on being awarded the 2026 Killam Prize in Health from the National Research Council of Canada! 🎉

A Professor at Université Laval and a leader in #RegenerativeMedicine, Dr. Germain is known for her research in #TissueEngineering and #StemCells.

Switching to our animal-free hydrogel is quick and straightforward.

Explore our user-friendly 3D cell culture protocol here:

144072129.fs1.hubspotusercontent-eu1.net/hubfs/144072...

Learn more here: www.peptimatrix.com

#3DCellCulture #AnimalFree #Hydrogel #CellBiology #TissueEngineering

Magnesium-reinforced PMMA composite scaffolds: Synthesis, characterization, and 3D printing via stereolithography

Stereolithography-enabled Mg–PMMA scaffolds show improved thermal stability and #Biocompatibility, with tunable mechanical properties, highlighting their potential applications in bone #TissueEngineering and #RegenerativeMedicine.

#Nanotechnology Reviews #OpenAccess: doi.org/10.1515/ntre...

UK Scientists Successfully Transplant Lab-Grown Esophagus in Pigs, Paving Way for Treatments in Children with Esophageal Atresia Researchers from Great Ormond Street Hospital (GOSH) and University College London (UCL) have achieved a significant milestone in regenerative medicine by creating the first fully functional lab-grown esophagus and transplanting it into pigs. The process begins with decellularizing a donor pig esophagus to create a scaffold that retains its structural integrity while removing all donor cells. This scaffold is then repopulated with muscle cells from the recipient pig, obtained via biopsy, multiplied in the lab, and injected into the scaffold. The construct matures in a bioreactor for one week before implantation. In the study, eight recipient pigs underwent the procedure and recovered well without needing immunosuppressive drugs, as the tissue used their own cells. Within three months, the engineered esophagus integrated fully, and by six months, it developed functional muscle, nerves, and blood vessels, enabling normal swallowing, peristalsis, and food passage. The pigs ate normally and grew healthily. The research, published in Nature Biotechnology on March 20, 2026, used spatial transcriptomics to confirm the tissue behaved like natural esophagus. This breakthrough targets children born with long-gap esophageal atresia (LGOA), a rare condition affecting about 18 UK babies annually, where a large gap in the esophagus prevents normal feeding without complex surgeries. Current treatments are invasive and challenging; this personalized approach could allow one early operation using a child's cells on a pre-prepared pig-derived scaffold. Experts hope to advance to human trials within five years, potentially transforming care for affected children and reducing lifelong complications.

UK Scientists Successfully Transplant Lab-Grown Esophagus in Pigs, Paving Way for Treatments in Children with Esophageal Atresia

🤖 IA: It's not clickbait ✅
👥 Usuarios: It's not clickbait ✅

#regenerativemedicine #tissueengineering #esophagealatresia

View full AI summary:

Insights into biodegradable Mn-incorporated Fe-based scaffolds in orthopedics: bridging manufacturing techniques, physicomechanical properties, and multifunctional bioapplications

Reviewing Mn-incorporated Fe-based scaffolds, detailing how #Manufacturing affects their mechanical properties & #Biodegradability, and highlighting their applications in bone #TissueEngineering & #RegenerativeMedicine.

#IJEM #OpenAccess: doi.org/10.1088/2631...

Zhong et al. review cutting-edge technologies for spinal cord injury, showing that multimodal approaches combining #neurostimulation, cell therapies, and #tissueengineering are shifting SCI treatment from single interventions to integrated, personalized strategies. doi.org/10.4103/ATN.... #MedSky

Collagen-hyaluronic acid hydrogel with embedded chondrocytes as a platform for modeling early stages of endochondral ossification in vitro
@celltransplant1992.bsky.social
@journals.sagepub.com

journals.sagepub.com/doi/10.1177/...

#tissueengineering #bone #celltransplantation #openaccess

Extracellular Vesicles‐Functionalized Biomaterials for Oral Disease Theragnostics Combining EVs with biomaterials enables sustained, targeted delivery and overcomes traditional limitations. EVs show great promise in diagnosing and treating oral diseases, and could transform oral h...

#Review in #MedComm_Biomaterials_and_Applicaitonser

#Extracellular #Vesicles‐Functionalized #Biomaterials for #Oral Disease Theragnostics doi.org/10.1002/mba2...

#DrugDelivery #OralDisease #TissueEngineering

picture saying that I'm speaking at the LSX World Congress in Europe March 25-26.

This month, @heartbiotech.bsky.social are excited to be speaking at LSX. A great opportunity to connect with investors to invite them to know more about the Yacoub Heart Valve®. Why tell when you can show? heartbiotech.co.uk/how-it-works/
#tissueengineering
#innovation
#medicaldevice

3D bioprinting of in vitro vascularized skin models and in vivo skin grafts

An overview of how 3D bioprinting overcomes the limitations of traditional #TissueEngineering by enabling the precise biofabrication of vascularized #SkinGrafts essential for #WoundHealing & drug screening applications.

.#IJEM #OpenAccess: doi.org/10.1088/2631...

Excited to announce our #ESB2026 Symposium on 4D Tissue Engineering: Widening the Control Over Cells' Microenvironment!
📅7–11 Sep 2026, Antwerp, BE
🎙️Keynote: Miguel Castilho, TU Eindhoven, NL
📝Submit your abstract now👉 esb2026.org
⏳Deadline: March 15
#Biomaterials #TissueEngineering

Looking for transparent gels for your cell culture? PeptiMatrix gels are fully transparent and ready to support your 3D models

learn more: www.peptimatrix.com

email us: info@peptimatrix.com

#3DCellCulture #PeptideHydrogels #Organoids #StemCells #TissueEngineering #LabTech

Break It To Make It: How Fracturing Sculpts Tissues and Organs | Quanta Magazine Growing tissues can crack, break, and dissociate to form structures that can later withstand immense forces.

Break It To Make It: How Fracturing Sculpts Tissues and Organs #Science #Biology #DevelopmentalBiology #TissueEngineering #BiologyInnovation #RegenerativeMedicine

www.quantamagazine.org/break-it-to-make-it-how-...

Piezoelectric scaffold for tissue engineering: material, structure, fabrication and function

This review explores #piezoelectric #scaffolds for #TissueEngineering, summarizing ceramics, polymers, and natural materials, fabrication and structural design strategies, and their roles in #SmartSensing, while outlining challenges and future research.
#IJEM: doi.org/10.1088/2631...

Neue Studie: Menschlicher Knorpel aus Äpfeln Ein französisches Forscherteam hat Zellmaterial für Knorpel mithilfe von Äpfeln hergestellt. Materialien auf pflanzlicher Basis haben viele Vorteile: Sie sind weit verfügbar, kostengünstig und biokomp...

🧪 #tissueengineering
"Einem Forschungslabor an der Université de Caen Normandie in Frankreich ist es gelungen, menschlichen Knorpel aus Äpfeln herzustellen. Dies ist das weltweit erste Experiment zur Rekonstruktion von Knorpel auf pflanzlicher Basis"
de.euronews.com/gesundheit/2...

Growth Hormone‐Loaded 3D Printed Silk Fibroin‐Cellulose Dressings for Ischemic Wounds 3D-printed wound dressings combining carboxymethyl cellulose, silk fibroin, and growth hormone accelerate healing in diabetic ulcers. These bioactive, customizable dressings enhance angiogenesis, cel....

🧪 Paper: "Growth Hormone-Loaded 3D Printed Silk Fibroin-Cellulose Dressings for Ischemic Wounds."

🤝 Collaboration: iMATUS, IDIS, NEURODEVO & IMIDA.

🔗 Read more: advanced.onlinelibrary.wiley.com/doi/full/10....

#Biomaterials #3DPrinting #TissueEngineering #RegenerativeMedicine #PharmaSky

Designing of Different Types of Gyroid Scaffold Architecture to Achieve Patient-Specific Osseointegration Friendly Mechanical Environment

dl.begellhouse.com/journals/61f...

#TissueEngineering #3DScaffolds #BiomaterialsDesign

Designing of Different Types of Gyroid Scaffold Architecture to Achieve Patient-Specific Osseointegration Friendly Mechanical Environment

dl.begellhouse.com/journals/61f...

#TissueEngineering #3DScaffolds #BiomaterialsDesign

#organoids #stemcells #invitromodels #NAMs #3R #3DBiology #CellCulture #TissueEngineering #DiseaseModeling #DrugDiscovery #Bioengineering #InVitro #RegenerativeMedicine

Using electronics to build biohybrid robots with physical intelligence - Nature Electronics Biohybrid robots, which rely on living muscles to drive force generation, could be of use in applications ranging from microsurgery to unmanned exploration. But the development of untethered and auton...

Out today in Nature Electronics: we share our perspective on how instrumenting biohybrid robots with onboard #bioelectronics capable of integrated sensing, control, and power can enable real-world deployment of muscle-powered machines.

www.nature.com/articles/s41...

#Robotics #TissueEngineering

Tissue regenerative medicine: Clinical advances, challenges, and opportunities Regenerative medicine is transforming how we restore tissue function, leveraging advances in cell and molecular biology, biomaterials, and engineered microenvir

We published a report as a result of the 2025 @bmes-cmbe.bsky.social conference on clinical advances, challenges and opportunities in regenerative medicine. Check it out! 👇
#regenmed #tissueengineering
pubs.aip.org/aip/apb/arti...

Leveraging microtopography to pattern multi-oriented muscle actuators Engineering skeletal muscle tissue with precisely defined alignment is of significant importance for applications ranging from drug screening to biohybrid robotics. Aligning 2D contractile muscle mono...

So happy that our paper on high-resolution patterning of muscle tissues with “STAMP” made it to the “Most Popular” collection in Biomaterials Science! Particularly rewarding to see many other labs adapt + use STAMP in the past year:

pubs.rsc.org/en/content/a...

#myoblue #TissueEngineering #muscle

II Workshop on Additive Biofabrication - iMATUS En esta edición se abordarán los últimos avances en biofabricación aplicada a la ingeniería de tejidos, modelos de enfermedades y cribado de fármacos, biocerámicas y biometales, así como en diseño y s...

🔬 🧪 The II Workshop on Additive Biofabrication (WAB 2026) takes place next week!

📅 January 22–23, 2026
📍 Faculty of Biology @usc.gal

#WAB2026 #AdditiveBiofabrication #Biofabrication #TissueEngineering #AdvancedTherapies

imatus.usc.es/events/ii-wo...

Yao et al. demonstrate that engineered #exosomes hold significant therapeutic potential for promoting peripheral #nerveregeneration through enhanced targeting and bioactive delivery. doi.org/10.4103/ATN....
#RegenerativeMedicine #TissueEngineering #BiomedicalResearch #Bioengineering

Collagen Hybridizing Peptides now available from Ilex Life Sciences! 3Helix appoints Ilex Life Sciences as a worldwide distributor of Collagen Hybridizing Peptides! Ilex Life Sciences LLC and 3Helix, Inc. have entered a distribution agreement to expand global access to...

Ilex Life Sciences LLC and 3Helix, Inc. have entered a distribution agreement to expand global access to 3Helix, Inc.'s 𝗖𝗼𝗹𝗹𝗮𝗴𝗲𝗻 𝗛𝘆𝗯𝗿𝗶𝗱𝗶𝘇𝗶𝗻𝗴 𝗣𝗲𝗽𝘁𝗶𝗱𝗲𝘀 (𝗖𝗛𝗣𝘀) technology 🔬🧪

ilexlife.com/blogs/news/3...

#collagen #extracellularmatrix #regenerativemedicine #fibrosis #cellculture #tissueengineering

Link to full publication👉 www.frontiersin.org/journals/bio... #Biotechnology #Bioengineering #TissueEngineering #RegerativeMedine #Ophthalmology #Cornea #WoundHealing #Silk

Recent advances in bio-functional Ta-based bone materials: materials design and bioactivity

Reviewing the strategies to enhance bioactivity & #Osseointegration of porous Ta-based scaffolds through micromorphological alterations, structural customization, and surface functionalization. #TissueEngineering

#IJEM #OpenAccess: doi.org/10.1088/2631...

#BMP9 upregulates #SIRT5 to drive #osteogenic differentiation in #MSCs and promote #BoneDefect repair by reducing HIF‑1α acetylation/malonylation—expanding BMP9 mechanisms and identifying targets to boost #osteogenesis for #TissueEngineering.

#OpenAccess: doi.org/10.1016/j.ge...

An innovative #TissueEngineering approach using visible light-based #3DBioprinting with high-fidelity hybrid GelMA-PEGDA #Bioink & chondrogenically preconditioned MSC spheroids, shows efficient #IVDregeneration & disc height restoration, in vivo.

#OpenAccess: doi.org/10.1088/2631...