We have recently published a review article about bioimpedance spectroscopy (BIS) in phlebolymphedema; we highlighted some general principles about the use of BIS in the management of limb phlebolymphedema, reporting also data from literature and from our personal experience in the last two decades. Overall, BIS represents an extremely valuable diagnostic option to quantify fluid retention and tissue changes in phlebolymphology, both in the field of scientific research and in the daily practice. At this link you may find our article: https://lnkd.in/dpvGYxpe
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Professor, Hanyang University | Adjunct Professor, University of Utah | CEO & Founder, Elixir Pharmatech Inc.
https://lnkd.in/gcPqDYvh Ii’s our new publication. Our study demonstrates the respiratoid biosystem as a platform in tissue engineering, offering a nature-inspired solution to the critical challenge of spontaneous oxygen supply
Oxygenating respiratoid biosystem for therapeutic cell transplantation - Nature Communications
nature.com
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A joint review article "The Cornea: An Ideal Tissue for Regenerative Medicine," by Cellusion and Keio University, published in The Keio Journal of Medicine. 2024 Volume 73 Issue 1 Pages 1-7 DOI: 10.2302/kjm.2023-0001-IR https://lnkd.in/ghgHHztT セルージョンと慶應義塾大学の共同研究の角膜再生医療の総説論文「The Cornea: An Ideal Tissue for Regenerative Medicine」がThe Keio Journal of Medicineに掲載されました。
The Cornea: An Ideal Tissue for Regenerative Medicine [Published online Keio J Med, 73, 1-7, by J-STAGE]
kjm.pupu.jp
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Enhance Your Cystic Fibrosis Research with Our Synthetic Cystic Fibrosis Models (SCFM) Are you ready to take your CF research to the next level? At SynthBiome, we are proud to offer high-quality Synthetic CF Media designed to meet the rigorous demands of modern CF research. Why choose our SCFM Model? · Realistic Conditions – SCFM is meticulously formulated to replicate CF sputum, providing a reliable model for studying pathogens such as P. aeruginosa and S. aureus. · Consistent and Reproducible – standardized composition ensures consistent results, making your research reliable and comparable across different studies and laboratories. · Enhanced research outcomes – With our SCFM, you can identify therapeutic targets and research new treatment avenues in an in vitro environment that closely mimics the actual conditions of CF patients. · Save Time and Resources – Spend less time adjusting variables and more time on experiments. What sets us apart? · Most Accurate Model for Human CF Lung · Quality Assurance · Customer Support · Sole Producer – we are currently the only commercial producer of Synthetic CF Models. Ready to improve your research? Contact us today to learn more about SCFM and how it can benefit your research. Let’s drive innovation together and make a significant impact on CF research. Visit Our Website: https://lnkd.in/eHv-CiKf Email Us: contact@synthbiome.com #CysticFibrosis #SCFM #BiomedicalResearch #Innovation #Healthcare #Microbiology #CFResearch #SynthBiome
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📢 Paper sharing from eCM Open Access Scientific Journal Volume 47-pages-109-124 ✒#OriginalResearch #OpenAccess #StemCell #MSC #BoneMarrow Title: Extracellular matrix from hiPSC-mesenchymal progenitors modulates the three-lineage differentiation of human bone marrow stromal cells 👏 Author: D Hanetseder, B Schaedl, H Redl, D Marolt Presen 🌐 Full Text: https://lnkd.in/dk9zJphY 🙋♂️ Any Question: samson.te@ecmjournal.org 📖 Welcome to your reading Keywords: Extracellular matrix, iPSCs, bone marrow stromal cells, osteogenic, chondrogenic, adipogenic differentiation #ExtracellularMatrix #iPSCs #BoneMarrowStromalCells #Osteogenic #Chondrogenic #AdipogenicDifferentiation
2023 Volume No 47 pages 109-124
ecmjournal.org
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PhD Research Associate working on new electroporation-based treatments of Atrial Fibrillation
Pulsed Field Ablation is a new cardiac ablation method based on electroporation that is being rapidly introduced into the clinical practice for treatment of atrial fibrillation. Many questions still remain about how electroporation affects cardiac tissue on the cellular level and how electroporation may affect expression and function of ion pump machinery in cardiac cells that is crucial for continuous contractility of heart muscle. We explored some of the open questions in our paper published recently in Applied Sciences. If you're interested in said topic I'd love for you to give it a look :)
Effects of Electroporation on the Function of Sarco/Endoplasmic Reticulum Ca2+-ATPase and Na+,K+-ATPase in H9c2 Cells
mdpi.com
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A great step towards realistic cell culture models
Enhance Your Cystic Fibrosis Research with Our Synthetic Cystic Fibrosis Models (SCFM) Are you ready to take your CF research to the next level? At SynthBiome, we are proud to offer high-quality Synthetic CF Media designed to meet the rigorous demands of modern CF research. Why choose our SCFM Model? · Realistic Conditions – SCFM is meticulously formulated to replicate CF sputum, providing a reliable model for studying pathogens such as P. aeruginosa and S. aureus. · Consistent and Reproducible – standardized composition ensures consistent results, making your research reliable and comparable across different studies and laboratories. · Enhanced research outcomes – With our SCFM, you can identify therapeutic targets and research new treatment avenues in an in vitro environment that closely mimics the actual conditions of CF patients. · Save Time and Resources – Spend less time adjusting variables and more time on experiments. What sets us apart? · Most Accurate Model for Human CF Lung · Quality Assurance · Customer Support · Sole Producer – we are currently the only commercial producer of Synthetic CF Models. Ready to improve your research? Contact us today to learn more about SCFM and how it can benefit your research. Let’s drive innovation together and make a significant impact on CF research. Visit Our Website: https://lnkd.in/eHv-CiKf Email Us: contact@synthbiome.com #CysticFibrosis #SCFM #BiomedicalResearch #Innovation #Healthcare #Microbiology #CFResearch #SynthBiome
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The Atrial Fibrillation NETwork (AFNET) is an interdisciplinary research network dedicated to improving the management of atrial fibrillation.
😀 Our reading tip for today: Great paper published in @NatureCVR. Tissue-resident memory T cells in epicardial adipose tissue comprise transcriptionally distinct subsets that are modulated in #afib. https://lnkd.in/ebeQUQUi
Tissue-resident memory T cells in epicardial adipose tissue comprise transcriptionally distinct subsets that are modulated in atrial fibrillation - Nature Cardiovascular Research
nature.com
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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
Advances in rationally engineered cytokines for precision therapy in diabetic wound healing
explorationpub.com
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📢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
Advances in rationally engineered cytokines for precision therapy in diabetic wound healing
explorationpub.com
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🎉 Proud to Announce Our Latest Publication in Cureus Journal of Medical Science! 🎉 I am thrilled to share our newest article: "A1 Phenotype: A Shadow Behind Pulmonary Embolism", recently published in Cureus. This work marks a significant milestone in our research on venous thromboembolic disease in the Colombian Caribbean. We have identified the A1 phenotype as a key risk factor for the development of pulmonary embolism (PE), along with elevated levels of coagulation factor VIII. 🔬 What makes this study unique? For the first time, the relationship between the A1 phenotype and PE risk is explored in a Colombian population. Our findings suggest the need for more detailed and personalized evaluations in patients at risk for PE. This study could pave the way for new strategies in the prevention and treatment of this serious condition. I deeply appreciate the dedication and hard work of my co-authors and collaborators who made this project possible. 📖 I invite you to read the full article here: https://lnkd.in/g8SYegXW This is just the beginning of future research that we hope will continue to contribute to the understanding and management of pulmonary embolism. #Research #PublicHealth #Medicine #Hematology #Thromboembolism #A1Phenotype #ScientificPublication
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