M
Majd Machour
Researcher at Technion – Israel Institute of Technology
Publications - 6
Citations - 68
Majd Machour is an academic researcher from Technion – Israel Institute of Technology. The author has contributed to research in topics: Tissue engineering & Medicine. The author has an hindex of 1, co-authored 2 publications receiving 7 citations.
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Journal ArticleDOI
3D Bioprinting of Engineered Tissue Flaps with Hierarchical Vessel Networks (VesselNet) for Direct Host-To-Implant Perfusion.
Ariel A. Szklanny,Majd Machour,Idan Redenski,Václav Chochola,Idit Goldfracht,Ben Kaplan,Mark Epshtein,Haneen Simaan Yameen,Uri Merdler,Adam W. Feinberg,Dror Seliktar,Netanel Korin,Josef Jaroš,Shulamit Levenberg +13 more
TL;DR: In this article, a combination of millimetric vessel-like scaffolds and 3D bioprinted vascularized tissues interconnect, creating fully engineered hierarchical vascular constructs for implantation.
Journal ArticleDOI
Engineered Vascularized Flaps, Composed of Polymeric Soft Tissue and Live Bone, Repair Complex Tibial Defects
Idan Redenski,Shaowei Guo,Shaowei Guo,Majd Machour,Ariel A. Szklanny,Shira Landau,Ben Kaplan,Roberta Lock,Yankel Gabet,Dana Egozi,Gordana Vunjak-Novakovic,Shulamit Levenberg +11 more
TL;DR: A composite flap is fabricated using synthetic soft‐tissue matrices and decellularized bone, combined in vivo to form de novo composite tissue with its own vascular supply to help eliminate invasive autologous tissue‐harvest for patients in need of viable grafts for transplantation.
Journal ArticleDOI
Print‐and‐Grow within a Novel Support Material for 3D Bioprinting and Post‐Printing Tissue Growth
Majd Machour,Noy Hen,Idit Goldfracht,Dina Safina,Maya Davidovich-Pinhas,Havazelet Bianco-Peled,Shulamit Levenberg +6 more
TL;DR: The "print-and-grow" method demonstrates accurate bioprinting with high tissue viability and functionality while preserving the construct's shape and size.
Journal ArticleDOI
A Micro-Channel Array in a Tissue Engineered Vessel Graft Guides Vascular Morphogenesis for Anastomosis with Self-Assembled Vascular Networks✰.
Barak Zohar,Lior Debbi,Majd Machour,Netta Nachum,Idan Redenski,Mark Epshtein,Netanel Korin,Shulamit Levenberg +7 more
TL;DR: The AngioTube as discussed by the authors is a biodegradable engineered macro-vessel surrounded by a cylindrical micro-channel array, which is designed to support physiological flow distribution and enable the integration with living capillaries.
Journal ArticleDOI
Fabrication of Engineered Vascular Flaps using 3D Printing Technologies.
TL;DR: This work presents a combined 3D bioprinting and sacrificial mold-based 3D printing approach for fabricating engineered vascularized tissue flaps for use in reconstruction surgery and vascularization studies.