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Customized scaffolds for large bone defects using 3D‑printed modular blocks from 2D‑medical images

Bio-Design and Manufacturing 2024年第1期7卷 74-87页

作者： Anil AAcar Evangelos Daskalakis Paulo Bartolo Andrew Weightman glen cooper Gordon Blunn Bahattin Koc Faculty of Engineering and Natural Sciences Sabanci UniversityIstanbul 34956Türkiye D Bioprinting Laboratory Sabanci University Nanotechnology Research and Application CenterIstanbul 34956Türkiye School of Mechanical Aerospace and Civil EngineeringManchester Institute of BiotechnologyUniversity of ManchesterManchester M139PLUK Singapore Centre for 3D Printing School of Mechanical and Aerospace EngineeringNanyang Technological UniversitySingapore 639798Singapore School of Pharmacy and Biomedical Sciences University of PortsmouthPortsmouth PO12UPUK

Additive manufacturing(AM)has revolutionized the design and manufacturing of patient-specific,three-dimensional(3D),complex porous structures known as scaffolds for tissue engineering *** use of advanced image acquisition techniques,image processing,and computer-aided design methods has enabled the precise design and additive manufacturing of anatomically correct and patient-specific implants and ***,these sophisticated techniques can be timeconsuming,labor-intensive,and ***,the necessary imaging and manufacturing equipment may not be readily available when urgent treatment is needed for trauma *** this study,a novel design and AM methods are proposed for the development of modular and customizable scaffold blocks that can be adapted to fit the bone defect area of a *** modular scaffold blocks can be combined to quickly form any patient-specific scaffold directly from two-dimensional(2D)medical images when the surgeon lacks access to a 3D printer or cannot wait for lengthy 3D imaging,modeling,and 3D printing during *** proposed method begins with developing a bone surface-modeling algorithm that reconstructs a model of the patient’s bone from 2D medical image measurements without the need for expensive 3D medical imaging or *** algorithm can generate both patient-specific and average bone ***,a biomimetic continuous path planning method is developed for the additive manufacturing of scaffolds,allowing porous scaffold blocks with the desired biomechanical properties to be manufactured directly from 2D data or *** algorithms are implemented,and the designed scaffold blocks are 3D printed using an extrusion-based AM *** and instructions are also provided to assist surgeons in assembling scaffold blocks for the self-repair of patient-specific large bone defects.

关键词： Additive manufacturing Modular scaffolds Large bone defect Customized scaffold design Patient-specific scaffolds

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VERNAUZATION1 Modulates Root System Architecture in Wheat and Barley

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Molecular Plant 2018年第1期11卷 226-229页

作者： Kai P. Voss-Fels Hannah Robinson Stephen R. Mudge Cecile Richard Saul Newman Benjamin Wittkop Andreas Stahl Wolfgang Friedt Matthias Frisch lulian Gabur Anika Miller-cooper Bradley C. Campbell Alison Kelly glen Fox Jack Christopher Mandy Christopher Karine Chenu Jerome Franckowiak Emma S. Mace Andrew K. Borrell Howard Eagles David R. Jordan Jose R. Botella Graeme Hammer lan D. Godwin Ben Trevaskis Rod J. Snowdon Lee T. Hickey Department of Plant Breeding IFZ Research Centre for Biosystems Land Use and Nutrition Justus Uebig University Heinrich-Buff-Ring 26-32 35392 Giessen Germany Queensland Alliance for Agriculture and Food Innovation The University of Queensland St Lucia QLD 4072 Australia School of Agriculture and Food Sciences The University of Queensland Brisbane QLD 4072 Australia CSIRO Agriculture Canberra ACT 2601 Australia Department of Biometry and Population Genetics IFZ Research Centre for Biosystems Land Use and Nutrition Justus Liebig University Heinrich-Buff-Ring 26-32 35392 Giessen Germany Department of Agriculture and Fisheries Leslie Research FacilRy Toowoomba QLD 4350 Australia Queensland Alliance for Agriculture and Food Innovation The University of Queensland roowoomba QLD 4350 Australia Department of Agronomy and Plant Genetics University of Minnesota St Paul MN USA Department of Agriculture and Fisheries Hermitage Research Facility Warwick QLD 4370 Australia Queensland Alliance for Agriculture and Food Innovation Hermitage Research Facility The University of Queensland Warwick QLD 4370 Australia These authors contributed equally to this article.

Dear Editor Roots play a key role in plant growth regulation. It is well described that the below-ground plant architecture has a significant impact on plant performance under abiotic constraints and maintains stabili... 详细信息

关键词： TRAITS RESPONDS

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