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Showing 1–15 of 15 results
Advanced filters: Author: Brendon M. Baker Clear advanced filters

  • How cells migrate in fibrous tissues is still poorly understood. Here, with synthetic 3D fibre matrices of controlled alignment and stiffness, the authors report that cells in stiff matrices move slowly and continuously, but in softer, deformable matrices cells can rapidly slingshot forward via stretch and recoil of matrix fibres.

    • William Y. Wang
    • Christopher D. Davidson
    • Brendon M. Baker
    ResearchOpen Access
    Nature Communications
    Volume: 10, P: 1-12

  • The fabrication of vascularized 3D tissues requires an understanding of how material properties govern endothelial cell invasion into the surrounding matrix. Here the authors integrate a non-swelling synthetic hydrogel with a microfluidic device to study chemokine gradient-driven angiogenic sprouting and find that matrix degradability modulates the collectivity of cell migration.

    • Britta Trappmann
    • Brendon M. Baker
    • Christopher S. Chen
    ResearchOpen Access
    Nature Communications
    Volume: 8, P: 1-8

  • Hypoxia induces ·NO-dependent hydrogen sulfide (H2S) biogenesis by inhibiting the transsulfuration pathway. H2S oxidation promotes endothelial cell proliferation to support neovascularization in tissue injury and tumor xenograft models.

    • Roshan Kumar
    • Victor Vitvitsky
    • Ruma Banerjee
    Research
    Nature Chemical Biology
    Volume: 20, P: 1294-1304

  • Anti-human leukocyte antigen (HLA) antibodies are important mediators of alloresponses, but structural insights on antibody:HLA interaction are still lacking. Here the authors provide a 2.4 Å structure of antibody:HLA complex, and also analyse HLA features important for other HLA-interacting molecules, to enhance our understanding of alloimmunity.

    • Yue Gu
    • Yee Hwa Wong
    • Paul A. MacAry
    ResearchOpen Access
    Nature Communications
    Volume: 10, P: 1-11

  • Investigations of human cardiac disease involving human pluripotent stem cell-derived cardiomyocytes are limited by the disorganized presentation of biomechanical cues resulting in cell immaturity. Here the authors develop a platform of micron-scale 2D cardiac muscle bundles to precisely deliver physiologic cues, improving reproducibility and throughput.

    • Yao-Chang Tsan
    • Samuel J. DePalma
    • Adam S. Helms
    ResearchOpen Access
    Nature Communications
    Volume: 12, P: 1-16

  • Designing load-bearing tissues that match the mechanical performance of native ones adds extra challenges to tissue engineering. Electrospinning of biodegradable polymer fibres into oriented sheets enables the production of laminate scaffolds; when seeded with mesenchymal stem cells and cultured for 10 weeks, these scaffolds replicate the mechanical properties of native annulus fibrosus.

    • Nandan L. Nerurkar
    • Brendon M. Baker
    • Robert L. Mauck
    Research
    Nature Materials
    Volume: 8, P: 986-992

  • During fibrotic diseases, functional tissue parenchyma progressively transforms into stiff, disorganized and non-functional tissue causing organ failure. The underlying multitude of interconnected changes in the cellular microenvironment can be investigated using bioengineered fibrosis models.

    • Daniel L. Matera
    • William Y. Wang
    • Brendon M. Baker
    Comments & Opinion
    Nature Reviews Materials
    Volume: 6, P: 192-195

  • Tissues with perfusable vascular networks can be fabricated through layer-by-layer assembly, bioprinting or sacrificial moulding, but current approaches are slow, have limited resolution, or place significant constraints on the materials or the processing conditions. A rapid and general vascular casting approach using carbohydrate glass as a sacrificial template to generate tissues containing cylindrical networks that can be lined with endothelial cells and perfused with blood under high-pressure pulsatile flow is now reported.

    • Jordan S. Miller
    • Kelly R. Stevens
    • Christopher S. Chen
    Research
    Nature Materials
    Volume: 11, P: 768-774

  • This Perspective reviews the complementary developments in synthetic biology and biomaterials and discusses how convergence of these two fields creates a promising design strategy for the fabrication of tailored living materials for medicine and biotechnology.

    • Allen P. Liu
    • Eric A. Appel
    • Ovijit Chaudhuri
    Reviews
    Nature Materials
    Volume: 21, P: 390-397