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Vybrat výsledek číslo 1 1

Akademický článek

Human macrophage polarisation and regulation of angiogenesis and osteogenesis is dependent on culture extracellular matrix and dimensionality.

Autor: Petrousek SR; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Ireland; Advanced Materials and Bioengineering Research Centre (AMBER), Ireland; Department of Mechanical, Manufacturing, and Biomedical Engineering, School of Engineering, Trinity College Dublin, Ireland., Kronemberger GS; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Ireland; Advanced Materials and Bioengineering Research Centre (AMBER), Ireland; Department of Mechanical, Manufacturing, and Biomedical Engineering, School of Engineering, Trinity College Dublin, Ireland., O'Rourke SA; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Ireland; Advanced Materials and Bioengineering Research Centre (AMBER), Ireland; Department of Mechanical, Manufacturing, and Biomedical Engineering, School of Engineering, Trinity College Dublin, Ireland; School of Biochemistry & Immunology and School of Medicine, Trinity Biomedical Sciences Institute, Trinity College Dublin, Ireland., Shanley LC; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Ireland; Advanced Materials and Bioengineering Research Centre (AMBER), Ireland; Department of Mechanical, Manufacturing, and Biomedical Engineering, School of Engineering, Trinity College Dublin, Ireland; School of Biochemistry & Immunology and School of Medicine, Trinity Biomedical Sciences Institute, Trinity College Dublin, Ireland., Dunne A; Advanced Materials and Bioengineering Research Centre (AMBER), Ireland; School of Biochemistry & Immunology and School of Medicine, Trinity Biomedical Sciences Institute, Trinity College Dublin, Ireland., Kelly DJ; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Ireland; Advanced Materials and Bioengineering Research Centre (AMBER), Ireland; Department of Mechanical, Manufacturing, and Biomedical Engineering, School of Engineering, Trinity College Dublin, Ireland., Hoey DA; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Ireland; Advanced Materials and Bioengineering Research Centre (AMBER), Ireland; Department of Mechanical, Manufacturing, and Biomedical Engineering, School of Engineering, Trinity College Dublin, Ireland. Electronic address: dahoey@tcd.ie.

Publikováno v: Biochemical and biophysical research communications [Biochem Biophys Res Commun] 2024 Nov 26; Vol. 735, pp. 150835. Date of Electronic Publication: 2024 Oct 16.

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Vybrat výsledek číslo 2 2

Akademický článek

Melt electrowritten scaffold architectures to mimic tissue mechanics and guide neo-tissue orientation.

Autor: Federici AS; Dept. of Mechanical, Manufacturing and Biomedical Engineering, School of Engineering, Trinity College Dublin, Ireland; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland; AMBER, The SFI Research Centre for Advanced Materials and BioEngineering Research, Ireland., Tornifoglio B; Dept. of Mechanical, Manufacturing and Biomedical Engineering, School of Engineering, Trinity College Dublin, Ireland; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland., Lally C; Dept. of Mechanical, Manufacturing and Biomedical Engineering, School of Engineering, Trinity College Dublin, Ireland; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland; AMBER, The SFI Research Centre for Advanced Materials and BioEngineering Research, Ireland., Garcia O; Johnson & Johnson 3D Printing Innovation & Customer Solutions, Johnson & Johnson Services, Inc., Irvine, CA, USA., Kelly DJ; Dept. of Mechanical, Manufacturing and Biomedical Engineering, School of Engineering, Trinity College Dublin, Ireland; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland; AMBER, The SFI Research Centre for Advanced Materials and BioEngineering Research, Ireland., Hoey DA; Dept. of Mechanical, Manufacturing and Biomedical Engineering, School of Engineering, Trinity College Dublin, Ireland; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland; AMBER, The SFI Research Centre for Advanced Materials and BioEngineering Research, Ireland. Electronic address: dahoey@tcd.ie.

Publikováno v: Journal of the mechanical behavior of biomedical materials [J Mech Behav Biomed Mater] 2024 Feb; Vol. 150, pp. 106292. Date of Electronic Publication: 2023 Dec 10.

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Vybrat výsledek číslo 3 3

Akademický článek

2P-FLIM unveils time-dependent metabolic shifts during osteogenic differentiation with a key role of lactate to fuel osteogenesis via glutaminolysis identified.

Autor: Neto NGB; Department of Mechanical, Manufacturing and Biomedical Engineering, Trinity College Dublin, Parsons Building, Dublin 2, Ireland.; Trinity Centre for Biomedical Engineering, Trinity College Dublin, Dublin, Ireland., Suku M; Department of Mechanical, Manufacturing and Biomedical Engineering, Trinity College Dublin, Parsons Building, Dublin 2, Ireland.; CURAM SFI Research Centre for Medical Devices, National University of Ireland, Galway, Ireland.; Trinity Centre for Biomedical Engineering, Trinity College Dublin, Dublin, Ireland., Hoey DA; Department of Mechanical, Manufacturing and Biomedical Engineering, Trinity College Dublin, Parsons Building, Dublin 2, Ireland.; CURAM SFI Research Centre for Medical Devices, National University of Ireland, Galway, Ireland.; Advanced Materials for Bioengineering Research (AMBER), Centre, Trinity College Dublin and Royal College of Surgeons in Ireland, Dublin, Ireland.; Trinity Centre for Biomedical Engineering, Trinity College Dublin, Dublin, Ireland., Monaghan MG; Department of Mechanical, Manufacturing and Biomedical Engineering, Trinity College Dublin, Parsons Building, Dublin 2, Ireland. monaghmi@tcd.ie.; CURAM SFI Research Centre for Medical Devices, National University of Ireland, Galway, Ireland. monaghmi@tcd.ie.; Advanced Materials for Bioengineering Research (AMBER), Centre, Trinity College Dublin and Royal College of Surgeons in Ireland, Dublin, Ireland. monaghmi@tcd.ie.; Trinity Centre for Biomedical Engineering, Trinity College Dublin, Dublin, Ireland. monaghmi@tcd.ie.

Publikováno v: Stem cell research & therapy [Stem Cell Res Ther] 2023 Dec 12; Vol. 14 (1), pp. 364. Date of Electronic Publication: 2023 Dec 12.

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Vybrat výsledek číslo 4 4

Akademický článek

Mechanically activated mesenchymal-derived bone cells drive vessel formation via an extracellular vesicle mediated mechanism.

Autor: Shen N; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College, Dublin, Ireland.; Department of Mechanical, Manufacturing, and Biomedical Engineering, School of Engineering, Trinity College Dublin, Dublin, Ireland., Maggio M; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College, Dublin, Ireland.; Department of Mechanical, Manufacturing, and Biomedical Engineering, School of Engineering, Trinity College Dublin, Dublin, Ireland., Woods I; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College, Dublin, Ireland.; Department of Mechanical, Manufacturing, and Biomedical Engineering, School of Engineering, Trinity College Dublin, Dublin, Ireland., C Lowry M; School of Pharmacy and Pharmaceutical Sciences, Trinity Biomedical Sciences Institute, and Trinity St. James's Cancer Institute, Trinity College Dublin, Dublin, Ireland., Almasri R; School of Pharmacy and Pharmaceutical Sciences, Trinity Biomedical Sciences Institute, and Trinity St. James's Cancer Institute, Trinity College Dublin, Dublin, Ireland., Gorgun C; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College, Dublin, Ireland.; Department of Mechanical, Manufacturing, and Biomedical Engineering, School of Engineering, Trinity College Dublin, Dublin, Ireland.; School of Pharmacy and Biomolecular Sciences, Royal College of Surgeons in Ireland, Dublin, Ireland., Eichholz KF; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College, Dublin, Ireland.; Department of Mechanical, Manufacturing, and Biomedical Engineering, School of Engineering, Trinity College Dublin, Dublin, Ireland., Stavenschi E; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College, Dublin, Ireland.; Department of Mechanical, Manufacturing, and Biomedical Engineering, School of Engineering, Trinity College Dublin, Dublin, Ireland., Hokamp K; Smurfit Institute of Genetics, School of Genetics and Microbiology, Trinity College Dublin, College Green, Dublin, Ireland., Roche FM; Smurfit Institute of Genetics, School of Genetics and Microbiology, Trinity College Dublin, College Green, Dublin, Ireland., O'Driscoll L; School of Pharmacy and Pharmaceutical Sciences, Trinity Biomedical Sciences Institute, and Trinity St. James's Cancer Institute, Trinity College Dublin, Dublin, Ireland., Hoey DA; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College, Dublin, Ireland.; Department of Mechanical, Manufacturing, and Biomedical Engineering, School of Engineering, Trinity College Dublin, Dublin, Ireland.; Advanced Materials and Bioengineering Research Centre, Trinity College Dublin and Royal College of Surgeons in Ireland, Dublin, Ireland.

Publikováno v: Journal of tissue engineering [J Tissue Eng] 2023 Aug 29; Vol. 14, pp. 20417314231186918. Date of Electronic Publication: 2023 Aug 29 (Print Publication: 2023).

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Vybrat výsledek číslo 5 5

Akademický článek

Nano sized gallium oxide surface features for enhanced antimicrobial and osteo-integrative responses.

Autor: Murphy B; Advanced Materials and Bioengineering Research Centre (AMBER), Royal College of Surgeons in Ireland and Trinity College Dublin, Ireland; School of Chemistry, Trinity College Dublin, Dublin 2, Ireland. Electronic address: murphb52@tcd.ie., Martins C; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Ireland; Department of Mechanical, Manufacturing and Biomedical Engineering, School of Engineering, Trinity College Dublin, Ireland., Maggio M; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Ireland; Department of Mechanical, Manufacturing and Biomedical Engineering, School of Engineering, Trinity College Dublin, Ireland., Morris MA; Advanced Materials and Bioengineering Research Centre (AMBER), Royal College of Surgeons in Ireland and Trinity College Dublin, Ireland; School of Chemistry, Trinity College Dublin, Dublin 2, Ireland. Electronic address: morrism2@tcd.ie., Hoey DA; Advanced Materials and Bioengineering Research Centre (AMBER), Royal College of Surgeons in Ireland and Trinity College Dublin, Ireland; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Ireland; Department of Mechanical, Manufacturing and Biomedical Engineering, School of Engineering, Trinity College Dublin, Ireland.

Publikováno v: Colloids and surfaces. B, Biointerfaces [Colloids Surf B Biointerfaces] 2023 Jul; Vol. 227, pp. 113378. Date of Electronic Publication: 2023 May 26.

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Vybrat výsledek číslo 6 6

Akademický článek

A microphysiological model of bone development and regeneration.

Autor: Whelan IT; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland.; CÚRAM Center for Research in Medical Devices, National University of Ireland, Galway, Ireland., Burdis R; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland., Shahreza S; Department of Mechanical Engineering, University College London, London, United Kingdom., Moeendarbary E; Department of Mechanical Engineering, University College London, London, United Kingdom.; Department of Biological Engineering, Massachusetts Institute of Technology, Cambridge, United States of America.; 199 Biotechnologies Ltd, Gloucester Road, W2 6LD London, United Kingdom., Hoey DA; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland.; Advanced Materials and Bioengineering Research Centre (AMBER), Royal College of Surgeons in Ireland and Trinity College Dublin, Dublin, Ireland.; Department of Mechanical, Manufacturing and Biomedical Engineering, School of Engineering, Trinity College Dublin, Dublin, Ireland.; CÚRAM Center for Research in Medical Devices, National University of Ireland, Galway, Ireland., Kelly DJ; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland.; Advanced Materials and Bioengineering Research Centre (AMBER), Royal College of Surgeons in Ireland and Trinity College Dublin, Dublin, Ireland.; Department of Mechanical, Manufacturing and Biomedical Engineering, School of Engineering, Trinity College Dublin, Dublin, Ireland.; CÚRAM Center for Research in Medical Devices, National University of Ireland, Galway, Ireland.

Publikováno v: Biofabrication [Biofabrication] 2023 Jun 06; Vol. 15 (3). Date of Electronic Publication: 2023 Jun 06.

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Vybrat výsledek číslo 7 7

Akademický článek

Bioengineering extracellular vesicles: smart nanomaterials for bone regeneration.

Autor: Man K; School of Chemical Engineering, University of Birmingham, Birmingham, B15 2TT, UK., Eisenstein NM; Research and Clinical Innovation, Royal Centre for Defence Medicine, ICT Centre, Vincent Drive, Birmingham, B15 2SQ, UK.; Institute of Translational Medicine, University of Birmingham, Heritage Building, Mindelsohn Way, Birmingham, B15 2TH, UK., Hoey DA; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College, Dublin, D02 R590, Ireland.; Dept. of Mechanical, Manufacturing, and Biomedical Engineering, School of Engineering, Trinity College, Dublin 2, D02 DK07, Dublin, Ireland.; Advanced Materials and Bioengineering Research Centre, Trinity College Dublin & RCSI, Dublin 2, D02 VN51, Dublin, Ireland., Cox SC; School of Chemical Engineering, University of Birmingham, Birmingham, B15 2TT, UK. s.c.cox@bham.ac.uk.

Publikováno v: Journal of nanobiotechnology [J Nanobiotechnology] 2023 Apr 27; Vol. 21 (1), pp. 137. Date of Electronic Publication: 2023 Apr 27.

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Vybrat výsledek číslo 8 8

Akademický článek

Mechanoregulatory role of TRPV4 in prenatal skeletal development.

Autor: Khatib NS; Department of Bioengineering, Imperial College London, London, UK., Monsen J; Department of Bioengineering, Imperial College London, London, UK., Ahmed S; Department of Bioengineering, Imperial College London, London, UK., Huang Y; Department of Bioengineering, Imperial College London, London, UK., Hoey DA; Department of Mechanical, Manufacturing, and Biomedical Engineering, School of Engineering, Trinity College Dublin, Dublin, Ireland.; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland.; Advanced Materials and Bioengineering Research Centre (AMBER), Royal College of Surgeons in Ireland and Trinity College Dublin, Dublin, Ireland., Nowlan NC; Department of Bioengineering, Imperial College London, London, UK.; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland.; School of Mechanical and Materials Engineering, University College Dublin, Dublin, Ireland.; UCD Conway Institute, University College Dublin, Dublin, Ireland.

Publikováno v: Science advances [Sci Adv] 2023 Jan 25; Vol. 9 (4), pp. eade2155. Date of Electronic Publication: 2023 Jan 25.

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Vybrat výsledek číslo 9 9

Akademický článek

Surface Free Energy Dominates the Biological Interactions of Postprocessed Additively Manufactured Ti-6Al-4V.

Autor: Villapun Puzas VM; School of Chemical Engineering, University of Birmingham, Edgbaston B15 2TT, U.K., Carter LN; School of Chemical Engineering, University of Birmingham, Edgbaston B15 2TT, U.K., Schröder C; School of Chemistry, CRANN and AMBER Research Centres, Trinity College Dublin, College Green, Dublin 2 D02 PN4, Ireland., Colavita PE; School of Chemistry, CRANN and AMBER Research Centres, Trinity College Dublin, College Green, Dublin 2 D02 PN4, Ireland., Hoey DA; Trinity Biomedical Sciences Institute, Trinity College, Trinity Centre for Biomedical Engineering, Dublin D02 R590, Ireland.; Department of Mechanical Manufacturing and Biomedical Engineering, School of Engineering, Trinity College, Dublin D02 DK07, Ireland., Webber MA; Quadram Institute Bioscience, Norwich Research Park, Colney NR4 7UQ, U.K.; Norwich Medical School, University of East Anglia, Norwich Research Park, Colney NR4 7TJ, U.K., Addison O; Faculty of Dentistry, Oral and Craniofacial Sciences, King's College London, London SE1 9RT, U.K., Shepherd DET; School of Engineering, University of Birmingham, Edgbaston B15 2TT, U.K., Attallah MM; School of Materials and Metallurgy, University of Birmingham, Edgbaston B15 2TT, U.K., Grover LM; School of Chemical Engineering, University of Birmingham, Edgbaston B15 2TT, U.K., Cox SC; School of Chemical Engineering, University of Birmingham, Edgbaston B15 2TT, U.K.

Publikováno v: ACS biomaterials science & engineering [ACS Biomater Sci Eng] 2022 Oct 10; Vol. 8 (10), pp. 4311-4326. Date of Electronic Publication: 2022 Sep 20.

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Vybrat výsledek číslo 10 10

Akademický článek

Scaffold microarchitecture regulates angiogenesis and the regeneration of large bone defects.

Autor: Eichholz KF; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland.; Department of Mechanical, Manufacturing and Biomedical Engineering, School of Engineering, Trinity College Dublin, Dublin, Ireland.; Advanced Materials and Bioengineering Research Centre (AMBER), Royal College of Surgeons in Ireland and Trinity College Dublin, Dublin, Ireland., Freeman FE; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland.; Department of Mechanical, Manufacturing and Biomedical Engineering, School of Engineering, Trinity College Dublin, Dublin, Ireland., Pitacco P; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland.; Department of Mechanical, Manufacturing and Biomedical Engineering, School of Engineering, Trinity College Dublin, Dublin, Ireland., Nulty J; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland.; Department of Mechanical, Manufacturing and Biomedical Engineering, School of Engineering, Trinity College Dublin, Dublin, Ireland., Ahern D; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland.; Department of Mechanical, Manufacturing and Biomedical Engineering, School of Engineering, Trinity College Dublin, Dublin, Ireland., Burdis R; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland.; Department of Mechanical, Manufacturing and Biomedical Engineering, School of Engineering, Trinity College Dublin, Dublin, Ireland.; Advanced Materials and Bioengineering Research Centre (AMBER), Royal College of Surgeons in Ireland and Trinity College Dublin, Dublin, Ireland., Browe DC; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland.; Department of Mechanical, Manufacturing and Biomedical Engineering, School of Engineering, Trinity College Dublin, Dublin, Ireland., Garcia O; Johnson & Johnson 3D Printing Innovation & Customer Solutions, Johnson & Johnson Services, Inc., Irvine, CA, United States of America., Hoey DA; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland.; Department of Mechanical, Manufacturing and Biomedical Engineering, School of Engineering, Trinity College Dublin, Dublin, Ireland.; Advanced Materials and Bioengineering Research Centre (AMBER), Royal College of Surgeons in Ireland and Trinity College Dublin, Dublin, Ireland., Kelly DJ; Trinity Centre for Biomedical Engineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Dublin, Ireland.; Department of Mechanical, Manufacturing and Biomedical Engineering, School of Engineering, Trinity College Dublin, Dublin, Ireland.; Advanced Materials and Bioengineering Research Centre (AMBER), Royal College of Surgeons in Ireland and Trinity College Dublin, Dublin, Ireland.; Department of Anatomy, Royal College of Surgeons in Ireland, Dublin, Ireland.

Publikováno v: Biofabrication [Biofabrication] 2022 Aug 31; Vol. 14 (4). Date of Electronic Publication: 2022 Aug 31.

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50 Akademické články

14 mesenchymal stem cells
14 osteogenesis
10 cilia
8 mechanotransduction, cellular
8 osteocytes
5 tissue scaffolds
4 extracellular vesicles
3 tissue engineering
2 adenylyl cyclases
2 bone and bones
2 bone marrow cells
2 extracellular matrix
2 gene expression regulation
2 osteoblasts
2 osteoporosis
2 polyesters
2 shear strength
2 trpv cation channels
1 adaptation, physiological
1 aging
1 alloys
1 anti-infective agents
1 autoantigens
1 biocompatible materials
1 bone cements
1 bone density
1 bone marrow
1 bone regeneration
1 bone remodeling
1 bone transplantation
1 breast neoplasms
1 calcium channels
1 cartilage, articular
1 cattle
1 cell cycle proteins
1 cell differentiation
1 cell lineage
1 centrioles
1 chemokine cxcl1
1 chemokine cxcl2
1 chondrogenesis
1 clay
1 cyclic amp
1 durapatite
1 endothelial cells
1 estrogens
1 gallium
1 gelatin
1 genomics
1 hedgehog proteins

7 elsevier
4 elsevier science
4 nature publishing group
3 biomed central
3 federation of american societies for experimental biology
3 iop pub
3 oxford university press
2 frontiers media s.a
2 mdpi
2 wiley-liss
1 american association for the advancement of science
1 american chemical society
1 american society for cell biology
1 company of biologists
1 current science
1 elsevier science inc
1 frontiers research foundation]
1 informa healthcare
1 institute of physics pub
1 john wiley & sons
1 karger
1 mdpi ag
1 sage
1 springer
1 springer science + business media
1 wiley-vch
1 wiley-vch verlag

4 biochemical and biophysical research communications
4 scientific reports
3 biofabrication
3 faseb journal official publication of the federation of american societies for experimental biology
2 frontiers in bioengineering and biotechnology
2 journal of biomechanics
2 stem cell research therapy
1 acs biomaterials science engineering
1 acta biomaterialia
1 advanced healthcare materials
1 annals of biomedical engineering
1 bioengineering basel switzerland
1 biology of reproduction
1 biomaterials
1 biomedical materials bristol england
1 biotechnology journal
1 bone
1 cells tissues organs
1 cellular and molecular bioengineering
1 colloids and surfaces b biointerfaces
1 computer methods in biomechanics and biomedical engineering
1 current osteoporosis reports
1 cytoskeleton hoboken n j
1 frontiers in endocrinology
1 international journal of molecular sciences
1 jbmr plus
1 journal of cell science
1 journal of nanobiotechnology
1 journal of the mechanical behavior of biomedical materials
1 journal of tissue engineering
1 materials basel switzerland
1 molecular biology of the cell
1 prostate
1 science advances
1 spine journal official journal of the north american spine society
1 stem cells dayton ohio
1 stem cells translational medicine

50 MEDLINE

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