Publications

1. Gelatin Methacryloyl Hydrogels Control the Localized Delivery of Albumin-Bound Paclitaxel
    Vigata M, Meinert C, Pahoff S, Bock N, Hutmacher DWA, Hutmacher DW.
    Polymers. 2020;12(2).

2. Effect of gelatin source and photoinitiator type on chondrocyte redifferentiation in gelatin methacryloyl-based tissue-engineered cartilage constructs
    Pahoff S, Meinert C, Bas O, Nguyen L, Klein TJ, Hutmacher DW.
    Journal of Materials Chemistry B. 2019;7(10):1761-72.

3. Humanized bone facilitates prostate cancer metastasis and recapitulates therapeutic effects of zoledronic acid in vivo
    Landgraf M, Lahr CA, Sanchez-Herrero A, Meinert C, Shokoohmand A, Pollock PM, et al.
    Bone Research. 2019;7.

4. Immunogold FIB-SEM: Combining Volumetric Ultrastructure Visualization with 3D Biomolecular Analysis to Dissect Cell-Environment Interactions
    Gopal S, Chiappini C, Armstrong JPK, Chen Q, Serio A, Hsu CC, et al.
    Advanced Materials. 2019;31(32).

5. Immune system augmentation via humanization using stem/progenitor cells and bioengineering in a breast cancer model study
    Shafiee A, McGovern JA, Lahr CA, Meinert C, Moi D, Wagner F, et al.
    International Journal of Cancer. 2018;143(6):1470-82.

6. A Method for Prostate and Breast Cancer Cell Spheroid Cultures Using Gelatin Methacryloyl-Based Hydrogels
    Meinert C, Theodoropoulos C, Klein TJ, Hutmacher DW, Loessner D.
    Methods in Molecular Biology. 2018;1786:175-94.

7. Humanization of the Prostate Microenvironment Reduces Homing of PC3 Prostate Cancer Cells to Human Tissue-Engineered Bone
    McGovern JA, Shafiee A, Wagner F, Lahr CA, Landgraf M, Meinert C, et al.
    Cancers. 2018;10(11).

8. Rational design and fabrication of multiphasic soft network composites for tissue engineering articular cartilage: A numerical model-based approach
    Bas O, Lucarotti S, Angella DD, Castro NJ, Meinert C, Wunner FM, et al.
    Chemical Engineering Journal. 2018;340:15-23.

9. Engineering Anisotropic Muscle Tissue using Acoustic Cell Patterning
    Armstrong JPK, Puetzer JL, Serio A, Guex AG, Kapnisi M, Breant A, et al.
    Advanced Materials. 2018;30(43).

10. A novel bioreactor system for biaxial mechanical loading enhances the properties of tissue-engineered human cartilage
    Meinert C, Schrobback K, Hutmacher DW, Klein TJ.
    Scientific Reports. 2017;7.

11. Biofabricated soft network composites for cartilage tissue engineering
    Bas O, De-Juan-Pardo EM, Meinert C, D’Angella D, Baldwin JG, Bray LJ, et al.
    Biofabrication. 2017;9(2).

12. Functionalization, preparation and use of cell-laden gelatin methacryloyl-based hydrogels as modular tissue culture platforms
    Loessner D, Meinert C, Kaemmerer E, Martine LC, Yue K, Levett PA, et al.
    Nature Protocols. 2016;11(4):727-46.

13. A biomimetic extracellular matrix for cartilage tissue engineering centered on photocurable gelatin, hyaluronic acid and chondroitin sulfate
    Levett PA, Melchels FPW, Schrobback K, Hutmacher DW, Malda J, Klein TJ.
    Acta Biomaterialia. 2014;10(1):214-23.

14. Chondrocyte redifferentiation and construct mechanical property development in single-component photocrosslinkable hydrogels
    Levett PA, Melchels FPW, Schrobback K, Hutmacher DW, Malda J, Klein TJ.
    Journal of Biomedical Materials Research A. 2014;102(8):2544-53.

15. Hyaluronic Acid Enhances the Mechanical Properties of Tissue-Engineered Cartilage Constructs
    Levett PA, Hutmacher DW, Malda J, Klein TJ.
    Plos One. 2014;9(12).

16. Gelatin-Methacrylamide Hydrogels as Potential Biomaterials for Fabrication of Tissue-Engineered Cartilage Constructs
    Schuurman W, Levett PA, Pot MW, van Weeren PR, Dhert WJA, Hutmacher DW, et al.
    Macromolecular Biosciences. 2013;13(5):551-61.

17. Photocrosslinkable hydrogels for cartilage tissue engineering
    Levett PA, Melchels FP, Schrobback K, Hutmacher DW, Malda J, Klein TJ.
    Journal of Tissue Engineering