Development of a clay based bioink for 3D cell printing for skeletal application T Ahlfeld, G Cidonio, D Kilian, S Duin, AR Akkineni, JI Dawson, S Yang, ... Biofabrication 9 (3), 034103, 2017 | 314 | 2017 |
3D plotting of growth factor loaded calcium phosphate cement scaffolds AR Akkineni, Y Luo, M Schumacher, B Nies, A Lode, M Gelinsky Acta biomaterialia 27, 264-274, 2015 | 165 | 2015 |
3D Bioprinting of osteochondral tissue substitutes – in vitro-chondrogenesis in multi-layered mineralized constructs D Kilian, T Ahlfeld, AR Akkineni, A Bernhardt, M Gelinsky, A Lode Scientific reports 10 (1), 8277, 2020 | 132 | 2020 |
Design and fabrication of complex scaffolds for bone defect healing: combined 3D plotting of a calcium phosphate cement and a growth factor-loaded hydrogel T Ahlfeld, AR Akkineni, Y Förster, T Köhler, S Knaack, M Gelinsky, A Lode Annals of biomedical engineering 45, 224-236, 2017 | 123 | 2017 |
A versatile method for combining different biopolymers in a core/shell fashion by 3D plotting to achieve mechanically robust constructs AR Akkineni, T Ahlfeld, A Lode, M Gelinsky Biofabrication 8 (4), 045001, 2016 | 118 | 2016 |
Concentrated gelatin/alginate composites for fabrication of predesigned scaffolds with a favorable cell response by 3D plotting Y Luo, A Lode, AR Akkineni, M Gelinsky RSC Advances 5 (54), 43480-43488, 2015 | 111 | 2015 |
A novel plasma-based bioink stimulates cell proliferation and differentiation in bioprinted, mineralized constructs T Ahlfeld, N Cubo-Mateo, S Cometta, V Guduric, C Vater, A Bernhardt, ... ACS applied materials & interfaces 12 (11), 12557-12572, 2020 | 95 | 2020 |
Methylcellulose–a versatile printing material that enables biofabrication of tissue equivalents with high shape fidelity T Ahlfeld, V Guduric, S Duin, AR Akkineni, K Schütz, D Kilian, ... Biomaterials science 8 (8), 2102-2110, 2020 | 93 | 2020 |
Functionalized Bioink with Optical Sensor Nanoparticles for O2 Imaging in 3D‐Bioprinted Constructs E Trampe, K Koren, AR Akkineni, C Senwitz, F Krujatz, A Lode, ... Advanced Functional Materials 28 (45), 1804411, 2018 | 90 | 2018 |
Novel chitin scaffolds derived from marine sponge Ianthella basta for tissue engineering approaches based on human mesenchymal stromal cells: Biocompatibility and cryopreservation VV Mutsenko, O Gryshkov, L Lauterboeck, O Rogulska, DN Tarusin, ... International journal of biological macromolecules 104, 1955-1965, 2017 | 89 | 2017 |
Highly concentrated alginate-gellan gum composites for 3D plotting of complex tissue engineering scaffolds AR Akkineni, T Ahlfeld, A Funk, A Waske, A Lode, M Gelinsky Polymers 8 (5), 170, 2016 | 71 | 2016 |
3D chitinous scaffolds derived from cultivated marine demosponge Aplysina aerophoba for tissue engineering approaches based on human mesenchymal stromal cells VV Mutsenko, VV Bazhenov, O Rogulska, DN Tarusin, K Schütz, ... International journal of biological macromolecules 104, 1966-1974, 2017 | 69 | 2017 |
3D plotted biphasic bone scaffolds for growth factor delivery: biological characterization in vitro and in vivo T Ahlfeld, FP Schuster, Y Förster, M Quade, AR Akkineni, C Rentsch, ... Advanced healthcare materials 8 (7), 1801512, 2019 | 52 | 2019 |
Three-dimensional bioprinting of volumetric tissues and organs D Kilian, T Ahlfeld, AR Akkineni, A Lode, M Gelinsky MRS Bulletin 42 (8), 585-592, 2017 | 52 | 2017 |
Three-dimensional plotted hydroxyapatite scaffolds with predefined architecture: Comparison of stabilization by alginate cross-linking versus sintering A Kumar, AR Akkineni, B Basu, M Gelinsky Journal of biomaterials applications 30 (8), 1168-1181, 2016 | 39 | 2016 |
Endosteal and perivascular subniches in a 3D bone marrow model for multiple myeloma MVJ Braham, T Ahlfeld, AR Akkineni, MC Minnema, WJA Dhert, FC Öner, ... Tissue Engineering Part C: Methods 24 (5), 300-312, 2018 | 36 | 2018 |
A hydrogel model incorporating 3D-plotted hydroxyapatite for osteochondral tissue engineering M Bartnikowski, AR Akkineni, M Gelinsky, MA Woodruff, TJ Klein Materials 9 (4), 285, 2016 | 34 | 2016 |
Three-dimensional plotting is a versatile rapid prototyping method for the customized manufacturing of complex scaffolds and tissue engineering constructs. Y Luo, AR Akkineni, M Gelinsky Zhongguo xiu fu Chong Jian wai ke za zhi= Zhongguo Xiufu Chongjian Waike …, 2014 | 19* | 2014 |
Addition of high acyl gellan gum to low acyl gellan gum enables the blends 3d bioprintable AR Akkineni, BS Elci, A Lode, M Gelinsky Gels 8 (4), 199, 2022 | 18 | 2022 |
Central growth factor loaded depots in bone tissue engineering scaffolds for enhanced cell attraction M Quade, S Knaack, AR Akkineni, A Gabrielyan, A Lode, A Rösen-Wolff, ... Tissue Engineering Part A 23 (15-16), 762-772, 2017 | 17 | 2017 |