Supachai Reakasame
Supachai Reakasame
Doktorand
Advanced bioinks for biofabrication
Betreuer: Prof. Dr.-Ing. habil. Aldo R. Boccaccini
The objectives of this research project are to investigate new possibilities for the applications of ADA-Gel based hydrogels [1] as a bioink for 3D bio-printing technology. One approach being investigated is the development of composite hydrogels incorporatinf bioactive inorganic particles [2]. The bioink is intended to be use in 3D printing methods to construct complex structures for bone and vascular tissue engineering applications. Also the effects of different structure’s designs and biofabrication strategies on cell proliferation will be studied, including the in vitro characterisation of the novel constructs.
[1] Sarker, B., et al., Fabrication of alginate–gelatin crosslinked hydrogel microcapsules and evaluation of the microstructure and physico-chemical properties, Journal of Materials Chemistry B 2 (2014) 1470-1482.
[2] Leite, A. J., et al., Bioplotting of a bioactive alginate dialdehyde-gelatin composite hydrogel containing bioactive glass nanoparticles, Biofabrication 8(3) (2016) 035005.
2022
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An Innovative Arteriovenous (AV) Loop Breast Cancer Model Tailored for Cancer Research
In: Bioengineering 9 (2022), Art.Nr.: 280
ISSN: 2306-5354
DOI: 10.3390/bioengineering9070280 - , , , , , , :
MOULDING THE FUTURE OF 3D PRINTING: SACRIFICIAL MOULDS FOR THE FABRICATION OF HYDROGEL CONSTRUCTS
In: TISSUE ENGINEERING PART A, NEW ROCHELLE: 2022
2021
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Development of alginate dialdehyde-gelatin based bioink with methylcellulose for improving printability
In: Materials Science and Engineering C 128 (2021), Art.Nr.: 112336
ISSN: 0928-4931
DOI: 10.1016/j.msec.2021.112336
2020
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Cell-laden alginate dialdehyde–gelatin hydrogels formed in 3D printed sacrificial gel
In: Journal of Materials Science: Materials in Medicine 31 (2020), Art.Nr.: 31
ISSN: 0957-4530
DOI: 10.1007/s10856-020-06369-7 - , , , , :
Biofabrication and Characterization of Alginate Dialdehyde-Gelatin Microcapsules Incorporating Bioactive Glass for Cell Delivery Application
In: Macromolecular Bioscience (2020)
ISSN: 1616-5187
DOI: 10.1002/mabi.202000138 - , , , , :
Rational design of a triple-layered coaxial extruder system: In silico and in vitro evaluations directed toward optimizing cell viability
In: International Journal of Bioprinting 6 (2020), S. 1-10
ISSN: 2424-7723
DOI: 10.18063/IJB.V6I4.282
2019
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Oxidized alginate hydrogels with the GHK peptide enhance cord blood mesenchymal stem cell osteogenesis: A paradigm for metabolomics-based evaluation of biomaterial design
In: Acta Biomaterialia 88 (2019), S. 224-240
ISSN: 1742-7061
DOI: 10.1016/j.actbio.2019.02.017 - :
Alginate-Gelatin based hydrogels for scaffold development and biofabrication in tissue engineering (Dissertation, 2019)
2018
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Oxidized Alginate-Based Hydrogels for Tissue Engineering Applications: A Review
In: Biomacromolecules 19 (2018), S. 3-21
ISSN: 1525-7797
DOI: 10.1021/acs.biomac.7b01331 - , , , :
Cell laden alginate-keratin based composite microcapsules containing bioactive glass for tissue engineering applications.
In: Journal of Materials Science: Materials in Medicine 29 (2018), S. 185
ISSN: 0957-4530
DOI: 10.1007/s10856-018-6195-5
2017
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Biofabrication of vessel grafts based on natural hydrogels
In: Current Opinion in Biomedical Engineering 2 (2017), S. 83-89
ISSN: 2468-4511
DOI: 10.1016/j.cobme.2017.05.003 - , , , , , , , :
Cell specificity of magnetic cell seeding approach to hydrogel colonization
In: Journal of Biomedical Materials Research Part A 105 (2017), S. 2948-2957
ISSN: 1549-3296
DOI: 10.1002/jbm.a.36147