Dr Nicholas J. Westra van Holthe is a synthetic chemist working at the interface of chemistry and the biological function of nanomaterials, with expertise in functional chemistry and nanotechnology for biological applications. Nick is currently a Postdoctoral Research Fellow at the Australian Institute for Bioengineering and Nanotechnology. Nick obtained a Ph.D. in Organic Chemistry, Nanomedicine, and Molecular Imaging from The University of Queensland under the supervision of Professor Kristofer Thurecht.
Whilst Nick's primary expertise is in synthetic chemistry and the development and application of polymer-based nanoparticles, Nick's expertise also extends to photoacoustic molecular imaging as Nick helped establish the photoacoustic molecular imaging capability within the Centre for Advanced Imaging at The University of Queensland and has published several photoacoustic molecular imaging studies. Nick's Ph.D. thesis presents the synthesis of a highly effective photoacoustic contrast agent along with the development of a polymeric contrast agent that provides the means to visualise and assess nanoparticle penetration into solid tumours in real-time during in vivo imaging experiments. Nick also presents a detailed investigation of the photoacoustic efficacy and photophysical properties of contrast enhancing agents and proposes a novel mechanism for photoacoustic signal production.
Nick has research experience working with industry partners and has held several professional research positions. During 2019-21 Nick worked with Associate Professor Idriss Blakey to develop a nanoparticle-based hydrogen sulfide sensor. From 2022 Nick’s synthetic materials chemistry expertise has been utilised on a $USD 1.25M US Department of Defence funded grant for the preclinical testing of a polymer-protein conjugate as a haemostatic hydrogel for combat casualties with catastrophic haemorrhage.
More recently, Nick has been working with Professor Alan Rowan on the development of synthetic polymer-peptide conjugates that form biomimetic hydrogels and mimic the mechanic and functional properties of the extracellular membrane, providing the means to study cells in a controlled biomimetic 3-dimentional cell culture system.
Journal Article: Polysuccinimide-based nanoparticle: A nanocarrier with drug release delay and zero burst release properties for effective theranostics of cancer
Moonshi, Shehzahdi S., Vazquez-Prada, Karla X., Adelnia, Hossein, Westra van Holthe, Nicholas J., Wu, Yuao, Tang, Joyce, Bulmer, Andrew C. and Ta, Hang Thu (2024). Polysuccinimide-based nanoparticle: A nanocarrier with drug release delay and zero burst release properties for effective theranostics of cancer. Applied Materials Today, 37 102150, 102150. doi: 10.1016/j.apmt.2024.102150
Journal Article: Spiky silver–iron oxide nanohybrid for effective dual-imaging and synergistic thermo-chemotherapy
Moonshi, Shehzahdi S., Vazquez-Prada, Karla X., Tang, Joyce, Westra van Holthe, Nicholas J., Cowin, Gary, Wu, Yuao, Tran, Huong D. N., Mckinnon, Ryan, Bulmer, Andrew C. and Ta, Hang Thu (2023). Spiky silver–iron oxide nanohybrid for effective dual-imaging and synergistic thermo-chemotherapy. ACS Applied Materials and Interfaces, 15 (36), 42153-42169. doi: 10.1021/acsami.3c04696
Westra van Holthe, Nicholas (2023). Photoacoustic molecular imaging in nanomedicine: development of a polymeric probe to assess tumour penetration and reassessment of the contrast enhancement mechanism. PhD Thesis, Australian Institute for Bioengineering and Nanotechnology, The University of Queensland. doi: 10.14264/48933ed
Moonshi, Shehzahdi S., Vazquez-Prada, Karla X., Adelnia, Hossein, Westra van Holthe, Nicholas J., Wu, Yuao, Tang, Joyce, Bulmer, Andrew C. and Ta, Hang Thu (2024). Polysuccinimide-based nanoparticle: A nanocarrier with drug release delay and zero burst release properties for effective theranostics of cancer. Applied Materials Today, 37 102150, 102150. doi: 10.1016/j.apmt.2024.102150
Spiky silver–iron oxide nanohybrid for effective dual-imaging and synergistic thermo-chemotherapy
Moonshi, Shehzahdi S., Vazquez-Prada, Karla X., Tang, Joyce, Westra van Holthe, Nicholas J., Cowin, Gary, Wu, Yuao, Tran, Huong D. N., Mckinnon, Ryan, Bulmer, Andrew C. and Ta, Hang Thu (2023). Spiky silver–iron oxide nanohybrid for effective dual-imaging and synergistic thermo-chemotherapy. ACS Applied Materials and Interfaces, 15 (36), 42153-42169. doi: 10.1021/acsami.3c04696
Gold-iron oxide nanoparticle: A unique multimodal theranostic approach for thrombosis
Fithri, Najma Annuria, Wu, Yuao, Cowin, Gary, Akhter, Fahima, Tran, Huong D.N., Tse, Brian, van Holthe, Nicholas Westra, Moonshi, Shehzahdi S., Peter, Karlheinz, Wang, Xiaowei, Truong, Nghia P. and Ta, Hang Thu (2023). Gold-iron oxide nanoparticle: A unique multimodal theranostic approach for thrombosis. Applied Materials Today, 31 101750, 1-14. doi: 10.1016/j.apmt.2023.101750
Janowicz, Phillip W., Houston, Zachary H., Bunt, Jens, Fletcher, Nicholas L., Bell, Craig A., Cowin, Gary, Howard, Christopher B., Taslima, Dewan, Westra van Holthe, Nicholas, Prior, Amber, Soh, Vanessa, Ghosh, Saikat, Humphries, James, Huda, Pie, Mahler, Stephen M., Richards, Linda J. and Thurecht, Kristofer J. (2022). Understanding nanomedicine treatment in an aggressive spontaneous brain cancer model at the stage of early blood brain barrier disruption. Biomaterials, 283 121416, 121416. doi: 10.1016/j.biomaterials.2022.121416
Westra van Holthe, Nicholas (2023). Photoacoustic molecular imaging in nanomedicine: development of a polymeric probe to assess tumour penetration and reassessment of the contrast enhancement mechanism. PhD Thesis, Australian Institute for Bioengineering and Nanotechnology, The University of Queensland. doi: 10.14264/48933ed