2025 Journal Article Lipid nanoparticles and transcranial focused ultrasound enhance the delivery of SOD1 antisense oligonucleotides to the murine brain for ALS therapyEdiriweera, Gayathri R., Sivaram, Amal J., Cowin, Gary, Brown, Mikayla L., McAlary, Luke, Lum, Jeremy S., Fletcher, Nicholas L., Robinson, Liam, Simpson, Joshua D., Chen, Liyu, Wasielewska, Joanna M., Byrne, Ella, Finnie, John W., Manavis, Jim, White, Anthony R., Yerbury, Justin J., Thurecht, Kristofer J. and Vine, Kara L. (2025). Lipid nanoparticles and transcranial focused ultrasound enhance the delivery of SOD1 antisense oligonucleotides to the murine brain for ALS therapy. Journal of Controlled Release, 378, 221-235. doi: 10.1016/j.jconrel.2024.11.074 |
2020 Journal Article Effect of chain‐end chemistries on the efficiency of coupling antibodies to polymers using unnatural amino acidsSivaram, Amal J., Wardiana, Andri, Preethi, S. S. Hema, Fuchs, Adrian V., Howard, Christopher B., Fletcher, Nicholas L., Bell, Craig A. and Thurecht, Kristofer J. (2020). Effect of chain‐end chemistries on the efficiency of coupling antibodies to polymers using unnatural amino acids. Macromolecular Rapid Communications, 41 (21) 2000294, e2000294. doi: 10.1002/marc.202000294 |
2020 Journal Article Controlling the biological fate of micellar nanoparticles: balancing stealth and targetingSivaram, Amal J., Wardiana, Andri, Alcantara, Sheilajen, Sonderegger, Stefan E., Fletcher, Nicholas L., Houston, Zachary H., Howard, Christopher B., Mahler, Stephen M., Alexander, Cameron, Kent, Stephen J., Bell, Craig A. and Thurecht, Kristofer J. (2020). Controlling the biological fate of micellar nanoparticles: balancing stealth and targeting. ACS Nano, 14 (10) acsnano.0c06033, 13739-13753. doi: 10.1021/acsnano.0c06033 |
2018 Journal Article Recent advances in the generation of antibody-nanomaterial conjugatesSivaram, Amal J, Wardiana, Andri, Howard, Christopher B, Mahler, Stephen M and Thurecht, Kristofer J (2018). Recent advances in the generation of antibody-nanomaterial conjugates. Advanced Healthcare Materials, 7 (1) 1700607. doi: 10.1002/adhm.201700607 |
2017 Journal Article Development of drug delivery systems for taxanes using ionic gelation of carboxyacyl derivatives of chitosanSkorik, Yury A., Golyshev, Anton A., Kritchenkov, Andreii S., Gasilova, Ekaterina R., Poshina, Daria N., Sivaram, Amal J. and Jayakumar, Rangasamy (2017). Development of drug delivery systems for taxanes using ionic gelation of carboxyacyl derivatives of chitosan. Carbohydrate Polymers, 162, 49-55. doi: 10.1016/j.carbpol.2017.01.025 |
2016 Journal Article Integration of in silico modeling, prediction by binding energy and experimental approach to study the amorphous chitin nanocarriers for cancer drug deliveryGeetha, P., Sivaram, Amal J., Jayakumar, R. and Gopi Mohan, C. (2016). Integration of in silico modeling, prediction by binding energy and experimental approach to study the amorphous chitin nanocarriers for cancer drug delivery. Carbohydrate Polymers, 142, 240-249. doi: 10.1016/j.carbpol.2016.01.059 |
2016 Journal Article Combinatorial nanomedicines for colon cancer therapyAnitha, A., Maya, S., Sivaram, Amal J., Mony, U. and Jayakumar, R. (2016). Combinatorial nanomedicines for colon cancer therapy. WIREs Nanomedicine and Nanobiotechnology, 8 (1), 151-159. doi: 10.1002/wnan.1353 |
2015 Journal Article Nanogels for delivery, imaging and therapySivaram, Amal J., Rajitha, P., Maya, S., Jayakumar, R. and Sabitha, M. (2015). Nanogels for delivery, imaging and therapy. Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology, 7 (4), 509-533. doi: 10.1002/wnan.1328 |
2015 Journal Article Radiofrequency ablation of drug-resistant cancer cells using molecularly targeted carboxyl-functionalized biodegradable grapheneSasidharan, Abhilash, Sivaram, Amal J., Retnakumari, Archana P., Chandran, Parwathy, Malarvizhi, Giridharan Loghanathan, Nair, Shantikumar and Koyakutty, Manzoor (2015). Radiofrequency ablation of drug-resistant cancer cells using molecularly targeted carboxyl-functionalized biodegradable graphene. Advanced Healthcare Materials, 4 (5), 679-684. doi: 10.1002/adhm.201400670 |