Dr Benedetta Gualeni
Post Doctoral Research Associate
Overview
Research Associate with Prof James Birchall
Publication
2022
- Howells, O. et al. 2022. Design, fabrication, and characterisation of a silicon microneedle array for transdermal therapeutic delivery using a single step wet etch process. European Journal of Pharmaceutics and Biopharmaceutics 171, pp. 19-28. (10.1016/j.ejpb.2021.06.005)
- Al Dalaty, A., Gualeni, B., Coulman, S. A. and Birchall, J. C. 2022. Models and methods to characterise levonorgestrel release from intradermally administered contraceptives. Drug Delivery and Translational Research 12, pp. 335-349. (10.1007/s13346-021-01091-5)
2021
- Gualeni, B. et al. 2021. Human-centred design of a new microneedle-based hormonal contraceptive delivery system [version 2; peer review: 2 approved with reservations]. Gates Open Research 5, article number: 96. (10.12688/gatesopenres.13233.2)
2020
- Bolton, C. J. W. et al. 2020. Hollow silicon microneedle fabrication using advanced plasma etch technologies for applications in transdermal drug delivery. Lab on a Chip 20(15), pp. 2788-2795. (10.1039/D0LC00567C)
2018
- Gualeni, B. et al. 2018. Minimally-invasive and targeted therapeutic cell delivery to the skin using microneedle devices. British Journal of Dermatology 178(3), pp. 731-739. (10.1111/bjd.15923)
Articles
- Howells, O. et al. 2022. Design, fabrication, and characterisation of a silicon microneedle array for transdermal therapeutic delivery using a single step wet etch process. European Journal of Pharmaceutics and Biopharmaceutics 171, pp. 19-28. (10.1016/j.ejpb.2021.06.005)
- Al Dalaty, A., Gualeni, B., Coulman, S. A. and Birchall, J. C. 2022. Models and methods to characterise levonorgestrel release from intradermally administered contraceptives. Drug Delivery and Translational Research 12, pp. 335-349. (10.1007/s13346-021-01091-5)
- Gualeni, B. et al. 2021. Human-centred design of a new microneedle-based hormonal contraceptive delivery system [version 2; peer review: 2 approved with reservations]. Gates Open Research 5, article number: 96. (10.12688/gatesopenres.13233.2)
- Bolton, C. J. W. et al. 2020. Hollow silicon microneedle fabrication using advanced plasma etch technologies for applications in transdermal drug delivery. Lab on a Chip 20(15), pp. 2788-2795. (10.1039/D0LC00567C)
- Gualeni, B. et al. 2018. Minimally-invasive and targeted therapeutic cell delivery to the skin using microneedle devices. British Journal of Dermatology 178(3), pp. 731-739. (10.1111/bjd.15923)