Dr. Gillian D. Mahumane is a pharmaceutical scientist and lecturer whose research advances neural-targeted and vaginal drug delivery systems with a strong focus on translational pharmaceutics and global health impact. Her work spans innovative platforms such as antimicrobial cryogels, polymeric films, and nanofiber scaffolds for applications in neural repair and women’s health. She has published extensively in peer-reviewed journals, contributed to book chapters, and presented at international conferences, establishing her as a thought leader in advanced drug delivery. Beyond research, she is deeply committed to mentorship, supervising postgraduate students, co-founding research support initiatives, and shaping biopharmaceutics curricula to bridge science and practice. Recognition through prestigious fellowships and membership in the Global Young Academy highlights her growing leadership in science communication, innovation management, and policy engagement. Combining scientific excellence, mentorship, and advocacy, Dr. Mahumane exemplifies a new generation of researchers dedicated to advancing biomedical innovation and societal health impact.

Professional Profile 

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Education

Dr. Gillian D. Mahumane has built a solid academic foundation in pharmaceutical sciences through progressive qualifications at the University of the Witwatersrand. She completed her Bachelor of Pharmacy, where her early research explored drug delivery using polycaprolactone-based systems. Building on this, she earned her Master of Pharmacy with distinction, focusing on the antimicrobial activity and chemical analysis of Eucalyptus radiata essential oil, which deepened her expertise in natural products and pharmaceutical analysis. Her doctoral studies marked a significant step into advanced biomaterials and regenerative medicine, culminating in a PhD in which she designed and evaluated nano-reinforced hydro-filled 3D scaffolds for neural tissue engineering. This multidisciplinary training equipped her with expertise in pharmaceutics, biomaterials, and pharmacokinetics, forming the basis for her later research into neural-targeted and vaginal drug delivery platforms. Her academic journey reflects both depth in specialized research and breadth across pharmaceutical sciences, positioning her for leadership in translational pharmaceutics.

Experience

Dr. Gillian Mahumane is a lecturer in biopharmaceutics and a researcher with the Wits Advanced Drug Delivery Platform, where she combines teaching, mentorship, and cutting-edge research. Her role encompasses supervising postgraduate projects, integrating research into curriculum design, and driving institutional research support strategies. She has gained valuable international experience through fellowships with the Population Council’s Centre for Biomedical Research in New York, focusing on vaginal drug delivery innovation, and the UCL-Wits Public Voices Fellowship, which enhances her leadership in science communication. In addition to her academic contributions, she has engaged in policy-linked research initiatives and co-founded a research support group that mentors over thirty postgraduate students. Her professional journey is defined by a balance of laboratory innovation, translational research, and capacity building. Through these roles, she has cultivated expertise not only as a scientist but also as an educator, mentor, and emerging leader in pharmaceutical innovation and global health.

Research Focus

Dr. Gillian Mahumane’s research is anchored in translational pharmaceutics, particularly neural-targeted and vaginal drug delivery systems designed to address unmet clinical needs. She has explored advanced biomaterials, including nanofiber scaffolds, polymeric films, and antimicrobial cryogels, with applications ranging from brain tissue regeneration to intravaginal microbicide delivery. Her doctoral research pioneered nano-reinforced hydro-filled 3D scaffolds for neural repair, addressing challenges in tissue engineering and regenerative medicine. More recently, she has advanced vaginal platforms for multipurpose prevention technologies, integrating biopharmaceutics and global health perspectives. Complementing these laboratory innovations, she contributes to pharmacokinetics research, designing teaching models and patient-centered dosage regimens. Her focus extends beyond discovery to translation, aiming to move research outputs into real-world applications that improve health outcomes. By integrating pharmaceutical sciences, biomaterials engineering, and policy engagement, her research not only contributes to academic knowledge but also supports broader societal impact in women’s health and neurotherapeutics.

Award and Honor

Dr. Gillian Mahumane has been recognized with multiple awards and fellowships that underscore both her scientific excellence and her emerging leadership in global health research. She is a member of the Global Young Academy, an honor that acknowledges her as a voice for African biomedical innovation and positions her within an influential international network of scientists. Her selection as a CBR/Jeiven Fellow at the Population Council in New York highlighted her contributions to vaginal drug delivery innovation, while her UCL-Wits Public Voices Fellowship reflects her strength in science communication and policy engagement. She has also been featured in initiatives promoting women in science, innovation in pharmaceutical education, and capacity building in Africa. Beyond formal fellowships, her research and teaching have been showcased through institutional awards, invited talks, and international conference presentations. These recognitions emphasize not only her scholarly achievements but also her commitment to mentorship, innovation, and societal health impact.

Publication Top Notes

Title: 3D scaffolds for brain tissue regeneration: architectural challenges
Authors: GD Mahumane, P Kumar, LC du Toit, YE Choonara, V Pillay
Year: 2018
Citations: 90

Title: Repositioning N-Acetylcysteine (NAC): NAC-Loaded Electrospun Drug Delivery Scaffolding for Potential Neural Tissue Engineering Application
Authors: GD Mahumane, P Kumar, V Pillay, YE Choonara
Year: 2020
Citations: 29

Title: Chemical composition and antimicrobial activity of Eucalyptus radiata leaf essential oil, sampled over a year
Authors: GD Mahumane, SF van Vuuren, G Kamatou, M Sandasi, AM Viljoen
Year: 2016
Citations: 13

Title: Impact of illegible prescriptions on dispensing practice: a Pilot Study of South African Pharmacy Personnel
Authors: T Modi, N Khumalo, R Shaikh, Z Booth, S Leigh-de Rapper, GD Mahumane
Year: 2022
Citations: 9

Title: Antimicrobial activity and chemical analysis of Eucalyptus radiata leaf essential oil
Author: GD Mahumane
Year: 2016
Citations: 5

Title: A review of bigels for neurotrauma therapeutics: Structural insights for tissue microenvironment alignment
Authors: YC Botle Moswatsi, GD Mahumane, Pradeep Kumar
Year: 2025
Citations: 1

Title: The potential for Eucalyptus radiata leaf essential oil use as a commercial antimicrobial
Authors: GD Mahumane, SF van Vuuren, AM Viljoen, G Kamatou
Year: 2015
Citations: 1

Title: A Dual-Template Molecularly Imprinted Polymer to Inhibit Quorum Sensing Molecules: Theoretical Design, Optimized Synthesis, Physicochemical Characterization and Preliminary Analysis
Authors: PL Khonzisizwe Somandi, TS Mwale, M Sobiech, D Klejn, GD Mahumane, YE Choonara, J Giebułtowicz, P Luliński
Year: 2025

Title: Bio-inspired nanofibres: Weaving biological tissue with nanomedicine to repair brains
Authors: GD Mahumane, YE Choonara
Year: 2022

Title: Nano-enabled systems for neural tissue regenerative applications
Authors: GD Mahumane, P Kumar, YE Choonara
Year: 2022

Title: Nano-reinforced hydro-filled 3D scaffold for neural tissue engineering (PhD Thesis)
Author: GD Mahumane
Year: 2021

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