Faculty of Health, Medicine and Behavioural Sciences
Availability:
Available for supervision
Stefan is a Staff Specialist in Neurology at the Princess Alexandra Hospital (PAH) and the Mater Centre for Neuroscience. He finished his training as neurologist in 2012.
He runs dedicated multiple sclerosis (MS) and Neuroimmunology clinics at the PAH, leading in modern MS therapies. Moreover, he has been at the forefront of advancing the field of neuroimmunology in Queensland, with establishment of dedicated neuroimmunology outpatient clinics at the RBWH and PAH, combining expertise from neurologists and immunologists in the care of this very complex group of disorders.
In addition to his busy, full-time clinical workload, Stefan has been involved as PI or CI in a range of clinical trials in the fields of MS, botulinum toxin, CIDP and Pompe’s disease. Additionally, he has performed and is involved in ongoing research projects of neuroimmunological disorders such as neuromyelitis optica, myasthenia gravis and autoimmune limbic encephalitis. He has been a member of the New Horizons study to assess prevalence of anti-neuronal antibodies in patients with new onset psychosis.
Prior to this, Stefan finished a PhD in the field of ‘Immunogenetics of Guillain-Barre Syndrome and Chronic inflammatory polyneuropathy’ at the University of Queensland in 2014. He also completed a doctoral thesis at the University of Heidelberg, Germany in 2002 in the field of T cell immunology. During this time, he has developed solid skills in bench-side immunological research.
Currently, he is neurological lead in a diverse group of clinicians and scientists investigating the role of antineuronal antibodies in neurological and psychiatric disease. He supervises 3 PhD students in the field of advanced imaging in autoimmune encephalitis and multiple sclerosis. He is currently building up a laboratory to test antineuronal antibodies using live cell assays.
Faculty of Health, Medicine and Behavioural Sciences
Availability:
Available for supervision
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Dr. Richard Gordon leads a multi-disciplinary, industry-partnered research program in Translational Neuroscience which integrates immunology, drug development, pharmacology, metabolomics and microbial metagenomics. His group aims to understand and therapeutically target key pathological mechanisms which drive the onset and progression of neurodegenerative disorders such as Parkinson’s disease (PD) and Amyotrophic Lateral Sclerosis (ALS). Their work combines target validation studies in human patients with mechanistic insights from disease models to develop and test novel therapeutic strategies that can be translated towards clinical trials.
Key research themes within this program include:
Understanding how chronic immune and inflammasome activation contribute to neurodegeneration in the CNS
The role of gut dysbiosis and gastrointestinal dysfunction in Parkinson’s disease pathophysiology
Therapeutic targeting of the gut-brain axis for neuroprotection
Drug discovery, development and repositioning for novel therapeutic targets
Discovery and validation of clinical biomarkers for PD and ALS
Clinical trials for disease-modifying therapeutic strategies
Affiliate of Centre for Innovation in Pain and Health Research (CIPHeR)
Centre for Innovation in Pain and Health Research
Faculty of Health, Medicine and Behavioural Sciences
Adjunct Senior Fellow
Australian Institute for Bioengineering and Nanotechnology
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Available for supervision
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I am a Research Fellow and Leader in Pain Relief Innovation at AIBN, UQ. My research interests sit at the interface of drug delivery and the pain field. My overarching research goal is to improve the quality of day to day life of patients suffering from chronic pain, by applying nanotechnology to the development of novel highly effective pain-killer products for improving chronic pain management. I am looking for highly motivated postgraduate students.
I also enjoy volunteering within the academic community, most notably as Head of the SBMS ECR Committee and Treasurer for The Queensland Chinese Association of Scientists and Engineers (QCASE). I am currently serving as guest editor of Pain Research and Management.and JoVE Methods Collection.
Research Interests
My research is focusing on nano-based drug formulation and development to improve chronic pain management. I have a broad and unique background in both pharmacology and drug delivery systems, with specific expertise in the development of novel drug products and testing their analgesic efficacy and safety including pharmacokinetic and pharmacodynamic studies. To date, I have established five different techniques to produce painkiller–loaded nanoparticles and nanofibers aimed at improving pain relief for patients where currently available pain-killers either lack efficacy or produce dose-limiting side-effects. For example, there is a small and very potent peptide that has been on the market as a chemical for over 10 years but which cannot be used as a therapeutic due to its short half-life and poor oral bioavailability. In the form of my nanoparticles, that peptide has the potential to become an oral treatment for improving pain management in patients whose pain is currently poorly alleviated by clinically used pain-killers. I have significant expertise in the use of rodent pain models to assess novel analgesics, and I have received excellent training in conducting research in accordance with the stringent requirements of the Quality Management System (quality accreditations (GLP and ISO17025) from NATA). Together, my knowledge, skills and experience will facilitate the efficient translation of my research from the bench to the clinic.
The current focus of the lab is on the development of drug-products to solve one of the largest unmet medical needs in the pain field through use of sustainable materials. 1) We are developing multifunctional sutures including biodegradable pain relief sutures. 2) We are developing my innovative novel nanoparticles, which deliver innate-immune targeting peptides for the treatment of cancer and cancer-related pain. We are establishing a platform for the development of safe, effective delivery for other small molecule peptide drugs in general to pave their way to clinical trials. 3) Our research also investigates the role of C5a and C3a, estrogen, etc. in the pathogenesis of chronic pain including neuropathic pain, cancer-related pain, low back pain and OA pain.
We work in collaboration with other leading Australian and international researchers to stay at the forefront of the drug delivery systems field and the pain field. We also provide preclinical evaluation of novel compounds and formulations.
School of Electrical Engineering and Computer Science
Faculty of Engineering, Architecture and Information Technology
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Not available for supervision
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Dr Antonio Padilha L. Bo completed the BEng and MSc at the University of Brasília, Brazil, in 2004 and 2007, respectively, and he was awarded the PhD from the University of Montpellier, France, in 2011. From 2011 to 2019, he has been a tenured assistant professor in electrical engineering at the University of Brasilia, Brazil, where he coordinated Project EMA (Empowering Mobility and Autonomy), which is one of the teams that took part in the Cybathlon competition in 2016 and 2020. He has co-authored over 75 peer-reviewed publications, including awards from societies such as IFAC, IFESS, and MICCAI.
Over the past ten years, Dr Bo has been engaged in research projects concerning the development of technology dedicated to healthcare, particularly in the design of systems to be directly used by a patient in rehabilitation or assistive settings. Every effort featured strong experimental work and was conducted in close collaboration with local rehabilitation centers. In his work, tools from neuroengineering, robotics, control, virtual reality, and instrumentation are often integrated to create devices and algorithms to sense and control human motion. For instance, he has used wearable sensors to segment and estimate parameters of human movement in real-time, a technique that may lead to novel rehabilitation protocols. More importantly, his work has also focused on developing closed-loop control strategies for electrical stimulation applications and prosthetic/orthotic devices. Some examples include systems based on superficial electrical stimulation to enable persons with spinal cord injury to exercise using the lower limbs (e.g. in cycling or rowing) and to attenuate the effects of pathological tremor in essential tremor and Parkinson's Disease.
His long-term research goal is to develop and evaluate the use of noninvasive technology, including electrical stimulation, robotics, virtual reality, and wearable devices, for improving rehabilitation and assistance for persons with motor disabilities.
My research interests are centred around the structure and function of venom and silk polypeptides produced by arthropods, and their use in biotechnology and medicine. I am a Postdoctoral Fellow in the King laboratory in the Institute for Molecular Bioscience, the University of Queensland, Australia. Currently, I am investigating the composition, function and evolution of neglected insect venoms produced by assassin bugs (Hemiptera: Reduviidae), robber flies (Diptera: Asilidae) and nettle caterpillars (Lepidoptera: Limacodidae).