Our people

The BioDesign Hub’s core team is made up of a dynamic mix of researchers, AUT staff and postgraduate students. Our team has backgrounds and expertise in engineering, design, medicine and more.

Dr David White

Co-director – BioDesign Hub

Senior Researcher NZCC

Theme Leader: Augmented Breathing

I am a designer and mechanical engineer. Working with industry and clinicians my students and I have developed many innovative biomedical devices and research systems over the past two decades. These include a lung simulator, pressure limiting flow regulator, simulator of premature neonate lung surfactant dynamics, airway tracheal tissue test apparatus, and novel patient breathing interface systems such as the RACer for sleep apnoea and respiratory disorders. Most recently we have also developed a novel way of tracking the autonomic nervous system.

Dr Catherine Crofts

Co-director – BioDesign Hub

Senior Lecturer AUT

Theme co-leader: Metabolic Health Monitoring and Modification

A New Zealand registered pharmacist with 20+ years of clinical practice in both the community and hospital settings, I’ve always had a strong interest in de-prescribing and promoting healthy lifestyle factors, such as diet and physical activity to improve quality of life. My research focus is on the early detection of metabolic disease, e.g. type 2 diabetes, before there is disease and the damage that results. Some of the technologies we are developing offer opportunities for very early detection and therefore prevention.

Dr Christian Thoma

Assistant Director BioDesign Hub

Senior Lecturer AUT

Theme Leader: Autonomic Nervous System and Biorhythm Monitoring and Modification

I’m a nutritionist and  ACSM certified clinical exercise physiologist with a research background in diet and exercise in people with metabolic diseases. I’ve always been intrigued by how varied people are in their responses to a given diet or exercise plan, and frustrated by the difficulty of studying why. For me, technology such as that being developed in our Lab, is a way to realise a future of personalised health and performance enhancement.

Dr Lorenzo Garcia

Senior Lecturer AUT

Director AUT BioMd Lab

Theme leader: Musculoskeletal Biomechanics and Biomechatronics

With a background in applied physics, mechanical engineering, and biomedical engineering, I like to combine my role as technology manager with my interest to fulfil bioengineering needs in two areas: healthcare technology and ocean technology. As a BioDesign Engineer, I specialise in musculoskeletal biomechanics, technology transfer, innovation management, and the design of medical and bio-inspired devices.

Dr Kelvin Lau

Senior Lecturer AUT

Theme co-leader: Technology and Human-Microbe Interactions

As a molecular microbiologist, my research interests are in the broad fields of biotechnology and microbial ecology, with a focus on the use of bacterial communities as indicators of environmental and human health. I have specialist skills in the analysis of multivariate datasets and high-throughput sequencing data. My focus in the BioDesign Hub is on the modification of the human microbiota using respiratory and other technologies.

Dr Jeff Kilby

Senior Lecturer AUT

Theme leader: Wearable Sensor Signal Processing and Integration

I am an electrical engineer, and my primary research activity is in biomedical instrumentation, signal processing and wireless sensor technology including surface electromyography and optical monitoring of vital signs and movement dynamics. The technologies I develop are used in the context of monitoring, diagnosis and prognosis, and rehabilitation.

Dr Mangor Pedersen

Associate Professor AUT

Theme co-leader: Brain Signal Processing and Integration, and Artificial Intelligence

I am a neuroscientist with research interests in developing and validating new technologies for visualising and quantifying human brain networks – the connections between different parts of the brain. These technologies include functional magnetic resonance imaging (MRI), electroencephalography (EEG), artificial intelligence (AI), complex network science, and dynamical systems theory. These approaches have significantly contributed to our ability to model brain dysfunction in people who suffer from epilepsy, and professional athletes with mild traumatic brain injury (TBI).

Dr Imran Niazi

Associate Research Director, Centre for Chiropractic Research, New Zealand College of Chiropractic

Dean of Innovation & Technology, New Zealand College of Chiropractic

Theme co-leader: Brain Signal Processing and Integration, and Artificial Intelligence

I have been working as an active researcher in physical and neural rehabilitation for over a decade. My focus is on non-pharmacological/conservative modes of treatment to optimize the patient’s rehabilitation journey and improve their quality of life. I have extensive experience working in multidisciplinary teams that include chiropractors, physiotherapists, medical doctors, engineers, and neuroscientists, with a strong patient-centred, evidence-informed approach. My core expertise lies in data analysis, emphasizing the capture of the nuance of information from patients and clinicians with artificial intelligence (AI), which is missing in most traditional data analysis methods.

Dr Amira Hassouna

Senior Lecturer AUT

Research Theme: Metabolic Health Monitoring and Modification

I am a medical doctor with a focus on medical and applied biochemistry and molecular biology especially as it applies to metabolic and endocrine diseases.

Dr Maryam Doborjeh

Senior Lecturer AUT

Director AUT National Institute for Stroke and Applied Neuroscience

Theme co-leader: Brain Signal Processing and Integration, and Artificial Intelligence

I have been principally researching in the field of Neuroinformatics to develop new AI-based technologies for prognosis and diagnosis of neurological and mental disorders such as depression, cognitive impairment, dementia, and stroke. My research interests include developing computational models based on spiking neural networks and deep learning for modelling brain data such as EEG, MRI, and fMRI to improve decision making and decision support in neurological/mental health care.

Dr Samaneh (Sam) Madanian

Associate Professor AUT

Researcher AUT Institute of Biomedical Technologies

Theme leader: e-Health Technologies

I am a digital health expert and Fellow of Australasian Institute of Digital Health (AIDH), the peak body for digital health. I have a multi-disciplinary background that gives me a very broad overview of technologies, and their applications in complex environments such as healthcare. My industrial experience coupled with my academic background gives me a unique insight for providing innovative and practical digital health solutions to enhance health equity and people’s quality of life.

My research focuses on e-health technologies and applications, specifically IoT and data science approaches, in both mainstream healthcare and disaster situations.

Dr Stefan Marks

Senior Lecturer AUT

Director Sentience Lab

Theme leader: Immersive 3D Data Visualisation

My area of expertise and main research revolves around collaborative and immersive 3D virtual environments and their use for transforming data into stories and experiences. My key projects include a multi-device collaborative 3D visualisation of earthquake data, an educational application for the 3D anatomy of the human nasal cavity, and visualisations of 3D neural network structures and their activity – artificial as well as biological.

Dr Jemila Kester

Senior Lecturer AUT

Director AUT Kester Lab

Theme co-leader: Technology and Human-Microbe Interactions

I am a molecular microbiologist and mucosal immunologist, with extensive experience in biochemistry, live-cell imaging and image-based analysis, microfluidics and microfabrication, systems biology and ‘omics analysis, and “on-chip” and animal models of disease. I have co-authored papers in cancer biology, microbiology and infectious disease, and bioengineering. In the BioDesign Hub, I apply a cross-disciplinary approach to explore, understand, and ultimately manipulate the multifactorial mechanisms of host-microbe and microbe-microbe interactions in the human gastrointestinal tract.