Career opportunities
To become a neuroscientist, you would need to complete postgraduate study following your Bachelor of Science (BSc). With a BSc(Hons), postgraduate diploma or master's degree, you could have an exciting research career in a university, research institute, or in the pharmaceutical industry. With a PhD, you could be a leader in new research, combined with teaching at a university or in a research institution.
Neuroscience also provides a convenient first degree for those proceeding to postgraduate specialisation in professional or applied fields, such as law, medicine, pharmacy, physiotherapy, audiology or bioengineering.
Graduates with a BSc in Neuroscience possess valuable skills that are widely sought after by employers, including technical expertise in areas where there is a global shortage of skilled workers. You can read what some of our graduates have been up to on our website.
Explore the brain’s secrets
Discover the fascinating world of neuroscience at Otago, where expert teaching and diverse study options unlock the mysteries of the brain and prepare you for impactful careers.
Read transcript
Emma Bultitude:
Hi, my name is Emma, and I’m currently in my first year of postgraduate study in neuroscience. What I love about neuroscience is that the brain is such a complex organ, but this degree really breaks it down into all these different, really interesting components that you can hone in on to choose your own field. I feel like you can’t get this with any other degree at all, so if that sounds like you, then neuroscience is definitely the degree to study.
I would recommend neuroscience to anyone who’s got a really keen interest in how the body works, especially in regard to the brain, and also to anyone that’s interested in some of the different conditions and disorders that can arise, because so many of these are related to the brain.
Associate Professor Beulah Leitch:
Hello, my name is Beulah Leech, and I’m the director of the neuroscience programme here at the University of Otago. The University of Otago is the only university in New Zealand offering neuroscience as an undergraduate degree.
So, what is neuroscience? You won’t have studied it at school, but neuroscience is the study of the brain and the nervous system. Your brain is amazing—it’s packed with brain cells called neurons, and it’s been estimated that there are about 86 billion neurons in your brain. To put that into perspective, that’s almost equivalent to the number of stars in our galaxy, the Milky Way. So, the brain is one of the largest, most complex organs in our bodies, and studying it requires approaching it in a multidisciplinary way.
The brain is studied from its structure related to its function, from early development through childhood, adulthood, and into aging, as well as in disease and health.
Emma (continued):
Something which surprised me about neuroscience was the actual extent of all the processes that take place in the brain just to do something like lift your hand up. I was also surprised by how many different fields of study neuroscience crosses into. This is so useful because you can pick so many papers that are really specific to your overall desires.
Beulah (continued):
Our neuroscientists are spread across all different departments in the university, in health sciences and sciences, and they bring their expertise to teaching neuroscience to our undergraduates. So, if you come and study neuroscience at Otago, you will get access to those world experts in neuroscience across all the disciplines.
You will study the brain and the nervous system by taking core papers, but you also have a wide choice of papers that you can select as you get interested in the brain. This allows you to tailor your degree to your specific interests.
Emma (continued):
When I graduate, I’m hoping to continue my research aspect, but I’m also looking at getting involved in some sort of clinical neuroscience in my later life and using my knowledge to help people out.
Beulah (continued):
Our neuroscience graduates are wanted worldwide for different jobs. They’re very much in demand and desirable, and we’ve got students who are placed right around the globe, working in many different disciplines. In fact, 95% of our undergraduates and 100% of our postgraduates are in work or in further education within 18 months of completing their degree.
Emma (final thoughts):
Dunedin is an awesome place to study as well. It’s not too cold, and the student life is fantastic, as well as the university itself, which is just amazing.
Beulah (final thoughts):
Neuroscience is one of the most rapidly advancing and exciting fields of study. Neuroscientists are discovering every day more about how our brain works, how it makes us who we are, and how disease affects us. But there is so much more we need to know. The brain really is the final frontier—the last great unknown. Neuroscientists are its explorers. Come explore the brain with us here at Otago.
What papers will I take?
First year
Essential first-year papers provide introductions to cellular biology (CELS 191); human biology, particularly of the nervous system (HUBS 191); and biological psychology (PSYC 111).
Additional papers are required – most students choose chemistry (CHEM 191) but other options are available.
Please see our website for more details.
Note that most of these papers are included in the Health Sciences First Year (HSFY) course, with the exception of PSYC 111. Students who start their degree in HSFY and then change to Neuroscience can take PSYC 111 in their second year.
Second year
Here you can begin to “custom design” your Neuroscience degree. Neuroscience students take core papers in psychology, anatomy and physiology; as well as choosing optional papers from zoology, pharmacology, biochemistry and genetics.
Third year
Following their interests, third-year students choose from a variety of papers covering advanced topics in neuroscience, with an emphasis on the latest findings in research.
How will I study?
Due to the interdisciplinary nature of Neuroscience at Otago, teaching styles vary between papers. Many first- and second-year papers are taught through a combination of lectures and laboratory sessions, while third-year papers will include group projects and discussions. Assessments are varied and include written examinations and laboratory reports.
Neuroscience research at Otago
Neuroscientists at the University of Otago are involved in a range of exciting research. Neuroscience students learn about cutting-edge research being conducted at Otago, as well as research from around the world, and can work in the lab with Otago's neuroscientists as postgraduates.
Some examples of research being conducted at Otago:
- Professor Cliff Abraham is interested in the neural mechanisms of memory. His lab is also investigating biomarkers and therapeutic agents for Alzheimer's disease.
- Dr Olivia Harrison's research is focused on mental health and its relationship to interoception (how we perceive our body), with a particular focus on breathing.
- Associate Professor Yusuf Cakmak's research focuses on non-invasive peripheral neuromodulation, wearable sensors and mobile health applications.
- Professor Beulah Leitch is interested in the changes that occur at synapses (the contacts between brain cells that allow them to communicate with each other) during ageing and various brain disorders including epilepsy and Alzheimer's disease.
- Professor Colin Brown investigates how the brain controls reproduction and cardiovascular function.
- Dr Rosie Brown investigates the neural circuitry underlying parenting behaviour, and how hormones alter mood and behaviour in mothers.
- Associate Professor Stephanie Hughes studies how lysosomes (the waste disposal system in cells) contribute to neurodegenerative diseases, including childhood Batten disease, Alzheimer's disease and Parkinson's disease.
- Dr Paul Szyszka investigates olfactory search behavior in insects – what are their perceptual limits in olfaction, and what patterns of neural activities are behaviourally relevant?
Postgraduate options
Students who do particularly well can apply for entry to the Bachelor of Science with Honours (BSc(Hons)) programme after completing their Bachelor of Science (BSc) majoring in Neuroscience. This elite course offers ideal preparation for those interested in a career in neuroscience research.
Students can also enrol in a one-year postgraduate diploma or a two-year Master of Science (MSc).
Recommended background
Taking chemistry and biology until Year 13 is recommended. Students without good marks in chemistry are strongly advised to enrol in the Chemistry Bridging paper (BP607) during Summer School, prior to their first year of study.
Choose a study option
Whether you're embarking on your academic journey with our comprehensive undergraduate programmes or aiming to reach new heights through our advanced postgraduate offerings, Otago is here to support your aspirations.
Undergraduate qualifications
For new and current students studying towards a Bachelor's or other first degree. Explore undergraduate qualifications at Otago, designed to build a strong foundation in your chosen field, preparing you for a successful career or further study.
Note: this subject can also be studied as a minor.
Bachelor of Science (BSc)
A three-year degree offering flexibility to explore a major in Science along with other subjects
Bachelor of Arts and Science (BASc)
Combine two majors, one in Arts and one in Science, into a four-year degree and expand your future career prospects
Bachelor of Commerce and Science (BComSc)
Combine two majors, one in Commerce and one in Science, into a four-year degree and expand your future career prospects
Bachelor of Entrepreneurship (BEntr)
A three-year degree that equips you to change the world as you create new products, services and ideas
Ready to apply?
Take the first step towards your future in this subject.
Further study opportunities
Whether you are looking to bridge your undergraduate studies to advanced knowledge or aiming to specialise in a specific field, Otago offers a range of graduate and postgraduate options to suit your aspirations.
Diploma for Graduates (DipGrad)
The Diploma for Graduates (DipGrad), requiring study of at least seven papers (at least four of which are at 300-level o...
Postgraduate Study in Neuroscience
Explore postgraduate study in Neuroscience at Otago. Gain advanced knowledge, skills, and research opportunities in a su...
I really liked studying Neuroscience at Otago – it taught me how to look at research critically, to think about information being presented, and to apply a lens of curiosity over it.
Deanna Barwick
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Uniquely Otago
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Programme details
Compare programmes for this subject as a major and minor (where available).
| Level | Papers | Points |
|---|---|---|
| 100-level | CELS 191 Cell and Molecular Biology | 18 |
| HUBS 191 Human Body Systems 1, or PTWY 131 Introduction to the Human Body | 18 | |
| PSYC 111 Brain and Behaviour | 18 | |
| CHEM 191 The Chemical Basis of Biology and Human Health, or PHSI 191 Biological Physics | 18 | |
|
one further paper from BIOC 192, BIOL 112, or HUBS 192, CHEM 191, PHSI 191 Notes: (i) All of the 100-level required papers, except PSYC 111, should be taken in the first year of study to ensure unimpeded progress through the major subject requirements. (ii) PTWY 131 is only available to students enrolled in the Diploma in Science. | 18 | |
| 200-level | NEUR 201 Cellular and Molecular Neuroscience | 18 |
| NEUR 202 Systems Neuroscience | 18 | |
| PSYC 211 Brain and Cognition Note: For students with a major or minor in Neuroscience, the prerequisite for PSYC 211 is PSYC 111. It is common for Neuroscience students to enrol in PSYC 111 in semester one of their second year. | 18 | |
| 300-level |
Four of: ANAT 335, BMSC 307, BMSC 321, NEUR 303, PHAL 312, PHSL 341 , PSYC 313 , PSYC 317, PSYC 319 , PSYC 323, PSYC 330 , ZOOL 314 Note: No more than three 300-level papers with the same subject code (other than NEUR) may count towards the major subject requirements. | 72 |
| Plus |
144 further points; must include 54 points at 200-level or above Up to 90 points may be taken from outside Science Notes: (i) A list of recommended complementary papers can be found on the Neuroscience Programme Undergraduate Study webpage. (ii) Prerequisites for all papers are recorded on the paper information pages. Note that the prerequisite for PHAL 312 is PHAL 241. (iii) For students who entered the programme prior to 2024 please contact the Neuroscience programme for advice on programme requirements. | 144 |
| Total | 360 |
A minor subject can be included in many of our undergraduate degrees. To earn a minor, you typically must complete a minimum of 90 points in that subject, with at least 18 points at the 300-level.
Your minor can be a subject more commonly taken for a different degree. For example, a BCom majoring in Marketing can include Japanese as a minor subject. To include this subject as a minor in your application, first find a major subject through our Subject Search or Study Match.
You can check what’s required to receive the minor accreditation in the programme details below.
Available as a minor subject for a Bachelor of Arts (BA), Bachelor of Music (MusB), Bachelor of Performing Arts (BPA), Bachelor of Theology (BTheol), Bachelor of Science (BSc), Bachelor of Commerce (BCom), Bachelor of Entrepreneurship (BEntr), Bachelor of Health Science (BHealSc), Bachelor of Arts and Commerce (BACom), Bachelor of Arts and Science (BASc) or Bachelor of Commerce and Science (BComSc) degree
| Level | Papers | Points |
|---|---|---|
| 100-level | Note: Prerequisite papers for the 200-level papers required for the Neuroscience minor are CELS 191, HUBS 191 or PTWY 131*; PSYC 111; either CHEM 191 or PHSI 191; and one further paper from BIOC 192, BIOL 112, HUBS 192, CHEM 191, PHSI 191. All of these papers, except PSYC 111, should be taken in the first year of study if students intend to complete the 200-level papers in their second year of study. PSYC 111 may be taken in the second year. | |
* PTWY 131 is only available to students enrolled in the Diploma in Science. | ||
| 200-level |
NEUR 201 Cellular and Molecular Neuroscience NEUR 202 Systems Neuroscience PSYC 211 Brain and Cognition Note: For students with a major or minor in Neuroscience, the prerequisite for PSYC 211 is PSYC 111. It is common for Neuroscience students to enrol in PSYC 111 in semester one of their second year. | 54 |
| 300-level |
Two of ANAT 335, BMSC 307, BMSC 321, NEUR 303, PHAL 313, PHSL 341, PSYC 313,
PSYC 317, PSYC 319, PSYC 323, PSYC 330, ZOOL 314 Note: No more than one 300-level paper with the same subject code (other than NEUR) may count towards the minor subject requirements. | 36 |
| Note: Prerequisites for other 200- and 300-level papers are listed in the Prescriptions section of the Guide to Enrolment. | ||
| Total | 90 |
Papers
View a list of all related papers below.
NEUR papers
| Paper Code | Year | Title | Points | Teaching period |
|---|---|---|---|---|
| NEUR201 | 2025 | Cellular and Molecular Neuroscience | 18 points | Semester 1 |
| NEUR202 | 2025 | Systems Neuroscience | 18 points | Semester 2 |
| NEUR301 | 2025 | Current Topics in Neuroscience | 18 points | Semester 1 |
| NEUR303 | 2025 | Neuroendocrinology | 18 points | Semester 1 |
| NEUR452 | 2025 | Neurodegenerative Disorders | 20 points | Full Year |
| NEUR453 | 2025 | Applied Human Neuroscience | 20 points | Semester 1 |
| NEUR455 | 2025 | Sleep | 20 points | Not offered in 2025 |
| NEUR456 | 2025 | Magnetic Resonance Imaging in Neuroscience | 20 points | Semester 1 |
| NEUR459 | 2025 | Neuroendocrinology | 20 points | 1st Non standard period (7 May 2025 - 9 July 2025) |
| NEUR471 | 2025 | Special Topic | 20 points | Not offered in 2025 |
| NEUR472 | 2025 | Special Topic | 20 points | Not offered in 2025 |
| NEUR473 | 2025 | Special Topic | 20 points | Not offered in 2025 |
| NEUR480 | 2025 | Research Project | 40 points | Full Year, 1st Non standard period (14 July 2025 - 17 June 2026) |
| NEUR490 | 2025 | Dissertation | 60 points | Full Year |
| NEUR495 | 2025 | Master's Thesis Preparation | 40 points | Full Year |
More information
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Regulations on this page are taken from the 2025 Calendar and supplementary material.
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