Career opportunities
A degree in this subject gives you strong foundations in genetics, molecular biology and developmental science. Many students move into roles where they apply biological knowledge to human health, research or technology.
Career pathways include:
- Research or laboratory positions in biomedical, biotechnology or health science settings
- Technical, regulatory or policy roles within government agencies and health organisations
- Science communication, education or advisory work in health and research sectors
- Roles in clinical, medical or biotech industries including product, sales or support positions
- Pathways into professional health programmes or postgraduate research (Honours, Master’s, PhD)
Your path to biomedical discovery
Explore how Biomedical Science at Otago helps you understand the human body, from cells to diseases. Hear from students and experts about hands-on learning, specialisations, and career opportunities.
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Jonika Edgecombe:
Talofa lava, my name is Jonika, and I have just finished my Bachelor of Biomedical Science. My major was reproduction, genetics, and development.
The thing I really enjoyed about this degree was that I got to experience a broad range of topics within my major. I discovered that I really enjoyed genetics, and I got to explore that way more in depth. I discovered areas of the subject that I didn’t even know existed, and I’m now pursuing that at a postgraduate level, doing my honours this year.
If you’re thinking about biomedical sciences, I really recommend you talk to a careers advisor at your school or any students who have gone to Otago that you know of, who can maybe give you some advice about it.
Associate Professor Liz Ledgerwood:
Kia ora, I’m Liz Ledgerwood, and I’m the Director of the Biomedical Sciences Programme at Otago University.
So, what is biomedical science? Biomedical science is the study of the human body, from what’s happening in the individual cells through to the whole body, and then how we might diagnose diseases and how we might treat diseases.
If you’re really interested in how our body works and how we can understand how our body works, you might be interested in doing a degree in Biomedical Sciences at Otago.
The Biomedical Sciences degree is a three-year programme. In your first year, you study biology subjects, as well as chemistry and physics. You can take these subjects either as part of Health Sciences First Year or the Biomedical Sciences First Year programme. After this, you have the opportunity in Biomedical Sciences to choose a combination of subjects that really interests you.
We have six majors. For example, you might combine anatomy and genetics to study reproduction, development, and genetics, or you might combine physiology and pharmacology in your study of drugs and human health. It’s really a degree that you can tailor to your interests.
Our graduates in Biomedical Science go on to a wide range of careers, both in New Zealand and internationally. Many of our students go on to further study—this could be with us, as we have postgraduate programmes in Dunedin, Wellington, and Christchurch. Other students go on to study in health professional programmes such as medicine, dentistry, or audiology.
We also have students who become involved in education—some become secondary school teachers, others university lecturers like me. Some go on to work for the government, and try and put into practice, what we learn in research, into government policy.
Otago University is a world leader in Biomedical Sciences. When you come to study Biomedical Science at Otago, you’ll be taught by researchers who are at the forefront of this field, whether it’s in infectious diseases or in cancer genetics, for example. You’ll really get the opportunity for hands-on learning—not just lectures, but also a lot of practical work—so you can truly understand how we discover what we know about our bodies.
So, if this sounds like you—if you’re really interested in how our body works and how we can treat people—really think about coming to Otago and doing a degree in Biomedical Sciences.
How you will learn
You’ll learn through lectures, laboratories and real research experiences. You’ll work with modern tools used in genetics and developmental biology, and collaborate with students from biochemistry, anatomy, microbiology and related fields.
Expect hands-on learning, you might analyse genomic data, observe embryo development or design experiments using molecular techniques. You’ll build skills in experimental design, data interpretation and scientific communication, and see how discoveries in genetics and development connect to human health and biology.
Recommended high school subjects for undergraduate study
An interest in life sciences is helpful along with curiosity about how living systems work. Subjects such as biology, chemistry and mathematics or statistics provide a strong foundation.
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.
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.
A community that lives and breathes discovery
You will study within a research environment that brings together experts in genetics, reproductive biology, anatomy, biochemistry and related fields. You will have access to supportive teachers, modern laboratories and a campus culture that encourages curiosity and collaboration. Many students find opportunities to join research projects that explore real questions about genes, development and reproductive health. Dunedin offers an energetic student community and a place where you can focus, connect and grow.
Programme details
Compare programmes for this subject.
| Level | Papers | Points |
|---|---|---|
| 100-level | BIOC 192 Foundations of Biochemistry | 18 |
| CELS 191 Cell and Molecular Biology | 18 | |
| CHEM 191 The Chemical Basis of Biology and Human Health | 18 | |
| HUBS 191 Human Body Systems 1 (or PTWY 131 Introduction to the Human Body) | 18 | |
| HUBS 192 Human Body Systems 2 | 18 | |
|
Recommended: HUNT 141 Understanding Human Nutrition MAOR 102 Māori Society PHSI 191 Biological Physics STAT 110 Statistical Methods or STAT 115 Introduction to Biostatistics | ||
| Note: PTWY 131 is only available to students enrolled in the Diploma in Science. | ||
| 200-level | ANAT 243 Reproductive and Developmental Biology | 18 |
| GENE 221 Molecular and Microbial Genetics | 18 | |
| GENE 223 Developmental and Applied Genetics | 18 | |
|
At least 54 points from: ANAT 241 Human Biology: Cells to Systems BIOC 221 Molecular Biology GENE 222 Genes, Chromosomes and Populations MICR 223 Infection and Immunity NEUR 201 Cellular and Molecular Neuroscience NEUR 202 Systems Neuroscience PATH 201 Foundations in Human Pathology | 54 | |
| Note: GENE 222 required if intending to take GENE 313 in the third year. | ||
| 300-level | ANAT 312 Advanced Reproduction and Development | 18 |
| GENE 314 Developmental Genetics | 18 | |
| GENE 315 Genomes | 18 | |
|
At least 18 points from: ANTH 322 Conceiving Reproduction BIOC 352 Advanced Molecular Biology and Bioinformatics GENE 313 Medical Genetics MICR 332 Health Microbiology MICR 334 Advanced Immunology PATH 301 Advanced Pathology PATH 302 Cancer Biology PHSL 341 Molecular, Cellular and Integrative Neurophysiology (I) | 18 | |
| Plus | 90 further points | 90 |
| Note: If thinking of doing BBiomedSc Hons, then students must take at least 126 points at 200-level and 90 points at 300-level. | ||
| Total | 360 |
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