Biomedical science aims to increase our knowledge of human health and provide fresh approaches to medical problems. It is an interdisciplinary area that includes biology, medicine, and engineering. It consists of various disciplines, like molecular biology, genetics, biochemistry, and physiology, focused on figuring out the complex processes involved in human biology and illness. Biomedical science is crucial in influencing the future of healthcare, solving global health challenges, and improving people’s quality of life worldwide through cutting-edge technology and collaborative efforts.
Biomedical science has a long history, with significant developments and discoveries influencing the discipline. Pioneers like Louis Pasteur, Robert Koch, and Alexander Fleming revolutionised our understanding of infectious illnesses from prehistoric medical practices through the invention of the microscope in the 17th century. Genetic and genomic advances were made possible by Watson and Crick’s discovery of DNA structure in 1953. Advances in diagnostics, treatments, and personalised healthcare have been fueled by the development of biotechnology, medical imaging, and precision medicine in recent decades.
The advancement of biomedical science is essential for enhancing human welfare and healthcare. It motivates scientific investigation into illnesses’ aetiologies, pathophysiologies, and therapies, resulting in advances in therapeutic and preventive medicine. Life-saving vaccinations, operations, and pharmacological regimens are all products of biomedical innovation. Additionally, public health programs, disease surveillance, and policy-making are all influenced by biomedical science, which eventually improves people’s quality of life.
Through laboratory work, research projects, and clinical encounters, a biomedical course aids students in acquiring both academic knowledge and practical skills. Understanding human health and disease processes, creating diagnostic tools, looking into possible treatments, and looking into cutting-edge topics like biotechnology and medical imaging are all significant curriculum components. The following modules are included:
- Biology and Anatomy
- Chemistry of Life and Genetics
- Therapeutics and Pharmacology
- Mechanisms of Pathology and Disease
- Techniques for Biomedical Laboratories
- Research in Biomedicine and Experimental Planning
- Medical Regulations and Ethical Standards
Between 2021 and 2031, research predicts a 9.8% increase in employment for biomedical engineers. During that time, 1,700 positions are expected to become available. A career in biomedical engineering involves investigating and creating remedies for physical and medical issues.
In conclusion, biomedical is essential for expanding our knowledge of human health and solving medical problems. Biomedical science has the potential to alter healthcare, improve patient outcomes, and advance the welfare of people and society on a global scale because of its multidisciplinary character and emphasis on research and innovation.
Why Study This Program
Various Job Opportunities
You can work in forensics, clinical biochemistry, genetics, haematology, immunology, toxicology, and research and become a biomedical scientist focusing on antibiotic-resistant superbugs. Writing for reputable scientific journals is another way to educate the general public about your knowledge of biological science. Biomedical researchers can help advance understanding in genetics, molecular biology, and pharmaceutical development. They can carry out tests, analyse data, and contribute to scholarly articles while working for universities, research organisations, or pharmaceutical firms.
Graduates in biomedicine might also pursue clinical careers as medical laboratory scientists or technicians working in hospitals, clinics, or diagnostic labs. They are essential in the diagnosis of illnesses, the examination of patient samples, and the assistance of healthcare practitioners in making defensible judgments. Opportunities are available in various sectors where biomedical professionals work on creating original treatments, medications, and medical equipment. They may work in positions that ensure the safety and effectiveness of healthcare items, such as regulatory affairs, quality control, or product development.
Work to Preserve Humanity
Studying the biological sciences offers a fascinating path for those concerned about protecting humanity. Biomedicine is crucial to studying, treating, and eventually defeating illnesses that threaten human life in a world beset by multiple health issues. People can survive and live longer if we can aid with illness treatment. Your studies in the biomedical sciences will advance humanity whether or not you provide direct patient care, develop new technologies, enhance existing ones, look for answers to global challenges, or construct and maintain biomedical equipment. Superbugs resistant to antibiotics will keep evolving and figuring out new methods to strike.
Your training in the biological sciences can contribute to humanity’s survival and, ideally, prosperity. Additionally, studying physical sciences fosters a feeling of accountability and compassion for other people. It cultivates a profound understanding of the frailty of life and inspires people to put up unrelenting efforts to build a better, more sustainable future for all. In conclusion, a career in biomedical sciences presents a singular chance to contribute to preserving humankind through advancing medical knowledge, eradicating sickness, and enhancing people’s general well-being worldwide.
A Diverse Field
A compelling motivation to get a degree in the biological sciences is the field’s diversity and plenty of options. Biomedicine is a diversified area that attracts people with a wide range of interests and career goals since it involves many disciplines. Biomedical sciences encompass various fields, including genetics, molecular biology, pharmacology, and epidemiology. This variety enables students to investigate many subject areas and identify their areas of expertise. There is a place for everyone in the field of biomedicine, regardless of one’s preference for clinical practice, public health, or laboratory research. Moreover, the multidisciplinary character of biological sciences encourages interaction between experts from various backgrounds.
Biomedical researchers frequently collaborate with doctors, engineers, computer scientists, and policy specialists to address complicated health concerns. This partnership fosters the sharing of ideas and the creation of new solutions and expands one’s expertise. Additionally, there are possibilities to work in various contexts, including academic institutions, pharmaceutical firms, governmental agencies, hospitals, and non-profit organisations, thanks to the broad area of biomedical sciences. This adaptability enables people to follow their passions while tackling various health issues and positively influencing society.
In-Demand Skills
Biomedical science degrees are made to significantly improve your knowledge and in-demand skills, enabling you to be a better practitioner. With a biomedical degree, you’ll gain skills that make you an attractive candidate for a more senior position within your company or future employers. You’ll immediately use your lessons in a practical framework in your working laboratory. This is a chance to get more knowledge in a particular field of biomedical research that interests you. You’ll be able to demonstrate to managers and employers that you possess the expertise necessary to develop a specialised career path.
The study of biomedical sciences offers a promising future when skills in health care are in high demand. As understanding and treating complex diseases becomes increasingly essential, biomedical scientists play a critical role in research and innovation. Their expertise in genetics, pharmacology, and molecular biology is necessary for the people in this society. The demand for qualified biomedical scientists is rapidly increasing, providing opportunities in various fields. A degree in biomedical sciences opens the doors to a dynamic and rewarding career at the forefront of medical breakthroughs.
Conducting Rich-Research
For individuals enthusiastic about participating in several rich research possibilities, studying biomedical science offers an intriguing route. This profession provides a wide range of topics to investigate, from figuring out the intricacies of human genetics to looking into the disease-causing pathways. By studying biomedical science, you can contribute to groundbreaking research that can change medical procedures. While delving into the complexities of scientific inquiry, biomedical science enables you to strengthen your critical thinking and problem-solving abilities.
You gain knowledge of cutting-edge tools and creative approaches, preparing you for upcoming research projects. People who study biomedical science are more prepared to contribute to the field’s expanding corpus of knowledge. It provides countless options for people enthusiastic about having a lasting effect via scientific investigation. It offers doors to research careers in various areas of the field. For a long-lasting career that benefits you, studying biomedical science makes the most sense.
Why Study In Malaysia
Endless Opportunities for Discovery and Innovation
The study of biomedical opens up a world of endless possibilities for discovery and innovation. With rapid technological advances and the increasing importance of personalised medicine, there is a constant need for biomedical scientists to explore new frontiers. From unlocking the secrets of genetic diseases to developing innovative therapies, students in this field of biomedical have the opportunity to contribute to groundbreaking research that can shape the future of healthcare.
Impact on Life and Global Health
One of the most convincing reasons to study biomedical is the opportunity to have a tangible impact on people’s lives and global health. By researching and developing new treatments and preventative measures, biomedical scientists have the opportunity to improve patient outcomes and address pressing health concerns. Whether finding better ways to fight infectious diseases or advancing cancer treatments, the work of biomedical scientists directly impacts the well-being and quality of life of people and communities worldwide.
Affordable Course Fees
The fee required to study biomedical in Malaysia is comparatively less than that required in many other countries, such as the USA, the UK, Australia, and Canada, to name just a few. With biomedical degree expenses shooting up worldwide, Malaysia comes across as a reliable option to receive a high-quality education at an affordable cost.
Globally Recognised Degrees
Biomedical degrees from Malaysian universities enjoy global recognition. Studying biomedical in Malaysia allows students to pursue the program in Malaysia and then move anywhere globally. Several students continue their master’s and specialisation in Malaysia or transfer to other countries to pursue different pathways.
International Education Standard
The standard of biomedical programs in Malaysia meets international standards. This ensures exceptional education for students who enrol in this course. The course curriculum is rigorously developed, keeping in line with international benchmarks to ensure students learn the latest developments in biomedical in Malaysia.
Excellent Campus Facilities and Infrastructure
Malaysia offers excellent campus facilities, modern infrastructure, and innovative teaching aids for studying biomedical in Malaysia. The schools in Malaysia offer a great learning atmosphere. Several leading universities have developed in-house labs and testing facilities dedicated to helping students learn with hands-on experience, operate with state-of-the-art machinery, and stay up to date with the latest innovations.
Career Prospects
A biomedical engineer applies engineering theories and methods to solve problems in health and medicine. They integrate their understanding of biology, medicine, and engineering to build and develop medical devices, machines, and systems that improve patient care, diagnosis, and treatment. Biomedical engineers are critical in developing new technologies and solutions that impact healthcare. They may work on developing artificial organs and prosthetics, imaging systems, drug delivery systems, and diagnostic instruments and devices. To ensure the safety and effectiveness of their designs and compliance with regulations, they must frequently conduct research, perform tests, analyse data, and collaborate with various teams.
To be successful as a biomedical engineer, you must be able to create advanced health technologies and advise others on how to use these technologies effectively. Here are some roles and responsibilities you will have to work on:
- Design and create biomedical technologies such as artificial internal organs and body parts, machines, devices, and software that can be used to diagnose and treat medical problems.
- Install and calibrate biomedical machines, devices, and software.
- Evaluate the safety, efficiency, and effectiveness of biomedical machines, devices, and software.
- Maintain and repair biomedical machines and equipment, as needed.
- Provide technical support as needed.
- Keeping up-to-date maintenance logs for all biomedical machines and equipment.
- Train clinicians and other staff in safely and effectively using biomedical equipment and devices.
If you want to advance in the biomedical field, gaining and improving your skills is helpful. You may have a strong interest in the connection between technology and medicine or have innate qualities that could greatly benefit you as you advance in your career. When considering your suitability for this career, consider the following skill areas:
- Excellent communication skills to work with a variety of professionals
- Good attention to detail and spatial awareness
- Ability to conceptualise three-dimensional figures
- Efficient computer skills
- Ability to combine technical knowledge with creativity
- Capability to design active visual products that are practical and profitable
- Appropriate commercial awareness to analyse product marketplaces
- Excellent problem-solving skills
- Ability to work under pressure
Biomedical Scientist
To assist doctors in diagnosing and treating patients, biomedical scientists perform a variety of laboratory and scientific studies on tissue samples and fluids. You’ll also assess how well therapies work. Your job is crucial to numerous hospital areas, including operating rooms and A&E, and your duties are varied.
Biotechnologist
Biotechnologists research the chemical, genetic, and physical characteristics of cells, tissues, and organisms to create new technologies, procedures, and goods to tackle some of the most pressing societal concerns. The job entails modifying biological creatures or their constituent parts to create or improve medications, vaccines, energy-saving technologies, and safe and nutritious food.
Forensic Scientist
Criminal investigations benefit from the skills and scientific analysis of forensic scientists. They can be employed at a crime scene gathering and storing evidence or in a lab running tests and writing up the results. A forensic scientist may also specialise in specific forensic analysis when working in an extensive department with many scientists.
Biomedical Researcher
Biomedical researchers work in labs, colleges, and hospitals, looking for novel ways to treat illnesses and enhance people’s health. They can work on various important research projects in neurology, cancer biology, regenerative medicine, and reproductive biology. Biomedical researchers choose an area that interests them and develop cutting-edge strategies for enhancing people’s lives.
Environmental Scientist
Environmental scientists focus their work on environmental protection. They could work for environmental organisations, as political policy advisors, or in a company’s ecological responsibility department, among other places.
Clinical Scientist
Clinical scientists do research for new drug trials. Clinical scientists must adhere to procedures and have the highest ethical standards since their job is highly specialised, confidential, and rule-bound. They must not taint or compromise their discoveries. Researchers and physicians must demonstrate their studies on the product’s efficacy and safety.
Microbiologist
A scientist that focuses on working with microbes is known as a microbiologist. This can involve studying bacteria, viruses, parasites, and other organisms. To better understand how microorganisms exist and interact with other creatures, scientists watch and experiment on them.
Health Policy Analyst
A biomedical degree indicates that you are pretty knowledgeable about the complexity of human health. You employ your understanding of immunology, pathology, and biology taught in biomedical sciences while developing municipal, state, and federal health policy.
Medical Sales Representative
A medical sales representative is employed by a business that makes medical equipment and tries to market such products to facilities or medical professionals. These experts may offer knowledgeable responses since they know the functionality and intent of the items they sell.
Medical Science Liaison
A medical corporation employs a medical science liaison to act as an intermediary and make contact with influential people in the healthcare sector. They operate as a point of contact for influential medical community members, which frequently consist of well-known figures from many fields of medicine.
Program Duration
The duration to study biomedical in Malaysia is between three to fours years for the bachelor’s program. English is the medium of instruction followed in schools across all major international private universities.
The first year will have a number of common subjects between different specialisations. As students progress to years two and three, their modules and subjects will become more specialised as per their field of choice.
Students can sometimes switch from one specialisation to another, but it will require approval from the University faculty and the relevant authorities in Malaysia.
Students who want to opt for program transfers to another University will usually need to prepare the transfer paperwork and start processing from their second year onwards to ensure all the paperwork and approvals are in place so the program transfer can be done.
Entry Requirements
The Malaysian Qualifications Agency (MQA) sets the entry requirements and guidelines for university admissions in Malaysia, which all universities must adhere to. All prospective international students must meet the minimum entry requirements, as the Ministry of Higher Education (MOHE) takes these standards into account during the application acceptance and processing phases.
The admission requirements to study biomedical in Malaysia for international students may vary from one university to another. However, the basic entry requirements are the same for most universities.
Usually, there are two pathways to entering a degree program in Malaysia:
- First, students can join a foundation program after completing their secondary schooling, O levels, or equivalent qualifications. After completing the foundation in Science, they can continue to the bachelor’s degree as per their choice.
- Second, students who have completed their higher secondary school or A levels or equivalent will be able to join the bachelor’s degree programme directly into year one.
If a student fails to meet the entry requirements for a bachelor’s degree programme, the faculty may offer different pathways into the degree programme, for example, through a foundation or a diploma programme.
Universities may raise the entry requirements to ensure incoming students are academically prepared for the rigours of their programmes. So, prospective international students should consult with an admission advisor to determine the precise entry criteria for their chosen programme and their preferred university.
General Entry Requirements For Bachelor’s Degree
A Levels or Equivalent:
- Pass with Grade C in 3 subjects including Mathematics and 1 Science subject
Foundation:
- Passed the relevant Foundation programme (minimum CGPA of 2.0).
English Language
International students who wish to study biomedical in Malaysia will need to also provide proof of their English language proficiency with IELTS or TOEFL exams. Students who have studied the British or American curriculum are generally exempted from the English proficiency requirements since the medium of instruction for that curriculum is in English by default.
Students who have studied other curriculums where the medium of instruction is also English will usually need to provide a supporting letter from the school stating that the instruction language for their schooling has been English. With that letter, English language requirements are proven to have been completed.
Fees & Cost
Students sometimes only look at the tuition fee during the comparison. However, depending on how forthright and clear the fee guidelines from the university are, the extra fees can be a hefty amount that could be a surprise. So students are advised to correctly add all the fees and decide which university fits their budget requirements to study biomedical in Malaysia.
Various factors will contribute to the overall cost structure, such as:
- Tuition fees
- Accommodation fees
- Admission fee
- Registration and Visa fees and
- Other one-time fees.
These fees vary from university to university and can depend on varying factors. The quality, infrastructure, facilities and teacher-to-student ratio will also determine how much a university charges.
You must find the right balance between quality and cost to get the best education possible. The average cost to study biomedical in Malaysia is between RM25,000 to RM35,000 per year, depending on the University.
For reference, that’s around USD $6,000 to $8,000 per year for a 3-4 year biomedical degree program at the current exchange rate.
Accommodation
Accommodation cost is going to be another recurring fee for international students. Generally, students have two options: they can either stay at the on-campus accommodation provided by the university or at private accommodation. The prices will differ according to which university and area you choose.
Generally, campus accommodations at major universities start at around US$150 per month and can go up to $400 per month. The pricing for on-campus accommodation is determined by the size of the room, whether a student will be sharing the room or will be staying alone, or if the student is taking a master room which generally comes with an attached bathroom or decides to stay at a sharing room with shared bathroom.
Some universities also offer cooking facilities and on-campus accommodation, which are shared facilities which will also be factored into the accommodation costs. Utility costs are generally an add-on fee.
While choosing the university, you can check with your admissions advisor on the options available for accommodation and how much they will cost so that you have an idea of how much of a monthly budget you will require as a student.
Admission Procedure
Researching, applying and managing overseas admissions is a tedious, time-consuming and often confusing process. Incorrect application submissions can lead to lengthy processing, delayed approvals, or rejections. You can visit education, exhibitions and fairs to collect information. However, that is not enough. You can only collect cursory information at these places. However, your admission processing will usually take much longer. During that time, you will need consistent and dedicated support to ensure your application is in the right experienced hands.
This is where we help.
Edmates helps international students from around the world with complete admissions processing. Our integrated one-stop centre helps international students with everything. We help you find future-driven programs that match your abilities and interests in leading universities.
We handle the entire process from the beginning until you have joined the university. Our international support system will manage everything for you, absolutely free.
Each student is assigned with a dedicated admission advisor who will manage the complete admission process and also guide the student throughout the admissions process. The advisor will also liaise with the university admissions department to ensure clear communications and faster processing.
You can speak with your assigned advisor anytime by booking a free call online through the website. You will also receive regular updates regarding your application via emails, SMS and WhatsApp.
To learn about each step of the admission process, you can read our complete guide to start applying for your higher education the right way.