- What is Immunisation?
- Where can I get immunised?
- What diseases do we protect against under the National Immunisation Program?
- What’s the difference between immunisation and vaccination?
- How does immunisation work?
- What is in vaccines?
- How safe are vaccines?
- Why do children get so many immunisations?
- Why should children be immunised?
- Do children’s vaccines contain mercury (thiomersal)?
- How long do immunisations take to work?
- How long do immunisations last?
- Does my teenager need to be immunised?
- Should parents be immunised?
- Is everyone protected from disease by immunisation?
- Are there any reasons to delay immunisation?
- What are the side-effects of immunisation?
- What about natural immunity?
- Why is it important for all children to be immunised?
- What is herd immunity?
- Can immunisation overload the immune system?
- Why is immunisation still necessary in this day and age?
- Where can I find information about travel vaccinations?
- How do I get a copy of my child’s vaccination history?
- Where can I find more information on childhood immunisation?
- What do families need to do to meet the immunisation conditions linked to some family assistance payments?
- Are exemptions available for government payments linked to immunisation?
- Questions and Answers for Influenza (flu) immunisation
- Vaccination means having a vaccine.
- Immunisation means both receiving a vaccine and becoming immune to a disease, as a result of being vaccinated.
- a live but weakened virus;
- a killed bacteria or virus, or small parts of bacteria; or
- a modified toxin produced by bacteria.
Vaccination is the most significant public health intervention in the last 200 years, providing a safe and efficient way to prevent the spread of many diseases that cause hospitalisation, serious ongoing health conditions and sometimes death.
Immunisation protects people against harmful infections before they come into contact with them in the community. Immunisation uses the body’s natural defence mechanism – the immune response – to build resistance to specific infections. Immunisation helps communities to stay healthy by reducing the incidence of serious infections.
Most vaccines are administered by injection. Some are administered orally.
The diseases which can be prevented by routine childhood immunisation are included in the National Immunisation Program (NIP) Schedule.
Vaccines covered by the National Immunisation Program (NIP) are provided to eligible people in line with the NIP Schedule. Eligibility for NIP vaccines is either age based or for certain groups at increased medical risk. Refer to the NIP Schedule. to find out which vaccines you or your family are eligible for.
NIP vaccines and information regarding immunisation can be provided by a variety of recognised immunisation providers, including GPs and nurses at local councils and community based clinics, who have undergone specific immunisation training. Although the NIP vaccine will be provided at no cost, the health care provider (such as a GP) may charge a consultation fee for the immunisation visit.
To find an immunisation provider near you contact your state or territory.
The National Immunisation Program funds vaccines to prevent the following diseases: diphtheria, haemophilus influenzae type b (hib), hepatitis A, hepatitis B, human papillomavirus (HPV), influenza (flu), measles, meningococcal, mumps, pertussis (whooping cough), pneumococcal, poliomyelitis (polio), rotavirus, rubella (German measles), tetanus (lockjaw) and varicella (chickenpox).
Most people use the terms ‘vaccination’ and ‘immunisation’ interchangeably, but their meanings are not exactly the same. The term ‘immunisation’ is used in this website, as it is most commonly used in the community.
All forms of immunisation work in the same way. When a person is vaccinated, their body produces an immune response to the vaccine in the same way that it would after being infected by a disease – but without the person suffering symptoms of the disease. When a person comes into contact with that disease in the future, their immune system will respond fast enough to prevent the person developing the disease, or serious complications of the disease.
Vaccines contain small doses of either:
Vaccines may also contain either a small amount of preservative or a small amount of an antibiotic to preserve the vaccine. Since 2000, vaccines available on Australia’s National Immunisation Program have not contained thiomersal. Some vaccines may also contain a small amount of an aluminium salt, which helps to produce a better immune response.
All vaccines currently available in Australia must pass stringent safety testing before being approved for use by the Therapeutic Goods Administration. This testing is required by law and is usually done over many years during vaccine development.
Before vaccines are made available for use, they are rigorously tested in thousands of people in progressively larger clinical trials. These trials are strictly monitored for safety. The approval process for a vaccine can take up to 10 years.
For further information, please see Safety of Vaccines.
A number of immunisations are required in the first few years of a child’s life to protect them against the most serious infections of childhood. The immune system in young children does not work as well as the immune system in older children and adults, because it is still immature. Therefore, more doses of vaccine are often needed.
Another reason why children get many immunisations is that new vaccines against serious infections continue to be developed. However, the number of injections is also being reduced by the use of combination vaccines, where several vaccines are combined into one injection.
There are two reasons for immunising every child in Australia:
- Immunisation is the safest and most effective way of providing protection against the disease. After immunisation, your child is far less likely to catch the disease if there are cases in the community and if it is caught, they are likely to only have mild symptoms. The benefit of protection against the disease far outweighs the risks of immunisation.
- If enough people in the community are immunised, the infection can no longer be spread from person to person. This is how smallpox was eliminated from the world and polio has disappeared from many countries.
Since 2000, vaccines available on Australia’s National Immunisation Program have not contained thiomersal.
Thiomersal (or thimerosal) is a preservative that contains a form of mercury. Thiomersal is partly composed of mercury in the form of ethylmercury. It was used in very small amounts in vaccines from the 1930s onwards, to prevent bacterial and fungal contamination. Many comprehensive studies and reviews by expert panels have shown that there is no evidence of developmental or neurological abnormalities, such as autism, having resulted from the use of vaccines containing thiomersal. Nonetheless, thiomersal was removed from childhood and adolescent vaccines as a precautionary measure.
In general, the normal immune response to vaccines takes approximately two weeks to work. This means that protection from an infection will not occur immediately after immunisation.
Some vaccines need to be given a number of times to build long-lasting protection. For example, a child who has been given only one or two doses of diphtheria-tetanus-pertussis vaccine (DTPa) is only partially protected against diphtheria, whooping cough and tetanus, and may become sick if exposed to these diseases. However, some vaccines give protection after only one dose.
The protective effect of some immunisations can last up to 30 years. Other immunisations are required more often, such as influenza immunisation which is need annually due to frequent changes to the type of influenza virus circulating in the community. In addition, booster doses are needed for some vaccines because immunity decreases over time. Refer to the National Immunisation Program Schedule for booster doses.
Some vaccines, such as Human papillomavirus (HPV) vaccine, are not needed by children but are required by adults. HPV immunisation has the greatest benefit when administered in early adolescence.
The effect of some vaccines administered in early childhood, such as pertussis and hepatitis B, wane over time. A booster is required to ensure continued protection from these diseases.
Parents and other people (including grandparents, carers, etc.) who come into contact with young children are commonly carriers of some childhood infections and should be vaccinated against these diseases. For example, several studies of infant pertussis (whooping cough) cases have identified family members, and parents in particular, as the source of infection. More information on immunisation against childhood diseases can be obtained from your doctor or immunisation provider. Refer to the National Immunisation Program Schedule for funded vaccines.
Since the introduction of vaccination for children in Australia in 1932, death from vaccine-preventable diseases has fallen by 99 per cent, despite a threefold increase in the Australian population over that period.
Immunisation not only protects vaccinated individuals, but it also helps protect the entire population (for example those who are too young to be vaccinated or those that are not able to be vaccinated for medical reasons). For immunisation to provide the greatest benefit, a sufficient number of people (around 90 per cent for most diseases) need to be vaccinated to halt the spread of bacteria and viruses that cause disease - a phenomenon called ‘herd immunity’.
Even when all the doses of a vaccine (the course) have been given to an individual, not everyone is protected against the disease.
Measles, mumps, rubella, tetanus, polio and Haemophilus influenzae type B (hib) vaccines protect more than 95% of children who have completed the course. One dose of meningococcal C vaccine at 12 months protects over 90% of children. Three doses of whooping cough (pertussis) vaccine protect about 85% of children who have been immunised, and will reduce the severity of the disease in the other 15% if they do catch whooping cough.
The protection levels provided by vaccines differ. For example, if 100 children are vaccinated with the measles, mumps, rubella vaccine, 5-10 of the fully immunised children might still catch measles, mumps or rubella (although the disease will often be milder in immunised children). However, if you do not immunise 100 children with MMR vaccine, and the children are exposed to measles, most of them will catch the disease with a high risk of complications, such as lung infection (pneumonia) or inflammation of the brain (encephalitis).
There are very few medical reasons to delay immunisation. If a person is sick with a high temperature (over 38°C) then immunisation should be postponed until the person is recovering. A child who has a runny nose but does not have a high temperature can be immunised, as can a child who is on antibiotics and obviously recovering from an illness. Talk to your immunisation provider if you are unsure.
Many children experience minor side effects following immunisation. Most side effects last a short time and the child recovers without any problems. Common side effects of immunisation are redness, soreness and swelling at the site of an injection, mild fever, and grizzly or unsettled behaviour. You should give your child extra fluids to drink, not overdress babies if they are hot, and consider using paracetamol to help ease the fever and soreness.
Although serious reactions to immunisation, such as febrile seizures, are very rare, if they do occur you should consult your doctor immediately.
Immunity to disease can be developed through vaccination, or naturally through having the disease. The body’s immune response in both circumstances is the same, though natural immunity is usually lifelong and vaccine induced immunity may diminish with time. In some cases, vaccine-induced immunity may diminish with time; natural immunity is usually life-long. Relying on natural immunity means an individual has to be exposed to the disease which has risks of serious complications or death. Children or adults can be re-immunised (required with some vaccines but not all) if their immunity falls to a low level.
Homoeopathic preparations do not provide natural immunity nor does being fit and healthy, only conventional vaccination produces a measurable immune response.
Immunisation is a simple, safe and effective way of protecting a child from diseases that can cause serious illness and sometimes death. If most children are vaccinated, this indirectly protects people who are still susceptible to the disease as they are less likely to come into contact with someone who is carrying the pathogens – a concept known as herd immunity. Herd immunity can protect those who are too young to be vaccinated or cannot be vaccinated because of medical conditions (eg receiving chemotherapy), and those who do not respond adequately to immunisation. The more people who vaccinate their children, the greater our ability to control serious vaccine preventable diseases.
An important feature of immunisation is that it brings benefits not only for the individual who receives the vaccine, but also for the entire population through a concept known as herd immunity, sometimes also called community immunity.
If enough people are immunised and protected from a disease, the infection will not be able to spread. This protects the population as a whole from infection. Herd immunity is important for those who cannot receive vaccinations. These include children who are too young to be vaccinated, people with immune system problems and those too ill to receive vaccines. The proportion of the population which must be immunised in order to achieve herd immunity varies for each disease but can be up to 95% for some highly infectious diseases, such as measles. The underlying principle is the same: once enough people are protected, they help to protect vulnerable members of the community by reducing the spread of disease.
No. Children and adults come into contact with many antigens (substances that provoke a reaction from the immune system) each day, and the immune system responds to each antigen in specific ways to protect the body. Without a vaccine, a child can only become immune to a disease by being exposed to infection, with the risk of severe illness. If illness occurs after vaccination, it is usually insignificant.
Immunisation is the safest and most effective way of giving protection against vaccine-preventable diseases. After immunisation, a person is far less likely to catch the disease if there are cases in the community.If enough people in the community are immunised, the infection can no longer be spread from person to person. For example, smallpox was officially declared eradicated in 1980 after a concerted campaign of surveillance and vaccination led by the World Health Organization. A similar campaign by the Global Polio Eradication Initiative has succeeded in reducing polio cases with only a few isolated cases remaining in the developing world. In March 2014, the World Health Organization declared that Measles has been eliminated in Australia. It is important to maintain high levels of vaccination against measles, with two doses of measles vaccine required, as cases of measles can still be imported by travellers from countries where the disease is prevalent.
Some health problems associated with international travel are vaccine preventable. Travellers should consult a travel medical centre, or their GP, at least 6-12 weeks before departure, for a check-up and to discuss required and recommended vaccinations for specific regions.
The websites below provide information about vaccinations and tips for staying healthy while overseas:
- Travel Clinics Australia (Travel Clinic Australia)
- Smartraveller (Department of Foreign Affairs and Trade);
- International travel and health (World Health Organization)
- Travelers’ health (US Center for Disease Control & Prevention)
Immunisation History Statements are available from both the Australian Immunisation Register (AIR) and the Human Papillomavirus Register (HPV Register). Immunisation History Statements may be necessary for child care and school enrolment, employment at certain workplaces and are currently used by Medicare and Centrelink to determine eligibility for some family assistance payments.
For detailed information about obtaining a History Statement see the Immunisation History Statement section of this website.
Parents and guardians can find information on routine childhood immunisation in the understanding childhood immunisation booklet. This is a detailed booklet which informs parents and guardians on why children should be immunised against vaccine preventable diseases, common side effects of immunisation, how long immunisations last, vaccines that children require at specific ages, and the diseases they prevent. A handy quick guide to understanding childhood immunisation is also available.
What do families need to do to meet the immunisation conditions linked to some family assistance payments?
Parent’s eligibility to receive family assistance payments such as Family Tax Benefit Part A Supplement, Child Care Benefit, and Child Care Rebate is linked to their child’s immunisation status.
Most of the childhood immunisations on the National Immunisation Program Schedule are linked to family assistance payments. See the Department of Human Service’s website to see which of the National Immunisation Program Schedule immunisations are included in the list of immunisations to be eligible to receive family assistance payments linked to the immunisation status of a child. The Department of Social Services also provides information on these payments.
Yes, families can receive an exemption for approved medical reasons. For more information on child care assistance and family payments, visit the Department Of Human Services.