BCG vaccine
Bacillus Calmette–Guérin vaccine is a vaccine primarily used against tuberculosis. In countries where tuberculosis or leprosy is common, one dose is recommended in healthy babies as close to the time of birth as possible. In areas where tuberculosis is not common, only children at high risk are typically immunized, while suspected cases of tuberculosis are individually tested for and treated. Adults who do not have tuberculosis and have not been previously immunized but are frequently exposed may be immunized as well. BCG also has some effectiveness against Buruli ulcer infection and other nontuberculous mycobacteria infections. Additionally it is sometimes used as part of the treatment of bladder cancer.
Rates of protection against tuberculosis infection vary widely and protection lasts up to twenty years. Among children it prevents about 20% from getting infected and among those who do get infected it protects half from developing disease. The vaccine is given by injection into the skin. There is no evidence that additional doses are beneficial.
Serious side effects are rare. Often there is redness, swelling, and mild pain at the site of injection. A small ulcer may also form with some scarring after healing. Side effects are more common and potentially more severe in those with poor immune function. It is not safe for use during pregnancy. The vaccine was originally developed from Mycobacterium bovis, which is commonly found in cows. While it has been weakened, it is still live.
The BCG vaccine was first used medically in 1921. It is on the World Health Organization's List of Essential Medicines. As of 2004 the vaccine is given to about 100 million children per year globally.
Medical uses
Tuberculosis
The main use of BCG is for vaccination against tuberculosis. BCG vaccine can be administered after birth intradermally. BCG vaccination can cause a false positive Mantoux test, although a very high-grade reading is usually due to active disease.The most controversial aspect of BCG is the variable efficacy found in different clinical trials, which appears to depend on geography. Trials conducted in the UK have consistently shown a protective effect of 60 to 80%, but those conducted elsewhere have shown no protective effect, and efficacy appears to fall the closer one gets to the equator.
A 1994 systematic review found that BCG reduces the risk of getting TB by about 50%. There are differences in effectiveness, depending on region, due to factors such as genetic differences in the populations, changes in environment, exposure to other bacterial infections, and conditions in the lab where the vaccine is grown, including genetic differences between the strains being cultured and the choice of growth medium.
A systematic review and meta analysis conducted in 2014 demonstrated that the BCG vaccine reduced infections by 19–27% and reduced progression to active TB by 71%. The studies included in this review were limited to those that used interferon gamma release assay.
The duration of protection of BCG is not clearly known. In those studies showing a protective effect, the data are inconsistent. The MRC study showed protection waned to 59% after 15 years and to zero after 20 years; however, a study looking at Native Americans immunized in the 1930s found evidence of protection even 60 years after immunization, with only a slight waning in efficacy.
BCG seems to have its greatest effect in preventing miliary TB or TB meningitis, so it is still extensively used even in countries where efficacy against pulmonary tuberculosis is negligible.
Efficacy
A number of possible reasons for the variable efficacy of BCG in different countries have been proposed. None have been proven, some have been disproved, and none can explain the lack of efficacy in both low-TB burden countries and high-TB burden countries. The reasons for variable efficacy have been discussed at length in a World Health Organization document on BCG.- Genetic variation in BCG strains: Genetic variation in the BCG strains used may explain the variable efficacy reported in different trials.
- Genetic variation in populations: Differences in genetic make-up of different populations may explain the difference in efficacy. The Birmingham BCG trial was published in 1988. The trial, based in Birmingham, United Kingdom, examined children born to families who originated from the Indian Subcontinent. The trial showed a 64% protective effect, which is very similar to the figure derived from other UK trials, thus arguing against the genetic variation hypothesis.
- Interference by nontuberculous mycobacteria: Exposure to environmental mycobacteria results in a nonspecific immune response against mycobacteria. Administering BCG to someone who already has a nonspecific immune response against mycobacteria does not augment the response already there. BCG will, therefore, appear not to be efficacious because that person already has a level of immunity and BCG is not adding to that immunity. This effect is called masking because the effect of BCG is masked by environmental mycobacteria. Clinical evidence for this effect was found in a series of studies performed in parallel in adolescent school children in the UK and Malawi. In this study, the UK school children had a low baseline cellular immunity to mycobacteria which was increased by BCG; in contrast, the Malawi school children had a high baseline cellular immunity to mycobacteria and this was not significantly increased by BCG. Whether this natural immune response is protective is not known. An alternative explanation is suggested by mouse studies; immunity against mycobacteria stops BCG from replicating and so stops it from producing an immune response. This is called the block hypothesis.
- Interference by concurrent parasitic infection: In another hypothesis, simultaneous infection with parasites changes the immune response to BCG, making it less effective. As Th1 response is required for an effective immune response to tuberculous infection, concurrent infection with various parasites produces a simultaneous Th2 response, which blunts the effect of BCG.
Mycobacteria
- Leprosy: BCG has a protective effect against leprosy in the range of 20 to 80%.
- Buruli ulcer: BCG may protect against or delay the onset of Buruli ulcer.
Cancer
- A number of cancer vaccines use BCG as an additive to provide an initial stimulation of the person's immune systems.
- BCG is used in the treatment of superficial forms of bladder cancer. Since the late 1970s, evidence has become available that instillation of BCG into the bladder is an effective form of immunotherapy in this disease. While the mechanism is unclear, it appears a local immune reaction is mounted against the tumor. Immunotherapy with BCG prevents recurrence in up to 67% of cases of superficial bladder cancer.
- BCG has been evaluated in a number of studies as a therapy for colorectal cancer. The US biotech company Vaccinogen is evaluating BCG as an adjuvant to autologous tumour cells used as a cancer vaccine in stage II colon cancer.
Method of administration
BCG is given as a single intradermal injection at the insertion of the deltoid. If BCG is accidentally given subcutaneously, then a local abscess may form that can sometimes ulcerate, and may require treatment with antibiotics immediately, otherwise without treatment it could spread the infection causing severe damage to vital organs. An abscess is not always associated with incorrect administration, and it is one of the more common complications that can occur with the vaccination. Numerous medical studies on treatment of these abscesses with antibiotics have been done with varying results, but the consensus is once pus is aspirated and analysed, provided no unusual bacilli are present, the abscess will generally heal on its own in a matter of weeks.
The characteristic raised scar that BCG immunization leaves is often used as proof of prior immunization. This scar must be distinguished from that of smallpox vaccination, which it may resemble.
Adverse effects
BCG immunization generally causes some pain and scarring at the site of injection. The main adverse effects are keloids—large, raised scars. The insertion to the deltoid muscle is most frequently used because the local complication rate is smallest when that site is used. Nonetheless, the buttock is an alternative site of administration because it provides better cosmetic outcomes.BCG vaccine should be given intradermally. If given subcutaneously, it may induce local infection and spread to the regional lymph nodes, causing either suppurative and non-suppurative lymphadenitis. Conservative management is usually adequate for non-suppurative lymphadenitis. If suppuration occurs, it may need needle aspiration. For non-resolving suppuration, surgical excision may be required. Evidence for the treatment of these complications is scarce.
Uncommonly, breast and gluteal abscesses can occur due to haematogenous and lymphangiomatous spread. Regional bone infection and disseminated BCG infection are rare complications of BCG vaccination, but potentially life-threatening. Systemic anti-tuberculous therapy may be helpful in severe complications.
If BCG is accidentally given to an immuno-compromised patient, it can cause disseminated or life-threatening infection. The documented incidence of this happening is less than one per million immunizations given. In 2007, The World Health Organization stopped recommending BCG for infants with HIV, even if there is a high risk of exposure to TB, because of the risk of disseminated BCG infection.
Usage
The age of the person and the frequency with which BCG is given has always varied from country to country. The World Health Organization currently recommends childhood BCG for all countries with a high incidence of TB and/or high leprosy burden. This is a partial list of historic and current BCG practice around the globe. A complete atlas of past and present practice has been generated.Americas
- Brazil: Brazil introduced universal BCG immunization in 1967–1968, and the practice continues until now. According to Brazilian law, BCG is given again to professionals of the health sector and to people close to patients with tuberculosis or leprosy.
- Canada: Indigenous Canadian communities currently receive the BCG vaccine, and in the province of Quebec the vaccine was offered to children until the mid-70s.
- Most countries in Central and South America have universal BCG immunizations.
- United States: The US has never used mass immunization of BCG, relying instead on the detection and treatment of latent tuberculosis. In the United States, the price has been estimated to be somewhere between US$100 to US$200.
Europe
- Albania: The BCG vaccine was mandatory until 1990.
- Austria: The BCG vaccine neither mandatory nor recommended. National mass vaccination BCG policy implemented in 1952. Mass vaccination discontinued in 1990.
- Belgium: The BCG vaccine neither mandatory nor recommended.The vaccine is only considered for certain subjects at risk has existed since 1965. The PNV vaccines, which included the BCG, are administered in hospitals to newborns. In 2017 the vaccine was removed from the PNV, only risk groups are now vaccinated.
- Romania: The BCG vaccine is obligatory to newborns with a birth weight greater than 2500 grams, between the ages of 2–7 days and 2 months. In the eighth grade a new dose of BCG vaccine is administered, only if the tuberculin IDR test result is negative.
- Serbia: The BCG vaccine is mandatory, vaccinations occurs at birth and is applied throughout the entire country.
- Slovakia: The BCG vaccine neither mandatory nor recommended. The BCG was mandatory for all children until 2012.
- Spain: The BCG vaccine neither mandatory nor recommended. Past national BCG vaccination policy for all from 1965 to 1981. Catalonia suspended the vaccination in 1974. In Basque Country it persisted until 2013.
- Sweden: The BCG vaccine was routinely administered to children from 1940 until 1975. After 1975 the BCG vaccination policy in Sweden changed from routine vaccination of all newborn infants to selective vaccination of groups at higher risk.
- Ukraine: The BCG vaccination is mandatory since the mid 1950s. The vaccination is carried out 3–5 days after birth ; premature infants are vaccinated after reaching a mass of 2500 g. After 2 months of age, Mantoux test should be performed and, if negative, vaccinated. Children from the age of 7 with a negative Mantoux test and uninfected with tuberculosis were subject to revaccination. Since May 2018 revaccination is not required.
- United Kingdom: The UK introduced universal BCG immunization in 1953. From then until July 2005, UK policy was to immunize all school children aged between 10 and 14 years of age, and all neonates born into high-risk groups. The injection was given only once during an individual's lifetime. BCG was also given to protect people who had been exposed to tuberculosis. The peak of tuberculosis incidence is in adolescence and early adulthood, and an MRC trial showed efficacy lasted a maximum of 15 years. Routine immunization with BCG for all school children was scrapped in July 2005 because of falling cost-effectiveness: whereas in 1953, 94 children would have to be immunized to prevent one case of TB, by 1988, the annual incidence of TB in the UK had fallen so much, 12,000 children would have to be immunized to prevent a single case of TB. The vaccine is still given to at risk healthcare professionals.
- Former Soviet Union. BCG was given regularly throughout life.
Asia
- China: Introduced in 1930s. Increasingly widespread after 1949. Majority inoculated by 1979.
- South Korea, Singapore, Taiwan and Malaysia. In these countries, BCG was given at birth and again at age 12. In Malaysia and Singapore from 2001, this policy was changed to once only at birth. South Korea stopped re-vaccination in 2008.
- Hong Kong: BCG is given to all newborns.
- Japan: In Japan, BCG was introduced in 1951, given typically at age 6. From 2005 it is administered between five and eight months after birth, and no later than a child's first birthday. BCG was administered no later than the fourth birthday until 2005, and no later than six months from birth from 2005 to 2012; the schedule was changed in 2012 due to reports of osteitis side effects from vaccinations at 3–4 months. Some municipalities recommend an earlier immunization schedule.
- Thailand: In Thailand, the BCG vaccine is given routinely at birth.
- India and Pakistan: India and Pakistan introduced BCG mass immunization in 1948, the first countries outside Europe to do so. In 2015, millions of infants were denied BCG vaccine in Pakistan for the first time due to shortage globally.
- Mongolia: All newborns are vaccinated with BCG. Previously, the vaccine was also given at ages 8 and 15, although this is no longer common practice.
- Philippines: BCG vaccine started in the Philippines in 1979 with the Expanded Program on Immunization.
- Sri Lanka: In Sri Lanka, The National Policy of Sri Lanka is to give BCG vaccination to all newborn babies immediately after birth. BCG vaccination is carried out under the Expanded Programme of Immunisation.
Middle East
- Israel: BCG was given to all newborns between 1955 and 1982.
- Iran: Iran's vaccination policy implemented in 1984. Vaccination with the Bacillus Calmette-Guerin is among the most important TB control strategies in Iran . According to Iranian neonatal vaccination policy, BCG has been given as a single dose at children aged <6 years, shortly after birth or at first contact with the health services.
Africa
- South Africa: In South Africa, the BCG Vaccine is given routinely at birth, to all newborns, except those with clinically symptomatic AIDS. The vaccination site in the right shoulder.
- Morocco: In Morocco, the BCG was introduced in 1949. The current policy is BCG Vaccination at birth, to all newborns
South Pacific
- Australia: BCG vaccination was used between 1950s and mid 1980. BCG is not part of routine vaccination since mid 1980.
- New Zealand: BCG Immunisation was first introduced for 13 yr olds in 1948. Vaccination was phased out 1963–1990.
Manufacture
A number of different companies make BCG, sometimes using different genetic strains of the bacterium. This may result in different product characteristics. OncoTICE, used for bladder instillation for bladder cancer, was developed by Organon Laboratories. Pacis BCG, made from the Montréal strain, was first marketed by Urocor in about 2002. Urocor was since acquired by Dianon Systems. Evans Vaccines. Statens Serum Institut in Denmark markets BCG vaccine prepared using Danish strain 1331. Japan BCG Laboratory markets its vaccine, based on the Tokyo 172 substrain of Pasteur BCG, in 50 countries worldwide.
According to a UNICEF report published in December 2015 on BCG vaccine supply security, global demand increased in 2015 from 123 to 152.2 million doses. To improve security and to sources of affordable and flexible supply," UNICEF awarded seven new manufacturers contracts to produce BCG. Along with supply availability from existing manufacturers, and a "new WHO prequalified vaccine" the total supply will be "sufficient to meet both suppressed 2015 demand carried over to 2016, as well as total forecast demand through 2016–2018."
Supply shortage
In the fall of 2011, the Sanofi Pasteur plant flooded causing problems with mold. The facility, located in Toronto, Ontario, Canada, produced BCG vaccine products, made with substrain Connaught, such as a tuberculosis vaccine ImmuCYST, a BCG Immunotherapeutic – a bladder cancer drug. By April 2012 the FDA had found dozens of documented problems with sterility at the plant including mold, nesting birds and rusted electrical conduits. The resulting closure of the plant for over two years caused shortages of bladder cancer and tuberculosis vaccines. On 29 October 2014 Health Canada gave the permission for Sanofi to resume production of BCG. An 2018 analysis of the global supply concluded that the supplies are adequate to meet forecast BCG vaccine demand, but that risks of shortages remain, mainly due to dependence of 75 percent of WHO pre-qualified supply on just two suppliers.Preparation
A weakened strain of bovine tuberculosis bacillus, Mycobacterium bovis is specially subcultured in a culture medium, usually Middlebrook 7H9.Dried
Some BCG vaccines are freeze dried and become fine powder. Sometimes the powder is sealed with vacuum in a glass ampoule. Such a glass ampoule has to be opened slowly to prevent the airflow from blowing out the powder. Then the powder has to be diluted with saline water before injecting.History
The history of BCG is tied to that of smallpox. Jean Antoine Villemin first recognized bovine tuberculosis in 1854 and transmitted it, and Robert Koch first distinguished Mycobacterium bovis from Mycobacterium tuberculosis. Following the success of vaccination in preventing smallpox, established during the 18th century, scientists thought to find a corollary in tuberculosis by drawing a parallel between bovine tuberculosis and cowpox: it was hypothesized that infection with bovine tuberculosis might protect against infection with human tuberculosis. In the late 19th century, clinical trials using M. bovis were conducted in Italy with disastrous results, because M. bovis was found to be just as virulent as M. tuberculosis.Albert Calmette, a French physician and bacteriologist, and his assistant and later colleague, Camille Guérin, a veterinarian, were working at the Institut Pasteur de Lille in 1908. Their work included subculturing virulent strains of the tuberculosis bacillus and testing different culture media. They noted a glycerin-bile-potato mixture grew bacilli that seemed less virulent, and changed the course of their research to see if repeated subculturing would produce a strain that was attenuated enough to be considered for use as a vaccine. The BCG strain was isolated after subculturing 239 times during 13 years from virulent strain on glycerine potato medium. The research continued throughout World War I until 1919, when the now avirulent bacilli were unable to cause tuberculosis disease in research animals. Calmette and Guerin transferred to the Paris Pasteur Institute in 1919. The BCG vaccine was first used in humans in 1921.
Public acceptance was slow, and one disaster, in particular, did much to harm public acceptance of the vaccine. In the summer of 1930 in Lübeck, 240 infants were vaccinated in the first 10 days of life; almost all developed tuberculosis and 72 infants died. It was subsequently discovered that the BCG administered there had been contaminated with a virulent strain that was being stored in the same incubator, which led to legal action against the manufacturers of the vaccine.
Dr. R.G. Ferguson, working at the Fort Qu'Appelle Sanatorium in Saskatchewan, was among the pioneers in developing the practice of vaccination against tuberculosis. In 1928, BCG was adopted by the Health Committee of the League of Nations. Because of opposition, however, it only became widely used after World War II. From 1945 to 1948, relief organizations vaccinated over 8 million babies in eastern Europe and prevented the predicted typical increase of TB after a major war.
BCG is very efficacious against tuberculous meningitis in the pediatric age group, but its efficacy against pulmonary tuberculosis appears to be variable. As of 2006, only a few countries do not use BCG for routine vaccination. Two countries that have never used it routinely are the United States and the Netherlands.
Other names include "Vaccin Bilié de Calmette et Guérin vaccine" and "Bacille de Calmette et Guérin vaccine".
Research
Tentative evidence exists for a beneficial non-specific effect of BCG vaccination on overall mortality in low income countries, or for its reducing other health problems including sepsis and respiratory infections when given early, with greater benefit the earlier it is used.In rhesus macaques, BCG shows improved rates of protection when given intravenously.
Type 1 diabetes
As of 2017, BCG vaccine was in the early stages of being studied in type 1 diabetes.COVID-19
As of March 2020, even though the tuberculosis vaccine does not directly protect against COVID-19 it has been thought to boost the immune systems and has been suggested for study. Spanish, French, German and Dutch research entities are preparing trials using genetically-modified BCG vaccines. BCG vaccine is in phase 3 trials in health care workers in Australia and Netherlands.. BCG vaccine is in phase IV in US.The WHO does not recommend its use for prevention as of 13 April 2020.
Use of the BCG vaccine may provide protection against COVID-19.