VACCINATION

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• Hepatitis B
  Hepatitis B virus (HBV) affects the liver. Those who are infected can become lifelong carriers of the virus and may develop long-term problems such as cirrhosis (liver disease) or cancer of the liver.
  Immunization Schedule
  Hepatitis B vaccine usually is given as a series of three injections. The first shot is given to infants shortly after birth. If the mother of a newborn carries the hepatitis B virus in her blood, the infant needs to receive the first shot within 12 hours after birth, along with another shot (HBIG) to immediately provide protection against the virus. If a newborn's mother shows no evidence of HBV in her blood, the infant may receive the hepatitis B vaccine any time prior to leaving the hospital. It may also be delayed until the 4- or 8-week visit to the child's doctor.
  If the first dose is given shortly after birth, the second shot is given at 1 to 4 months and the third at 6 to 18 months. For infants who don't receive the first shot until 4 to 8 weeks, the second shot is given at 3 to 4 months and the third at 6 to 18 months. In either case, the second and third shots are usually given in conjunction with other routine childhood immunizations.
  Why the Vaccine Is Recommended
  The hepatitis B vaccine usually creates long-term immunity. Infants who receive the HBV series should be protected from hepatitis B infection not only throughout their childhood but also into the adult years. Eliminating the risk of infection also decreases risk for cirrhosis of the liver, chronic liver disease, and liver cancer. Young adults and adolescents should also receive the vaccine if they did not as infants.
  Possible Risks
  Serious problems associated with receiving the HBV vaccine are rare. Problems that do occur tend to be minor, such as fever or redness or tenderness at the injection site.
  When to Delay or Avoid Immunization
  if your child is currently sick, although simple colds or other minor illnesses should not prevent immunization
  if a severe allergic reaction (called anaphylaxis) occurred after a previous injection of the HBV vaccine
  Caring for Your Child After Immunization
  The vaccine may cause mild fever, and soreness and redness in the area where the shot was given. Pain and fever may be treated with acetaminophen or ibuprofen. Check with your child's doctor about the appropriate dose.
  When to Call the Doctor
  if you're not sure of the recommended schedule for the hepatitis B vaccine
  if you have concerns about your own HBV carrier state
  if moderate or serious adverse effects appear after your child has received an HBV injection

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POLICYPolicies are the decisions taken by the Academy in relation to the scientific principles and practice of immunization.
GUIDE LINESThe Academy expects the members to implement the policies routinely in their day to day practice adhering to instructions regarding immunization schedule, cold chain management, disease survelance etc.
RECOMMENDATIONSThe Academy in its role of advocacy expects international agencies, the Government of India and other professional bodies to pursue and implement the suggestions in a timely basis in the best interest of the children of our Nation.
IAP POLICIES ON IMMUNIZATION – 2001
On UIP: The academy continues to encourage and support the Universal Immunization Program and the National Immunization Schedule, recognising the fact that they provide only the basic minimum immunization needs of all children in our country.
On Immunization to be supplemented: The Academy, however, believes that this schedule must be supplemented with other selected vaccines like Hepatitis B, Haemophilus influenzae type b, MMR and Typhoid vaccines, in a phased manner.
On BCG vaccine: The Academy endorses the current GOI policy of administering a single dose of BCG vaccine at birth for all institutional deliveries and for others at 6 weeks latest, simultaneous with DPT and OPV. However, the neonatal BCG vaccine along with the neonatal OPV should be given preferably at birth to 2 weeks so that the subsequent DPT and OPV doses can be continued at 6, 10, 14 weeks.
On OPV: The policy of the Academy is to give all children three primary doses apart from the dose at birth in the first year of life and two more doses are recommended at one and half years and five years. PPI doses should be continued in addition to routine immunization till poliomyelitis eradication is certified.
On DPT, DT, TT, Td Vaccines: Regarding DPT, the policy of the Academy is to endorse the UIP schedule of 3 doses in infancy and one booster in the second year of life and to supplement the UIP schedule with a second booster of DPT in the fifth year of life instead of the current DT booster only. Where possible the combined DPTWC / HB vaccine can be given in preference to DPT vaccine. The Academy endorses the GOI policy of giving TT boosters at 10 and 16 years. Where Td vaccine formulation is available, it is preferred to TT vaccine. IAP also recommends 2 doses of TT to pregnant mothers, first dose at the earliest contact for antenatal registration and the second dose at 4 to 8 weeks interval.
On Measles Vaccine: IAP endorses the GOI policy of giving a single dose of measles vaccine at 9 months (after completion of 270 days ) of age. If missed till 12 months of age, MMR vaccine should be given instead.
On other Selected Additional Vaccines: Varicella and Hepatitis A vaccines may be considered as additional vaccine

On Hepatitis B Vaccine:
All babies except born to HBsAg positive mothers should receive the first dose of hepatitis B vaccine at birth followed by 6 and 14 weeks. If the first dose at birth is missed, the first dose can be initiated at 6 weeks followed by 2 more doses at 10 and 14 weeks. T(e choice /f combination vaccine`of epatitis  7ith DP7 #an be`prefered.`M ` ` ` ` ` ` ` LI>font size}"r"`face=bVerdanab>For babies`born to`HbsAg`positive mothers, HB vaccine should be initiated from birth onwards, along with HBIG (HB immunoglobulin) within 12 hours, followed by 2 more doses at 6 weeks and 14 weeks. If HBIG is not available, then HB vaccine alone must be given prefferablly , following four doses schedule at birth, 6 weeks, 10 weeks and 12 months for optimal protection to these infants.
Regular screening for markers of HB infection is not necessary. If there have been some risk factors of past infections such as acute/ chronic HBV infection within the household or prior blood transfusion, then screening is advised. For this purpose, anti-HBc test alone is sufficient in most situations.
On MMR Vaccine: MMR vaccine is to be given in the second year of life, preferably at 15-18 months. If missed it can be given at any age later.
On Haemophilus influenzae type b Vaccine: Since Hib prophylaxis is age dependent, and it involves boosting of the natural immunity, either 3, 2 or 1 dose/s at 6 weeks – 6 months, 6 – 12 months and 12 – 15 months respectively, followed by a booster at 15 – 18 months are recommended. Beyond 18 months - 59 months only one dose is recommended. This vaccine is not recommended after 5 years of age.
On Typhoid Fever Vaccines: IAP encourages the aroutine of immunization against typhoid fever in all communities.
For urban overcrowded communities, with known prevalence of typhoid fever cases especially children under 5 years, the whole cell killed vaccine when available, is recommended at an appropriate age based on local epidemiology from age 6 months upto 2 years.
When available, the unimmunized children between 2 to 6 years of age, the whole cell vaccine is recommended in urban overcrowded communities and in low income group families. For those families who can afford the cost and administration, the Vi antigen vaccine can be given as a single dose.
For previously unimmunized children of 6 or more years, the above recommendations hold good, except that the choice now includes the oral typhoid vaccine also.
In general, a child started on any of above mentioned vaccines, may be kept on the same vaccine by periodic boosters once every 3 years or if so desired, a child may be given the whole cell killed vaccine below 2 years, followed by Vi vaccine at or after 2 years, and the oral vaccine at or after 6 years.
On Hepatitis A Vaccine: Continues to be an additional vaccine. It may be offered to children belonging to a high socio-economic level as these children are at higher risk of developing the infection. Two doses of pediatric formulation can be given the first dose at the elected date and the second 6 months later after 2 years of age. Adult formulation will have to be given after 19 years of age.
On Varicella Vaccine: Continues to be an additional vaccine. A single dose may be offered to those children beyond one year and up to 12 years who have not had varicella previously. For children older than 12 years without past history of varicella two doses should be given 4 to 8 weeks apart. However, the vaccine can be given anytime after one year under special circumstances.
IMMUNIZATION CAMPS AND CAMPAIGNS: IAP encourages the participation of its members in all campaigns organised by GOI to augment routine immunization coverage and the special campaigns for Polio Eradication, Measles elimination etc. For other camps and campaigns organised by professional bodies, service organizations and group of doctors etc., IAP stipulates the following guidelines:
When immunization camps/campaigns are organized for non UIP vaccines, the information given to the parents and the public should be accurate and appropriate.
If parents are asked to pay the cost of vaccine, special provision must be made to provide vaccine free of cost, or at subsidized cost, to the families known to be poor. If such equity in service cannot be provided, then, such camps/ campaigns should not be organized/encouraged.
The organizers/ participents of immunization camps/campaigns are not entitled to any financial profit or promotion of vaccines.
The organizers of such camps/campaigns should obtain the prior approval of the relevant local health authority, for which purpose the plan of action may be vetted by the local branch of IAP.
Precautions should be taken to maintain proper cold chain, strict adherance to the use of quality disposible needles and syringes, apporpriate dosage/ schedule/ route and site of administration/provision for emergency care with the involvement of qualified personnel under strict medical supervision.(Duplication of vaccination should be avoided)
These guidelines may be brought to the attention of those who might be planning to conduct such camps/campaigns, especially school authorities, school health agencies, voluntary organizations, and parents/parent-teacher associations. If any member of the Academy becomes aware of any violation of these principles, it is the member’s duty to bring it in writing to the state/ district President or Secretary. The branch may deal with the matter according to the decision of the office bearers andadvise the organizers of the camp to take remedial steps. If further steps are necessary, the branch shall write to the Secretary General IAP for referral to appropriate Committee/Experts.
IMMUNIZATION RECORDS: Every dose of any vaccine given to children must be documented on an appropriate Card or Booklet to be retained by the parents. The Immunization Card of the IAP is highly recommended for this purpose. Parents must be instructed to keep the document safely and to present it to any doctor, clinic or immunization centre, to be kept updated on all doses of vaccines. Parents may be advised to note the number of doses given in PPI campaigns also, for any future reference. An immunization certificate at school entry is worth considering.
II IAP GUIDELINES ON IMMUNIZATION PRACTICES:Detailed guidelines to benefit the practitioners of childhood immunization practices on individual vaccines have since been developed by the Academy in the form of a booklet entitled “IAP Guide Book on Immunization” and is available for members on request.
III IAP RECOMMENDATIONS ON VACCINES Hepatitis B Vaccine:
The Indian Academy of Pediatrics strongly recommends to the Government of India the universal introduction of HB vaccine incorporating the same in UIP schedule and preferably, schedule the first dose at birth with subsequent two doses at 6 weeks and 14 weeks of age. It is important to note that the first dose at birth is essential to prevent perinatal transmission. If the first dose at birth is missed, it should be given at 6 weeks, 10 weeks and 14 weeks of age. If prefered it can be given in combination with DPT wc at 6 weeks and 10 weeks at 14 weeks of age
Whenever feasible, the Academy also recommends that a policy should be adopted for testing of pregnant women for HBV chronic carrier (infection) state and if positive, to endorse a policy to give Hepatitis B immune globulin plus HB vaccine to the new born, or at least HB vaccine alone, in the first 12 hours after birth.
Measles, Mumps and Rubella Vaccine:IAP strongly recommends to the GOI the inclusion of MMR vaccine in the UIP Schedule. The vaccine can be scheduled at 15 – 18 months along with the DPT, OPV booster.
Typhoid Fever Vaccine:
IAP recommends the inclusion of Typhoid vaccine Whole cell vaccine in the UIP schedule.
2. IAP recommends the reestablishment of manufacture of the whole cell killed Salmonella typhi vaccine in the Public sector vaccine manufacturing units in the country.
IAP further recommends that killed vaccine need to contain only S. typhi and not S. paratyphi, thereby improving its quality and reducing its adverse reactions.
IAP suggests that the manufacturing units undertake some research to improve the process of killing of the organisms so that its immunogenicity could be better preserved and the reactogenicity further reduced.
ON COMBINATION VACCINES:
IAP welcomes and encourages licensing of currently available combination vaccines including a future pentavalent DPT wc/HB / Hib formulation.
IAP recommends that wherever combination vaccines are available, they can be substituted for monovalent formulations in the National Immunization Schedule wherever indicated.
IAP recommends to the indigenous vaccine manufacturers to explore the feasibility of producing pentavalent DPT wc/HB/Hib formulation. Read the full story »

Life-cycle of an Immunization Program



1)When there is no vaccine for a disease, the number of people getting the disease is usually high. People are worried about the disease and its effects.
2)When an immunization program for a disease begins, the number of people being vaccinated rises.
3)At the same time, there will be some adverse reactions associated with the vaccine –almost always very few and very mild compared with illness and complications associated with the disease.
4)As the number of people being vaccinated rises, the number of cases of disease drops. Eventually, the number of people getting the disease may approach the small number of people having adverse reactions. (This number remains fairly constant because it is a percentage of the number of people being vaccinated.).
5)At this point, most people may never have experienced the disease, and their attention turns from worry about the disease to concern about possible side-effects of the vaccine. People may start to question whether the vaccine is necessary or safe, and some people will stop getting immunized.
6)If enough people stop getting immunized, disease numbers will start to rise again, and there will be outbreaks.
7)People are reminded of how bad the disease can be, and turn back to immunization to avoid it. Vaccinations increase once more and disease declines.
8)Ultimately, we hope that enough people get immunized that the disease disappears 9)altogether. (So far this has happened only with smallpox, but it could happen with other diseases, such as polio and measles, in the not-too-distant future.)
When there is no more disease, the immunization program can be stopped. The numbers of vaccinations and adverse reactions drop to zero.
Immunity Types
aACTIVE IMMUNITY

Active immunity results when exposure to a disease organism triggers the immune system to produce antibodies to that disease. Exposure to the disease organism can occur through infection with the actual disease (resulting in natural immunity), or introduction of a killed or weakened form of the disease organism through vaccination (vaccine-induced immunity). Either way, if an immune person comes into contact with that disease in the future, their immune system will recognize it and immediately produce the antibodies needed to fight it.
Active immunity is long-lasting, and sometimes life-long.

b PASSIVE IMMUNITY

Passive immunity is provided when a person is given antibodies to a disease rather than producing them through his or her own immune system.
A newborn baby acquires passive immunity from its mother through the placenta. A person can also get passive immunity through antibody-containing blood products such as immune globulin, which may be given when immediate protection from a specific disease is needed. This is the major advantage to passive immunity; protection is immediate, whereas active immunity takes time (usually several weeks) to develop.
However, passive immunity lasts only for a few weeks or months. Only active immunity is long-lasting

How Do Vaccines Protect Children from Diseases?
Each child is born with a full immune system composed of cells, glands, organs, and fluids that are located throughout his or her body to fight invading bacteria and viruses. The immune system recognizes germs that enter the body as "foreign" invaders, or antigens, and produces protein substances called antibodies to fight them. A normal, healthy immune system has the ability to produce millions of these antibodies to defend against thousands of attacks every day, doing it so naturally that people are not even aware they are being attacked and defended so often (Whitney, 1990). Many antibodies disappear once they have destroyed the invading antigens, but the cells involved in antibody production remain and become "memory cells." Memory cells remember the original antigen and then defend against it when the antigen attempts to re-infect a person, even after many decades. This protection is called immunity.
Vaccines contain the same antigens or parts of antigens that cause diseases, but the antigens in vaccines are either killed or greatly weakened. When they are injected into fatty tissue or muscle, vaccine antigens are not strong enough to produce the symptoms and signs of the disease but are strong enough for the immune system to produce antibodies against them (Tortora and Anagnostakos, 1981). The memory cells that remain prevent re-infection when they encounter that disease in the future. Thus, through vaccination, children develop immunity without suffering from the actual diseases that

How Vaccines Prevent Disease

Disease prevention is the key to public health. It is always better to prevent a disease than to treat it. Vaccines prevent disease in the people who receive them and protect those who come into contact with unvaccinated individuals. Vaccines help prevent infectious diseases and save lives. Vaccines are responsible for the control of many infectious diseases that were once common in this country, including polio, measles, diphtheria, pertussis (whooping cough), rubella (German measles), mumps, tetanus, and Haemophilus influenzae type b (Hib).
Parents are constantly concerned about the health and safety of their children and take many steps to protect them. These steps range from child-proof door latches to child safety seats. In the same way, vaccines work to protect infants, children, and adults from illnesses and death caused by infectious diseases. While the US currently has record, or near record, low cases of vaccine-preventable diseases, the viruses and bacteria that cause them still exist. Even diseases that have been eliminated in this country, such as polio, are only a plane ride away. Polio, and other infectious diseases, can be passed on to people who are not protected by vaccines.
Vaccine-preventable diseases have a costly impact, resulting in doctor's visits, hospitalizations, and premature deaths. Sick children can also cause parents to lose time from work

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this blog is dedicated to children for there vaccination.as the children are the greatest gift of god ,we all have our duty to prevent them from the disease.all vaccination which is availble for the children will be discribed here . Read the full story »