RU2299744C1 - Method for carrying out seasonal revaccination of children against german measles in far north - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves carrying out revaccination of children, not reaching the age of 6 years from May to September, next year within the period from May to September.

EFFECT: enhanced effectiveness of revaccination.

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Description

The invention relates to medicine and can be used for vaccination of rubella among the children of the Far North.

A known method of revaccination against rubella in children aged 6 years [Ministry of Health of the Russian Federation. The new calendar of vaccinations in Russia. Order No. 229. - M., June 27. 2001].

The known method does not take into account seasonal variations in the performance of the human immune system in the Far North during the year. The regions of the Far North are located in high latitudes and differ from the more southern latitudes by the duration and dates of the onset of the seasons of the year. Climatogeographic features of the Far North are also represented by the polar “night” and the polar “day”. This determines the low effectiveness of vaccinations throughout the year, and, accordingly, increases the likelihood of rubella. Vaccination according to the known method throughout the year in the Far North provides for significant material and labor costs for the work of medical teams and helicopter transport.

The objective of the invention is to increase the effectiveness of revaccination against rubella among children aged 6 years living in the Far North, and reduce material and labor costs for its implementation. The task is achieved due to the fact that children who are under the age of 6 from May to September are revaccinated only in the next year from May to September.

The method is as follows.

In the Far North, children over 6 years old are selected in a separate group. In the future, this group is subject to immunization with the Rudivax vaccine (anti-rubella vaccine) only from May to September. Children who are under the age of 6 from May to September are revaccinated against rubella the following year and only from May to September.

Example 1. Latysheva K. (age 6 years). It is included in the group of persons subject to rubella revaccination. Vaccinated with Rudivax vaccine in January. 1 year after revaccination, anti-rubella antibodies were not detected (Serum optical density index - ΔOP <0.208) - seronegative.

Example 2. Kolesnikov A. (age 6 years 6 months). It is included in the group of persons subject to rubella revaccination. Vaccinated with Rudivax vaccine in February. 1 year after revaccination, anti-rubella antibodies were not detected (ΔOP <0.208) - seronegative.

Example 3. Lun O. (age 6 years 3 months). It is included in the group of persons subject to revaccination against rubella. Vaccinated with Rudivax vaccine in March. 1 year after revaccination, anti-rubella antibodies were not detected (ΔOP <0.208) - seronegative.

Example 4. Mirnov A. (age 6 years 5 months). It is included in the group of persons subject to rubella revaccination. Vaccinated with Rudivax vaccine in April. 1 year after revaccination, anti-rubella antibodies were not detected (ΔOP <0.208) - seronegative.

Example 5. Mikheychik Yu. (Age 6 years). It is included in the group of persons subject to revaccination against rubella. Vaccinated with Rudivax vaccine in May. One year after revaccination, anti-rubella antibodies were detected in protective titers (ΔOP = 0.57).

Example 6. Dankin K. (age 6 years 4 months). It is included in the group of persons subject to rubella revaccination. Vaccinated with Rudivax vaccine in June. One year after revaccination, anti-rubella antibodies were detected in protective titers (ΔOP = 0.74).

Example 7. Andreeva I. (age 6 years 3 months). It is included in the group of persons subject to revaccination against rubella. Vaccinated with Rudivax vaccine in July. One year after revaccination, anti-rubella antibodies were detected in protective titers (ΔOP = 0.81).

Example 8. Egorov S. (age 6 years 1 month). It is included in the group of persons subject to rubella revaccination. Vaccinated with Rudivax vaccine in August. One year after revaccination, anti-rubella antibodies were detected in protective titers (ΔOP <0.75).

Example 9. Zhupikova A. (age 6 years). It is included in the group of persons subject to rubella revaccination. Vaccinated with Rudivax vaccine in September. One year after revaccination, anti-rubella antibodies were detected in protective titers (ΔOP = 0.412).

Example 10. Satin E. (age 6 years 5 months). It is included in the group of persons subject to rubella revaccination. Vaccinated with Rudivax vaccine in October. 1 year after revaccination, anti-rubella antibodies were not detected (ΔOP <0.208) - seronegative.

Example 11. Petrochenko Z. (age 6 years 3 months). It is included in the group of persons subject to revaccination against rubella. Vaccinated with Rudivax vaccine in November. 1 year after revaccination, anti-rubella antibodies were not detected (ΔOP <0.208) - seronegative.

Example 12. Plotnikova N. (age 6 years 4 months). It is included in the group of persons subject to revaccination against rubella. Vaccinated with Rudivax vaccine in December. 1 year after revaccination, anti-rubella antibodies were not detected (ΔOP <0.208) - seronegative.

Note: antibodies to rubella virus were determined by the enzyme immunoassay - at a ΔOP <0.208 indicator, the studied sera were considered seronegative (there are no anti-rubella antibodies) - vaccination is ineffective, at a ΔOP index - 0.209-0.446- in the studied sera anti-rubella antibodies were determined at low titers the ΔOP index - 0.447-1.07 - in the test sera anti-rubella antibodies were determined in average titers - the vaccine is effective, with the ΔOP> 1.08 indicator in the studied sera anti-rubella Antibody titers were determined in the high - effective vaccination.

In total, in the Far North, 704 children aged 6-6.5 years old are vaccinated with the Rudivax vaccine. All children were vaccinated in different months (from January to December), while 12 approximately the same groups were formed. The examination was carried out 1 year after revaccination. After vaccination with the Rudivax vaccine, from May to September, less seronegative 3.2% -3.6% of the rubella virus was registered than among the vaccinees from October to April, 15.8-20.0% (P <0.05) - see table. Revaccination against rubella was shown to be most effective only from May to September.

Using the proposed method has the following advantages:

1. The effectiveness of rubella revaccination among children living in the settlements of the Far North is increasing.

2. Allows you to significantly reduce the material and labor costs of revaccination.

Table
Method for seasonal revaccination of children against rubella in the Far North
The number of rubella virus seronegatives among people vaccinated with Rudivax vaccine in different months vaccination month JANUARY FEBRUARY MARCH APRIL MAY JUNE JULY AUGUST SEPTEMBER OCTOBER NOVEMBER DECEMBER Number examined. 61 57 60 63 56 55 61 58 57 60 62 54 Revealed seronegative ^* 18.0% 17.5% 18.3% 15.8% 3.5% 3.6% 3.2% 3.4% 3.5% 20.0% 19.3% 18.5% Note: ^* - Seronegative (susceptible to rubella virus) - ΔOP <0.208

Claims (1)

A method for seasonal revaccination of children against rubella in the Far North, which consists in immunizing them with the Rudivax vaccine, characterized in that children who are under 6 years old from May to September are only vaccinated the next year from May to September.