ABSTRACT
Contraception allows women and couples to have the number of children
they want, when they want them. This is everybody’s right according to
the United Nations Declaration of Human Rights. Use of Contraceptive
also reduces the need for abortion by preventing unwanted pregnancies.
It therefore reduces cases of unsafe abortion,one of the leading causes of
maternal death worldwide.According to Mohammed ,in 2012 an estimated
464,000 induced abortions occurred in Kenya. This translates into an abortion
rate of 48 per 1,000 women aged 1549, and an abortion ratio of 30
per 100 live births. About 120,000 women received care for complications
of induced abortion in health facilities. About half (49%) of all pregnancies
in Kenya were unintended and 41% of unintended pregnancies ended in an
abortion. The use of contraceptives in Kenya still remains a big challenge
despite the presence of family planning programs through the government
and other stake holders. In 2014 a household based cross-sectional study
was conducted by Kenya National Bureau of Statistics on women of reproductive
age to determine the country’s Contraceptive Prevalence Rate and
Total Fertility Rate. This dataset is used to exemplify all aspects of working
with multilevel logistic regression models,comparison between different
estimates and investigation of the selected determinants of contraceptive
usage using statistical software , since large surveys in demography and
sociology often follow a hierarchical data structure. The appropriate approach
to analyzing such survey data is therefore based on nested sources of
variability which come from different levels of the hierarchy. When the variance
of the residual errors is correlated between individual observations as
a result of these nested structures, traditional logistic regression is inappropriate.
These analysis showed that different regions have different effects
that affect their contraception prevalence. The study also clearly revealed
how single level modeling overestimates or underestimates the parameters
in study and also helped to bring to understanding of the structure of required
multilevel data and estimation of the model via the statistical package
R 3.4.1.
Luvai, L (2021). Hierarchical Logistic Regression Model For Multilevel Analysis : An Application On Use Of Contraceptives Among Women In Reproductive Age In Kenya. Afribary. Retrieved from https://afribary.com/works/hierarchical-logistic-regression-model-for-multilevel-analysis-an-application-on-use-of-contraceptives-among-women-in-reproductive-age-in-kenya
Luvai, Linda "Hierarchical Logistic Regression Model For Multilevel Analysis : An Application On Use Of Contraceptives Among Women In Reproductive Age In Kenya" Afribary. Afribary, 06 May. 2021, https://afribary.com/works/hierarchical-logistic-regression-model-for-multilevel-analysis-an-application-on-use-of-contraceptives-among-women-in-reproductive-age-in-kenya. Accessed 27 Apr. 2024.
Luvai, Linda . "Hierarchical Logistic Regression Model For Multilevel Analysis : An Application On Use Of Contraceptives Among Women In Reproductive Age In Kenya". Afribary, Afribary, 06 May. 2021. Web. 27 Apr. 2024. < https://afribary.com/works/hierarchical-logistic-regression-model-for-multilevel-analysis-an-application-on-use-of-contraceptives-among-women-in-reproductive-age-in-kenya >.
Luvai, Linda . "Hierarchical Logistic Regression Model For Multilevel Analysis : An Application On Use Of Contraceptives Among Women In Reproductive Age In Kenya" Afribary (2021). Accessed April 27, 2024. https://afribary.com/works/hierarchical-logistic-regression-model-for-multilevel-analysis-an-application-on-use-of-contraceptives-among-women-in-reproductive-age-in-kenya