UNIVERSITY OF MALAWI
CHANCELLOR COLLEGE
FACULTY OF SCIENCE
MATHEMATICAL SCIENCES DEPARTMENT
Project Report
Determinants of Gender Based Violence Amongst Pregnant Women in Malawi
By
PATRICK JOEL MWALE
Supervisor
MRS H. MDALA
A Dissertation Submitted to Mathematical Science Department, Faculty of Science,
in Partial Fulfillment of the Requirement for the Degree of Bachelor of Science
AUGUST, 2014
Declaration
I, the undersigned, here by declare that this dissertation is my own work which has not been
submitted to any other institution for similar purposes. Where other peoples work has been used
acknowledgments have been made.
Name: Patrick Joel Mwale
Signature...............................
Date .......................
i
Certification
The undersigned certify that this dissertation represents the student’s own work of effort and has
been submitted with my approval.
Signature: ........................ Date:...........................
Mrs H. Mdala (BSc, Instructor in statistics),
Supervisor.
ii
Dedication
I dedicate this paper to my parents Mr. and Mrs J Mwale and to my family. Thank you for
everything. I love you and God bless you
iii
Acknowledgements
I thank God for the wonderful Blessings He has showered upon my life. I thank Him for the Wis-
dom, Intelligence, Courage, strength that kept me going when situations seemed tough. I thank
Him for His grace and Holy Spirit, this was indeed sufficient for me.
I extend my gratitude and appreciation to my supervisor, Mrs. H. Twabi for her constant sup-
port, constructive corrections, care and understanding. Your numerous comments that filled my
drafts have really paid off; this paper could not have come out like this without your help. I further
extend my gratitude to Mr. T. Kaombe and Dr. J.J. Namangale for the great statistical foundation
they built in me. Special thanks also should go to Mr J. simbeye who also helped in enlightening
up my project. God bless you all.
Very special thanks to my parents, Mr. and Mrs. J Mwale for the moral, physical, academic
and spiritual support, for the unconditional love and care you have always given me. To my broth-
ers and sisters; Chrispin, Nesta, Doreen, Caroline and Leonard I love you guys and God bless you.
To my late brother (Alfred) and sisters (Grolia and Clara) will always remember you.
Lastry to Edward, Mudaniso, Alex, Chimwemwe, Duncan, Noah, Panji, Khumbo, Moffat, Don-
ald, Godwin, Eric, Davie, Brewster, Bertha, Jessie, Mayamiko, Jucee, Calvin, Kettie, Emmanuel,
Chawa, Bvutan, keith, Geoffrey and all my statistics, Mathematics and geography classmates for
being there for me in different dimensions of my life at Chanco, you were like family. God bless you
all.
iv
Abstract
GBV is a global problem which highly occurs in the developing nations (13%), and Malawi is one
of them with an estimate of about 28% of its women being abused in one way or the other. 5% of
pregnant women in the country are also affected by GBV, hence putting them at higher risk of having
pregnancy complications. The Malawi Government, after the 2004 MDHS report on GBV put in
place a lot of efforts to control the problem. However there is still limited knowledge concerning the
determinants of the problem (especially amongst pregnant women), which might be due to luck of
published data on the subject and awareness to bridge the knowledge gap.
As such this study assessed the determinants triggering GBV amongst pregnant women in the coun-
try. This was done using the 2010 MDHS data, which collected information from 2,3020 women in
the reproductive age group (15-49 years). The analysis of the study was done in three levels, uni-
variate, bi-variate and multivariate analysis. The uni-variate was used to examine the frequency
of occurrence of GBV, the bi-variate to measure the association of each factor against GBV, this
was done using Chi-square tests of associations and Cramer’s V which measures the strength of
association. Thirdly predictors of GBV were found using a logistic regression model. Data entry,
analysis and model fitting was done using STATA (version 12) and all tests were compared at a 5%
significant level.
The results showed that 3.26% of pregnant women in Malawi are hurt either by their husband or
partner. The factors found to be associated with GBV were as follows; jealousy, hurt before preg-
nancy, alcohol consumption, ethnicity, has radio, number of wives, social support, and occupation.
The logistic regression model showed that women who had a jealousy husband were 16 times more
likely to be abused than those without one (p − value < 0.001), women who had a radio in their
homes were 62% less likely to be abused than those who did not (p − value = 0.011) and women
who had a partner who at oftentimes drinks alcohol were 7 times more likely to be abused than those
whose husband don’t drink (p− value = 0.036).
v
Contents
1 INTRODUCTION 1
1.1 Background Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
1.2 Problem Statement / Justification . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
1.3 Study Objectives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
1.3.1 General Objective . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
1.3.2 Specific Objections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
2 LITERATURE REVIEW 5
2.1 Social-Demographic and Economic Studies . . . . . . . . . . . . . . . . . . . . . . . 5
3 METHODOLOGY 9
3.1 Study Locale and Design . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
3.1.1 Target Population . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
3.1.2 Sample Size and Sampling Procedure . . . . . . . . . . . . . . . . . . . . . . 9
3.2 Suggested Models and Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
3.2.1 Key Variables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
3.2.2 Analytical technic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
3.2.3 Uni-variate Statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
3.2.4 Inferential Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
3.2.5 Data Entry and Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
3.3 Ethical Consideration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
3.4 Limitations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
4 RESEARCH FINDINGS 16
4.1 Interpretation of Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
4.1.1 Descriptive statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
vi
4.1.2 Bi-variate statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
4.1.3 Multivariate Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
5 DISCUSSION OF RESULTS 24
6 CONCLUSION AND RECOMMENDATIONS 30
6.1 Conclusion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
6.2 Recommendations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
6.3 Appendix 1: Summary of Descriptive Statistics . . . . . . . . . . . . . . . . . . . . 34
6.3.1 Table 4: Frequencies and percentages of women in different background char-
acteristic variables on GBV . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
6.3.2 Table 5: Frequencies and percentages of women in different background char-
acteristic variables on Place of Residence . . . . . . . . . . . . . . . . . . . . 36
vii
List of Tables
Table 1: Acronyms
Table 2: Results of Chi-square tests of associations and Cramer’s V
Table 3: Binary Logistic Regression Analysis
Table 4: Frequencies and percentages of women in different background characteristic variables on
GBV
Table 5: Frequencies and percentages of women in different background characteristic variables on
Place of Residence
List of figures
Figure 1: A pie chart showing the proportion of abused pregnant women in Malawi
Figure 2: A bar graph showing the distribution of woman’s age on GBV
Figure 3: A bar graph showing the distribution of violence amongst women with a jealousy partner
viii
Table 1: Acronyms
Abbreviation DescriptionDV Domestic ViolenceGBV Gender Based ViolenceMDG Millennium Development GoalsMDHS Malawi Demographic and Health SurveyNSO National Statistical OfficeWHO World Health OrganizationVSU Victim Support Support Unit
ix
Chapter 1
INTRODUCTION
1.1 Background Information
Gender based violence (GBV) is defined as any act of violence that results in, or likely to result in,
physical, sexual or psychological harm, or suffering to women, or men (though at a lesser degree)
including threats of such acts coercion or arbitrary deprivations of liberty, where occurring in public
or private life (UN, 1993).
GBV occur in many forms, including but not limited to intimate partner violence (IPV), sexual
violence and femicide or the killing of women because of their gender by males. The frequency and
variety of GBV varies across countries and continents, but the negative impact it has on individuals
and on families is universal, and has direct links to health problems (UNFPA, 1998).
Domestic violence is recognized as a major public health concern (Donohoe M, 2003) and vio-
lation of human rights that is faced by all societies around the world, with one woman in every four
being abused during pregnancy worldwide (Kidman N, 2010, Unifem., 2010). In various countries,
studies have shown that people believe that husbands are justified in beating their wives if they
disobeyed them or refuse sex.
Pregnant women have been found to be at high risk of being abused (Unifem, 2008). Earlier
studies have estimated that 4% to 15% of pregnant women around the world have experienced vio-
lence (WHO, 2005). The same study also found that an astonishing one out of every four pregnant
women in rural Peru, experienced GBV. Factors like social support, woman occupation, woman’s
1
place of residence etc. were found to be associated with GBV amongst pregnant women (Khosla
A.H et al, 2005).
About 13% of women experience Domestic violence during pregnancy in developing countries
(Unifem., 2008). Other studies have indicated that more than 40% of women have experienced
GBV, and 56% for young girls between the ages of 15 to 19, pregnant women showing more than
10% (Uganda DHS, 2006, DRC DHS, 2007).
Here in Malawi, nearly 3 in every 10 women (28%) and 1 out of 16 pregnant women (6.2%) get
abused annually, and one in every four women have ever experienced sexual violence (NSO, 2011).
Domestic violence during pregnancy has been identified as one of the risk factors for low birth
weight, ante partum hospitalization, induced and spontaneous abortions and other injuries (Kaye
D. et al, 2005).
1.2 Problem Statement / Justification
The Government of Malawi not only recognizes GBV, especially violence against women, as a severe
impendent to poverty reduction, but also recognizes its impact on vulnerable groups. It has made
a lot of efforts in trying to eliminate GBV such as enacting the prevention of DV Act in 2006 and
the National response to combat GBV, 2008-2013.It also created institutions known as victim sup-
port units, based at police stations where victims are encouraged to report cases whenever abused
(Chasweka R. et al., 2012).
Despite the above mentioned efforts, in comparison of the 2004 and the 2010 MDHS report, there
was an indication of some percentage increase in violence according to woman’s background char-
acteristics i.e. age (4% - 9%), marital status (4% - 7%) and place of residence (4% - 8%). Another
study on magnitude of domestic violence amongst pregnant women at Nsanje District Hospital in
2012, found that the percentage of women who have ever experienced physical violence since attain-
ing 15 years of age in Nsanje was about 32% and 19% experienced physical violence the previous
year preceding the 2010 MDHS (Chasweka R. et al., 2012). Most studies conducted on GBV mostly
focus on women, children and the elderly.
2
Consequently knowledge on risk factors of GBV amongst pregnant women is still limited in the
country, since a few studies on the issue and awareness campaigns on the risk factors of GBV have
been done. Consequences of the act like; low birth weight, infant illness, premature labor, miscar-
riage and under−2 mortality is little known especially in the rural areas (Turan J. et al., 2012).
All this clearly show that though people know about GBV, it is still being practiced at a higher rate
in the country. Hence indicating Malawi’s poor human rights indicators, which negatively affects
the women livelihood. It also shows that Malawi is failing to meet its Millennium Development
Goal of empowering women.
It is therefore the aim of this study to examine the determinants of GBV amongst pregnant women
in Malawi and analyze the significance of each of these determinants to GBV, since apart from the
MDHS a few studies have been done in the country concerning the same. Hence the study shall
review the determinants of GBV amongst pregnant women using a quantitative study approach.
In so doing sensitizing the people on the risk factors as well as dangers of violence to a pregnant
woman, which in the end will empower these women and help the Government meet the millennium
development goals. It could also be used in reviewing the determinants and proportion of GBV
amongst pregnant women in the country in future academic writing.
3
1.3 Study Objectives
1.3.1 General Objective
• To measure the demographic and social economic features which put pregnant women at high
risk for domestic violence.
1.3.2 Specific Objections
• Measure the prevalence of partner violence during pregnancy.
• Identify the association between GBV amongst pregnant women and the determining factors.
• Measure the strength of association for each determining factor
4
Chapter 2
LITERATURE REVIEW
2.1 Social-Demographic and Economic Studies
Of all the human rights violations, gender based violence is perhaps the most widespread and so-
cially tolerant (Glaser. et al., 1967). Globally it kills and disables more women in the child bearing
age than does cancer.
Literature of GBV especially on pregnant women is scarce here in Malawi. The risk factors and
effect associated with the problem is little known especially in the rural areas. This is the case since
the condition is associated with shame and disrespect with some cultures taking such as punishment
to teach women how to respect their husbands. As a result many victims give in accurate reports
or under report the problem
GBV during pregnancy brings more danger to the life of both the woman and the unborn ba-
bies. And according to studies, the practice can result in miscarriage, premature labor, low-birth
weight, infant illness and under−2 mortality (Turan J. et al., 2012).
Discussed below are some of the studies done around the world, which have reported Social-
Demographic and Economic conditions as factors reading to GBV amongst pregnant women.
The 2008 USAID Health Sector Program, reported that a number of cross sectional studies by
the World Health Organization found that men who witnessed violence as children, are at a higher
risk of violating their wives when they get married. The studies also show that women married to
5
or in a relationship with men who drink or use drugs are at a higher risk of being abused compared
to those married to men who don’t drink. However most of these studies could neither determine
whether the risk factor preceded the violence nor provide qualitative insight into complex social
dynamics. These studies also indicated an increase of DV in communities as a result of education
and economic empowerment of women, at least until attaining high enough status to be projected
from backslash against such changes (Kug E.G. et al., 2002).
Different studies that used DHS results from different countries have indicated the following; In
Zambia 27% of ever married women reported being beaten by their partners. 33% of these women
belonging to 15-19 age group, 35% from 20-24 age group the remaining to other age groups (Kishor
S. et al., 2004). In South Africa 7% of 15-19 years had been assaulted, while 10% had been sexually
abused by their partners (Jewkes R. et al). Kenya reported 43% of 15-49 year old women being
abused in their life time, 16% reported ever been sexually abused (Kenya DHS., 2005).
Other studies by WHO reported that, in rural Ethiopia, 49% of ever partnered women had ever
experienced physical violence by their partner, rising to 59% ever experiencing sexual violence. 47%
of ever partnered women in rural Tanzania have ever experienced physical violence and 31% had
experienced sexual violence (WHO., 2005).
A prospective study (Khosla A. et al., 2005) on DV in pregnant women in Northern India, with
a sample of 991 married pregnant women reported 28.4% of abuse during pregnancy. The study
which only used chi-square of association and odds ratio, found that abuse was higher in families
with husbands who drink or smoke and in families where husbands had low education (OR: 2.07
95% CI ; 1.54-2.79), this was similar to a study by (Bacchus L. et al., 2004) and (Leung WC. et al
1999). The study also found high levels in women with lack of social support (OR: 98.9) as against
OR of 1.8 in another study from India by (Peedlcayll A. et al., 2004). However the study found
same levels of abuse in rural women compared to women in urban areas, and same levels of abuse in
women with low levels of education compared to those with high education level which is contrary
to most studies.
Such differences could have come about as a result of errors in sample correction since the study
only assessed women who were admitted that time, which was not a representative sample for
6
the whole country. The use of chi-square test for association alone without using logistic regression
can also bring bring about errors in interpreting the effectiveness of each factor on domestic violence.
A study on intimate partner violence (IPV) (Bazargan-Hejazi Sh. et al., 2013) which used chi-
square test (bivariate statistic), boneferron correction to reduce Type I error and multivariate lo-
gistic regression (multivariate statistics) and was based on the MDHS, found that physical violence
increases with age (9 - 13%) with (OR = 1.35; 95% CI: 1.05-1.73), while sexual violence decreases
with age (14 - 11%) with (OR = 1.4; 95% CI: 1.03-1.90) of the woman. Women with low levels of
education reported highest level of physical abuse (16 22%), sexual abuse (10 15%) and emotional
(11 13%) with (OR = 0.70; 95% CI: 0.49-0.99). Those with higher education had lower levels
compared to those with low education; physical 7%, sexual violence 5% and emotional violence
19%. Women who could not read at all were less likely to report sexual IPV than women who
could read a full sentence (OR = 0.76: 95% CI; 1.03-1.90). The study did not find any significant
difference in reporting IPV of any type between woman’s place of residence.
However other studies (Anderson N. et al., 2007) which used primary data, with a sample of 20,639
women from 8 different African countries including Malawi, indicated a higher prevalence as well
as a more accepting attitude of IPV in rural areas. but this study was qualitative and didn’t use
statistical significant evidence, as such it can have a lot of errors as well.
A descriptive study on Magnitude of Domestic Violence against Pregnant Women in Malawi (Chasweka
R. et al., 2012), which used the administration of structured questionnaires for data collection and
used chi-square test for analysis with a sample size of 292 pregnant women, found 58.6% of these
women abused by their marriage partners. Among these, 28% had been sexually abused. The
study also found that in all age categories women were abused, contrally to the 2011 NSO findings
that Domestic Violence (DV) was more prevalent among young pregnant women. This might be
the case as a result of lack of reporting among old couples in the MDHS data, compared to young
abused pregnant women (Chasweka R. et al., 2012). The study had a majority of women who did
not go beyond primary school, therefore the comparative group was a minority that could not have
had any significant influence on the results, as such it showed abuse despite education levels. This
agreed with Lammechnane’s findings (Lammechnane P. et al., 2011). However studies by (Khosla A.
et al., 2005) and (Audi C et al., 2008), found that high incidence of DV among low-educated women.
7
The study also found an association between low income and women being abused during preg-
nancy. Some errors might come up in the study since it only used chi-square of association instead
of testing the significance of each explanatory variable against DV using the logistic regression.
8
Chapter 3
METHODOLOGY
3.1 Study Locale and Design
The study used data obtained from the 2010 Malawi Demographic Health Survey. As such the
study has used quantitative data only.
3.1.1 Target Population
The study consisted of women between the ages of 15 to 49, who had ever been abused while
pregnant.
3.1.2 Sample Size and Sampling Procedure
The data of this study was obtained from the 2010 Malawi Demographic Health Survey
(http://www.measuredhs.com/data/Using-Datasets-for-Analysis), which used a cross sectional study
and used a cluster sampling to collect data from the individuals in the sample frame defined. The
sample included 849 clusters, 158 in urban areas and 691 in rural areas. A woman’s questionnaire
was used to collect information from all women aged 15-49.
A nationally representative sample of 23,020 interviews of women in this age group were called
for and a domestic violence question during pregnancy before and during the interview was asked,
which is the target population of this study.
So this study analyzed responses from these women to find the risk factors associated with the
problem.
9
Key Issues Investigated
The main interest was on specific questions that addressed the specific objectives of this study. The
questions were as follows;
• What are the factors that influence GBV amongst pregnant women and how significant are
they?
• What is the relationship between each factor identified and violence amongst pregnant women?
• What is the occurrence/rate of GBV amongst pregnant women in Malawi?
10
3.2 Suggested Models and Analysis
3.2.1 Key Variables
• Response Variable: Hurt during pregnancy by husband or partner
• Explanatory Variable: Age, Marital Status, Place Of Residence, Education Level, Wealth,
occupation, partner or husband who drinks, ethnicity, jealousy e.t.c.
3.2.2 Analytical technic
The study tried to identify the determinants of gender based violence amongst pregnant women
in Malawi. The analysis was done at three levels; uni-variate, bi-variate and multivariate analysis.
The dependent variable was whether a woman was hurt during pregnancy or not, which is binary
response. The response variable; hurt during pregnancy was coded with values: 0 for not hurt and 1
for being hurt. The explanatory variables were in discrete form except age (continuous) from which
another variable (age categories) was generated. The ages were categorized into young (15-24),
middle (25-34) and old (35-49).
3.2.3 Uni-variate StatisticsThis part looked at the descriptive statistics for both the Socio-demographic and economic fac-
tors used in the study. As such frequency and the percentages of GBV among pregnant women inMalawi were obtained.
3.2.4 Inferential Analysis
To test the general hypothesis, different statistical methods were used to identify any relationship
between the dependent and independent variables. All the test were curried at a 5% significance
level. If the calculated p-value was less than the significance level, the null hypothesis was rejected
in favor of the alternative hypothesis. The statistical methods were as follows;
(a) Bi-variate Analysis This analysis used a chi-square test (χ2) to test the association between
the response variable (hurt during pregnancy) and each explanatory variable or factor (age, marital
status, place of residence, education level, wealth, occupation e.t.c). The hypothesis tested were as
follows;
11
• H0: There is no association between socio-demographic factors and GBV amongst pregnant
women in Malawi.
• H1: There exist an association between economic conditions and GBV amongst pregnant
women in Malawi.
The formula for chi-square statistics is
χ2 = Σ(Oij − Eij)
2
Eij
and follows a χ2 with (r-1) (c-1) degrees of freedom. Where
• Oij is the observed counts in cell ij; i = 1, 2, 3..r and j = 1, 2, 3..c where r is the number of
rows and c is the number of columns in an rc contingency table.
• Eij the expected counts in cell ij; i = 1, 2, 3..r and j = 1, 2, 3..c where r is the number of
rows and c is the number of columns in an rc contingency table.
However, in most cases, the χ2 test in a contingency table is not robust as it can be affected by
the sample size and also by the number of rows and columns which when they increase, in most
cases we tend to reject H0. As such Cramers V, a measure of strength of association between
two nominal variables, giving a value between 0 and +1 (inclusive) was used. Cramers V which
is a variant of chi-square, based on Pearsons chi-square statistic to test the strength of association
between the individual covariates and GBV. Cramers V is given by;
V =√
χ2
N(q−1)
Where: χ2 is the chi-square statistic; N is the total sample size and q is the number of rows or the
number of columns, whichever is less.
Cramers V is a symmetrical measure, it does not matter which variable we place in the column
and which in the rows. Also the order of rows or columns does not matter, so Cramers V may be
used with nominal data types or higher. Cramers V varies from 0 (corresponding to no association
between the variables) to 1 (complete association) and can reach 1 only when the two variables are
equal to each other.
12
(b) (Multivariate Analysis): For this part, a logistic regression model was fitted to measure
the relationship between the binary response variable and a set of explanatory variables. Backward
Likelihood elimination was used to select the best variables that gives a good model with less vari-
ability. The hypothesis tested were as follows;
• H0: Explanatory variable (xi) is not significant in the model
• H1: Explanatory variable (xi) is significant in the model
Logit(P ) = ln( P1−P ) = β0 + β1x1 + β2x2 + ..+ βkxk
Where:
• βi’s are regression coefficients of explanatory variable xi.
• xis represent an explanatory/predictor variable.
• P is the probability of being hurt during pregnancy and (1−P ) is the complement. The ratio
P(1−P )
is the odds that a pregnant woman gets hurt. The probability P can also be given in
terms of the covariates as:
P =exp(β0 + β1x1 + .....+ βkxk)
1 + exp(β0 + β1x1 + .....+ βkxk)
The binary logistic regression uses the Wald statistic and its corresponding significance level to
test the significance of the covariate in the model. The square of the ratio of the logistic coefficient
(β) to its standard error (S.E) equals the Wald statistic. Therefore, if the Wald statistic is signif-
icant, then the parameter and its associated covariate in the model are significant. All statistical
tests were done at 5% confidence level.
Furthermore, the odds ratios exp(β) was used to measure the effect size of exposures. The odds
ratio of the independent variables is the ratio of relative importance of the independent variables
in terms of effect on the dependent variable‘s odds.
The logistic regression was fitted after meeting the assumptions listed in the next page;
13
• The dependent variable was binary (hurt during pregnancy) coded as shown below;
1. 0 for no
2. 1 for yes
• The data was not normally distributed
• No linear relationship between the independent variables
(c) Testing for goodness of fit
Three methods were used to test for the goodness of fit;
(i) The Hosmer-Lemeshow test was used to test the goodness of fit of the model with the following
hypotheses;
• H0: There exists no difference between observed and model-predicted values.
• H0: There is a difference between observed and predicted values
If the H-L goodness-of-fit test statistic p-value is greater than 0.05,we fail to reject null hypothesis,
implying that the models estimates fit the data at an acceptable level.
(ii) -2Loglikelihood which provided us with a measure of how well the model fits the data. In other
words, it is an indicator of how much unexplained information remains after fitting the model. A
Large value means a poorly fitting model.
14
3.2.5 Data Entry and Analysis
Since the study utilized secondary data whose entry and editing were accomplished using CSPro,
the data was imported into Statistical Package for Social Scientists (SPSS). Despite the data set
being imported into a statistical package (SPSS), SPSS was only used to transform the data into
STATA compatible format. All analyses were done using STATA (version 10). STATA was preferred
in analysis for its ability to easily clean the data set.
3.3 Ethical Consideration
The secondary data used in the study was obtained from www.measuredhs.org by writing an e-
mail asking for approval to use the requested data. For the confidentiality and privacy, the obtained
data was not accessed by anyone else but me and was used only to serve the purposes of the project.
3.4 Limitations
The use of secondary data my somehow give biased results as women who were not home during
the time of the interviews were not followed up.
It might also be possible that during the MDHS data collection, some women that might been
abused did not speak out because GBV is a sensitive issue that’s taken to be a private matter
between husband and wife. Some women may not have disclosed their experience of abuse to avoid
shame and embarrassment. These limitations can bring errors in our study.
The proposed study was supposed to use data from both the 2010 Malawi Demographic Health
Survey and the Zomba Police Victim Support Unit, however this was not possible since the data
from the victim support unit did not indicate whether the victim was pregnant or not. The sample
size for Zomba district was 142, and upon dropping missing values in other variables the sample
reduced to 33 which would not be a well representative of the population. It also brought problems
especially when running the regression model as the data had a lot of missing values, hence causing
complete separation. As such, only the 2010 MDHS data was used and the study locale was changed
to the whole country.
15
Chapter 4
RESEARCH FINDINGS
4.1 Interpretation of Results
This chapter gives the results of the study on GBV amongst pregnant women in Malawi which
used the 2010 MDHS data. The analysis was done at three levels; uni-variate, bi-variate and multi
variate analysis. Thus looking at the frequency of occurrence of GBV, the association between
the background characteristic variables and GBV but also the significance of these background
characteristics on the occurrence of GBV. Two methods were also used to measure the goodness of
fit namely -2loglikelihood and Hosmer Lemeshow. Both methods describes how well the model fits
the data.
4.1.1 Descriptive statistics
Respondent’s Socio-Demographic Characteristics
This part shows the combined results of both uni-variate and bi-variate analysis, thus showing
the frequencies of occurrence of GBV against each explanatory variable as well as showing which
variables were associated with GBV. The test of association was done using χ2 test (Clamer’s V),
which was tested at 5% significance level.
The descriptive results include the frequencies and the percentages of the women in each explana-
tory variable in relation to GBV (see Appendix 1 for descriptive results). Amongst the respondents
to the survey, at least 1 in every 30 reported an abuse while pregnant, representing a 3.26%. The
pie chart on the next page shows the distribution of GBV amongst pregnant women in the country.
16
Figure 1: A pie chart showing the proportion of abused women in Malawi
A majority of 1,516 (46%) belonged to the middle aged group (from 21-30 years). About 45.79% of
the women who were abused were of this age category. 42.79% were older women (30+years) who
had 39.25% of the abused population. The minority were young (< 15 years) and 14.95% had been
abused. The bar graph on the next page shows the distribution of woman’s age on GBV
17
Figure 2: A bar graph showing the distribution of woman’s age on GBV
2,938 (89.38%) of the population came from the rural areas while 349 (10.62%) were from the
urban areas, and 87.85% of the 107 of the abused women were from the rural areas. The majority
of the group 1,105 (41.37%) belonging to the Chewa ethnic group, and had the highest percentage
of abuse compared to the other tribes.
On the levels of education of these respondents, 556 (16.97%) had no education while 2,287 (69.81%)
attended primary, 415 (12.67%) had secondary education and only 18 (0.55%) had tertiary edu-
cation. Those with primary education had the highest rate of abuse (76.64%), followed by those
without any education (12.15%), then those with secondary and lastly who had tertiary educa-
tion. 2,859 respondents were married, 84.11% of the abused women reported to be married while
15.89% were living together. 1,900 (57.93%) of the respondents were employed while the other
42.07% were not, and of those who were not employed 58.33% were hurt during pregnancy. 1,185
(36.16%) of these respondents had no radio in their homes and 53.26% of the abused respondents,
had no radio in their homes. However 63% of these women belonged to the middle and poor families.
18
Women whose husbands drink alcohol were atleast 93.35% and over 98% of the women who re-
ported an abuse had a husband who drinks. 433 (41.55%) of these women had a husband who
Was jealous when seen talking to another man and 102 (35.29%) had been hurt before they got
pregnant. Below is a graph showing the distribution of abuse against jealousy husband;
Figure 3: A bar graph showing the distribution of violence amongst women with a jealousy partner
Only 42 (4.03%) of the 1,041 Respondents sought police help and these showed a lower rate of
abuse compared to those who dont. Finally 267 (8.8%) of the group had a husband who had more
than one wife.
4.1.2 Bi-variate statistics
This part shows the results of bi-variate analysis, thus showing the variables which were associated
with GBV as well as the strength of association. The test of association was done using χ2 test
(Clamer’s V), which was tested at 5% significance level.
Based on the output in table 1 on the next page, it can be clearly seen that variables; jeal-
19
ousy (p − value < 0.001), hurt before pregnancy (p − value < 0.001), alcohol consumption
(p − value < 0.001), ethnicity (p − value = 0.005), has radio (p − value < 0.001), number of
wives (p− value = 0.031), social support (p− value = 0.002), and occupation (p− value = 0.034)
had a positive association with GBV. All Cramer’s V (p-values) of these variables showed a weak
association. The rest of the variables showed no association.
Other variables like woman sought social support, being hurt before pregnancy, husband’s alco-
hol consumption had a lot of missing values. As such they gave different frequencies compared to
the overall frequencies. The table below shows the association as well as the strength of association
between GBV and woman’s characteristics.
Table 2: Results of Chi-square tests of associations and Cramer’s V
CHARACTERISTICS Cramer’s V p-valueWoman’s age 0.042 0.401Woman’s place 0.009 0.602Education level 0.031 0.379Woman’s occupation 0.037 0.034Wealth index 0.044 0.173Woman’s tribe 0.070 0.011Number of wives 0.046 0.009Jealousy husband 0.163 < 0.001Husband drinks 0.147 < 0.001Hurt before pregnancy 0.289 < 0.001Sought social support 0.096 0.002Has radio 0.065 < 0.001Marital status 0.017 0.344
Association between the Independent Variables
To investigate if there were any confounding effects among the independent variables, a test of
association was done between the respondent’s place of residence and the rest of the independent
variables. This was done to observe if the results obtained on the level of attendance were based on
individual effects of the variables rather than correlated effects between the explanatory variables
and place of residence.
The independent variables that showed association with respondent’s place of residence were;
20
woman’s education level (p-value<0.001) having a radio(p-value<0.001), sought social support (p-
value<0.001), number of wives (p-value<0.001), woman’s tribe (p-value<0.001), wealth index (p-
value<0.001) and occupation of the respondent (p-value=0.045) in the study (see Appendix 1 for
descriptive results). This association might affect the significance of the results when looking at
association between the factors and GBV amongst pregnant women, since the results also included
the association that exists between the variables. The results on place of residence gave some bias-
ness because a majority of the respondents were from the rural areas, thus the results showed some
inconsistency on analysis done on place of residence.
4.1.3 Multivariate Analysis
The results presented in table indicate that upon running the first model, women who had a jeal-
ousy husband were 16 times more likely to be abused than those without one (p− value < 0.001),
women who had a radio in their homes were 62% less likely to be abused than those who did not
(p − value = 0.011) and women who had a partner who at oftentimes drinks alcohol were 7 times
more likely to be abused than those whose husband don’t drink (p − value = 0.036). However no
other variable showed association following the dropping of the two variables.
On the bottom of the table there is -2loglikelihood, which indicates a measure of how well the
logistic model fits the data. A large value indicates how much inexplicable information remains
after fitting the model. As such with the increasing trend, it can be clearly seen that model one
is a better model since it had a lower value compared to the other models. The hosmerlemeshow
(p-value) are all greater than 0.05, this also indicates that all the three models fit appropriately.
On the next page is a table showing the summary of the multivariate analysis.
21
Table 3:Binary Logistic Regression Analysis
Model 1 Model 2 Model 3Variable OR.(S.E)[P-value] OR.(S.E)[P-value] OR.(S.E)[P-value]Jealousy 15.5343(9.4532)[0.000]* 14.85128(9.01229)[0.000]* 15.16957(9.182423)[0.000]*husbandNumber of [0.147] [0.177] [0.461]WivesOne(RC)Two 1.97206(0.9228721)[0.147] 1.861512(0.85617)[0.177] 1.873374(0.860758)[0.172]Woman’s 1.194328(0.416961)[0.611] 1.181639(0.40930)[0.630] Dropped From The ModeloccupationHave radio 0.388909(0.143723)[0.011]* 0.435221(0.14341)[0.012]* 0.434786(0.143285)[0.011]*Wealth [0.161] Dropped From The Model Dropped From The ModelPoorer(RC)Poor 0.913113(0.418955)[0.843]Middle 0.576718(0.317351)[0.317]Rich 0.748035(0.419608)[0.605]Richer 2.271971(1.230233)[0.130]Husband 0.561491(0.155341)[0.037]* 0.562544(0.15431)[0.036]* 0.565194(0.154558)[0.037]*drinksNon (RC)Often 6.742474(6.910517)[0.063] 6.700458(6.90034)[0.060] 6.695194(6.899458)[0.062]Sometimes 1.857692(1.913182)[0.548] 1.79958(1.87645)[0.0562] 1.800724(1.901873)[0.510]Tribe [0.0.097] [0.133] [0.121]Chewa(RC)Tumbuka 2.737817(1.324238)[0.037]* 2.73326(1.300266)[0.035]* 2.756627(1.310190)[0.033]*Yao 3.069475(1.418560)[0.015]* 2.80586(1.275222)[0.023]* 2.843053(1.290358)[0.021]*Lomwe 1.844763(1.580250)[0.475] 1.98562(1.634359)[0.405] 2.013123(1.655637)[0.395]Ngoni 3.003000(1.447622)[0.023] 2.71416(1.291174)[0.036]* 2.767832(1.312089)[0.032]*Const 0.009928(0.007986)[0.000]* 0.00999(0.007771)[0.000]* 0.010751(0.008173)[0.000]*-2LL 142.66 145.795566 145.9133H-L 0.9704 0.7577 0.7391
Two tailed test: p− value < 0.05,RC: Reference Category,-2LL: -2Loglikehood,H-L: Hosmerlemeshow
22
Table 3 shows the impact of the independent variables that had shown positive association
during the chi-square test, including wealth which though did not show association but had shown
association in other studies done around the world. Variables like hurt before pregnancy, radio,
seek police support which also indicated positive association, were not included in the models since
they had a lot of missing values as such they were causing complete separation also known as quasi-
complete separation. This happens when you have a very small sample or a lot of missing values ,
as such these variables were not included.
23
Chapter 5
DISCUSSION OF RESULTS
The 2010 MDHS reported that 6.2% of pregnant women in the country experience abuse in one
way or the other during pregnancy in the country annually. The study found that one out of every
thirty pregnant women get physically hurt either buy her husband or partner. This represents 3.2%
of abused pregnant women, which was close to the 4%-15% 2005 estimate by the world health or-
ganization. The percentage difference might be because of missing values in the 2010 MDHS data.
After performing the three analysis; descriptive, bi-variate and multivariate the study reviewed the
following according to the demographic characteristics;
WOMAN’S AGE
Though without any association to violence during pregnancy, the study showed high levels of
abuse (45.79%) among middle aged women (20-30 years old) compared to the other age categories.
This was similar to the MDHS report, however contrary to Chasweka s findings who found equal
levels of abuse in all age categories. Such a difference can come about as a result of misrepresenta-
tion of other age categories in the DHS data. Though there was a difference both studies found no
association between ages of the respondents and violence amongst pregnant women. As such the
variable was not included in the logistic regression model.
WOMAN’S PLACE OF RESIDENCE
The study agreed with a studies by Khosla (2005), Bazargan (2013) and the MDHS (2010) which
found high prevalence of domestic violence amongst women from rural areas (87.85%) compared to
those living in urban areas. Most women from rural areas in the country put their trust in customs
24
which encourage them to endure when ever they have been abused in their families, as such acts
of abuse are not reported some do not report such acts only because of shame as they believe that
family matters should not involve the public. Nevertheless the study did not find any association
between place of residence and violence during pregnancy which was different to the results by
Bazargan and Khosla. Such a case could be as the DHS data had a high representation of women
from the rural areas which could lead to bias. Hence this variable was not included in the logistic
regression as well.
WOMAN’S LEVEL OF EDUCATION
On the levels of education the study agreed with other studies by Audi. F (2008), Nasir. K
(2003) and Khosla (2005), who also found high levels of abuse amongst pregnant women especially
those who only attended primary. Since uneducated women depend a lot on their husbands, men
take advantage of this and abuse their wives knowing that there is nothing else they can do without
them. Such women are also vulnerable to abuse since most of them do not know their rights, as
such they do nothing but endure when ever abused. The study did not find a positive association
between the levels of education and violence during pregnancy, however Nasir and Khosla found an
association between the two. This might be because of misrepresentation of respondents especially
those with higher education in the DHS data. Thus the variable was not included in the logistic
model as well.
WOMAN’S OCCUPATION
On occupation the study differed from both studies by Khosla and Audi. The results showed
high levels of abuse among women who were not working compared to those who had a job. How-
ever Khosla found equal levels of abuse regardless of the woman’s occupation. This might be the
case since social norms in India prevent even economically independent women to stand up to
abuse (Khosla, et al. 2005). Audi reported a greater number of abuse in women who assume
non-traditional roles or when they start to work. The case is different here in Malawi since women
who are employed feel that they can afford to provide for their family even without help from a
husband, as such men fail to abuse women who are working in fear of being left alone. After fitting
a regression model, the variable work (OR: 1.194, P − value : 0.611, CI: 0.6128, 2.4048) indicates
25
that the odds of being abused for women who don’t have a job are 19.4% higher compared to those
who had a job. But with a p-value of 0.611 the variable was regarded insignificant to the model.
HUSBAND DRINKS ALCOHOL
The study also revealed high levels of abuse among respondents who had a husband or partner
who drink alcohol. This was also the case with studies by both Nasir and Audi who also found
high levels of abuse among pregnant women who had partners who drink. Mostly men drink alcohol
whenever they have something troubling them, as such its the wife who gets the beating even though
she did not do wrong. This being the case they pretend as it was the influence of the alcohol though
they did know what they were doing. A positive association was also found between alcohol con-
sumption and abuse. After fitting a regression model, variable drink (OR: 0.544, P − value : 0.025,
CI: 0.31953, 0.92654) indicated that women who had a husband who does not drink were 56% less
likely to be abused compared to those whose husband drink. The confidence interval indicates that
the variable has a negative association in the model.
WOMAN SOUGHT SOCIAL SUPPORT
The study also revealed that women who sought help from the police, reported to have lower
levels of abuse compared to those who dont. This was also the case with Khoslas study which also
found low levels of abuse in women who had social support. This might be the case as men fear
arrests if reported to the police whenever they abuse their partners. The study also found positive
association between social support and violence amongst pregnant women. However the model was
not included in the regression model since it had a lot of missing values which was causing the
quasi-complete separation.
WOMAN ABUSED BEFORE PREGNANCY
Women who reported abuse before pregnancy, also reported a high level of abuse during preg-
nancy compared to those who weren’t. An association between the two was also found which
agreed with Chaswekas study. He reported that most women think that reporting violence would
be viewed as revealing family secrets which brings shame and embarrassment to the family. As such
26
men get used to beating their wives no matter how small the issue is. Though with an association
the variable was not included in the regression model since it had a lot of missing values hence
causing quasi-complete separation.
WOMAN’S WEALTH INDEX
Women who were from poor families reported a great number of abuse than those from middle
and rich families. This was also the case in most studies for instance Khosla (2005), Audi (2008),
Nasir (2003) and Faruqi (1996) who also found an association between the variables but this study
did not find any association. This difference might be as a result of lack of reporting among women
from rich families in the MDHS data, as such though without association the variable was included
in the regression model to check whether it was significant to the model or not. However with (OR:
1.172684, P − value : 0.221, CI: 0.985924, 1.513537), wealth index proved to be not significant to
the model and was dropped in both models one and two. The output indicated that the odds of
being abused for women from poorest families were 17% higher compared to those from rich families.
JEALOUSY HUSBAND
Most men feel insecure whenever they see their wives talk to another man, so as a way of protecting
their marriages or relationships they beat their wives so that they should not talk to other men as
such the study showed that women who had a jealous partner (OR: 15.5343, P − value < 0.001,
CI: 4.713282, 51.20073) were at least 16 times more likely to be abused compared to those whose
husband was not jealous. A study by Nasir (2003), also found jealousy to be highly associated with
domestic violence amongst pregnant women.
No other studies were found that dealt with factors; respondent’s marital status, number of wives,
having a radio in the house or respondent’s ethnicity. This study found an association between
both factors and violence amongst pregnant women.
WOMAN’S STATUS
On marital status, the respondents who were married reported high levels of abuse compared to
27
those who were only living together. Since most men feel assured that the wife will never leave
them especially because of cultural values they abuse their wives knowing that they can never leave
them while those who are just leaving together fear that they might lose their partner as most of
these families are still young. The status of the woman showed no association with abuse, as such
it was not included in the regression model.
HUSBAND’S NUMBER OF WIVES
The number wives also proved to be associated with abuse amongst pregnant women. Men with two
or more wives (OR: 1.97206, p− value : 0.147, CI: 0.7880983, 4.934691) were two times more likely
to hurt their wives than men who only had one wife. However the DHS showed a misrepresentation
of respondents especially those with a husband who had two wives (8.2%). This could lead to biased
results as the concentration of respondents was high on women who had a husband with only one
wife.
FAMILY HAS A RADIO
Women who had a radio in their homes reported low levels of abuse compared to those who had
no radio. This might be so since women who listen to radio programs know more about their
rights and know where to report whenever their rights have been violated. Both partners in the
house could be aware of the dangers of abusing a pregnant woman and the imprecations it might
bring on the pregnancy through the radio programs. Upon fitting the regression model having
a radio (OR: 0.38084, P − value : 0.007, CI: 0.189164, 0.7766725), reported that the odds of be-
ing abused for women who had no radio in their homes were 62% higher than those who had a radio.
WOMAN’S TRIBE
On womens ethnicity, the Chewa tribe had the highest level of abuse compared to the other tribes.
This might be as a result of some cultural norms as they have a saying in Chichewa banja ndi
kupilila” that encourage to endure pain in families. As such experiencing more abuse than the
other tribes. Other tribes like Tumbuka who practice ”lobola” put the women high risk of abuse as
the husband feel they own their wives since they paid money for the marriage hence they can abuse
28
their wives. After fitting the regression model, ethnicity (OR: 1.098, P − value : 0.110, CI: 0.97891,
1.23158), revealed that the odds of abuse were almost 3 times higher in Tumbuka, Yao and Ngoni
women and 2 times more in Lomwe women compared to Chewa women.
29
Chapter 6
CONCLUSION AND
RECOMMENDATIONS
6.1 Conclusion
Despite the introduction and in-acting of the prevention of DV Act in 2006, the national response
to combat GBV; 2008 to 2013 and the victim support units in the police stations, the rate of DV
in the country has not changed that much.
The study which used the 2010 DHS data revealed that 3.26% of pregnant women in the coun-
try gets hurt either by their husband or partner. The study also revealed some determinant factors
associated with DV amongst pregnant women in Zomba which were jealousy, having a radio and
alcohol consumption. Women who had a jealous husband were more likely to be abused compared
to those who did not, the same was with women who had no radio in their homes and those who
had partner who drinks.
However, the results to this study can not be that conclusive, since the data had a lot of miss-
ing values. As such chances are high that the results might be somehow biased and might favor
other factors. Never the less though this is a limitation, the study provides a baseline for further
research and development of policies and strategies to decrease DV amongst pregnant women.
30
6.2 Recommendations
• Awareness campaigns should be launched and conducted in the country to teach the nation
on the causes and the impacts of DV amongst pregnant women.
• Introduction of more radio programs concerning issues of women’s rights that can help in
empowering them.
• Further research should be done across the nation to determine more factors of DV amongst
pregnant women and ways of reducing the cases of DV.
31
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6.3 Appendix 1: Summary of Descriptive Statistics
6.3.1 Table 4: Frequencies and percentages of women in different back-ground characteristic variables on GBV
CHARACTERISTICS Hurt Not Hurt TotalOverall 107(3.26%) 3,180(96.74%) 3,287Woman’s age 107(3.26%) 3,180(96.74%) 3,287Young 16(14.95%) 348(10.94%) 364(11%)Middle 49(45.79%) 1,467(46.13%) 1,516(46%)Old 42(39.25%) 1,364(42.89%) 1,406(42.8%)Place of residence 107(3.26%) 3,180(96.74%) 3,287Urban 13(12.14%) 334(10.05%) 347(10.6%)Rural 94(87.85%) 2,835(89.15%) 2,929(89.1%)Education level 107(3.26%) 3,180(96.74%) 3,287No education 13(12.14%) 543(17.08%) 556(16.9%)Primary 82(76.64%) 2,205(69.34%) 2,287(69.6%)Secondary 12(11.21%) 403(12.67%) 415(12.6%)Higher 0(0%) 18(0.57%) 18(0.54%)Woman’s occupation 96(2.96%) 3,174(91.08%) 3,280Yes 72(75.00%) 1,828(57.59%) 1,900(57.9%)No 34(35.00%) 1,364(42.97%) 1,398(42.6%)Wealth index 107(3.26%) 3180 (96.74%) 3,287Poorest 26(24.30%) 544(17.10%) 570(17.34%)Poorer 27(25.23%) 722(22.70%) 749(22.79%)Middle 20(18.69%) 742(23.33%) 742(22.57%)Richer 16(14.95%) 671(21.10%) 687(20.90%)Richest 18(16.82%) 490(15.41%) 508(15.45%)Woman’s tribe 82(3.07%) 2,589(96.9%) 2,672Chewa 25(30.49%) 1,080(41.71%) 1,105(41.35%)Tumbuka 20(24.39%) 304(11.74%) 324(12.1%)Yao 6(7.32%) 312(12.05%) 318(11.9%)Lomwe 17(20.73%) 498(19.24%) 515(19.3%)Ngoni 14 (17.07%) 395(15.26%) 410(15.3%)Number of wives 107(3.26%) 3,280(96.74%) 3,287One 90(84.11%) 2,903(88.51%) 2993(91.3%)Two 17(15.89%) 252(7.68%) 268(8.2%)
34
table 4 cont.
CHARACTERISTICS Hurt Not Hurt Total
Jealousy 107(3.26%) 3,180(96.74%) 3287husbandYes 90(84.11%) 1235(38.84%) 1,325(41.7%)No 17(15.89%) 1934(58.96%) 1951(61.3%)
Husband 56(4.7%) 1,142(95.3%) 1,198drinksNon 1(1.78%) 63(5.52%) 64(5.3%)Often 32(57.14%) 299(26.18%) 331(27.6%)Sometimes 23(41.07%) 780(68.30%) 803(67.1%)
Hurt before 92(10.44%) 789(89.56%) 881pregnancyYes 56(60.87%) 225(28.00%) 281(31.9%)No 36(39.13%) 564(72.00%) 600(68.1%)
Sought social 102(8.92%) 1041(91.08%) 1143supportYes 10(9.80%) 32(3.07%) 42(3.7%)No 92(90.20%) 907(87.13%) 999(96.96%)
Has Radio 107(3.26%) 3180(96.74%) 3287Yes 50(46.73%) 2,042(64.21%) 2092(63.6%)No 57(53.27%) 1,128(35.47%) 1185(36.1%)
Marital 107(3.26%) 3,280(96.74%) 3,287StatusMarried 90(84.11%) 2,774(84.57%) 2864(87.1%)Living together 17(15.89%) 406(12.38%) 423(12.9%)
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6.3.2 Table 5: Frequencies and percentages of women in different back-ground characteristic variables on Place of Residence
CHARACTERISTICS Urban RuralOverall 415 (11.03%) 3,349 (88.97%)Woman’s ageYoung 16 (14.95%) 348 (10.95%)Middle 49 (45.79%) 1,467 (46.15%)Old 42 (39.25%) 1,364 (42.91%)Education levelNo education 34 (8.19%) 614 (18.34%)Primary 219 (52.77%) 2,387 (71.30%)Secondary 145 (34.94%) 335 (10.01%)Higher 17 (4.10%) 12 (0.36%)Woman’s occupationYes 224 (54.11%) 1,980 (59.25%)No 190 (45.89%) 1561,362 (40.75%)Wealth indexPoorest 10 (2.41%) 617 (18.43%)Poorer 21 (5.06%) 818 (24.43%)Middle 35 (8.43%) 831 (24.82%)Richer 98 (23.61%) 695 (20.76%)Richest 251 (60.48%) 387 (11.56%)Woman’s tribeChewa 104 (30.68%) 1,141 (42.17%)Tumbuka 50 (14.75%) 327 (12.08%)Yao 50 (14.75%) 307 (11.35%)Lomwe 68 (20.06%) 515 (19.03%)Ngoni 67 (19.76%) 416 (15.37%)Number of wivesOne 398 (97.07%) 2,999 (90.55%)Two 12 (2.93%) 313 (9.45%)Jealousy husbandYes 137 (38.38%) 1,223 (40.77%)No 220 (61.62%) 1934 (54.23%)Husband drinksNon 8 (5.93%) 60 (5.52%)Often 36 (26.67%) 300 (27.60%)Sometimes 91 (67.41%) 727 (66.88%)Hurt before pregnancyYes 41 (39.05%) 244 (30.77%)No 64 (60.95%) 549 (69.23%)Sought social supportYes 13 (10.40%) 30 (3.25%)No 112 (89.60%) 894 (96.75%)Has radioYes 306 (73.73%) 2,110 (63.31%)No 109 (26.27%) 1,223 (36.69%)Marital StatusMarried 355 (85.54%) 2,915 (87.07%)Living together 2,915 (87.07%) 433 (12.93%)
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