Journal of Xi'an University of Architecture & Technology...
Transcript of Journal of Xi'an University of Architecture & Technology...
1
USE OF THE HEALTH BELIEF MODEL FOR THE ASSESSMENT OF PUBLIC
KNOWLEDGE AND HOUSEHOLD PREVENTIVE PRACTICES IN DHAKA,
BANGLADESH, A DENGUE-ENDEMIC CITY
Tanvir Abir, PhD (1)
Associate Professor, College of Business Administration, International University of
Business Agriculture and Technology, Dhaka -1230, Bangladesh.
Professor Nazmul Ahsan Kalimullah, PhD (2)
Vice-Chancellor, Begum Rokeya University, Rangpur. Rangpur- 5404, Bangladesh.
Taha Husain (3)
Lecturer, Department of Gender and Development Studies, Begum Rokeya University,
Rangpur. Rangpur- 5404, Bangladesh.
Dewan Muhammad Nur -A Yazdani (4) (* Corresponding Author)
Assistant Professor, College of Business Administration - CBA
International University of Business Agriculture and Technology—IUBAT
University, Dhaka -1230, Bangladesh.
Abu Taher Md Sanaullah Nury (5)
Deputy Director (MIS-Dev),
Management Information System Unit,
Directorate General of Family Planning,
Ministry of Health and Family Welfare, Bangladesh.
Kazi Fayzus Salahin (6)
Senior Executive, Research, SRGB Research & Consulting Limited.
Kingsley Agho, PhD (7)
Senior Lecturer, School of Science and Health, Western Sydney University, Australia.
Abstract
Prevention is the most efficient way to get rid of any pandemic; it is no exception to Dengue
Fever (DF). Assessment of public knowledge and health credentials is critical for designing
strategies for any disease prevention. This study aims to explore awareness, health
perceptions and preventative measures of Dengue Fever (DF) in various social and economic
segments in Dhaka, Bangladesh. A cross-sectional questionnaire survey of 242 respondents
attending the dengue awareness events was conducted. The information on socio-
demographic characteristics of the participants and their knowledge, attitude and practice on
dengue fever was collected. The findings of this study revealed that there is no doubt among
the 76.4% (n=185) participants that Ades Mosquito is mainly responsible for Dengue. The
majority 97.5% (n=236) of the respondent believe that dengue is becoming a serious health
Journal of Xi'an University of Architecture & Technology
Volume XII, Issue IV, 2020
ISSN No : 1006-7930
Page No: 2800
2
problem in this region. The causes of dengue in this region are water mismanagement
(39.7%), water clogged (33.9%), poor drainage system (18.2 %). This study found different
responses associated with the characteristic of insect and 99.2% of the respondents have not
enough knowledge about dengue and Aedes mosquito. Also, the respondents have not shown
enough attitude and awareness (96.3%) to dengue, and most of the respondents have
moderate level (72.3%) prevention practices on dengue fever (DF). Finally, this study
concluded that the Health Belief Model does not work in Bangladesh.
Keywords: Dengue, Public Knowledge, Preventive Practice, Bangladesh, Hemargic Fever,
Public Awareness
Introduction
Dengue is a mosquito-borne1 disease which is caused by Aedes aegypti's2 bite (Kumar and R.
Kumar, 2013). While dengue is an ancient disease, Chinese medical records incorporated the
first indication of the disease. Accordingly, the disease was first identified in 992 AD in
China. However, some researchers claim the illness mentioned in China's Xin monarchy
documents (265-420 BC) was described as a poisonous water disease' caused by flying
insects (Bostan et al., 2016). Among the places where dengue mosquitoes and viruses are
found in South Asia, the Caribbean, the Indian subcontinent, South and Central America,
Africa, the Pacific Islands and Australia. In the Philippines and Thailand, around 1950s
dengue was first diagnosed as an outbreak. The outbreak of Dengue Fever (DF) had only
been seen in nine countries before 1970. But now, in more than 100 countries3, dengue fever
(DF) is being seen. The disease has widespread in the last 25 years of the 20th century
(Prasittisuk et al., 1998; Kuno, 2009).
In South America and Asia Dengue is more prevalent than anywhere else in the world. In
2019 alone, 1.6 million people were infected with the mosquito-transmitted disease in South
America. The prevalence of dengue is extreme in most countries in Southeast Asia, countries
such as the Philippines, Sri Lanka, Malaysia, Cambodia, Laos, Vietnam and Thailand are
work victim of dengue epidemic. As the amount of Aedes mosquito permeates, the number of
patients suffering from dengue is growing. Nearly 40% of the world's total population is at
risk for dengue (Villar et al., 2015). The disease has grown as much as 30 times in the last 50
years. As a result of this rapid expansion, this disease affects about 100 million people in the
world's tropical areas. Because of this disease, 20000 people die in a year alone and about 25
people per minute (WHO, 2012a).
Other than those urbanizations and polluted climates, the climate change such as temperature
rise, constant rainfall and travel from one continent to another continent is increasing the
prevalence of dengue fever (DF) (Karim, Munshi, Anwar, and Alam, 2012). Rachel Lowe, an
assistant professor at the London School of Medicine and Hygiene, says the warmer climate
has created a favorable environment for dengue outbreaks through virus reproduction and
mosquito breeding (Prothom-Alo, August 9, 2019). Thus, the dengue fever (DF) and dengue
mosquito have taken a dire shape for everyone. About six billion people will be at risk of
getting dengue fever (DF) by 2080 (Messina et al., 2019).
1 An Arboviral infection 2 A type of vector mosquito or insect 3 Every year, 1 million dengue cases are diagnosed in 125 countries, and about 10000 deaths
are reported (Messina et al., 2019).
Journal of Xi'an University of Architecture & Technology
Volume XII, Issue IV, 2020
ISSN No : 1006-7930
Page No: 2801
3
Bangladesh as a subtropical country has nearly all the specific weather conditions that enable
the Aedes aegypti and Aedes albopictus to thrive. Dengue is affecting more and more people
in the country because of this urbanization, climate change and demographic factors
(Chowdhury, 2019; Lam, 1993). This epidemic of the disease has been in the country for the
last two decades (IEDCR, 2019). In previous years, Dengue area included only several of the
country's divisional cities but recently patients with dengue were found in remote areas of the
country4 as well. The number of people affected doubled in 2019 relative to the statistic from
2018 and in the same year 107 deaths attributed to dengue (The Daily Star, 2019; IEDCR,
2019).
The prevalence of dengue fever (DF) in Bangladesh is generally high due to the monsoon
season from July through October (WHO, 2019). During this time the drain, floral tub, barrel
and plastic containers filled with stagnant water, which is conducive for mosquitoes to lay the
eggs on it. The Disease Control Division of the Department of Health, the Ministry of Local
Government, the City Corporation and the Pesticides Department of the Municipality of
Bangladesh work in mosquito control during this time (Islam, 2019). Yet failure to kill
mosquitoes and lack of effective anti-mosquito medicines in cities shows that Bangladesh is
far behind in dengue disease control (Morol, 2019). In such a situation this study aims to
examine the triggers and solutions of Bangladesh's dengue epidemic.
Literature review
The studies that have been done on Dengue have highlighted the causes of Dengue
prevalence, the effects of Dengue and the ways to prevent dengue. In Australia's case, Russell
et al., (2009) studied the possible impact of climate change on dengue spread in Australia.
According to them, dengue outbreaks are currently limited to Queensland, Australia, but with
rising temperatures, Aedes mosquitoes are likely to rise significantly in some Australian
regions. Important factors for the future spread of dengue and vectors are increased
reproduction of dengue mosquitoes in Asian and Pacific countries, and transmission of
viruses from Asian and Pacific countries.
In his study, Gubler (2011) contended that half of the world's population lives in areas at risk
of dengue. During the past 40 years, the dengue epidemic has increased dramatically. Several
factors are responsible for this increased outbreak but the significant ones are urbanization,
globalization and lack of mosquito control. The cities have modern airports through which
millions of travellers fly each year, but the mosquito control system is not successful. As a
result, the virus spreads from one area to another and the dengue takes on the appearance of
an epidemic.
Wu et al., (2009) explain dengue incidence in Taiwan as a result of high temperatures and
urbanization. Their work investigates how dengue mosquitoes can be affected by temperature
and other environmental factors. They presented dengue mosquito spatial patterns in 356
cities using the Geographic Information System (GIS) and found that the dengue risk
increases when urbanization is high and the average monthly temperature is greater than 18
4 According to data from DGHS (2019), 87,953 people were infected with Dengue in the
country from 1 January to 30 September 2019, of whom 57,166 were in the Dhaka Division,
6740 in the Chittagong Division, 9009 in the Khulna Division, 5704 in the Barisal Division,
4724 in the Rajshahi Division, 953 in the Sylhet Division and 2143 in the Mymensingh
Division.
Journal of Xi'an University of Architecture & Technology
Volume XII, Issue IV, 2020
ISSN No : 1006-7930
Page No: 2802
4
degrees Celsius. The monthly average 1-degree Celsius rise in temperature increases the risk
of dengue infection by 1.95 times.
Harving and Rönsholt (2007) reflect on the family-level economic impact of dengue
hemorrhagic fever. For their study, they included 155 children aged 0-15 in South Vietnam.
Parents or guardians of children who were hospitalized for 10 weeks were interviewed to
determine the cost of care for their child. The study found that the average (direct and
indirect) family expenditure on treating a child in South Vietnam is around $61.
Hospitalization costs are reduced parental income which creates an economic burden on a
family. Clark, Mammen, Nisalak, Puthimethee, and Endy (2005) emphasized the economic
impact of dengue hemorrhagic fever on Thailand's family level. This study shows that the
direct hospitalization expense per hospitalized patient unit, the indirect cost due to
productivity loss, is about $61, which is higher than the average monthly income in Thailand.
All studies show the economic effect of dengue hemorrhagic fever on the family level. These
two studies only discussed the economic impact of dengue, but there is a lack of discussion
on the social impact that dengue has.
Recent reports from Ooi, Goh, and Gubler, (2006) indicate that dengue infections in
Singapore have risen over the last decade. The explanation for such an epidemic is the lack of
safe and effective dengue virus tetravalent vaccine and the lack of sustainable prevention.
Researchers stressed the need to increase the cost of successful vector control programs,
reduce Aedes aegypti species and restrict the importation of dengue virus into Singapore to
avoid dengue. Researchers even said, in Singapore, prevention of dengue infection is not
feasible without eliminating dengue in neighboring countries. Therefore, regional efforts to
control dengue need to be made.
Banu et al., (2012) shows the impact of climate change in Bangladesh with the prevalence of
dengue epidemic. The changing climate such as temperature and humidity affects vectors and
viruses which result in vector-borne diseases becoming severe and spreading. Authors
predicted that the temperature would rise to 3.3 degrees Celsius by the end of this century and
thousands of dengue cases would increase due to no adaptation of the socio-economic
conditions.
Raheel et al., (2010) researched dengue in the Indian subcontinent. Their research aims at
examining the reported cases of dengue hemorrhagic fever and defining the triggers for the
dengue fever (DF) outbreak. Their study results show that climate change, rainfall,
temperature and humidity are contributing to outbreaks of dengue. Mosquito-borne diseases
like dengue have been growing in the Indian subcontinent for the last few years.
Salje et al., (2019) conducted the study on dengue in Bangladesh, which has been
transformed into a common disease and burden. They selected 5866 individuals who had
been tested for IgG serum and in terms of collecting data. They found that 40% of the people
are infected nationally and 2.4 million people are infected annually. As a result of their
research, dengue can be prevented in Bangladesh by increasing vector surveillance and
understanding how dengue is spreading.
It is evident from the literature review above that researchers have researched the causes of
dengue, the consequences of dengue and ways of avoiding dengue. But there is no research
work conducted in Bangladesh portraying the field causes and remedies of dengue fever (DF)
in Bangladesh. Thus, there remains a research lacuna in this particular field of study. This
study aims to meet that research lacuna.
Journal of Xi'an University of Architecture & Technology
Volume XII, Issue IV, 2020
ISSN No : 1006-7930
Page No: 2803
5
Methodology
Study duration and location
A cross-sectional study survey was conducted in June 2019 at Dhaka city (DNCC5 and
DSCC6), Bangladesh. The facilities between these two locations are similar to one another
with a community formation and residential buildings.
Sampling procedure and survey
A purposive sampling method was used to select a sample of participants to represent the
general community of DNCC and DSCC. By using a sample size calculator (G power
calculator), it was estimated that a minimum of 242 households should be sampled to gain a
90% confidence level, with a maximum allowable difference of 0.05 in detecting the KAP
proportions in the population. A dengue awareness event was held at both localities
separately and the survey was done reporting a total number of 242.
A structured questionnaire on knowledge, attitude and practice of dengue control was
prepared. It was printed in local language and the questionnaire was divided into three
sections; the first section covered the knowledge on Aedes and dengue consist of 16
questions, the second part concerned with attitude and consists of 08 questions which were
based on Health Belief Model (HBM) and covered concepts known as severity, susceptibility,
perceived barrier and perceived benefit. For scoring, a Likert scale 1 to 5 was given to each
perception varying from strongly agree, agree, neutral, disagree, strongly disagree. The last
part was related to practices with 19 questions in total. The overall reliability of the
questionnaire was acceptable with Cronbach-alpha value of 0.763 (Cronbach, 1951).
Data analysis
The data collected from the questionnaire were entered and analyzed using the Statistical
Package for Social Sciences (SPSS) version 23.0. All of the questions were analyzed and
assessed individually using a scoring system. Each of the appropriate answers was given a
point and was totaled for each section. Respondents were considered to have sufficient
knowledge (16 questions), satisfactory attitude (08 questions) and have good preventive
practices (19 questions) if they correctly answered 75% in each of the section of the
questions.
Result and Discussion
Prevailing Knowledge on Aedes and dengue
Table 1:Knowledge on Aedes and dengue
Variables Frequency Percentage
Dengue is becoming a health problem in the area
Yes 236 97.5
No 6 2.5
Causes of dengue in the area
Unmanaged waste 96 39.7
5 Dhaka North City Corporation 6 Dhaka South City Corporation
Journal of Xi'an University of Architecture & Technology
Volume XII, Issue IV, 2020
ISSN No : 1006-7930
Page No: 2804
6
Water clogged 82 33.9
Bushes around the residential area 10 4.1
A drainage system does not work 44 18.2
Don’t know 10 4.1
Who can be infected by dengue?
Children only 5 2.1
Adults only 9 3.7
Anyone 224 92.6
Don’t know 4 1.7
Is dengue dangerous?
Yes 232 95.9
No 4 1.7
Don’t know 6 2.5
Why dengue is dangerous?
Can be caused to death 215 88.8
No cure 8 3.3
Don't know 19 7.9
Sign and Symptoms
Continuous fever 187 77.3
Skin rash 129 53.3
Muscle pain 182 75.2
Nausea/vomiting 105 43.4
Headache 144 59.5
Small bleeding at gum and nose 54 22.3
Diarrhoea 25 10.3
Don't know 2 .8
Treatment of dengue
Immediately see a doctor 207 85.5
Drink plain water 13 5.4
Drink papaya leaf juice 13 5.4
Drink coconut water 2 .8
Drink liquid more 2 .8
Drink 100 plus (isotonic drinks) 1 .4
Don't know 4 1.6
Causes of dengue
Any mosquito 10 4.1
Aedes mosquito 185 76.4
Dengue virus 35 14.5
Contaminated water 9 3.7
Don't know 3 1.2
Carrier of dengue
Any mosquito 34 14.0
Aedes mosquito 178 73.6
Dengue virus 20 8.3
Contaminated water 3 1.2
Don't know 7 2.9
Characteristics of the insect
Brown and hairy 8 3.3
Black and white stripes on the head 58 24.0
Journal of Xi'an University of Architecture & Technology
Volume XII, Issue IV, 2020
ISSN No : 1006-7930
Page No: 2805
7
Shelled body with stripes on the wings 17 7.0
Black and white stripes on the body and legs 106 43.8
Don't know 53 21.9
Timing of the insect's biting habits
Dawn and early morning 74 30.6
Late evening and dusk 40 16.5
At night only 6 2.5
Early morning and late evening 108 44.6
Don't know 14 5.8
The life cycle of the insects from egg to adult
Days 7 91 37.6
Days 14 31 12.8
Days 21 23 9.5
Don't know 97 40.1
What are the insects breeding spots?
Clearwater 121 50.0
Murky water 79 32.6
Don't know 42 17.3
Where are the potential breeding spots inside the house
Pot liner 126 52.1
Kitchen cutlery tray 91 37.6
Toilet flush/tank 130 53.7
Cistern 29 12.0
Refrigerator tray 134 55.4
Don't know 1 .4
Where are the potential breeding spots outside the house
Clogged gutter/drain 148 62.2
Water storage container, jar 150 63.0
Unclosed cans and bottles 123 51.7
Solid waste that can store water 99 41.6
Old tires that can store water 141 59.2
Don't know 8 3.4
How to prevent breeding spot
Allow fogging inside the house 39 16.3
Managed waste and recyclables properly 157 65.4
Used mosquito aerosol spray 134 55.8
Install mosquito nets at house windows 127 52.9
Prevent stagnant water 63 26.3
Clear the clogged water every 3 days 155 64.6
Always closed containers that can store water 113 47.1
Eliminate mosquito breeding spots weekly 97 40.4
Install mosquito nets at house windows 80 33.3
Use mosquito nets at the time (day time of sleeping 106 44.2
Don't know 13 5.4
Knowledge on Dengue
There is no doubt among the 76.4% (n=185) respondents, that Ades Mosquito is mainly
responsible for Dengue. The majority 97.5% (n=236) of the respondent believe that dengue is
Journal of Xi'an University of Architecture & Technology
Volume XII, Issue IV, 2020
ISSN No : 1006-7930
Page No: 2806
8
becoming a serious health problem in this region. Among the total number of the participant
95.9% (n= 232) knows that dengue is dangerous diseases and 88.8% (n=215) believe that
dengue can cause death. When they asked about the cause of dengue in this region or area
39.7% (n=96) said about unmanaged water, 33.9% (n=82) said about water clogged, 18.2 %(
n=14) said about drainage system is not work and similarly, 4.1 %( n=4) given opinion that
they don’t know about that. Anyone can be infected by the dengue said by majority
respondent and their percentage is 92.6% (n=224).
Dengue is an upcoming disaster and serious issue that’s why having sufficient knowledge
about sign and symptoms of dengue infection is very important. To know about the depth of
knowledge about sign and symptoms of dengue among the respondents, we set multiple
response questions to understand the knowledge of the symptomatology of dengue, and the
result is that 8% (n=2) said that they don’t know about the sign and symptoms of dengue, in
contrast, majority of the respondent's response associated with dengue are-continuous fever
77.3% (n=187), headache 59.5% (n=144), skin rash 53.3% (n=129), muscle pain 75.2%
(n=182), small bleeding at gun and nose 22.3% (n=54), diarrheoa 10.3% (n=25), nausea/
vomiting 43.4%(n=105).
When they were asked about what they would do immediately after infected by dengue,
majority of the respondent said that they would immediately seek for treatment and their
percentage is 85.5% (n=207), in contrast equally 5.4 % (n=13) said that they would drink
papaya leaf juice and drink plain water.
Knowledge on Ades Mosquito
There is no doubt among the 73.6% (n= 178) respondent that Ades mosquito is the carrier of
the dengue disease. This study found different or multiple responses to the characteristics of
the insect. Common response associate with the characteristic of insect is- brown and hairy
3.3% (n=8), black and white stripes on the head 24% (n= 58), shelled body with stripes on
the wings 7% (n=17), black and white stripes on the body and legs 44.6% (n=106). In
contrast, 21.9% (n=53) respondent said that they don’t know about the characteristics of the
insect. On the timing of the mosquito biting habits, 30.6% (n=74) of the respondent said
‘dawn and early morning’ while 44.6% (n=108) respondent said ‘early morning and late
evening’ and dusk 16.5% (n=40), and 5.8% (n=14) respondent don’t know about the timing
of the mosquito biting habits.
Majority of the respondent 40.1% (n=97) don’t know about the duration of Ades Mosquito
life cycle from egg to adult. Most of the respondent is informed about the potential breeding
spots inside the house. They mentioned several spots and these are-pot liner 52% (n=126),
toilet flush/tank 53.7% (n=130), refrigerator tray 55.4% (n=134). Respondent also mentioned
several techniques to prevent breeding spots. Majority of the respondent 65. 4% (n=157) said
that they should manage waste and recyclables properly, 64.6% (n=155) said that they should
clean the clogged water every 3 days, 44.2% (n=106) said that they should use mosquito nets
at the time of sleeping.
Table 02: Attitude scoring of the respondents based on the health belief model
Statements Strongly
Agree
(%)
Agree (%) Neutral
(%)
Disagree
(%)
Strongly
Disagree
(%)
Dengue fever (DF) is very dangerous 62.8 26.9 5.4 3.3 1.7
Dengue fever (DF) can cause death 19.8 33.9 9.5 24.8 12
Journal of Xi'an University of Architecture & Technology
Volume XII, Issue IV, 2020
ISSN No : 1006-7930
Page No: 2807
9
Dengue fever (DF) can occur without
presences of skin rashes
15.7 59.9 14.9 7 2.5
Continuous fever worries you 31 56.6 8.7 1.7 21
Despite having medical facilities still
afraid of dengue fever (DF)
31.8 41.3 17.4 7.4 2.1
Very worried when get bitten by a
mosquito
28.5 37.6 20.2 9.9 3.7
Not worried on water logged 11.2 35.1 8.7 34.3 10.7
You can be infected with dengue fever
(DF)
23.6 52.5 17.8 2.5 3.7
If you are healthy, you will not be
infected with dengue fever (DF)
8.7 19.8 12 40.1 19.4
You ware often bitten by mosquitoes
but never fall sick
12.4 22.7 19.8 33.1 11.9
Do you believe that dengue fever (DF)
could be prevented and controlled?
19.4 58.7 11.6 5 5.4
Do you think that eliminating the Ades
mosquito is complicated and time-
consuming?
8.3 51.7 21.5 12.8 5.8
Do you think that you have an important
role in dengue fever (DF) prevention?
20.2 44.2 26.4 4.1 4.9
Do you think that dengue is a major
problem for the people of Bangladesh?
27.3 48.8 11.6 8.7 3.7
Do you think that dengue is difficult to
detect?
12.8 21.5 20.7 41.7 3.3
Do you think that the environment is
conducive to disease transmission?
14 50 26 6.6 3.3
Do you think that dengue has high
morbidity?
22.7 39.3 26 7 5
Do you think dengue epidemic is an
alarming diagnosis?
22.7 55 11.2 7.9 3.3
Do you think that dengue decreases
economic productivity?
16.9 40.5 19 17.4 6.2
Attitude towards Dengue
Using Health Believed Model (HBM) we developed some questions to understand the
attitude of the respondent regarding dengue and Ades mosquito prevention (Table 2).
Respondents are confident enough that dengue is a dangerous and serious illness. Majority of
the respondent 62.8% strongly agree that dengue fever (DF) is very dangerous. In contrast,
interesting findings is that similarly 1.7% of the respondent strongly disagree with this
statement. Among the participant of this study 19.8% strongly agree with this statement that
dengue fever (DF) can occur death and 33.9% of the participant simply agree with this
statement. In contrast, 12% of the whole respondent strongly disagree with this statement that
dengue can occur death. 31.8% of the respondent still strongly agrees that they are afraid of
dengue fever (DF) despite having medical facilities and 41.3% respondent are simply agree
with this statement. Most of the people of this region are very worried when they get bitten
by a mosquito. 28.5% of the respondent strongly agree with this statement that they are
worried when they get bitten by a mosquito and 37.6% of the respondent simply agree with
this statement. In opposite 9.9% strongly disagree with this statement. 23.6% of the
Journal of Xi'an University of Architecture & Technology
Volume XII, Issue IV, 2020
ISSN No : 1006-7930
Page No: 2808
10
respondent strongly believes that anyone can be infected by the dengue fever (DF) and 52.5%
simply agree with this statement. In contrast, 2.5% strongly disagree with this statement.
Continuous fever is a sign of dengue fever (DF) and it is an issue of worry. 31% respondent
strongly agree with this opinion and 56.6% simply agree with this opinion.
Dangerous dengue fever (DF) can be controlled and prevent through raising awareness
among the people. Here 19.4% respondent is strongly and 58.7% of the respondent simply
agree with this statement. And here interesting findings is that still, 5.4% disagree with this
statement. Each person has an important role in preventing dengue fever (DF). Here our study
finds out that 22.2% of the research sample strongly agree with this statement and 44.2%
simply agree with this statement. In contrast, 4.9% of the research sample strongly disagree
with this statement.
Dengue is an upcoming threat to the overpopulated area. And dengue is a threat to the health
wellbeing of this country. Here 27.3% of the respondents strongly agree that it is a major
problem of this country and 46.8% simply agree with them. In opposite, 3.7% of people still
here they do not agree with them.
Environment plays an important role in the transmission of dengue diseases among people.
This study finds out that majority of the respondent simply agree with this statement and their
number is 50% and 14% strongly agree with them. Sometimes dengue causes a death that
means dengue has high morbidity. Here this study finds out that 22.7% strongly agree with
this statement with additional 39.3% of the respondent. Impact of dengue can decrease the
economic productivity. 16.9% of the respondent strongly agrees with this statement and
40.5% respondents are simply agreed with them.
The practice of dengue control
Table 03: Prevention practices of the respondents
Variables Frequency Percentage
Do you throw waste in tied plastic trash and tightly closed the trash bin?
Yes 186 76.9
No 56 23.1
Do you Ensure water containers were tightly closed each time after used?
Yes 182 75.2
No 60 24.8
Do you destroy damaged equipment that can store water?
Yes 159 65.7
No 83 34.3
Do you clean water inside the container once a week?
Yes 172 71.1
No 70 28.9
Do you check for mosquito breeding spot outside the house?
Yes 123 50.8
No 119 49.2
Do you check for mosquito breeding spot inside the house?
Yes 185 76.4
No 57 23.6
Journal of Xi'an University of Architecture & Technology
Volume XII, Issue IV, 2020
ISSN No : 1006-7930
Page No: 2809
11
Do you use mosquito aerosol/spray every day?
Yes 113 46.7
No 129 53.3
Do you use mosquito net during day time sleeping?
Yes 115 47.5
No 127 52.5
Several positive practices mentioned by the respondent when collecting data on dengue
control issue. Preventive practice can control dengue fever (DF) and can reduce the
vulnerability of the dengue situation. Majority of the respondent 76.9% (n=180) throw waste
in tied plastic trash and tightly closed the trash. In opposite, 23.1% (n=56) don’t have good
practice. The number of respondent 75.2% (n=182) ensure their water containers is tightly
closed each time after use. In contrast, 24.8% (n=60) don’t do that. Majority of the
respondent 71.1% (n=172) clean their water inside the container once a weak and 28.9%
(n=70) of the respondent doesn’t do that. 65.7% (n=159) respondent destroy damaged
equipment that can store water. Regularly 50.8% (n=123) respondent check for mosquito
breeding spot outside the house and 76.4% (n=185) inside the house. In contrast, 49.2%
(n=119) do not check the mosquito breeding spot outside the house and 23.6% (n=57) inside
the house. One of the interesting findings of this study is that majority of the respondent
52.5% (n=127) do not use mosquito net during the time of sleeping and only 47.5% (n=115)
respondent use a mosquito net. Majority of the participant 53.3% (n=129) do not use
mosquito aerosol/spray every day in contrast, 46.7% (n= 113) respondent use it in regular
basis.
Knowledge, Attitude and Practice Score
As depicted in the below table (Table 4) 99.2% of the respondents have not enough
knowledge about dengue and Aedes mosquito. Also, they have not shown enough attitude
(96.3%) in dengue. However, most of the respondents have moderate level (72.3%)
prevention practices on dengue.
Table 4: Knowledge, Attitude and Practice Score
Correlation Testing
Table 5: Correlation between knowledge, attitude and practices of dengue prevention
Particular Frequency Per centage
Knowledge Score
Poor Knowledge 240 99.2
Moderate Knowledge 2 .8
Attitude Score
Unfavorable Attitude 233 96.3
Neutral Attitude 4 1.7
Favorable Attitude 5 2.1
Practice Score
Low level 54 22.3
Moderate level 175 72.3
High level 13 5.4
Journal of Xi'an University of Architecture & Technology
Volume XII, Issue IV, 2020
ISSN No : 1006-7930
Page No: 2810
12
Variable r-Value p-Value interpretation
Knowledge vs
Attitude
-0.017 0.792 Small negative
correlation
Attitude vs Practice +0.064 0.325 Small positive
correlation
Knowledge vs
Practice
+0.031 0.631 Small positive
correlation
The above table (Table 5) shows that there is a positive significant correlation between
knowledge and practices of dengue; also, there is a positive correlation between attitude and
practice; but there is a negative relationship between knowledge and attitude, i.e. there is no
relationship on knowledge and attitude.
Journal of Xi'an University of Architecture & Technology
Volume XII, Issue IV, 2020
ISSN No : 1006-7930
Page No: 2811
Table 6: Bivariate and multinomial logistic regression model
Gender Parameter Estimates B Std.
Error
Wal
d
df Sig.
Knowledge
Male Moderate
Knowledge
Intercept -4.256 .712 35.71
4
1 .000
Gender 0 . . 0 .
Attitude
Male Favorable
Attitude
Intercept -3.843 .584 43.37
7
1 .000
Gender 0 . . 0 .
Female Favorable
Attitude
Intercept -3.839 .715 28.86
2
1 .000
Gender 0 . . 0 .
Neutral
Attitude
Intercept -3.146 .511 37.96
4
1 .000
Gender 0 . . 0 .
Practice
Male Moderate level Intercept 1.138 .200 32.37
9
1 .000
Gender 0 . . 0 .
High level Intercept -1.551 .416 13.88
5
1 .000
Gender 0 . . 0 .
Female Moderate level Intercept 1.232 .248 24.68
3
1 .000
Gender 0 . . 0 .
High level Intercept -1.253 .463 7.324 1 .007
Gender 0 . . 0 .
The model in the table (Table 6) depicts that there is a negative relationship with the gender-
based knowledge, attitude and practices. So, there is evidence that the Health Belief Model
does not work in Bangladesh. The respondents do not have much knowledge of dengue and
Aedes mosquitos, also they do not have a favorable attitude and practice to prevent the
diseases and to reduce the breading place of Aedes mosquitos.
Conclusion
It can be claimed that the adult population of Dhaka city, Bangladesh do not have adequate
knowledge related to dengue. Yet, the overall prevalence of sufficient knowledge based on
these criteria is moderate. This interpreted into poor attitude yet perplexed as the respondents
have good preventive practices against the disease. Possibly, the critical dengue situation in
their areas compelled them to conduct preventive practices. Among citizens in Dhaka, public
awareness regarding dengue is limited. Awareness, understanding of the hazard and self-
efficacy are significant predictors of effective prevention strategies for dengue. Prevention
and control approaches should be concentrated on increasing consciousness of the hazard
through television. The health campaigns will indeed be constructed to increasing the soul-
efficacy of individual people.
Journal of Xi'an University of Architecture & Technology
Volume XII, Issue IV, 2020
ISSN No : 1006-7930
Page No: 2812
Analysis regarding public knowledge and health attitudes on hemorrhagic fever holds the
most significant part in the implementation of outbreak prevention measures. The findings of
this research illustrate the extent of general knowledge, health commitments and current
prevention measures toward dengue fever (DF). We analyzed awareness of dengue and
prevention measures related to demographic characteristics and public health values. The
findings of the study are taken into consideration to help design health campaigns addressing
the reduction and management of dengue fever (DF). This study also reveals that public
awareness has a significant effect on the implementation of prevention measures on dengue.
Knowledge regarding dengue could be propagated throughout the community to maximize
the knowledge and awareness of the vulnerability to this outbreak. This will also be essential
that health campaigns provide details that can improve patient trust and may also help
alleviate this outbreak in the community by adopting appropriate measures to prevent.
Reference
Banu, S., Hu, W., Hurst, C., Guo, Y., Islam, M. Z., & Tong, S. (2012). Space‐time clusters of
dengue fever in Bangladesh. Tropical Medicine & International Health, 17(9), 1086-
1091.
Baidya, R., Debnath, B., De, D., & Ghosh, S. K. (2016). Sustainability of modern scientific
waste compacting stations in the city of Kolkata. Procedia Environmental
Sciences, 31, 520-529.
Bostan N., Javed S., Amen, N.E., Eqani S.A.M.A.S., Tahir F. and Bokhari H. (2016). Dengue
fever virus in Pakistan: effects of seasonal pattern and temperature change on the
distribution of vector and virus. Published by Wiley.
Chowdhury, D. A. (2019, August). Bishsho Shashtho Shongshthar Protibedon a Dengue
Poristhiti (Dengue Epidemic in World Health Organization’s Report). Retrieved on
October 22, 2019, from https://www.dailyjagaran.com/international/news/26366.
Clark, D. V., Mammen Jr, M. P., Nisalak, A., Puthimethee, V., & Endy, T. P. (2005).
Economic impact of dengue fever/dengue hemorrhagic fever in Thailand at the family
and population levels. The American journal of tropical medicine and hygiene, 72(6),
786-791.
Cronbach, L. J. (1951). Coefficient alpha and the internal structure of tests. Psychometrika,
16(3), 297-334.
DGHS (2019). Daily Dengue Status Report, Director General of Health Service,
Ministry of Health and Family Welfare, Bangladesh. Retrieved from
http://www.dghs.gov.bd/index.php/en/data retrieved on September 25, 2019.
Gubler, D. J. (2011). Dengue, urbanization and globalization: the unholy trinity of the 21st
century. Tropical medicine and health, 39(4SUPPLEMENT), S3-S11.
Harving, M. L., & Ronsholt, F. F. (2007). The economic impact of dengue hemorrhagic fever
on the family level in Southern Vietnam. Dan Med Bull, 54(2), 170-172.
IEDCR (2019). Dengue Current Situation, Institute of Epidemiology, Disease
Control and Research, Bangladesh. Retrieved from
https://www.iedcr.gov.bd/index.php/dengue/219 retrieved on September 25, 2019.
Journal of Xi'an University of Architecture & Technology
Volume XII, Issue IV, 2020
ISSN No : 1006-7930
Page No: 2813
Islam, S. (2019, July). Kobe Kothay Prothom Dengue Shonakto Hoy (When and Where First
Dengue Detected)?. Retrieved on October 22, 2019, from
https://www.bbc.com/bengali/news-49176425.
Karim, M. N., Munshi, S. U., Anwar, N., & Alam, M. S. (2012). Climatic factors influencing
dengue cases in Dhaka city: a model for dengue prediction. The Indian journal of
medical research, 136(1), 32.
Karim, R. (2017). Dhaka's economic activities unplanned: analysts". Retrieved
From https://www.thedailystar.net/business/dhakas-economic-activities-
unplannedanalysts-1366252, retrieved on October 4, 2019.
Kuno, G. (2009). Emergence of the severe syndrome and mortality associated with dengue
and dengue-like illness: historical records (1890 to 1950) and their compatibility with
current hypotheses on the shift of disease manifestation. Clinical microbiology
reviews, 22(2), 186-201.
Lam, S. K. (1994). Two decades of dengue in Malaysia. 熱帯医学 Tropical medicine, 35(4),
195-200.
Messina, J. P. Brady, Oliver J., Nick Golding, Moritz U. G. Kraemer, G. R. William Wint,
Sarah Ministry of Health and Family Welfare, Bangladesh. Retrieved from
http://www.dghs.gov.bd/index.php/en/data, retrieved on September 25, 2019.
Morol, S. (2019, October). Dengue Thameni Uddoge Vata (Dengue has not stopped but
initiative has stopped). Retrieved on October 22, 2019, from
https://www.prothomalo.com/bangladesh/article/1619784/.
Ooi, E. E., Goh, K. T., & Gubler, D. J. (2006). Dengue prevention and 35 years of vector
control in Singapore. Emerging infectious diseases, 12(6), 887.
Prasittisuk, C. Andjaparidze A.G. and Kumar V. (1998). Current Status of Dengue/Dengue.
Retrieved on November 4, 2-2019 from http://hdl.handle.net/10069/4641
Prothom Alo. (2019, August). Bisshojure Dengue er Prokop Barche Keno (Why the dengue
epidemic increasing day by day)?. Retrieved on October 2, 2019, from
https://www.prothomalo.com/international/article/1609163/
Raheel, U., Feheem, M., Riaz M.N., Kanwal, N., Javed, F., Zaidi N.U.S.S. and Qadri, I.
(2011). Dengue fever in the Indian Subcontinent: an overview, Reginal Review, 5(4),
p. 239- 247
Salje, H., Paul, K., Paul, R., Rodriguez-Barraquer, I., Rahman, Z., & Alam, M., Rahman, M.,
Amin, S.M.A., Gurley, J.H.G.E.G. (2019). Nationally-representative zero study of
dengue in Bangladesh allows generalizable disease burden estimates. Elife, 8. DOI:
10.7554/elife.42869, Retrieved on November 11, 2019, from
https://elifesciences.org/articles/42869
The Daily Star. (2019). retrieved on October 4, 2019, from
https://www.thedailystar.net/business/dhakas-economic-activities-unplanned-analysts-
1366252,
Journal of Xi'an University of Architecture & Technology
Volume XII, Issue IV, 2020
ISSN No : 1006-7930
Page No: 2814
Villar, L., Dayan, G. H., Arredondo-García, J. L., Rivera, D. M., Cunha, R., Deseda, C., ... &
Rey, L. C. (2015). Efficacy of a tetravalent dengue vaccine in children in Latin
America. New England Journal of Medicine, 372(2), 113-123.
WHO (2019). Dengue and Severe Dengue. Retrieved November 4, 2019, from
https://www.who.int/news-room/fact-sheets/detail/dengue-and-severe-dengue.
Wu, P. C., Lay, J. G., Guo, H. R., Lin, C. Y., Lung, S. C., & Su, H. J. (2009). Higher
temperature and urbanization affect the spatial patterns of dengue fever transmission
in subtropical Taiwan. Science of the Total Environment, 407(7), 2224-2233.
Journal of Xi'an University of Architecture & Technology
Volume XII, Issue IV, 2020
ISSN No : 1006-7930
Page No: 2815