COVID-19 related healthcare wastes management practices among Bangladeshi medical professionals

DOI: https://doi.org/10.21203/rs.3.rs-588383/v1

Abstract

Purpose

Amidst the one year of COVID-19 the amount of healthcare waste generation manifolds in Bangladesh. This article aims to rapidly assess the knowledge, attitude, practice, and perception (KAPP) towards COVID-19 related healthcare wastes among Bangladeshi healthcare professionals.

Methods

This research was conducted following a multi-stage methodological approaches to achieve the desired objectives. A total of 300 (= 300) responses were collected from the healthcare professionals, including doctors, nurses, and relevant staff from the public and private medical hospitals and clinics.

Results

It was found that most of the respondents (83.7%) know about the concerning issues of medical wastes and their types. Almost 90.0% (n = 270) respondents agreed with the statement KS3, mentioned as ‘medical waste of COVID-19 patients can be considered as infectious waste’ and they are aware about the potential threat from the waste. It was also found that nearly 76.0% (n = 228) of the respondents know about color coding for the segregation of medical waste. However, interestingly, 68.3% and 43.6% professionals have knowledge about the guidelines of medical waste management. Surprisingly, around 57.0% (n = 171) respondents think that medical waste management adds an extra burden to their work. T-test indicates that demographic characteristics e.g., respondents’ gender, age, occupation/job responsibility, work experience, and level of education, have a significant effect on the safe handling and disposal of biomedical waste.

Conclusion

Despite of having good knowledge about importance of safe handling and management of healthcare wastes Bangladeshi medical professionls have negative attitude and practices in the management of healthcare wastes.

Introduction

The healthcare waste generation depends on the facilities offered by the hospital, types of the hospital, healthcare waste management system, and the socioeconomic culture of the country (Ansari, Ehrampoush et al. 2019). Hospital solid waste generation rate and hospital solid waste composition in the developing countries are closely related to the environmental performance index and the GDP per capita (Ansari, Ehrampoush et al. 2019). However, due to the severe contagious nature of the COVID-19 virus, isolation wards, institutional quarantine centers, and home quarantines produce loads of biomedical waste (BMW) worldwide (Ilyas, Srivastava et al. 2020). Personal protective equipment (PPE), testing kits, surgical facemasks, and nitrile gloves are the major contributors to waste volume (Ilyas, Srivastava et al. 2020). Increased use of PPE and disposal can lead to secondary environmental disasters (Shammi and Tareq 2020).

Most countries, especially developing countries, struggle to manage the enormous surge of medical waste due to COVID-19 (Shammi, Behal et al. 2021). Due to the severe contagious nature of the COVID-19 human-to-human transmission predominantly caused by contact or cross-infection, airborne bioaerosol and droplet transmission, (Eslami and Jalili 2020, Karia, Gupta et al. 2020), fomite or surface transmission (Karia, Gupta et al. 2020). Personal protective equipment (PPE) is, therefore, an essential component for protecting healthcare workers, doctors, and other emergency service providers (Cook 2020, Islam, Safiq et al. 2020, Jones, Bleasdale et al. 2020). Moreover, our improved, hyper-hygienic way of life in the fear of transmission has conveniently shifted our behavioral patterns towards use of PPE (Vanapalli, Sharma et al. 2021).

In a previous study in 2012, it was revealed that nearly one-third of medical doctors and nurses and two-thirds of technologists and cleaning staff had inadequate Knowledge, and about half of medical doctors (44.0%) and cleaning staff (56.0%) had poor practices of medical waste management in the healthcare centers in Bangladesh (Sarker, Harun-Or-Rashid et al. 2014).The level of Knowledge, attitude, practice and perception (KAPP) and associated factors among healthcare professionals and household residents are necessary towards practical and better biomedical waste management (Deress, Hassen et al. 2018, Mannocci, di Bella et al. 2020). Without active citizen participation and cooperation, virus-laden biomedical waste with the regular solid waste stream pose significant negative health and safety issues to sanitation workers (Sharma, Vanapalli et al. 2020). As a developing densely populated and highly resource-constrained country, Bangladesh failed to practice appropriate healthcare waste management (Khan, Cheng et al. 2019) despite having Medical waste management rules promulgated in 2008 (GoB 2008). Moreover, healthcare waste management facilities extensively lack proper waste segregation, collection, safe storage, transportation, and disposal (Khan, Cheng et al. 2019). Biomedical waste management generated both at hospitals, clinics, isolation centers requires special attention. Strategically a policy-concept shift along with proper planning and program can reform the existing healthcare waste management significantly and practically (Rahman et al. 2020).

Amid such vulnerable circumstances, the ill management of COVID-19 related healthcare waste urges special attention in the hospitals, clinics, and isolation centers for preventing the possibility of the 3rd wave of infection re-emerging. It is very crucial to have the proper Knowledge and attitude towards the COVID-19 related healthcare waste for its safe management among the healthcare professionals and practitioners. This article aims to rapidly assess the Knowledge, attitude, practice, and perception (KAPP) towards COVID-19 related healthcare wastes among Bangladeshi healthcare professionals for the first time in Bangladesh.

Study Procedure

This research was conducted from 20 July 2020 to 10 August 2020 following multi-stage methodological approaches to achieve the desired objectives. A total of 300 (= 300) responses were collected from the healthcare professionals, including doctors, nurses, and relevant staff from the public and private medical hospitals and clinics, to assess their KAPP on hospital healthcare waste management. Considering the healthcare waste management reports of Bangladesh from print and electronic media and literature review, the questionnaire was prepared. Both qualitative and quantitative measurement tools were adopted from scientifically accepted sources to perform a predefined set of activities, including selecting target groups, sampling, key informant interviews (KII), stakeholder consultations, data calculations, and analyses.

2.2. The Questionnaire

To assess the KAPP of the healthcare professionals, nine knowledge statements (KS), twelve attitude statements (AS), twelve practice statements (PS), and six perception statements (P) were identified. A total of 39 items was considered in the drafted questionnaire for the healthcare professionals. A five-point (1–5) Likert scale was used to identify the KAPP of each respondent regarding healthcare waste management that varied from strongly disagree to agree strongly.

2.3. Data analysis

The descriptive statistics (e.g. mean, median, mode, standard deviation, variance, skewness, kurtosis) were used to understand the general public and healthcare professionals KAPP on healthcare waste applying the Statistical Package for the Social Science (SPSS) v. 25.0. Datasets were further analyzed via t-tests and a one-way ANOVA test. Gender, age, occupation, and level of education was considered during these variations.

2.4. Ethical consideration

The consent of participants was taken, and they remained anonymous following the Declaration of Helsinki. Participants were informed of the specific purpose of the study. Only one response was recorded and the survey could be completed/terminated whenever they wished.

Results And Discussions

3.1. Demographic profile

A total of 300 (= n) healthcare professionals including doctor, nurse, medical teacher, lab technician, cleaner, word boy etc. were attended the survey, among which the percentage of male and female was 57.3% (n = 172) and 42.7% (n = 128), and the composition of age groups were 18–25 years (21.3%), 26–35 years (60.7%), 36–50 years (14.7%), 51–65 years (3.0%), and > 65 years (0.3%) old respectively. It is found that the frequency of young participants, especially the age of 26–35 years, is higher than the more senior and mid-age group, similar to the general participants. Almost all of the respondents who attended this survey are educated, and the level of education were found MBBS (59.7%), MBBS and above (17.0%), masters (7.0%), bachelor (3.0%), diploma (7.0%), higher secondary (5.7%) and secondary (0.7%). In terms of occupation status, most of the respondents were doctors (69.3%) although, other medical professionals like interns (6.7%), community health workers (6.7%), nurses (6.0%), medical teachers (3.3%), hospital cleaners (2.7%), lab technicians (1.7%), hospital management staffs (1.0%), waste managers (0.3%), word boys (0.3%) and others (2.0%) participated in the survey. Among the participants, more than half (53.7%; n = 161) of the respondents works in medical college hospital, 29.3% in the general public hospitals, 10.0% in private clinics, 2.7% in technical institutes, 1.7% in the diagnostic centers, 0.7% in sample collection points and 2.0% in others institute or organizations (Fig. 2a). However, it is found that among the total eight administrative divisions of the country, almost half (51.0%; n = 153) of the respondents participated from Dhaka, 28.0% from Chattogram, 9.7% from Khulna, 5.3% from Barisal, 2.3% from Rangpur, 1.7% from Mymensingh, 1.3% from Rajshahi, and 0.7% from Sylhet (Fig. 2b).

It is reported that almost 39.7% (n = 119) of respondents have less than two years of work experience, 26.0% (n = 78) have 2 to 5 years, 22.3% (n = 67) have 6 to 10 years, and rest 12% (n = 36) have more than ten years of work experiences in their respective field. In terms of the working hour per day, almost 44.0% of the respondents work 8 hours/day, whereas 30.0% work less than 8 hours/day and 26.0% more than 8 hours/day. It is found that, among the respondents, almost 64.0% (n = 192) professionals served COVID-19 patients.

3.2. Knowledge, attitude, practices, and perception of healthcare waste management

Healthcare wastes are a complex mixture of wastes produced by healthcare institutions and constitute a hazard to public health if handled inappropriately (Hassan et al., 2008). It also poses serious threats to environmental health and requires specific treatment and management before its final disposal (Alam et al., 2013; Rahman et al., 2020). Hence, this survey explored the Knowledge, attitude, and practices of healthcare waste handling, its impacts on human health, and environmental aspects (Fig. 3). The five-point Likert scale was applied to investigate the description of the statement related to the healthcare waste, where KS symbolizes knowledge statements, AS for attitude statement and PS for practice statement. The descriptive statistics regarding the Knowledge, attitude, practice and perception of the respondents are presented Table 1.

3.2.1. Knowledge

The unsafe disposal of healthcare waste is one of the most significant challenges facing developing countries like Bangladesh. To better manage healthcare waste, it is crucial to have adequate Knowledge regarding the healthcare waste, their disposal procedure, and consequences of unsafe disposal. To understand the healthcare professionals' depth of knowledge regarding healthcare waste, a set of statements are applied. It is found that most of the respondents (83.7%) know about the concerning issues of medical waste and their types. However, still 16.3% (n = 49) of respondents are not aware of the healthcare waste categories. The mean value of the statement KS1 is 4.19 ± 0.91 (Table 1), indicating that the people agreed with the statement. Again, the mean value of the statement KS2 regarding the hazardous medical waste generation is found on 4.31 ± 1.01. Around 85.0% (n = 255) healthcare professionals who attended this survey are conscious about the generation of hazardous medical waste from their work stations like hospital, clinic and diagnostic centre etc. Generally, waste generated from the COVID-19 patients is infectious and can transmit the disease, hence should take proper care of disposal and management (WHO, 2020b). Almost 90.0% (n = 270) respondents agreed with the statement KS3, mentioned as the ‘medical waste of COVID-19 patients can be considered as infectious waste’, where the mean value of the statement is found 4.59 ± 0.91 (Table 1). Infectious medical waste constitutes public health hazards, and it is essential to take special concern. It is found that 90.7% (n = 272) of respondents are aware about the associated health hazards of medical waste. The mean value of the statement KS4 is 4.61 ± 0.88 (Table 1), indicating that the respondents approve of the statement. Usually, both general and hazardous wastes is generated from healthcare facilities. To segregate them from source, the Ministry of Health and Family Welfare (MOHFW) of Bangladesh introduced color coding system like green color bins for general waste (e.g., kitchen waste, tissue paper, package materials), red color bins infected plastic waste (e.g., syringe, gloves, plastic waste), yellow colour bins for infected waste (e.g., anatomical, surgical, discarded medicines), and blue color bins for glassware (e.g., antibiotic vials, metallic substances, glassware materials, and others) (MOHFW, 2011; Reza and Akter, 2018). It is found that, nearly 76.0% (n = 228) of the respondents know about color coding for the segregation of medical waste (KS5), and the rest 24.0% are not aware about the color coding of waste bins. The mean value of the statement KS5 is found on 4.05 ± 1.08 (Table 1). Furthermore, the mean values of the statements KS6 to KS8 regarding the medical waste management rules, and guidelines range from 3.15 to 3.87 (Table 1), indicating the respondents are lacking in Knowledge of the statement’s issues. Nearly 68.3% and 43.6% of professionals have Knowledge about the guidelines of medical waste management (KS6), and Bangladesh medical waste management rules 2008 (KS7), while 31.7% (n = 95) and 56.4% (n = 169) respondents even don’t know there is a guideline exist for the medical waste management in Bangladesh. However, extra care and adequate PPE should be used during the handling of medical waste. The mean value of the statement KS9 regarding this aspect is 4.62 ± 0.90 (Table 1). It is found that around 91.6% (n = 275) of the respondents agreed with the statement and know about the necessity of PPE use and hand hygienic issues while handling medical wastes. The overall outcome is presented in a scale depicting the knowledge level along with attitude and practice (Fig. 3).

3.2.2. Attitude

To understand the respondent’s attitude regarding the healthcare waste handling and safe disposal and management, a set of statements were selected and surveyed. The mean value of the attitude statement AS1 (proper medical waste handling is an important/crucial issue) is 4.62 ± 0.81 (Table 1), indicating that people agree with the statement. It is found that around 92.0% of the respondents (agree 16.3%, strongly agree 75.7%) agreed with the statement. Though safe disposal of hazardous medical waste management is crucial to reduce the environmental and public health hazards (Reza and Akter, 2018; Rahman et al., 2020), but around 57.0% (n = 171) respondents think that, medical waste management add extra burden of work (AS2), with a mean of 3.51 ± 1.30 (Table 1). Besides, more than half (52.7%; n = 3561) of the attendees think that managing biomedical waste is a financial burden (AS3), where the mean value is found 3.40 ± 1.21 (Table 1). It is reported that improper disposal and management of biomedical waste may be infectious and can transmit disease (MOHFW, 2011; Reza and Akter, 2018; Ma et al., 2020). The mean value of the effects of improper disposal of biomedical waste related statements (AS4) is 4.64 ± 0.88 (Table 1), where 91.0% (n = 273) of the respondents agreed with the statement. The findings of the healthcare professional attitude are different and better than the general public. However, around 87.6% (n = 263) respondents agreed the statement mentioned as ‘biomedical waste should be segregated into different categories at the point of generation (AS5)’, where the mean value of the statement is found 4.39 ± 0.92 (Table 1). Improper disposal of healthcare waste will create environmental and public health threats, and now a matter of concern for the developing countries (Adogu et al., 2014; Somani et al., 2020). The mean value of the statements AS6 and AS7 regarding the importance of proper biomedical waste disposal are 4.59 ± 0.87, and 4.13 ± 1.12 (Table 1), where nearly 91.6% (n = 275) and 76.0% (n = 228) respondents agreed the statements. It is found that, around 11.0% of the respondents disagree and 13.0% neither agree nor disagree with the statement AS7, mentioned that, ‘biohazardous wastes should be disinfected before disposal’. The mean value of the statement AS8 regarding the infectious waste storage issue is 4.53 ± 0.85 (Table 1), indicating people agree with the statement. Around 88.6% (n = 266) respondents think infectious waste should not be stored for longer times in the healthcare unit. It is reported that, the haphazard disposal of medical waste creates environmental burden (e.g., soil, air and water pollution, clogging in municipal waterways, plastic pollution etc.), and increase the risk of risk of disease transmission (Fadare and Okoffo, 2020; Ma et al., 2020). The mean values of the statements AS9 and AS10 regarding the importance of safe handling and disposal of biomedical wastes are found 4.50 ± 0.92, and 4.58 ± 0.86 (Table 1), where almost 89.0% (n = 267) and 90.4% (n = 271) respondents agreed the statements respectively. It is found that, around 91.3% (n = 274) respondents think it is essential to take adequate measures to manage the escalating amount of biomedical waste (AS11), with a mean of the statement is 4.55 ± 0.79 (Table 1). However, to manage infectious healthcare waste properly, adequate training is necessary to expand the Knowledge of the employees. It is found that only 38.3% (115) attendees are being trained to handle biomedical waste amid COVID-19. The mean of the statement (AS12) is found 2.87 ± 1.45 (Table 1), indicating the people’s unwillingness with the statement. So, proper training of the healthcare professionals regarding infectious waste handling and management, including the COVID-19 related waste, is now a time-demanding need.

3.2.3. Practices

To investigate the biomedical waste handling and management practices in healthcare organizations (e.g., hospital, medical college, clinic, diagnostic center etc.) by healthcare professionals, a set of statements were selected and surveyed. It is found that nearly 54.3% of respondents claimed to have a waste inventory system/logbook/datasheet, where the rest (45.7%) people’s organization did not maintain the logbook. However, the mean value of the statement (PS1) regarding the waste record is 3.41 ± 1.21 (Table 1), where only 47.0% (n = 141) attendees agreed with the statement. It is stated that proper segregation of medical waste at source is the golden rule of healthcare waste management (Adogu et al., 2014). Mixed-up hazardous and infectious waste with municipal waste may transmit the disease to waste workers (Ma et al., 2020). However, nearly half (58.4%) of the respondents segregate the medical waste at source (PS2), with a mean of 3.61 ± 1.18 (Table 1). Around 41.7% (n = 125) of the respondents claimed not to segregate the medical waste at the source point, which is a serious matter of concern.

Furthermore, 65.7% of the respondents said that their organizations have adequate facilities for temporary storage with primary treatment/disinfection plants for bio-medical waste. The mean value of the statement (PS3) regarding the disinfection of biomedical waste before disposal is found 3.38 ± 1.26 (Table 1). Nearly half (50.7%) of the respondents claimed to use the disinfectant of biomedical waste before removal. To dispose of biomedical waste, the government has a guideline to use different bin colors for the segregation of waste at source (MOHFW, 2011). It is found that about 69.3% (n = 208) of respondents initially dispose of biomedical waste in a different color bin, where the mean of the statement PS4 is 3.87 ± 1.17 (Table 1). The mean value of the statements PD5 and PS6 regarding the PPE used for handling biomedical waste are 3.78 ± 1.23 and 3.62 ± 1.24 (Table 1). Around 64.0% (n = 192) and 58.3% (n = 175) respondents reported taking enough protective measures (PS5), and use PPE (PS6), while handling biomedical waste. However, nearly 57.4% (n = 172) of respondents claimed to have a proper storage facility to collect medical waste at the workplace (PS7), with a mean of 3.56 ± 1.24 (Table 1). But, around 42.6% respondent’s organizations have no dedicated waste storage facilities. It is found that nearly 40.0% of the respondents reported having available cases of injuries during medical waste handling (PS8), with a mean value of 3.16 ± 1.27 (Table 1). So, proper precaution and protective measures (e.g., adequate PPE use) should be taken to handle the biomedical waste. Almost half (52.3%) of the respondents reported that they are practicing the proper method for handling hazardous biomedical waste (PS9), where the mean value of the statement is found 3.47 ± 1.23 (Table 1). It is a matter of concern that till 47.7% (n = 143) of the respondents are not handling the hazardous biomedical waste properly, it may be because of lack of awareness or adequate facilities. Approximately 57.0% (n = 171) of respondents claimed to have an organizational active medical waste management system (PS10). The mean value of the statement PS10 is found 3.53 ± 1.17 (Table 1). Again, 62.7% (n = 188) of attendees said they had a dedicated team for biomedical waste handling and management. Many hospitals or healthcare organizations have no available facilities for the final disposal and management of generated hazardous medical waste. After proper segregation, they usually hand over the waste to other organizations for the last treatment. It is found that nearly half (52.3%) respondents reported that their organization is connected with another organization for final treatment and disposal of generated medical waste (PS11), where the mean value of the statement is 3.41 ± 1.28 (Table 1). However, for the proper handling and management of medical waste, only 44.7% of the respondent’s organization provided training to the employee and staff. So, adequate training should be provided for the healthcare professionals for the proper disposal and management of biomedical waste to reduce environmental and health hazards.

3.2.4. Healthcare personnel perception on medical waste management

To understand the healthcare professional’s perception regarding better medical waste management, a set of statements is applied where the mean value of the statements (P1-P6) varies from 4.34–4.60 (Table 1), indicating that people agree with the statements. Around 88.6% (n = 266) of respondents think that infectious waste generation increases during the pandemic, where the mean value of the statement (P1) is 4.51 ± 0.92 (Table 1). Again, the mean value of the statement (P2) regarding the waste management facilities is found at 4.34 ± 0.88 (Table 1). Approximately 84.0% (n = 252) of personnel attend this survey, thinking that the existing biomedical waste management system is too fragile to deal with the increasing amount of waste amid COVID-19. It is well established that unsafe disposal of biomedical waste creates environmental and public health hazards (Rahman et al., 2020; Singh et al., 2020). It is found that nearly 89.7% (n = 269) of respondents believe that improper management of biomedical waste increases the risk of health and environmental hazards (P3), where the mean value of P3 is found 4.51 ± 0.82 (Table 1). Again, nearly 89.0% (n = 267) of the respondents think that people are not aware of disposing of their healthcare waste, which creates risk for healthcare workers in the workplace (P4). The mean value of the statement (P4) is found at 4.55 ± 0.79 (Table 1), indicating the respondent’s strength of agrees with the statement. Overall, in Bangladesh, medical waste management facilities are inadequate, and practices are not satisfactory. The mean value of the statement P5 regarding this issue is 4.34 ± 0.85 (Table 1), where 85.6% (n = 257) of the respondent’s agreed with this statement. However, around 90.3% (n = 272) of attendees think it is essential to introduce an integrated and inclusive plan with urgent implementation of interventions to cope with covid-19 related biomedical waste (P6), with a mean of 4.60 ± 0.72 (Table 1). Hence, it can be said that adequate and trained administration along with public awareness can improve the biomedical waste disposal and management system of the country.

3.3. Relationship assessment of medical waste disposal with demographics

T-test and one-way ANOVA test were performed to determine the relationship among demographic characteristics with medical waste disposal and management. As most healthcare professionals attended this survey have adequate education and work in almost a similar working environment, demographics have no significant impacts on the individual’s waste management behavior, rather lack of institutional policy and awareness may affect the medical waste management. However, results of the T-test (Supplementary Table S1) indicate that demographic characteristics e.g., respondents’ gender, age, occupation/job responsibility, work experience, and level of education, have a significant effect on the safe handling and disposal of biomedical waste.

Furthermore, one-way ANOVA is performed to evaluate the relationship among healthcare professional’s Knowledge, attitude, practices, and perception regarding biomedical waste management with demographic items (Supplementary Table S2). It is found that respondent’s occupation/job responsibility has significant effects on medical waste management. For instance, knowledge statements KS2 to KS5 and KS9 and attitude statements AS1, AS4, AS6, and AS11 are dependent variables on the respondents' occupation. From the results of the ANOVA test, it is found that the level of education and gender difference of the professionals has no effects on biomedical waste disposal and management. The age of the respondent is found another factor in medical waste disposal and management. Knowledge statements KS3-KS4, attitude statements AS1, AS4-AS6, AS10-AS11 are seen as dependent variables on the age of the respondents. Again, the work experience of the respondents is also found significant in the attitude statement AS10, regarding the importance of safe handling and management of biomedical waste to reduce the risk of public health and the environment.

Conclusions

Overall, it can be said that, medical waste disposal and management is not at a satisfactory level. Lack of adequate/proper knowledge, poor attitude and inefficient practice of proper waste management are some of the problems militating against the proper hospital waste management. This study has exposed the need to improve the Knowledge via proper training about safe handling and management of medical waste. Therefore, it is essential to arrange adequate training regarding the biomedical waste management, to improve the Knowledge of the healthcare professionals and staff.

Declarations

Funding: The research was supported by the Climate Change Program (CCP) of BRAC, Bangladesh.

Conflicts of interest/Competing interests (include appropriate disclosures): All the authors declare no conflits of interest.

Availability of data and material (data transparency): All the data are available to the authors and it is available upon request.

Code availability (software application or custom code): Not Applicable

Ethics approval (include appropriate approvals or waivers): Not Applicable

Consent to participate (include appropriate statements): All the participants were joined willingly and they had their full freedon to stay of withdraw for the the survey at any point of time.

Consent for publication (include appropriate statements): Not Applicable

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Tables

Table 1. Descriptive statistics of the Knowledge, attitude, practices and perception of medical waste disposal and management of healthcare professionals (n=300)

Items 

Min.

Max.

Mean 

Std. Error of Mean

Median

Mode

Std. Dev.

Variance

Skewness

Kurtosis

Knowledge statements

I know about medical waste and its types (KS1)

1

5

4.19

0.05288

4

5

0.91583

0.839

-1.287

1.628

Our health facilities generate medical waste (KS2)

1

5

4.31

0.0588

5

5

1.01851

1.037

-1.684

2.362

Medical waste of COVID-19 patients can be considered as infectious waste (KS3)

1

5

4.59

0.05243

5

5

0.9081

0.825

-2.495

5.728

There are health hazards associated with medical waste (KS4)

1

5

4.61

0.05081

5

5

0.88008

0.775

-2.551

6.112

I know about colour coding segregation of medical waste (KS5)

1

5

4.05

0.06282

4

5

1.08815

1.184

-1.085

0.383

We have a guideline to manage the medical waste (KS6)

1

5

3.87

0.06532

4

5

1.13129

1.28

-0.838

-0.083

I know about the Bangladesh medical waste management rules 2008 (KS7)

1

5

3.15

0.07875

3

3

1.36395

1.86

-0.194

-1.138

I know about the WHO guideline to manage the medical waste of COVID-19 (KS8)

1

5

3.37

0.08042

4

4

1.39299

1.94

-0.458

-1.033

All those who handle medical waste should wear appropriate PPE and perform hand hygiene after removing it (KS9)

1

5

4.62

0.05199

5

5

0.90046

0.811

-2.781

7.33

Attitude statements

Proper medical waste handling is an important/ crucial issue (AS1)

1

5

4.62

0.04683

5

5

0.81104

0.658

-2.608

7.088

Medical waste management add extra burden of work (AS2)

1

5

3.51

0.07518

4

4

1.30213

1.696

-0.489

-0.914

Managing biomedical waste is a financial burden (AS3)

1

5

3.41

0.06991

4

4

1.21086

1.466

-0.446

-0.695

Improperly managed biomedical waste may cause infection and transmit disease (AS4)

1

5

4.64

0.05098

5

5

0.88299

0.78

-2.75

7.052

Biomedical waste should be segregated into different categories at the point of generation (AS5)

1

5

4.39

0.05317

5

5

0.92093

0.848

-1.869

3.608

Proper biomedical waste disposal is important to prevent infection transmission (AS6)

1

5

4.59

0.05068

5

5

0.87779

0.771

-2.632

6.896

Biohazardous wastes should be disinfected before disposal (AS7)

1

5

4.13

0.0648

5

5

1.12239

1.26

-1.208

0.557

Infectious waste should not store for longer times in the healthcare unit (AS8)

1

5

4.53

0.04961

5

5

0.8592

0.738

-2.02

3.708

Improper disposal or open burning of biomedical waste can create health or environmental hazards (AS9)

1

5

4.51

0.05311

5

5

0.91984

0.846

-2.213

4.736

Safe handling and final management of biomedical waste is important to reduce the risk of health and environmental hazards (AS10)

1

5

4.58

0.04938

5

5

0.85533

0.732

-2.451

6.021

Adequate measures should be taken to manage the escalating amount of biomedical waste (AS11)

1

5

4.56

0.04579

5

5

0.79302

0.629

-2.152

4.945

We are being trained to handle biomedical waste during COVID-19 (AS12)

1

5

2.87

0.08388

3

2

1.45293

2.111

0.156

-1.377

Practice statements

Maintaining biomedical waste records at work place (PS1)

1

5

3.41

0.07008

3

3

1.21387

1.473

-0.263

-0.838

Segregation of biomedical waste done at work place (PS2)

1

5

3.61

0.06821

4

4

1.18148

1.396

-0.602

-0.426

Disinfection of biomedical waste done before disposal at work place (PS3)

1

5

3.38

0.07305

4

4

1.26528

1.601

-0.336

-0.937

Initially dispose the biomedical waste in different colour bins (PS4)

1

5

3.87

0.0676

4

5

1.1709

1.371

-0.802

-0.404

Take personal protective measure, while handling biomedical waste (PS5)

1

5

3.78

0.07126

4

5

1.23424

1.523

-0.659

-0.735

Personal protective equipment (PPE) procured for handling biomedical waste (PS6)

1

5

3.62

0.0718

4

5

1.24363

1.547

-0.473

-0.928

Proper storage facility provided for collecting medical waste at work place (PS7)

1

5

3.56

0.07176

4

4

1.24293

1.545

-0.538

-0.702

Any record available for injuries related to medical waste (PS8)

1

5

3.16

0.07363

3

3

1.27534

1.626

-0.137

-0.949

Practicing proper method for handling hazardous biomedical waste (PS9)

1

5

3.47

0.07089

4

4

1.22779

1.507

-0.345

-0.908

We have our own active medical waste management system (PS10)

1

5

3.53

0.06733

4

4

1.16623

1.36

-0.59

-0.383

Connected with other organization for final treatment and disposal of generated medical waste (PS11)

1

5

3.41

0.07398

4

4

1.28135

1.642

-0.442

-0.824

Training provided on medical waste management (PS12)

1

5

3.21

0.07853

3

5

1.36019

1.85

-0.163

-1.18

Perception statements

More infectious waste are generating during the pandemic (P1)

1

5

4.52

0.0531

5

5

0.91971

0.846

-2.114

3.913

Existing biomedical waste management system is fragile to deal with the increasing amount of waste (P2)

1

5

4.34

0.05078

5

5

0.87957

0.774

-1.404

1.869

Improper management of biomedical waste is increasing the risk of health and environmental hazards (P3)

1

5

4.51

0.04757

5

5

0.82386

0.679

-1.958

3.872

People are not aware of disposing their healthcare waste creating risk for the healthcare workers in workplace (P4)

1

5

4.55

0.04581

5

5

0.79347

0.63

-1.924

3.564

In Bangladesh, medical waste management facility/ practice is inadequate in terms of capacity and technology (P5)

1

5

4.34

0.04945

5

5

0.85645

0.734

-1.391

1.883

Need an integrated and inclusive plan with urgent implementation of interventions to cope with covid-19 related bio-medical waste (P6)

1

5

4.61

0.04165

5

5

0.72136

0.52

-1.885

2.965