Assessment of Safety Practice and Associated Factors Among Waste Handlers in Governmental Hospitals in Addis Ababa, Ethiopia

DOI: https://doi.org/10.21203/rs.3.rs-405106/v1

Abstract

Background: Health facilities generate different types of wastes characterized as hazardous wastes and most of them are infectious, toxic, harmful and carcinogenic. Medical Waste handlers faced massive exposure to hazardous wastes and occupational accidents as a result of manual handling of waste and working under unfavorable conditions. This indicates that waste handlers are often at high risk occupational injuries. In Ethiopia there are limited studies and updated information concerning this issues and it is not well studied in our study settings. The aim of this study was to assess safety practices and associated factors among selected public hospital waste handler in Addis Ababa, Ethiopia, 2019.

Method: An institutional based cross- sectional study was used to conduct the study. All waste handlers of selected government hospital were included in the study. The data was collected via interview using structured questionnaire. Bivariate and multi variable logistic regressions were employed to identify the predictor variables. Statistical significance was considered at P <0.05 with adjusted odds ratio calculated at 95% CI.   

Result: The prevalence of current safety practice among public hospital waste handlers was found to be 44.1% (95% CI; 37.3-51.0). Respondents with good knowledge (AOR=4.7; 95% CI: 1.9, 11.5), having good supplies (AOR=6.78; 95% CI: 2.2, 20.7) had higher odds of adherence to safety practices compared to their counterparts.

Conclusion: The study shows that the prevalence of safety practice is low. Knowledge of waste handles on safety measures and availability & accessibility of safety materials is the determinant factors for safety practice while handling waste. To sustain good safety practice adequate per-service and in-service training should be in place to increase their knowledge about safety precautions and availing safety materials for adherence to safety practice among hospital waste handlers. 


1. Introduction

Workers and waste pickers handling solid waste throughout the world are exposed to occupational health and accident risks related to the content of the materials they are handling, emissions from those materials, and the equipment being used (1). About 85% of wastes produced in health facilities are non-hazardous and the remaining 15% of health care waste is characterized as hazardous and can pose a number of health risks (2, 3). Hazardous wastes which are generated from health facilities are mostly infectious, toxic, harmful and carcinogenic and affect health care workers, waste handlers and laundry personnel (3).

Medical Waste handlers faced massive exposure to hazardous wastes and occupational accidents as a result of manual handling of waste and working under unfavorable conditions (4, 5). Waste handlers are often at high risk than health care professionals(6). Because health care professionals produce the waste and they throw it in the garbage. However waste handlers handle it extensively throughout and mostly very little attention is given for their safety (3, 6).

Medical waste handlers who are working in collection, transportation, cleaning and disposal of medical wastes in health institutions have been consistently shown to have higher prevalence of HBV and HCV infection (79). Different study shows that the prevalence of HBV was higher (48.6%) among medical waste handlers with the history of blood and body fluid splash and needle stick injuries (7).

Health care waste should be collected and transported in a safe way to avoid unnecessary exposure (10, 11). But about 58.8% and 41.2% of waste handlers were exposed to blood and body fluids due to carrying over filled waste bags which increase the risk of infection for different pathogens like HBV, HCV and HIV/AIDs and about 47% of medical waste handlers had at least one accidental Sharp injury because of improperly discarded needle and sharp materials (7, 12).

Unavailability or shortage of personal protective devices aggravates the risk of acquiring infection while exposed to hazardous wastes (4, 13, 14). Waste handlers usually do not wear sufficient protective clothing during waste handling which increases the potential risk of accidents (12, 15, 16).

The study done in Eastern Ethiopia also reviled that 30% of waste handlers were exposed to any Sharpe materials due to improper handling, poor waste segregation and poor utilizations of personal protective equipment’s (4). However few studies are conducted regarding to the prevalence of safety practice among hospital waste handlers in Ethiopia. There is very few data on the prevalence of safety practice and its associated factors among medical waste handlers in the country. Hence the intended study was determined the prevalence of safety practice and its associated factors among hospital waste handlers, which in turn enables to understand the overall situations of safety practice and minimize those factors that hinder safety practice of hospital waste handlers.

2. Methdology

2.1. Study design and setting

An institutional based quantitative cross-sectional study design was used to assess safe waste handling practice among waste handler in health institution in Addis Ababa. According to EDHS 2016 the city had high population density with a total of approximately 3,515,678. The city had been divided in to 10 sub-cities and 117 woredas. Generally in Addis Ababa there were approximately 1,500 waste handlers working in government hospitals. In selected hospitals there were around 572wastes handlers.

2.2. Population and eligibility criteria

Source population was all waste handlers working in public hospitals in Addis Ababa. While study population was all waste handlers enrolled in the selected government hospitals, present on duty during data collection period. Waste handlers who were seriously ill during the time of data collection and those with hearing impairments were excluded from study.

2.3. Sample size and sampling strategy

The sample size for prevalence of safety practice was calculated using single population proportion formula. Assuming 95% confidence level of = 1.96, d = margin of error of 0.05 and using proportion of 50% the sample size was calculated as follow:

Based on this information, the sample size calculated was 384; however the total population size of the study area were less than 10,000 we applied the population correction formula and get sample size of 230. Finally adding 10% non-response rate, 253 sample sizes were considered for this study.

From total of 11 government hospitals found in Addis Ababa under the city administration, five general Hospitals were selected purposely. The purpose of selecting these hospitals were because the remaining five were under federal government which have different capacity and work load as compared to general hospitals. And one under the city government was not general hospital and not as sufficient as the rest hospitals to be selected as study area. The calculated sample size was proportionally allocated to each selected hospitals based on the number of total waste handlers they had. To grip the total participants from each selected health institution, simple random sampling technique was used.

2.4 Study Variables

  • Dependent Variables: Safety practices of waste handler.

  • Independent Variables: Socio demographic factors, Knowledge about safety, Health care waste handlers risk perceptions, Work related factors, Availability of equipment in the working area, Organizational factors.

2.5. Data collection tools and procedure

The questionnaire was developed by principal investigator after reviewing WHO, Ethiopian Ministry of Health infection prevention guide line and different literatures with modification based on research objectives. Prior to the actual data collection the questionnaire was adjusted and corrected based on the pre-test result and the final questionnaire was translated to Amharic and then back to English to insure its consistency. Finally two environmental health science professionals conducted face to face interview to collect the data using Amaharic version questionnaire. For data quality control purpose, the data collectors were trained before the data collection and supervised during the data collection period. Supervisors made spot-checking and reviewing the completed questionnaires to ensure completeness and consistency of the information collected. Those incomplete questionnaires were omitted from the analysis.

2.6. Data management and analysis

The data was entered into Epi info version 7, then, the data was exported to SPSS version 22 for data management and analysis. Descriptive statistics, percentages and mean was carried out. Hence, bivariate logistic regression was performed to identify variable that associate with dependent variables. Variables with P < 0.2 during bivariate analysis were included in multiple logistic regression to identify factors associated with safety practice of waste handlers by controlling potential confounding variables. Statistical significance was considered at P < 0.05 to see the determinant factors for safety practice with adjusted odds ratio calculated at 95%CI.

3. Result

3.1. Socio–demographic characteristics of respondents

A total of 242 waste handlers were participated in this study, making a response rate of 95.6%. All respondents were female with mean age group of 32 ± SD of (2.2) years. About 141 (58.7%) hospital waste handlers were married, out of respondents 142 (58.7%) had completed secondary and above educational level. Majority of them 211 (87.2%) had less than 5years work experience and 209 (86.4%) of them had income level ≤ 1500 birr per month. Around 49.6% of waste handlers were working their job in regular time (8hrs per a day). About 48 (19.8%) and 35 (14.5%) were from emergency and medical respectively. More detail about socio-demographic characteristics is depicted in Table.1

Table 1

Socio demographic characteristics of medical waste handlers in selected public hospitals of Addis Ababa, Ethiopia May, 2019 (N = 242).

Variable

Category

frequency

percentage

Age

≤ 25yrs

39

16.1

26-30yrs

66

27.3

31-35yrs

70

28.9

> 35yrs

67

27.7

Marital status

Married

141

58.7

single

91

37.6

Widowed

3

1.2

Divorced

6

2.5

Educational level

Primary

100

41.3

Secondary and Above

142

58.7

Service Year

≤ 5yrs

211

87.2

> 5yrs

31

12.8

Monthly Income

≤ 1500

209

86.4

> 1500

33

13.6

Working hours per day

≤ 8hrs

120

49.6

> 8hrs

122

50.4

Working departments

Out patient

34

14

Emergency

48

19.8

Laboratory

30

12.4

Surgery

25

10.3

Medical ward

35

14.5

Pediatric

26

10.7

Gyn./Obs.

33

13.6

Others

11

4.5

3.2. Knowledge of Hospital Waste Handlers about Safety Practice

Out of 242 respondents asked six knowledge questions with yes or no answer to assess their knowledge about safety practice 176(72.7%) of them knew as they are at risk of hospital associated infections. Nearly 70% of them knew that washing hand with plain soap and water inhibit resident flora and 69% of them knew that glove should be used not only during anticipation of blood or body fluid exposure. Majority of the respondents167 (69%) knew vaccinated for HBV vaccine was a means of prevention from infection. Nearly 60% of them hand knowledge of post-exposure prophylaxis. A total of 142(58.6%) of the study participants had good knowledge of safety practice.

3.3. Attitude of Hospital Waste Handlers about Safety Practice

From total of 242 respondents asked five attitude questions with Likert-type scale options ranging from “strongly disagree’’ to ‘‘strongly agree’’ answer to assess their attitude about safety practice majority of them 141(58.3%) had agreed on that washing hands with soap or alcohol based antiseptic decrease the risk of transmission of hospital acquired infections. Nearly 40% of them disagreed on that glove provides complete protection against acquiring /transmitting hospital acquired infections and 89 (36.8%) disagreed on that hand washing is unnecessary when gloves are worn. About (33.5%) of the study participants disagreed on that frequent hand washing damages skin and causes cracking, dryness, irritation and dermatitis. A total of 114(47%) of the study participants had disagreed on that hospital waste handler have a very low risk of acquiring infection from improperly disposed hospital wastes. More than 50% (125) of the study participants had good attitude towards safety practice.

3.4. Organizational Factors Affecting Safety Practice of Hospital Waste Handler

Out of 242 waste handlers interviewed 105 (43.4%) of them had gained any types of training about safety practice, 101 (41.7%) of them supervised regularly by the organization and 36 (14.9%) of them have got both training and regular supportive supervision. (See Fig. 1.)

 

3.5. Availability of Personal Protective Equipment’s among Waste Handler

A total of 242 respondents were interviewed to check availability of personal protective equipment’s in there facility. From thus interviewed almost all 233(96.3%) of them respond that glove were available, hence 229 (94.6%) of them respond that as gown were available. Almost above 60 % of them also respond mask were available. Nearly 10% of them answered that caps were available and 14(5.8%) of them respond that goggle were available at the facilities. All respondents reported that there were no boots available at the hospitals during data collection period.

3.6. Safety Practice of Hospital Waste Handler

Only 19(7.9%) of respondents were washed their hands at all the selected critical time of hand washing practice. About 61(25.2%) of them wore at least four and above four types of personal protective equipment’s during handling of health care waste. 150 (62%) of the respondents were immunized for HBV. Nearly 60% of them separated hazardous and non-hazardous waste during collection and transportation of hospital waste to disposal site. About 215(88.8%) of them used separated colour coded bine system during collection. But 166(68.6%) were mixing waste stored at separated bine during transportation of hospital waste to disposal site. Only 61(25.2%) of them asked decontamination of hazardous waste before disposal. In general, about 107(44.2%) respondents practicing safely and the rest 135(55.8%) were within unsafe practice. See Table 2.

Table 2

The prevalence of safety practice among waste handlers in public hospital in Addis Ababa, Ethiopia 2019

Safety Practices

Possible responses

Frequency

Percentage

Hand washing at five critical time

Yes

19

7.9

No

223

92.1

Wore at least four and above four of personal protective equipment

Yes

61

25.2

No

181

74.8

Immunized for HBV

Yes

150

62

No

92

38

Separate hazardous and non-hazardous waste

Yes

139

57.4

No

103

42.6

Use color coded bin system

Yes

215

88.8

No

27

11.2

Mix waste stored in a separate bin during transportation

Yes

166

68.6

No

76

31.4

Ask decontamination of waste before disposal

Yes

61

25.2

No

181

74.8

Over all Safe practice

Yes

107

44.1

No

135

55.9

3.7. Factors associated with safety practice of waste handlers

Bivariate and multi variable analysis were conducted to see the association of one independent variable with the dependent variable. Based on this, variables significant at least at P < 0.2 during bivariate analysis were included in the multivariate logistic regression analysis to see the association of variables with safety practice of hospital waste handlers by controlling confounding variables. After computing multivariate analysis, only knowledge of the respondents and availability of safety supplies remained significantly associated with safety practice of hospital waste handlers after controlling for the confounding variables in the regression model. More detail about associated factors is depicted in Table 3.

Table 3

Logistic regression analysis result on safety practice among hospital waste handlers of Addis Ababa, Ethiopia, 2019

Variables

Category

Safety practice

COR (95%CI)

AOR(95%CI)

Yes

No

Age

≤ 25yrs

8

21

0.38 (0.14–0.99)

0.2(0.06–0.66)

26-30yrs

22

34

0.64(0.31–1.35)

0.44(0.18–1.07)

≥ 36yrs

30

30

1

1

Working hours per day

≤ 8hrs

42

62

1

1

> 8hrs

48

52

1.36(0.78–2.37)

1.37(0.68–2.72)

Working departments

out patient

10

22

1

1

surgery

10

10

2.2(0.82–5.87)

1.43(00.37–5.48)

medical ward

16

14

2.5(0.89–7.08)

1.85(0.55–6.24)

Knowledge

Good knowledge

80

62

6.7(3.15–14.25)*

4.7(1.9–11.5)**

Poor knowledge

10

52

1

1

Attitude

positive attitude

55

52

1.87(1.06–3.28)

0.94(0.46–1.94)

Negative attitude

35

62

1

1

Availability of safety materials

good

26

5

8.85(3.24–24.2)

6.7(2.2–20.7)**

poor

64

109

1

1

Training

trained

30

21

2.21(1.16–4.22)

1.74(0.78–3.88)

not trained

60

93

1

1

**Significant at p < 0.01, COR: crude odd ratio, AOR: Adjusted odd ratio, CI: Confidence interval

4. Discussion

The finding of this study shows that 58.6% of the study participants had good knowledge on safe medical waste handling practice. The prevalence of personal protective equipment utilizations among the study participants was 25.2 and 62% of them disposed hazardous and non-hazardous wastes separately. About 88.8% of them used appropriate color coded bin system for segregation of medical wastes. Sixty two percent of them were immunized for HBV. Only 7.9% of them practice hand washing at the selected five critical time. The overall current prevalence of safety practice among hospital waste handlers in this study was 44.1%.

Adequate knowledge is a key factor for effective safe handling of medical wastes (17, 18) However in this study only 58.6% of the study participants have good knowledge of safe medical waste handling practice. The result was higher than the finding from Indian and metropolitan city of Pakistan in which only 27.9% and 34% of the study participant had good knowledge of safe waste handling practice respectively (19, 20). This might be due to the difference in the study time, the setting in which the study was conducted was at general hospitals and might be due to the implementation of different initiatives and in-service training was conducted by infection prevention and patient safety focal person in this study.

In principle all medical waste handlers should properly utilize personal protective equipment during handling of medical wastes(4, 21). However in this study 25.2% of medical waste handlers were properly utilizes personal protective equipment. The result was better than the study done in tertiary care health facilities at metropolitan city of Pakistan and Shiraz, Iran hospitals in which 15%, 22.8% of waste handlers were utilized personal protective equipment properly (19, 22). This difference might be due to the implementation of different initiatives by the ministry of health like CASH and infection prevention and patient safety and increase in knowledge of hospital acquired infections among medical waste handlers.

In general all medical wastes should be segregated properly based on their types in a color coded bin assigned for them and transported to disposal site separately (4, 23, 24). In this study about 88.8% of the study participants used color coded bin for proper waste segregation and transportation of waste to disposal site. The result was lower than the study done at Debre- Markos in which 90.9% of medical waste handlers practice proper segregation and transportation of medical wastes (21). This difference might be due to the difference in shortage of supplies and low attention given.

In addition Immunization for HBV for medical waste handlers was also a major safety practice to prevent them from infection. However in this study 62% of the study participants were vaccinated. This finding was higher than the study done at Turkey in which only 27.5% of the study participants were immunized for HBV (25). This difference might be due to that only waste handlers with the history of Sharpe injury and with blood and body fluid contact were immunized for HBV. But in our case all waste handlers working in hospitals with or without any history of contact have the chance of getting immunized for HBV. This finding was also higher than the study done at Debre Markos in which only 20% of the study participants were vaccinated for HBV(21). This difference might be due to the setting in which the study was conducted and difference in availability of immunization vaccine.

The prevalence of safety practice among hospital waste handlers in this study was 44.1%. This finding was comparable with research done in Gonder town waste collectors which was 253(45%). This similarity might be due to the study design they used which was cross sectional type. The finding was higher as compared with the study done in Shiraz, Iran (22). This difference might be due to the difference in the study design, setting and time of the study and also the implementation of different reforms by federal ministry of health at hospital like infection prevention and patient safety which were promoting safety practice of hospital waste handlers. The number of participants with good safety practice reported in the finding was lower than the study done at KwaZulu-Natal(50%)(18). This difference may be due to the study setting and time. Also the finding was lower than the findings from Cameroon in which 100% of the medical waste handlers used all the appropriate protective gears (26). This difference might be due to the study setting, difference in knowledge of hospital waste handlers and attention given to safety by governing body. The finding was also lower than the finding from DebreMarkos(80%) (21). This difference may be due to the difference in the lower sample size they used.

Multivariable logistic regression revealed that knowledge of respondents and availability of supplies had significant association with safety practice. The odds of safety practice among waste handlers with good knowledge had 4.7 times higher than those who had poor knowledge; (AOR = 7, 95%CI; 1.9–11.5)). This was similar with the study done in DebreMarkos (21) which showed that waste handlers with good knowledge had more practicing safety as compared to those with poor knowledge. The finding of this study was inconsistent with study done in South India (20). The difference could be due to the difference in study settings which was undertaken at tertiary care hospital and the sampling techniques they used which was purposive sampling which may introduce selection bias and that the knowledge acquired may not be necessary translated in to practice. The odds of safety practice among waste handlers with adequate supplies were 6.7 times higher than those with lack of supplies; (AOR = 6.7, 95%CI; 2.2–20.7). This finding was in line with studies conducted in DebreMarkos(27) in which those respondents with adequate supplies had good safety practice. This similarity might be due to attention given by ministry of health and hospital administration in fulfillments of the required supplies and inputs.

5. Conclusion And Recommendation

It is clear from this study that the level of safety practice was low among hospital waste handlers in relation to waste handling and safety which may increase the chance of getting infected with hospital acquired infections and occupational accidents. So minimizing those problems through giving pre-service and in-service training to increase their knowledge about safety precautions and availing safety supplies should be implemented to adherence for safety practice among hospital waste handlers.

6. Abbreviations

EDHS: Ethiopian demographic and health survey; HBV: Hepatitis B virus; HCV: Hepatitis B virus; HIV/AIDS: Human Immunodeficiency Virus/Acquired Immune Deficiency Syndrome; SD: Standard Deviation; SPSS: Statistical program for social science; WHO: World Health Organization.

7. Declarations

7.1 Acknowledgement

Our heart-felt gratitude goes to the Addis Ababa School of Public Health College of Health Science library staff for their support while I referring different thesis kept in the library. We would like to thank the selected government hospitals administrative workers who were assist me to get information about the number of waste handlers that help me to design my study sample size and appropriate procedure. We are grateful to all data collectors, supervisors and study participants who took part in the study. 

7.2 Authors’ contribution

TT hypothesized and developed objective, managed database development & analysis and revised the manuscript. TA & AW was responsible for assist in data analysis and assisted in manuscript revision. ZAA assisted in data analysis and primarily wrote manuscript. All authors read and approved the final manuscript.

7.3 Funding

7.4 Availability of data and materials

The datasets used and/or analyzed during the current study are not publicly available, but are available from the corresponding author on reasonable request.

7.5 Ethics approval and consent to participate

Ethical clearance was obtained from Research and Ethics Committee (REC) of School of Public Health, Addis Ababa University. A written consent was also obtained from Addis Ababa city Administration health Bureau. Permissions were secured from each hospital selected for the study. Informed verbal consent was obtained from respondents after explaining the objectives of the study including potential harms and benefits.

7.6 Consent for publication

Not Applicable.

7.7 Competing interest

The authors declare that they have no competing interests.

7.8 Authors’ details

1Addis Ababa health bureau, department of Health extension program and primary health care directorates, Addis Ababa, Ethiopia, 2Addis Ababa University, department of public health, Addis Ababa, Ethiopia, 3Ethiopian Ministry of health, department of Hygiene and Environmental Health, Addis Ababa, Ethiopia

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