ABSTRACT
BACKGROUND: Over the past few years there has been rising production of hazardous byproducts, including dioxins, furans, and mercury from indiscriminate handling and treatment of healthcare waste. This situation is worse in developing countries where there is a serious lack of reliable data on factors such as generation and characteristics of healthcare waste. OBJECTIVES: To investigate healthcare waste generation and current management practices of public healthcare facilities in Adama, Ethiopia. METHODS: All departments and sections in studied healthcare facilities (one referral hospital and four health centers) were examined for the characterization and determination of healthcare waste generation based on World Health Organization (WHO) guidelines. Wastes were collected and measured daily for seven consecutive days. Plastic buckets and bags of different colors were used for different types of wastes. Plastic bags were removed every morning and their weights were measured every day at 8 am using a scale. RESULTS: The average daily generation of healthcare waste from studied health centers ranged from 0.02 to 0.03 kg/patient/day, and the average daily waste generation of Adama referral hospital was 1.23 kg/bed/day. The healthcare waste generation rate was statistically different across the health service delivery sectors (p < 0.001). The proportion of hazardous healthcare waste generated in Adama referral hospital and health centers was 34.9% and 75%, respectively. There was no segregation of healthcare waste by type at the point of generation or pre-treatment of infectious waste in the studied healthcare facilities. Open pit burning and single chamber incinerators were the most utilized final treatment methods. Furthermore, there was a low level of awareness about safe healthcare waste management. CONCLUSIONS: The overall findings of this study indicate that the proportion of hazardous healthcare waste generated from the studied healthcare facilities was above the threshold set by the WHO. There is a lack of proper waste management systems in all public healthcare facilities in Adama, Ethiopia. Awareness raising activities on proper healthcare waste management should be undertaken targeting all healthcare workers.
ABSTRACT
OBJECTIVES: The purpose of this study is to provide insight into how students are exposed to indoor bio-aerosols in the dormitory rooms and to figure out the major possible factors that govern the contamination levels. METHODOLOGY: The Bio-aerosols concentration level of indoor air of thirty dormitory rooms of Jimma University was determined by taking 120 samples. Passive air sampling technique; the settle plate method using open Petri-dishes containing different culture media was employed to collect sample twice daily. RESULTS: The range of bio-aerosols contamination detected in the dormitory rooms was 511-9960 CFU/m(3) for bacterial and 531-6568 CFU/m(3) for fungi. Based on the criteria stated by WHO expert group, from the total 120 samples 95 of the samples were above the recommended level. The statistical analysis showed that, occupancy were significantly affected the concentrations of bacteria that were measured in all dormitory rooms at 6:00 am sampling time (p-value=0.000) and also the concentrations of bacteria that were measured in all dormitory rooms were significantly different to each other (p-value=0.013) as of their significance difference in occupancy (p-value=0.000). Moreover, there were a significant different on the contamination level of bacteria at 6:00 am and 7:00 pm sampling time (p=0.015), whereas there is no significant difference for fungi contamination level for two sampling times (p= 0.674). CONCLUSION: There is excessive bio-aerosols contaminant in indoor air of dormitory rooms of Jimma University and human occupancy produces a marked concentration increase of bacterial contamination levels and most fungi species present into the rooms air of Jimma University dormitory were not human-borne.
ABSTRACT
OBJECTIVE: To evaluate the concentration of bacteria and fungi in the indoor environment of Jimma University libraries, so as to estimate the health hazard and to create standards for indoor air quality control. METHODS: The microbial quality of indoor air of eight libraries of Jimma University was determined. The settle plate method using open Petri-dishes containing different culture media was employed to collect sample twice daily. Isolates were identified according to standard methods. RESULTS: The concentrations of bacteria and fungi aerosols in the indoor environment of the university libraries ranged between 367-2595 CFU/m(3). According to the sanitary standards classification of European Commission, almost all the libraries indoor air of Jimma University was heavily contaminated with bacteria and fungi. In spite of their major source difference, the average fungi density found in the indoor air of libraries did appear to follow the same trend with bacterial density (P=0.001). The bacteria isolates included Micrococcus sp., Staphylococcus aureus, Streptococcus pyogenes, Bacillus sp. and Neisseria sp. while Cladosporium sp., Alternaria sp., Penicillium sp. and Aspergillus sp. were the most isolated fungi. CONCLUSIONS: The indoor air of all libraries were in the range above highly contaminated according to European Commission classification and the most isolates are considered as potential candidates involved in the establishment of sick building syndromes and often associated with clinical manifestations like allergy, rhinitis, asthma and conjunctivitis. Thus, attention must be given to control those environmental factors which favor the growth and multiplication of microbes in indoor environment of libraries to safeguard the health of users and workers.
