Many diseases have been associated with poor drinking water quality including diseases caused by diarrheagenic pathogens, especially in developing countries where access to a consistent water supply is a problem. The objective of the study was to evaluate the health risks associated with the sources of drinking water in the Dangme West District of Ghana using E. coli as a measurement tool, aiming at ascertaining the paths leading to contamination of the water sources. A total of 464 water samples were obtained for analysis. Sampling covered a year across the dry and wet seasons in Ghana. Water samples were obtained from groundwater and surface water sources. E. coli counts were determined using the most probable number method (MPN). Disease risk assessment was carried out using the WHO drinking water risk assessment guidelines. Generally, the study revealed significantly higher E. coli counts in the wet season than in the dry season. Among the water samples analyzed, surface water, especially from the dams, was found to pose the highest disease risk as compared to the other water sources. Samples from groundwater sources, especially boreholes, posed the lowest disease risk. In conclusion, observations from the study implied that most water sources in the study district are highly polluted with bacteria pathogens beyond recommended safety guidelines. The main causes of faecal contamination in these water sources were purported to be anthropogenic. Therefore, there is a need to formulate a policy aimed at managing and improving rural water sources.
Air pollution has been a major challenge worldwide particularly in the developing world. It has dire implications for human health. Understanding the knowledge and behaviour of the populace is key to the development and implementation of necessary intervention programmes. The aim of this study was to assess the knowledge, attitudes, and perceptions of air pollution in the Accra, Ghana. The study employed a cross-sectional design to obtain quantitative data form 1404 respondents, and the results were analysed with SPSS version 23. There were more (54.1%) female respondents than males (45.9%) in the study. The majority (70.5%) of the respondents were aware of the haze (air pollution) and its adverse effects on health. There was however a significant relationship between the sociodemographics and air pollution awareness (P=0.01). There was also a correlation between residents’ age, educational level, length of stay, marital status, and knowledge/awareness rate of air pollution (P<0.05). Although the majority of the respondents are aware of air pollution and its relationship to their health, rates of awareness were low in some demographic groups like the elderly and the less educated. Therefore, nondiscriminatory policies should be formed toward the education and guidance of people to become knowledgeable about air pollution and related health challenges. Most of the residents admitted improving air quality is the responsibility of every citizen. The government should utilize this to form collaborative measure with the citizens for a more effective control of air pollution.
Animal feed has been linked to human illness through the food chain as a result of food borne bacteria and more recently the risk of foodborne antibiotic resistance. This study investigated the extent to which radiation can be used as an intervention to improve the safety and quality of poultry feed in terms of food borne pathogens and antibiotic resistant microbes. Mean counts of control feed samples were Log10 5.98 for total viable count (TVC), Log10 4.76 for coliform count (CC), Log10 2.89 for Staphylococcus aureus count (STC), and Log10 4.57 for yeast and mold count (YMC) and Salmonella spp. (SC) was not detected (ND). All counts were within permissible levels except for CC (Log10 4.76) which was above the permissible limit of ≤ log10 4.0. Identified bacteria isolates were Enterobacter cloacae (54.5%), Bacillus cereus (27.3%), and Klebsiella pneumoniae (18.2%). All (100%) isolates exhibited multidrug Resistance (MDR) with Bacillus cereus being the most resistant (to 9 out of 11 antibiotics) followed by Enterobacter cloacae/Klebsiella pneumoniae (4 out of 11 antibiotics). Several resistance patterns were observed with PEN/AMP/FLX being the commonest (100%), followed by ERY (90.9%), TET (72.7%), CRX (66.6%), CTX (45.4%), CHL/CTR (36.4%), GEN (27.3%), and COT (18.2%). Klebsiella pneumoniae showed zero resistance to GEN/CHL/CTR/CTX/CRX while Enterobacter cloacae and Bacillus cereus exhibited zero resistance to GEN and COT, respectively. The most effective antibiotic against Gram negative bacteria (Enterobacter cloacae and Klebsiella pneumoniae) was gentamicin while cotrimoxazole was the most effective against Bacillus cereus (Gram positive). Radiation processing of 5kGy totally eliminated all microbes including MDR food borne pathogens. In view of this, we recommend low dose radiation decontamination as a measure to mitigate against the possible food safety and public health risks to humans associated with poultry feed.
Healthcare waste generation is an integral part of healthcare operations. Improper healthcare waste management and disposal can be detrimental to humans and the environment. The objective of this paper is to investigate the healthcare waste management practices, aiming to provide needed data to inform policy decisions. The study was conducted using a cross-sectional study. Quantitative data was obtained from 497 respondents who worked in 25 major healthcare facilities. Data was analyzed using (SPSS) version 23.0. Results indicated that 52.4% of respondents had knowledge about healthcare waste management. However, only 12% of the respondents were open to training in healthcare/biomedical waste management. Less than half of the respondent (47.5%) practiced waste segregation at the sources of generation. There were significantly more healthcare waste disposal materials available ( P = 0.001) in private than government and quasi-government hospitals. Based on the major findings of the study, we recommend that adequate training as well as Personal Protective Equipment (PPE’s) should be provided to healthcare professionals to improve healthcare waste management. Complacence in adhering to Healthcare waste disposal guideline must be addressed.
Introduction. Personal hygiene is essential to the current paradigm shift towards predictive, preventive, and personalized medicine, which enables the prediction and prevention of infectious disease outbreaks. Objective. The aim of this paper was to evaluate the personal hygiene practices among university students aiming at providing a basis for preventive and predictive medical interventions and to make future efforts improve target interventions for young people. Methods. The study was conducted using a cross-sectional study. Validated instruments that related personal hygiene practices were used to obtain quantitative data from 412 tertiary students from seven universities in Accra, Ghana. The resulting data were analyzed with IBM-SPSS, version 23. Results. There were more female respondents (54.4%) in the study than male respondents (45.6%). Respondents between the age group of 19-24 years constituted majority (59.7%) of the respondents in the study. Respondents from urban areas exhibited good hygiene practice compared to those from urban residences. There was a significant association between residence and hygiene practice (χ2=17.8, P≤0.001). We also observed that those respondents within the upper class in society had a poor hygiene practice, compared to the Lower Class and Middle Class respondents. Lack of education (63.1%) was observed as the main barrier to personal hygiene among the respondents. Future of the society depends on the health of its youth. Conclusion. A significant number of students are not actively practicing good hygiene. There is a need for deployment of preventive medicine interventions targeted at young people. It calls for improvement in methods of hygiene education for young people in tertiary institutions and the inclusion of hygiene in school curricula.
Abstract:Effect of drying method and irradiation on the microbiological quality of dried moringa leaves (DML) was investigated. Moringa leaves dried by 3 methods (mechanical, solar and room drying) was assessed for microbiological quality in addition to 6 different retail samples of DML. Mechanical, solar and room-dried moringa leaves were irradiated at doses of 0, 2.5, 5.0, 7.5, 10.0 kGy with gamma radiation from a Co-60 source and the microbiological quality was assessed using the methods of serial dilution and pour plating. Range of mean counts of total viable cells, coliforms, moulds and yeasts, E. coli and Pseudomonas spp. of the retail samples of DML were respectively 5. 92 -8.44, 4.85 -7.25, 1.65 -3.69, 3.71 -4.78 and 1.84 -4.22 log 10 cfu/g. Salmonella spp. was detected in 2 out of the 6 retail samples analysed. Room-dried moringa leaves relatively had high counts of total viable cells (6.45); coliforms (6.18); moulds and yeasts (3.46); E. coli (1.58) and Pseudomonas spp. (3.32) compared to samples dried by mechanical or solar methods. Irradiation dose of 2.5 kGy reduced the counts of all microorganisms to ≤ 3.57 and no survivors were detected in the samples of DML at 5, 7.5 and 10 kGy. High counts of total viable cells, coliforms, E. coli, Pseudomonas spp. and presence of Salmonella spp. in retail samples of DML raise food safety concerns. Solar-dried moringa leaves had improved microbiological quality compared to mechanical or room-dried leaves. Gamma irradiation significantly improved the microbiological quality of DML. A minimum irradiation dose of 5 kGy is recommended to enhance the quality of dried moringa leaves to meet standards of domestic and export markets.
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