ETD Collection
Permanent URI for this collectionhttps://wiredspace.wits.ac.za/handle/10539/104
Please note: Digitised content is made available at the best possible quality range, taking into consideration file size and the condition of the original item. These restrictions may sometimes affect the quality of the final published item. For queries regarding content of ETD collection please contact IR specialists by email : IR specialists or Tel : 011 717 4652 / 1954
Follow the link below for important information about Electronic Theses and Dissertations (ETD)
Library Guide about ETD
Browse
2 results
Search Results
Item Determining the potential for enhanced ventilation using wind-driven roof turbines in reducing risk probability for tuberculosis transmission in households in Diepsloot, South Africa, 2019(2021) Mutava, EuniceThe scarcity of appropriate long-stay and palliative care facilities in South Africa, shortage of beds in designated hospitals as well as patient intolerance to prolonged hospital stay, compels a decision to release patients with drug-resistant forms of tuberculosis into the community before they have finished treatment. Environmental containment strategies that are cheap, consume less energy and are easy to install, such a wind-driven roof turbine ventilators, have thus been suggested as alternatives to enforced hospitalization to curb the risk of ongoing community transmission of tuberculosis. Research aim The aim of this study was to determine the potential that enhanced ventilation using wind-driven roof turbines in domestic homes has on the risk probability for TB transmission in Diepsloot, a resource-limited community in the Gauteng province within South Africa. Research objectives The objectives of this research were • To describe the physical and social characteristics of the participating households in Diepsloot, South Africa. • To assess the impact of wind-driven roof turbines on indoor temperature, indoor moisture levels, CO2 concentration, room ventilation and air exchange rate in eight households (four intervention households, four control households) using a CO2 tracer gas decay technique for measuring air changes per hour over a three-month period in Diepsloot, South Africa in 2019. 2 • To estimate, using the Wells-Riley mathematical model, the potential effect of wind driven roof turbines to reduce the probability of TB transmission. Methods Two South African seasons (winter and spring) and time of day (day and evening) were covered in the duration of the study. A baseline survey that evaluated the similarities in characteristics of the households identified in the Diepsloot Township was conducted. Using results from this survey, eight households were purposively sampled and then assigned to intervention and control groups using a pairwise comparison method, which paired a single household from the control group with a specific household in the intervention group. The pairwise comparison method determined whether households were significantly different from one another against criteria such as residential density, size of rooms, quality of structure, presence of outbuildings and occupant behaviour. Pre-intervention air monitoring was conducted to determine how similar the households were in terms of air exchange rates as these vary with activities that occur in each household. The wind-driven roof turbines were directly installed, without any ducting, in rooms in the four houses assigned to the intervention group. A carbon-dioxide (CO2) tracer gas technique, where a CO2 gas was injected in the house and its concentration decay recorded over time, was conducted. This was done under one condition – all windows and doors were shut. This standardized natural ventilation from open windows and doors among intervention and control houses. To establish the air exchange rate in air changes per hour (ACH), a natural logarithm of CO2 decay concentrations was calculated. A multivariate analysis utilising mixed effects regression modelling using repeated measures was then performed to assess the impact of the wind-driven roof turbine on the ventilation rate. In addition, the Wells-Riley equation was used to determine the potential effect of the wind-driven roof turbines to reduce the probability of TB transmission. All data analysis was done using Microsoft Excel 2016 and Stata version 15 (StataCorp, 2017) with a cut-off of 0.05 used to interpret the significance of the p-values of all analyses (p ≤ 0.05). Results 3 Turbine households were noticeably cooler on average and had higher indoor-outdoor temperature (t = 4.5, p < 0.001) and humidity (t = -7.4, p < 0.001) differentials than the control households. In addition, the presence of a wind-driven roof turbine resulted in a strongly significant (z = 2.62, p < 0.01) CO2 concentration decay than in the control household group. The average ventilation rates in turbine households ranged from 0.75 – 1.08 m3 /h.m2 compared to 0.37 – 0.53 m3 /h.m2 of the control households. Furthermore, for maximum occupancy, the highest ventilation rate per occupant was estimated at 6.4 L/s.person in the turbine households compared to 0.5 L/s.person for control households. The Wells-Riley model determined that approximately 65 – 79% of susceptible individuals would become infected with tuberculosis (TB) following and 8-hour exposure to an infected person in a control household. This risk was shown to nearly halve in the turbine households. Conclusion These results suggest a positive correlation between the presence of the wind-driven roof turbine and improved household air exchange rates. The study further supports the idea for harnessing natural ventilation using low-cost and low- maintenance wind-driven ventilation technologies on a wider scale as this presents the first steps to achieving effective ventilation for airborne infection control particularly for resource-limited communities that face facility limitations and financial constraints.Item Perceptions of central Gauteng occupational health nurses of their traditional and expanded roles(2013-03-19) Mutava, EuniceTitle: Perceptions of Central Gauteng occupational health nurses of their traditional and expanded roles Background: The majority of the published literature alludes to the evolution of the occupational health nursing practitioner (OHNP) role from a traditional to an expanded role yet there are comparatively few notable studies that have attempted to explore the significance that OHNPs place on both these roles, the extent to which they enact these roles in the workplace and the amount of time they dedicate to these roles. Purpose: The overall purpose of the research was to investigate the perceptions that OHNPs have of their traditional and expanded roles in their current occupational health nursing (OHN) practice. Methodology: Using a survey method, occupational health nursing practitioners (n = 150 ) who practiced and are members of a professional society of occupational health practitioners in the Central Gauteng district were invited to complete a self-administered, structured questionnaire about their perceptions of their traditional and expanded roles. The questionnaire composed of 27 specific task items that reflect OHN practice role activities divided into eight major areas of OHN practice. The items were measured on a 5-point Likert scale ranging from 1 (not significant) to 5 (extremely significant) and participants were also required to estimate in hours, in any given week, the time they believed they dedicated o each of the eight major areas. Main outcome measures: The main outcome measures of the research were perceptions of the OHNPs of their traditional and expanded roles and the time devoted to these roles in their current practice. Findings: A total of 102 questionnaires were completed, yielding a response rate of 68%. The majority of the OHNPs generally regarded their traditional and expanded roles as moderately significant indicating that the roles were at least performed to some extent in their practice. Nevertheless, OHNPs regarded the roles in the traditional domain highly (mean rating = 3.29) than those in the expanded domain (mean = 2.84). Managing an occupational health service (mean= 3.60) and assessment of workers health (mean = 3.61) activities received the highest rankings whereas research-related activities had the lowest (mean = 2.39). On average OHNPs spend 35 hours per week in OHN practice of which 39.7% is spent in management of occupational health services, 33.1% in worker health assessments, 27.1% in rendering curative services, 16% in health promotion activities, 14% in health education activities, 14% in rehabilitation services, 12% in workplace assessments and 9.7% in research-related activities. The perception of the significance of core areas appeared to be mainly dependent on availability of occupational health and safety personnel and the OHNPs job title. Also comparisons made between perception of roles and time devoted to those roles revealed that there were gaps between what they perceived as significant and amount of time dedicated to roles. Conclusions: OHNPs regard both traditional and expanded roles as moderately significant in their current practice. However gaps existed between perception of individual roles and amount of time spent in those roles. In this instance data revealed higher perception of expanded roles yet time devoted to these roles was less than that devoted to traditional roles where the perception of the roles were relatively lower. Implications for OHN practice: Knowledge of what entails significant practice from the OHNPs’ perspective is a good needs assessment technique as it indicates where training and continuing education should be targeted. Also, acknowledgement of the gap that exists between perception of a role and the actual time spent in that role indicates where strategies to reduce role ambiguity, role conflict and resulting occupational stress have to be directed. Key words: occupational health nursing, nurses’ perceptions, role, Role Theory, traditional and expanded role, self-administered questionnaire