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A study to determine the forensic quality of records and record keeping by dentists in the greater Cape Town areaOpperman, Johan Frank January 2018 (has links)
Magister Chirurgiae Dentium - MChD (Maxillo-Facial & Oral Surgery) / South African dentists have a legal and ethical obligation to maintain complete and
comprehensive dental records. In addition to the legal and ethical requirements, dental records
are also important in the case of medico-legal issues, quality assurance processes and forensic
purposes. Valuable forensic evidence contained in dental records are used in the identification
of victims of mass disasters, personal victim identification e.g. in severely decomposed or
skeletonized remains where DNA or other biometric data are not available. The victim
identification process is highly dependent on complete, legible and accurate dental records. A
review of the literature however shows that dental record keeping practices are sub-optimal
worldwide.
There is a paucity of studies in South Africa regards to dental record keeping practices. The
aim of this study was to assess the record keeping practices of a sample of private practicing
dentists in Cape Town and surrounding towns, for forensic dental purposes. Knowledge and
awareness regards to forensic odontology as well as adherence to the guidelines prescribed by
the Health Professional Council of South Africa were also assessed. This was a cross-sectional
descriptive study, employing a researcher-administered questionnaire and a dental checklist for
forensic valuable items in the dental file. The results were entered in a MS Excel spreadsheet
and statistically analysed using IMB SPSS Statistics.
This study concluded that most of the dental records kept by Cape Town dentists are near to
optimal and would be helpful during forensic odontology investigations. However,
shortcomings in record keeping practices exists which may compromise the forensic accuracy
of their dental records. The study also shows a significant difference in dental record keeping
practices by dentists practicing in lower income areas in Cape Town, compared to those
practicing in economic affluent areas. The dentists in this study adhered to most of the
guidelines prescribed by the Health Professional Council of South Africa however, important
medico-legal information was missing from most dental records. This study hopes to contribute
to future comprehensive studies in the broader South Africa to determine the validity of dental
records for forensic odontology purposes.
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Exploration of Contextual Influences on the Incorporation of Chemical- and Scenario-Specific Data in the Derivation of Environmental Health and Occupational Exposure Limits for ChemicalsDeveau, Michelle Leigh 29 July 2021 (has links)
Outputs of dose–response assessments can be used as benchmarks that help to identify the need for risk management measures to reduce population health risks associated with exposure to chemicals. Various approaches can be used to facilitate the incorporation of chemical- or scenario-specific data into dose–response analyses, as a means of replacing or influencing default assumptions and extrapolations. The goal of the first part of this thesis was to examine the evolution of approaches to the incorporation of chemical- and scenario-specific data in dose–response assessments in regulatory settings, and identify contextual factors that serve as barriers and facilitators to the use of approaches. A main focus of the investigation was on physiological modelling, which is the most commonly-used category of approaches enabling extrapolations that depart from default assumptions. Evaluations of the dose–response applications of physiological modelling in the peer-reviewed scientific literature and in regulatory reports were conducted. Similarities between the scientific literature databases and regulatory reports were observed with respect to the evolution of physiological modelling in dose–response assessments, notably related to the timing, quantity, and annual frequency of publications. These similarities indicate that a factor in the low dose–response application of physiological modelling, relative to the overall production of physiological models, is an absence of data. However, variability in adoption of physiological modelling in regulatory dose–response assessments was observed among—and even within—organizations faced with the same data, indicating that other factors influence regulatory uptake of physiological modelling. Analysis of a survey indicated that factors acting as barriers or facilitators to regulatory risk assessors’ incorporation of increasingly data-informed approaches originated in both external and internal contexts. The external context was composed of the regulatory environment, domestic and international alignment, availability of external expertise, background of peer reviewers and stakeholders, availability and accessibility of software and tools, and chemical-dependent factors. The internal context was influenced by problem formulation, time and financial resources, organizational and management support, and training. A conceptual framework demonstrating how these factors impact a risk assessor’s ability to incorporate chemical- and scenario-specific data in dose–response analysis was developed, and subsequently used to provide recommendations on actions that could be taken to increase regulatory adoption of increasingly data-informed approaches.
The second part of the thesis focused on the development of a knowledge translation tool designed to assist risk managers in the evaluation of dose–response analyses. The tool was focused on occupational exposure limits (OELs), and provides a guide to occupational hygienists in evaluating the relevance and reliability of individual OELs. When occupational hygienists are faced with multiple varying OELs for a chemical of interest, these evaluations can support the selection of the most appropriate OEL for a given situation. The usefulness of the tool was demonstrated for the selection of OELs for an OEL-rich compound (n-hexane), an OEL-poor compound (methamphetamine), and one additional compound (manganese). Such a tool can improve occupational hygienists’ understanding of the basis of OELs and the levels of protection afforded by each, which can contribute to more informed risk management decisions.
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