Nonfatal drowning in children and young people in Queensland (Australia) 2002-2008 (original) (raw)
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PloS one, 2015
To redress the lack of Queensland population incidence mortality and morbidity data associated with drowning in those aged 0-19yrs, and to understand survival and patient care. Retrospective population-based study used data linkage to capture both fatal and non-fatal drowning cases (N = 1299) among children aged 0-19years in Queensland, from 2002-2008 inclusive. Patient data were accessed from pre-hospital, emergency department, hospital admission and death data, and linked manually to collate data across the continuum of care. Incidence rates were calculated separately by age group and gender for events resulting in death, hospital admission, and non-admission. Trends over time were analysed. Drowning death to survival ratio was 1:10, and two out of three of those who survived were admitted to hospital. Incidence rates for fatal and non-fatal drowning increased over time, primarily due to an increase in non-fatal drowning. There were non-significant reductions in fatal and admissio...
Lessons learned through the 20-year development of a national fatal drowning database in Australia
BMC Public Health
Background Co-ordinated, evidence-based policy and programmatic efforts are needed to respond to complex drowning prevention problems. Comprehensive, current, and robust data are vital for agenda setting, burden and risk factor identification, intervention design and evaluation, as well as setting policy. We aim to record methods used in, and identify impacts of, the development of a national fatal drowning database (NFDD) in Australia, including lessons learned across research, policy, and practice. Methods We employ a case study method using process mapping and document review to explore the evolution, drivers and impacts of the NFDD. We analyse methodological approaches including those relating to data definitions, drowning case collection, and management, as well as tracking the various outputs of the NFDD. We describe a development timeline that presents impact of drowning prevention policy, and research agendas on database development, and research investments more specificall...
Where children and adolescents drown in Queensland: a population-based study
BMJ Open, 2015
This retrospective population-based study examined drowning location by the site of immersion for both fatal and non-fatal drowning events in Queensland. Drowning location is not routinely collected, and this study used data linkage to identify drowning sites. The resulting enhanced quality data quantify drowning incidence for specific locations by geographic region, age group and by severity for the first time. Design: Linked data were accessed from the continuum of care (prehospital, emergency, hospital admission and death data) on fatal and non-fatal drowning episodes in children aged 0-19 years in Queensland for the years 2002-2008 inclusive. Results: Drowning locations ranked in order of overall incidence were pools, inland water, coastal water, baths and other man-made water hazards. Swimming pools produced the highest incidence rates (7.31/100 000) for overall drowning events and were more often privately owned pools and in affluent neighbourhoods. Toddlers 0-4 years were most at risk around pools (23.94/100 000), and static water bodies such as dams and buckets-the fatality ratios were highest at these 2 locations for this age group. Children 5-14 years incurred the lowest incidence rates regardless of drowning location. Adolescents 15-19 years were more frequently involved in a drowning incident on the coast shoreline, followed by inland dynamic water bodies. Conclusions: Linked data have resulted in the most comprehensive data collection on drowning location and severity to date for children in the state of Queensland. Most mortality and morbidity could have been prevented by improving water safety through engaged supervision around pools and bath time, and a heightened awareness of buckets and man-made water hazards around the farm home for young children. These data provide a different approach to inform prevention strategies.
Background: Drowning is a leading and preventable cause of death that has suffered an attention deficit. Improving drowning data in countries would assist the understanding of the full extent and circumstances of drowning, to target interventions and evaluate their effectiveness. The World Health Organization identifies data collection as a key strategy underpinning effective interventions. This study compares unintentional fatal drowning data collection, management and comparison using the databases of Australia, Canada and New Zealand. Methods: Cases of fatal unintentional drowning between 1-January-2005 and 31-December-2014 were extracted. Cases were combined into a single dataset and univariate and chi square analysis (p < 0.01) were undertaken. Location and activity variables were mapped and combined. Variables consistently collected across the three countries were compared to the ILCOR Drowning Data Guideline. The authors also recommend variables for a minimum core dataset. Results: Of 55 total variables, 19 were consistent and 13 could be compared across the three databases. When mapped against the ILCOR Drowning Data Guideline, six variables were consistently collected by all countries, with five compared within this study. The authors recommend a minimum core dataset of 11 variables including age, sex, location, activity, date of incident, and alcohol and drug involvement). There were 8176 drowning deaths (Australia 34.1%, Canada 55.9%, New Zealand 9.9%). All countries achieved reductions in crude drowning rates (Australia − 10.2%, Canada − 20.4%, New Zealand − 24.7%). Location and activity prior to drowning differed significantly across the three countries. Beaches (X 2 = 1151.0;p < 0.001) and ocean/ harbour locations (X 2 = 300.5;p < 0.001) were common in Australia and New Zealand, while lakes/ponds (X 2 = 826.5; p < 0.001) and bathtubs (X 2 = 27.7;p < 0.001) were common drowning locations in Canada. Boating prior to drowning was common in Canada (X 2 = 66.3;p < 0.001).
BMJ Open
ObjectivesThe epidemiology of fatal drowning is increasingly understood. By contrast, there is relatively little population-level research on non-fatal drowning. This study compares data on fatal and non-fatal drowning in Australia, identifying differences in outcomes to guide identification of the best practice in minimising the lethality of exposure to drowning.DesignA subset of data on fatal unintentional drowning from the Royal Life Saving National Fatal Drowning Database was compared on a like-for-like basis to data on hospital separations sourced from the Australian Institute of Health and Welfare’s National Hospital Morbidity Database for the 13-year period 1 July 2002 to 30 June 2015. A restrictive definition was applied to the fatal drowning data to estimate the effect of the more narrow inclusion criteria for the non-fatal data (International Classification of Diseases (ICD) codes W65-74 and first reported cause only). Incidence and ratios of fatal to non-fatal drowning wi...
Medical Archives, 2022
Background: According to the World Health Organization (WHO), drowning is globally considered as one of the leading causes of injury related deaths. Defined as the process of experiencing respiratory impairment from submersion in a liquid medium. Drowning is a public health concern in Jordan. This study aimed to investigate drowning incident data from the Forensic Medicine Teaching Centre in the North of Jordan for the purpose of defining high risk groups and circumstances around drowning fatalities which suffered an attention deficit. Objective: The study aims to describe the rate of fatal drowning in North of Jordan and to properly understand the risk factors associated with it. Methods: The present study is retrospective, based on investigating 2808 autopsy reports and selecting only 85 drowning related death reports conducted through a 5 year period (2015-2019) in the Forensic Medicine Teaching Centre which serves Northern Jordan including Irbid, Jarash, Ajloun, and Al-Mafraq. The statistical analysis of fatal drowning cases included the following risk variables: Age, gender, month, year, nationality, address, alcohol and drug consumption. Results: 15 variables were consistent and analyzed across the database of this study. The high risk groups and patterns were identified and the majority of fatal drowning cases were related to males (80.4%). Age group from (2 to 27 years of age were included in the highrisk groups with (88.2%) of all cases. Specifically, the age 2 had the highest occurring frequency. While (17.6%) of drowning fatalities occurred in August. Alcohol and drugs had no significant impact on increasing drowning rates. The dominant manner of death among all cases was accidental (95.3%). Fatal drowning rates were decreasing throughout the years of (2015-2019). Conclusion: Defining drowning high risk groups and its epidemiology helps to overcome this preventable cause of death. The current study highlights the necessity for the need of further interventions to be actively fixed into policies and educational programs and emphasize safety precautions during water activities and to improve the dataset collection for better planning of prevention strategies.
Reducing drowning deaths: the continued challenge of immersion fatalities in Australia
The Medical journal of Australia, 2010
To explore 5 years of drowning deaths in Australia compared with a previous Australian study a decade earlier, and to assess the feasibility of achieving a 50% reduction in unintentional drowning deaths by 2020. An audit of all unintentional drowning deaths in Australia using data from the National Coroners Information System for 1 July 2002 to 30 June 2007. Number and rate of drowning deaths, by age, sex, location, activity, place of birth, visitor status, and involvement of alcohol or drugs. There were 1452 drowning deaths during the study period (76.4% male). The age-adjusted rate per 100 000 people ranged from 1.61 in 2002-03 to 1.23 in 2006-07. Children aged 0-4 years had the highest rate (2.63 per 100 000 people), and 29% of deaths were of people aged 55 years or older. Over half of all deaths occurred in rivers (20.3%), at beaches (18.3%), or in swimming pools (13.3%). Alcohol was involved in 21.6% of all drowning deaths, although this varied by age. This audit suggests that ...