OBJECTIVE: Increases in the incidence of diseases are often observed during the cold winter months, particularly in cities in temperate climates. The study aim is to describe daily, monthly and seasonal trends in respiratory hospital admissions with climate in Auckland, New Zealand. METHODS: Daily hospital admissions for total respiratory infections or inflammations (RII), total bronchitis and asthma (BA), and total whooping cough and acute bronchitis (TWCAB) for various age groups and ethnicities were obtained for the Auckland Region and compared with climate parameters on daily, monthly and seasonal time scales. RESULTS: Seasonal and monthly relationships with minimum temperature were very strong (p<0.001) for RII over all age groups, for BA in the older age groups (14-64, 65+) and for TWCAB in the <1 year old age group. European, NZ Māori and Pacific Islanders all showed increases in admissions as temperatures decreased. Pacific Islanders were particularly susceptible to RII. There was a lag in admissions of three to seven days after a temperature event. CONCLUSIONS AND IMPLICATIONS: Results show that increases in respiratory admissions are strongly linked to minimum temperatures during winter, typical of cities with temperate climates and poorly-insulated houses. There are implications for hospital bed and staffing planning in Auckland hospitals.
OBJECTIVE: Increases in the incidence of diseases are often observed during the cold winter months, particularly in cities in temperate climates. The study aim is to describe daily, monthly and seasonal trends in respiratory hospital admissions with climate in Auckland, New Zealand. METHODS: Daily hospital admissions for total respiratory infections or inflammations (RII), total bronchitis and asthma (BA), and total whooping cough and acute bronchitis (TWCAB) for various age groups and ethnicities were obtained for the Auckland Region and compared with climate parameters on daily, monthly and seasonal time scales. RESULTS: Seasonal and monthly relationships with minimum temperature were very strong (p<0.001) for RII over all age groups, for BA in the older age groups (14-64, 65+) and for TWCAB in the <1 year old age group. European, NZ Māori and Pacific Islanders all showed increases in admissions as temperatures decreased. Pacific Islanders were particularly susceptible to RII. There was a lag in admissions of three to seven days after a temperature event. CONCLUSIONS AND IMPLICATIONS: Results show that increases in respiratory admissions are strongly linked to minimum temperatures during winter, typical of cities with temperate climates and poorly-insulated houses. There are implications for hospital bed and staffing planning in Auckland hospitals.
Authors: David M Hondula; Robert E Davis; David B Knight; Luke J Sitka; Kyle Enfield; Stephen B Gawtry; Phillip J Stenger; Michael L Deaton; Caroline P Normile; Temple R Lee Journal: Int J Biometeorol Date: 2012-03-22 Impact factor: 3.787
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Authors: X Huang; S Lambert; C Lau; R J Soares Magalhaes; J Marquess; M Rajmokan; G Milinovich; W Hu Journal: Epidemiol Infect Date: 2017-01-16 Impact factor: 4.434
Authors: Darshnika Pemi Lakhoo; Helen Abigail Blake; Matthew Francis Chersich; Britt Nakstad; Sari Kovats Journal: Int J Environ Res Public Health Date: 2022-07-26 Impact factor: 4.614