Relationships of physiologically equivalent temperature and hospital admissions due to I30–I51 other forms of heart disease in Germany in 2009–2011

Shiue, Ivy; Perkins, David R.; Bearman, Nick

doi:10.1007/s11356-015-5727-5

Cited by 11 publications

(6 citation statements)

References 33 publications

(31 reference statements)

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“…A limited number of studies have examined the impact of PET on hospital admissions in Central European cities. The findings of this research are partially consistent with those of other studies that found a higher risk of cardiovascular admissions (Shiue et al, 2016a;Shiue et al, 2016b;Santurtun et al, 2020) and respiratory admissions (Nastos and Matzarakis, 2006) under conditions of lower PET. Our results regarding respiratory disease admissions differed from those of two other studies conducted by Borsi et al (2021) for Ahvaz (Iran), which showed that low PET levels reduced the incidence of all respiratory diseases except asthma; and from those of a study for Olsztyn (Poland), which found that a decline in the UTCI led to a reduction in the number of asthma cases (Romaszko-Wojtowicz et al, 2020).…”

Section: Discussionsupporting

confidence: 91%

Impact of urban outdoor thermal conditions on selected hospital admissions in Novi Sad, Serbia

Arsenović,

Savić,

Milošević

et al. 2024

Populationyearbook

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Climate change has been recognized as an important issue in public health, with particular concerns being raised about the effects of heat and cold extremes on health, and about seasonal changes over the year and their associations with increased mortality and hospitalizations. This paper explored the relationship between physiological equivalent temperature (PET) and cardiovascular and respiratory hospital admissions in Novi Sad (Serbia) with the aim of assessing the impact of urban outdoor thermal conditions on health. Analysis was performed using daily data on cardiovascular and respiratory hospital admissions by gender covering the period from January 1, 2016 to December 31, 2017. For the same period, PET was calculated using data from two urban meteorological network stations. The association between PET and hospital admissions was examined using a generalized additive model (GAM) combined with a distributed lag non-linearmodel (DLNM). The study found a non-linear relationship between PET and cardiovascular and respiratory hospital admissions, with a larger impact during the cold period of the year. The findings also indicated that under conditions of high PET, the cumulative RR increased for cardiovascular admissions (for males) and respiratory admissions (for females). People with pre-existing respiratory diseases were found to be more vulnerable under conditions of extremely low and moderately low PET, with a greater effect at lag 0–14 days. By contrast, for people with cardiovascular diseases, low PET was linked to a decrease in hospital admissions, with the risk being lowest at lag 0 and 0–3 days.

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Section: Discussionsupporting

confidence: 91%

Impact of urban outdoor thermal conditions on selected hospital admissions in Novi Sad, Serbia

Arsenović,

Savić,

Milošević

et al. 2024

Populationyearbook

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“…They also found that a sudden drop in the outside air temperature of greater than 11 °C within 30 days prior to admission was associated with a higher number of patients with atrioventricular block. In a recent study, Shiue et al reported a winter predominance of atrioventricular block in Germany [22]. Our study showed in contrast, that there were significant peaks in PM implantations in the summer months with a trough in the winter.…”

Section: Major Findingscontrasting

confidence: 83%

Seasonal Variability in The Implantations of Cardiovascular Electronic Devices

Watanabe¹,

Kiyono²,

Harada³

2019

Cardiol Cardiovascmed

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Background: Countless studies have found a substantial seasonal variation in cardiovascular disease events, but information about the seasonal variation in implantations of cardiovascular implantable electronic devices (CIEDs) is rare.Objective: We assessed whether there were seasonal variations in CIED implantations. Methods: In this serial cross-sectional study using Japan's National Health Insurance Data, we identified new implants of cardiac pacemakers (PMs, n=402,676) between 2006 and 2016, including implantable cardioverter-defibrillators (ICDs, n=29,330) and cardiac resynchronization therapy with defibrillators (CRT-Ds, n=17,907) between 2009 and 2016. We examined the seasonality in the number of implantations, and whether they depended on the geographical regions (north, central, and south) or number of procedures by prefecture (above and below the mean). A seasonaltrend decomposition procedure based on a locally weighted regression was used to assess the seasonal, monthly or quarterly variations. In addition, the seasonal sinusoidal oscillation in the detrended variations was evaluated using a least-squares cosine-curve fitting algorithm.Results: There were significant seasonal variations in PM implantations with a peak in July and trough in January (p<0.001). CRT-D implantations also had seasonal variations with a peak in June and troughs in January and September (p<0.001). There was no statistically significant seasonal variation only for ICD implantations. The monthly variations in the three types of CIEDs were not influenced by the geographic region or prefectural procedure volume.

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“…Thus, increases in heat-related mortality due to global warming are unlikely to be compensated by decreases in cold-related mortality[ 112 ]. In a global environment of rapid and extreme climatic events, more populations will be exposed to conditions they are not readily adapted to from a bio-behavioural perspective[ 60 , 144 ]. Adaptation to such changes, that are expected to further increase, would seem to be imperative for medical professionals, health institutions, and general public[ 41 , 70 ].…”

Section: Discussionmentioning

confidence: 99%

“…Current paradigm in sudden cardiac death (SCD) requires an abnormal myocardial substrate and an internal or external transient factor (such as a cold spell, an unusually cold weather event) that triggers cardiac arrest. An increased risk of ischaemic SCD was significantly associated with a preceding cold spell[ 95 ], and cardiac arrest admissions peaked when temperatures were between 0° and -10°C[ 60 ]. These associations were stronger for unexpected SCD than for SCD with prior CHD[ 45 ].…”

Section: Weather and Other Cardiovascular Disease Beyond Chdmentioning

confidence: 99%

Climatic influences on cardiovascular diseases

Abrignani¹,

Lombardo²,

Braschi³

et al. 2022

WJC

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Classical risk factors only partially account for variations in cardiovascular disease incidence; therefore, also other so far unknown features, among which meteorological factors, may influence heart diseases (mainly coronary heart diseases, but also heart failure, arrhythmias, aortic dissection and stroke) rates. The most studied phenomenon is ambient temperature. The relation between mortality, as well as cardiovascular diseases incidence, and temperature appears graphically as a ‘‘U’’ shape. Exposure to cold, heat and heat waves is associated with an increased risk of acute coronary syndromes. Other climatic variables, such as humidity, atmospheric pressure, sunlight hours, wind strength and direction and rain/snow precipitations have been hypothesized as related to fatal and non-fatal cardiovascular diseases incidence. Main limitation of these studies is the unavailability of data on individual exposure to weather parameters. Effects of weather may vary depending on other factors, such as population disease profile and age structure. Climatic stress may increase direct and indirect risks to human health via different, complex pathophysiological pathways and exogenous and endogenous mechanisms. These data have attracted growing interest because of the recent earth’s climate change, with consequent increasing ambient temperatures and climatic fluctuations. This review evaluates the evidence base for cardiac health consequences of climate conditions, and it also explores potential further implications.

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Relationships of physiologically equivalent temperature and hospital admissions due to I30–I51 other forms of heart disease in Germany in 2009–2011

Cited by 11 publications

References 33 publications

Impact of urban outdoor thermal conditions on selected hospital admissions in Novi Sad, Serbia

Impact of urban outdoor thermal conditions on selected hospital admissions in Novi Sad, Serbia

Seasonal Variability in The Implantations of Cardiovascular Electronic Devices

Climatic influences on cardiovascular diseases

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