Population-based epidemiology and clinical case studies document a prominent 24-hour pattern in the occurrence of silent and non-silent angina pectoris (AP), acute myocardial infarction (AMI), and sudden cardiac death (SCD). When the data are summarized per 3 - 6 hour intervals of the 24 hours, the temporal pattern of these ischemic heart disease (IHD) events shows a single morning peak between 06: 00 and 12:00 h in incidence. However, when the occurrence of such events is examined according to the hour of their occurrence, several studies reveal a second late-afternoon/early-evening minor peak. The true day - night pattern in AP, AMI, and SCD is unknown because the data represent nothing more than the recorded `"time of day'' of the events. It has been postulated that the day - night pattern in IHD events is at least in part dependent on endogenous circadian rhythms, which are synchronized by the daily routine of sleep in darkness/ activity in light. Approximately 20% of the working population is involved in night and rotating shift employment; thus, "time of day'' studies are not likely to accurately represent the actual "chronorisk'' of vulnerable individuals to IHD events. Moreover, it is likely that the events in the persons comprising the population and clinical case studies were influenced by ongoing treatment with antihypertensive, anticoagulant, and antianginal medications. Details regarding the class, dose, and schedule of such medications are rarely if ever reported in accounts of IHD events. Many of the investigations were conducted decades ago, when short-acting antihypertensive and cardiovascular medications required twice or thrice-a-day dosing, and thus the observed day - night variations could be significantly affected by such multiple treatment timings each day. Thus, the magnitude and nature (single versus multiple peaks) of the reported day - night patterns in AP, AMI, and SCD are suspect, as are their geneses. Presently, it is hypothesized that multiple cyclic exogenous triggers (e. g. posture, physical exertion, emotional stress, and medication scheduling) superimposed upon an endogenous 24-hour susceptibility-resistance pattern that arises from circadian rhythms in heart rate, blood pressure, rate-pressure product, and haemostasis, are major contributory factors.

Twenty-four-hour pattern of angina pectoris, acute myocardial infarction and sudden cardiac death: role of blood pressure, heart rate and rate-pressure product circadian rhythms

PORTALUPPI, Francesco;
2007

Abstract

Population-based epidemiology and clinical case studies document a prominent 24-hour pattern in the occurrence of silent and non-silent angina pectoris (AP), acute myocardial infarction (AMI), and sudden cardiac death (SCD). When the data are summarized per 3 - 6 hour intervals of the 24 hours, the temporal pattern of these ischemic heart disease (IHD) events shows a single morning peak between 06: 00 and 12:00 h in incidence. However, when the occurrence of such events is examined according to the hour of their occurrence, several studies reveal a second late-afternoon/early-evening minor peak. The true day - night pattern in AP, AMI, and SCD is unknown because the data represent nothing more than the recorded `"time of day'' of the events. It has been postulated that the day - night pattern in IHD events is at least in part dependent on endogenous circadian rhythms, which are synchronized by the daily routine of sleep in darkness/ activity in light. Approximately 20% of the working population is involved in night and rotating shift employment; thus, "time of day'' studies are not likely to accurately represent the actual "chronorisk'' of vulnerable individuals to IHD events. Moreover, it is likely that the events in the persons comprising the population and clinical case studies were influenced by ongoing treatment with antihypertensive, anticoagulant, and antianginal medications. Details regarding the class, dose, and schedule of such medications are rarely if ever reported in accounts of IHD events. Many of the investigations were conducted decades ago, when short-acting antihypertensive and cardiovascular medications required twice or thrice-a-day dosing, and thus the observed day - night variations could be significantly affected by such multiple treatment timings each day. Thus, the magnitude and nature (single versus multiple peaks) of the reported day - night patterns in AP, AMI, and SCD are suspect, as are their geneses. Presently, it is hypothesized that multiple cyclic exogenous triggers (e. g. posture, physical exertion, emotional stress, and medication scheduling) superimposed upon an endogenous 24-hour susceptibility-resistance pattern that arises from circadian rhythms in heart rate, blood pressure, rate-pressure product, and haemostasis, are major contributory factors.
2007
M. H., Smolensky; R. C., Hermida; Portaluppi, Francesco; E., Haus
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/1398503
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