Geoffrey H. Tofler

Circadian variation and triggers of onset of acute cardiovascular disease.

Information obtained during the past decade suggests the need to reexamine the possibility that the onset of myocardial infarction and sudden cardiac death is frequently triggered by daily activities. The importance of physical or mental stress in triggering onset of coronary thrombosis is supported by the findings that 1) the frequencies of onset of myocardial infarction, sudden cardiac death, and stroke show marked circadian variations with parallel increases in the period from 6:00 AM to noon, 2) transient myocardial ischemia shows a similar morning increase, and episodes are often preceded by mental or physical triggers, 3) a ruptured atherosclerotic plaque, often nonobstructive by itself, lies at the base of most coronary thrombi, 4) a number of physiologic processes that could lead to plaque rupture, a hypercoagulable state or coronary vasoconstriction, are accentuated in the morning, and 5) aspirin and beta-adrenergic blocking agents, which block certain of these processes, have been shown to prevent disease onset. The hypothesis is presented that occlusive coronary thrombosis occurs when 1) an atherosclerotic plaque becomes vulnerable to rupture, 2) mental or physical stress causes the plaque to rupture, and 3) increases in coagulability or vasoconstriction, triggered by daily activities, contribute to complete occlusion of the coronary artery lumen. Recognition of the circadian variation--and the possibility of frequent triggering--of onset of acute disease suggests the need for pharmacologic protection of patients during vulnerable periods, and provides clues to mechanism, the investigations of which may lead to improved methods of prevention.

Circadian variation in the frequency of sudden cardiac death.

To determine whether sudden cardiac death exhibits a circadian rhythm similar to that recently demonstrated for nonfatal myocardial infarction, we analyzed the time of day of sudden cardiac death as indicated by death certificates of 2203 individuals dying out of the hospital in Massachusetts in 1983. The data reveal a prominent circadian variation of sudden cardiac death, with a low incidence during the night and an increased incidence from 7 to 11 A.M. The pattern is remarkably similar to that reported for nonfatal myocardial infarction and episodes of myocardial ischemia. The finding that the frequency of sudden cardiac death is increased in the morning is compatible with hypotheses that sudden cardiac death results from ischemia or from a primary arrhythmic event. Further study of the physiologic changes occurring in the morning may provide new information supporting or refuting these hypotheses, thereby leading to increased understanding and possible prevention of sudden cardiac death.

Circadian variation in the incidence of sudden cardiac death in the framingham heart study population

To determine if sudden cardiac death shows circadian variation, the time of day of sudden cardiac deaths in the Framingham Heart Study was analyzed. Analysis was based on mortality data collected in a standardized manner for the past 38 years for each death among the 5,209 persons in the original cohort. The necessary assumptions about the cause and timing of unwitnessed deaths were made in a manner likely to diminish the possibility of detecting an increased incidence of sudden cardiac death during the morning. In the Framingham study, analyses using these assumptions reveal a significant circadian variation (p less than 0.01) in occurrence of sudden cardiac death (n = 429), with a peak incidence from 7 to 9 AM and a decreased incidence from 9 AM to 1 PM. Risk of sudden cardiac death was at least 70% higher during the peak period than was the average risk during other times of the day. Further studies are needed to confirm this finding in other populations, to collect data regarding medications and to determine activity immediately before sudden cardiac death. Investigation of physiologic changes occurring during the period of increased incidence of sudden cardiac death may provide increased insight into its causes and suggest possible means of prevention.

Analysis of possible triggers of acute myocardial infarction (the MILIS study).

Recent documentation of a circadian variation in acute myocardial infarction (AMI) suggests that AMI is not a random event, but may frequently result from identifiable triggering activities. The possible triggers reported by 849 patients enrolled in the Multicenter Investigation of Limitation of Infarct Size were analyzed. Possible triggers were identified by 48.5% of the population; the most common were emotional upset (18.4%) and moderate physical activity (14.1%). Multiple possible triggers were reported by 13% of the population. Younger patients, men and those without diabetes mellitus were more likely to report a possible trigger than were older patients, women and those with diabetes. The likelihood of reporting a trigger was not affected by infarct size. This study suggests that potentially identifiable triggers may play an important role in AMI. Because potential triggering activities are common in persons with coronary artery disease, yet infrequently result in AMI, further studies are needed to identify (1) the circumstances in which a potential trigger may cause an event, (2) the specific nature of potential triggering activites, (3) the frequency of such activities in individuals who do not develop AMI and (4) the presence or absence of identifiable triggers in various subgroups of patients with infarction.

Morning increase in platelet aggregability. Association with assumption of the upright posture.

The frequencies of onset of myocardial infarction and sudden cardiac death are increased between 6 AM and 12 noon. Platelet aggregability, which may play a role in the cause of these disorders, has been observed to increase after the normal morning activities of awakening, arising, and ambulating. To determine which morning activity or activities are responsible for this aggregability increase, we measured platelet aggregation in 16 normal subjects on a control day of delayed arising (i.e., subjects remained supine until 12:30 PM) and on a day in which normal morning activities were divided into three isolated components of awakening (8 AM), assumption of upright posture (9:30 AM), and ambulating (11 AM). Blood samples to assess platelet aggregability were drawn at 8 AM before activity and 90 minutes after the initiation of each activity (i.e., at 9:30 AM, 11 AM, and 12:30 PM). For the group, in vitro platelet responsiveness to adenosine diphosphate and epinephrine increased only after assumption of the upright posture. The lowest concentration of agonist required to produce biphasic platelet aggregation decreased (aggregability increased) between 9:30 and 11 AM (90 minutes after assumption of the upright posture) from 3.3 +/- 0.3 to 2.4 +/- 0.2 microM for adenosine diphosphate (p less than 0.05) and from 2.1 +/- 0.5 to 1.0 +/- 0.4 microM for epinephrine (p less than 0.05). During the same interval, plasma epinephrine increased from 34 +/- 7 to 55 +/- 9 pg/ml (p less than 0.05), and plasma norepinephrine increased from 169 +/- 19 to 298 +/- 25 pg/ml (p less than 0.01). There was no significant change in aggregability or catecholamine concentrations on the control day.(ABSTRACT TRUNCATED AT 250 WORDS)

Modifiers of timing and possible triggers of acute myocardial infarction in the thrombolysis in myocardial infarction phase II (TIMI II) study group

OBJECTIVES The aim of this study was to provide insight into the mechanism of acute myocardial infarction by determining the modifiers of timing and possible triggers of onset of infarction. BACKGROUND A higher frequency of onset of acute myocardial infarction has been reported in the morning with a peak in the 1st 3 h after awakening. This observation suggests that the onset of infarction may be triggered by activity in the morning and at other times of the day. METHODS The clinical history of the 3,339 patients entered into the Thrombolysis in Myocardial Infarction phase II study was analyzed to determine characteristics predicting a higher frequency of infarction between 6 AM and noon, and onset of infarction during exertion. RESULTS A higher proportion (34.4%) of infarctions began in the morning (6 AM to noon) compared with other times of the day. Characteristics independently predicting a higher frequency between 6 AM to noon were no beta-adrenergic blocking agent use in the 24 h before infarction, no discomfort other than the index pain in the preceding 48 h, occurrence of the infarction on a weekday and no history of current smoking. In 18.7% of patients, infarction occurred during moderate or marked physical activity. Independent predictors of exertion-related infarction included male gender, no history of current smoking, white race, no use of calcium channel blocking agents or nitrates in the preceding 24 h, the absence of either chest pain at rest in the 3 weeks before infarction or any pain in the preceding 48 h, the absence of new onset angina and the presence of exertional pain in the preceding 3 weeks. Compared with patients whose infarction occurred at rest or during mild activity, those with exertion-related infarction had fewer coronary vessels with > or = 60% stenosis (p = 0.002) and were more likely to have an occluded infarct-related vessel after thrombolytic therapy (p = 0.01). CONCLUSIONS Further study of the timing and activity at onset of infarction may provide insight into the pathophysiologic mechanisms causing acute myocardial infarction and provide clues to preventive measures.

Factors leading to shorter survival after acute myocardial infarction in patients ages 65 to 75 years compared with younger patients.

Although the number of elderly patients with acute myocardial infarction (AMI) has steadily increased and these patients are known to have a higher early subsequent mortality than younger patients, the reasons for this adverse prognosis are poorly understood. We compared the clinical courses of 217 patients, ages 65 to 75 years, with 631 patients younger than 65 years of age enrolled in the Multicenter Investigation of the Limitation of Infarct Size (MILIS). The older group had a higher prevalence of adverse baseline risk factors, including history of congestive heart failure (14 vs 7%, p less than 0.001), previous AMI (28 vs 22%, p less than 0.05), angina pectoris (42 vs 34%, p less than 0.05), systemic hypertension (64 vs 52%, p less than 0.01), diabetes mellitus (24 vs 17%, p less than 0.05) and female gender (37 vs 24%, p less than 0.001). Despite having a smaller infarct size index than younger patients (15 +/- 1 vs 18 +/- 1 CK-MB g-Eq/m2, p less than 0.002), the elderly patients had a lower admission left ventricular ejection fraction (43 +/- 1 vs 47 +/- 1%, p less than 0.01) and a higher frequency of clinical congestive heart failure (44 vs 28%, p less than 0.001) and in-hospital death (14 vs 7%, p less than 0.01). The 1-year mortality for elderly hospital survivors was also markedly greater (19 vs 5%, p less than 0.001) as was the 4-year mortality (35 vs 13%, p less than 0.001). Adjustment for 7 adverse baseline characteristics in the elderly could account for their increased in-hospital mortality. However, these and 12 additional in-hospital characteristics did not account for the increased 1- and 4-year mortalities of the elderly hospital survivors, which are presumably affected by variables not included in the present age-associated study.

Acute effects of a high-fat meal with and without red wine on endothelial function in healthy subjects☆

It has been suggested that a high-fat meal may acutely impair endothelium-dependent vasodilation and that this impairment may be prevented by concomitant intake of antioxidants. Because red wine contains antioxidant polyphenols and may reduce cardiovascular disease, we examined the effect of red wine on postprandial endothelial function. Using a crossover design, 13 healthy volunteers consumed a high-fat meal (0.8 g fat/kg body weight) with red wine (3 ml/kg) or an isocaloric control beverage on 2 separate days, 1 week apart. Flow-mediated dilation of the brachial artery was examined by vascular ultrasound at baseline and at 2, 4, and 6 hours after the meal. At these times, flow-mediated dilation with the high-fat meal and control beverage was 9.5 +/- 5.0%, 7.9 +/- 5.1%, 6.8 +/- 3.6%, and 7.3 +/- 4.6%, respectively (nonsignificant trend). There was also a nonsignificant trend for flow-mediated dilation after the high-fat meal with wine: 8.0 +/- 4.1%, 5.7 +/- 4.7%, 6.4 +/- 3.1%, and 6.9 +/- 3.8%, respectively. There was no difference in the effects between wine and the control beverage (p = 0.77). Triglycerides increased 2- to 2.7-fold over baseline (p = 0.0001) with a peak occurring 5 hours after the high-fat meals. In contrast to previous studies, the present study did not demonstrate a significant effect of a high-fat meal on endothelial vasomotor function in healthy subjects. Under these conditions, we did not demonstrate a beneficial acute effect of red wine on endothelial function.

Morning Peak in Ventricular Tachyarrhythmias Detected by Time of Implantable Cardioverter/Defibrillator Therapy

BACKGROUND A morning peak in occurrence of sudden cardiac death has been identified in epidemiological studies, but the studies are subject to selection bias, with the exclusion of unwitnessed deaths, which are more likely to occur at night. The recent availability of implantable cardioverter/defibrillators that record the time of ventricular tachyarrhythmias requiring either pacing or shock therapy provides an opportunity to clarify the timing of ventricular tachyarrhythmias predisposing to sudden cardiac death. Analysis of the timing of arrhythmias in different patient subgroups, such as patients with poor left ventricular function, may provide further insight into the mechanism of onset of sudden cardiac death. METHODS AND RESULTS We studied patients in whom a cardioverter/defibrillator (Ventak PRx) was implanted between September 1990 and September 1993 in US centers. Events that could be timed occurred in 483 patients. With an RR cycle length of 240 ms as a cutoff, corresponding to a heart rate of 250 beats per minute, episodes were categorized as rapid (n = 1217) or less rapid (n = 9266) ventricular tachyarrhythmias. A higher proportion of both rapid and less rapid ventricular tachyarrhythmias began in the late morning compared with other times of the day. The subgroup of patients with ejection fraction < 20% at the time of implantation demonstrated a more uniform 24-hour distribution of tachycardias < or = 250 beats per minute than patients with higher left ventricular ejection fraction. CONCLUSIONS Further investigation of the late morning peak and of precipitants of ventricular tachyarrhythmias by use of data from the implantable cardioverter/defibrillator may provide insight into the pathophysiological mechanisms causing sudden cardiac death.

Effect of Short-Term Aspirin Use on C-Reactive Protein

Markers of inflammation, such as C-reactive protein (CRP) and fibrinogen, have been shown to be predictive of cardiovascular disease. In the Physicians Health Study, the magnitude of reduction in the risk of myocardial infarction with aspirin therapy was related to baseline CRP levels, raising the possibility that the protective effect of aspirin may be due to antiinflammatory properties in addition to its antiplatelet effect. We therefore investigated whether aspirin therapy lowers CRP levels. Because heavy physical exertion is a well-known trigger of myocardial infarction, we also investigated the effect of aspirin on CRP levels before and after strenuous exercise. Thirty-two healthy men, aged 29 ± 6 years, were enrolled in a randomized, double-blind, parallel study. Blood samples were obtained immediately before and after maximal treadmill exercise at baseline and following 7 days of aspirin therapy (81 or 325 mg). The levels of CRP, as measured by ELISA, increased by 13% following exercise (P < 0.0001). However, aspirin did not significantly alter CRP levels, either at rest (0.81 ± 0.13 mg/L before aspirin vs. 0.78 ± 0.13 mg/L on aspirin) or following exercise (0.92 ± 0.13 mg/L before aspirin vs. 0.86 ± 0.13 mg/L on aspirin), P = 0.73. When the resting and postexercise data were combined, the levels were 0.87 ± 0.13 mg/L before aspirin and 0.82 ± 0.13 mg/L on aspirin (a nonsignificant 6% reduction, P = 0.20). In conclusion, in healthy male subjects CRP levels were not significantly reduced by short-term aspirin therapy. Our data, taking together with other reports, suggest that aspirin may not affect the levels of inflammatory markers. However, further studies are needed with a longer duration of therapy, among subjects with coronary heart disease, and using additional markers of inflammation besides CRP to determine the long-term effects of aspirin use.