Sudden death in type 1 diabetes: The mystery of the ‘dead in bed’ syndrome

Abstract Background: Adult patients diagnosed with type 1 diabetes mellitus are at risk for ventricular arrhythmias and sudden cardiac death. Aim: The objective of our study is to evaluate the electrocardiographic data of children diagnosed with type 1 diabetes mellitus and to determine the possibility of arrhythmia in order to prevent sudden death. Methods: Electrocardiographic data of 60 patients diagnosed with type 1 diabetes mellitus and 86 controls, who were compatible with the patient group in terms of age and gender, were compared. Results: The duration of diabetes in our patients with type 1 diabetes mellitus was 5.23 ± 1.76 years, and the haemoglobin A1c levels were 9.63% ± 1.75%. The heart rate, QRS, QT maximum, QT dispersion, QTc minimum, QTc maximum, QTc dispersion, Tp-e maximum, Tp-e maximum/QTc maximum and the JTc were significantly higher compared to the control group. There was no significant correlation between the duration of type 1 diabetes mellitus and HbA1c levels and the electrocardiographic data. Conclusion: We attributed the lack of a significant correlation between the duration of type 1 diabetes mellitus and the haemoglobin A1c levels and the electrocardiographic data to the fact that the duration of diabetes was short, since our patients were children. We believe that patients with type 1 diabetes mellitus should be followed up closely in terms of sudden death, as they have electrocardiographic changes that may cause arrhythmias compared to the control group. However, more studies with longer follow-up periods are necessary to support our data.

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Abstract P005: Evaluation of the Association between the Free Fatty Acid to serum Albumin Ratio with the Time to Cardiac Repolarization

Circulation ◽

10.1161/circ.129.suppl_1.p005 ◽

2014 ◽

Vol 129 (suppl_1) ◽

Author(s):

Baqiyyah N Conway ◽

Rhobert W Evans ◽

Orchard Trevor

Keyword(s):

Type 1 Diabetes ◽

Fatty Acid ◽

Free Fatty Acid ◽

Serum Albumin ◽

Colorimetric Method ◽

Albumin Excretion Rate ◽

Cardiac Autonomic Neuropathy ◽

Cardiac Repolarization ◽

Dead In Bed Syndrome

Background: Elevated free fatty acid (FFA) levels have been shown to increase cardiac repolarization time and are a hypothesized mediator of arrhythmic death. However, as albumin binds and transports FFA, it has been argued that it is the ratio of serum FFA to serum albumin (SA) that is critical. As FFA are chronically elevated in type 1 diabetes and form a major part of the counterregulatory response to hypoglycemia, we investigated the association of the FFA-to-SA ratio with the corrected Q-T (Q-Tc) interval in 87 men and 96 women with type 1 diabetes from the Pittsburgh Epidemiology of Diabetes Complications Study. We also investigated whether this relationship varied by cardiac autonomic neuropathy (CAN: R-R interval<1.1) status. Methods: FFAs were measured using a colorimetric method in participants with a mean age and diabetes duration of 44 and 33 years, respectively. The corrected Q-T interval was calculated using Hogdes formula and the FFA-SA ratio determined as FFA (mmol/L) ÷ SA (mg/dL). Because of the sexual dimorphism in FFA metabolism and the Q-T interval, analyses were also conducted sex-specifically. Results: Mean (std) FFA levels were 0.95 (o.48) mmol/l and did not vary by sex (men vs women: 0.93 (0.46) vs 0.96 (0.49) mmol/L, p=0.76). The FFA-SA ratio demonstrated a modest association with Q-Tc interval in men (r=0.23, p=0.03), but no association in women (r=-0.07, p=0.48). Overall, in multivariable analyses controlling for sex, visceral adipose tissue, blood glucose levels and albumin excretion rate, FFA-SA, and CAN, a significant interaction was observed between the FFA-SA ratio and CAN in the association of the Q-Tc interval (p=0.03). FFA remained significantly associated with the Q-Tc interval in those without CAN (p<0.05), but not in those with CAN (p=0.30). Sex-specific analyses revealed that although no significant FFA-SA ratio and CAN interaction was observed in men (p=0.42), a relationship between the FFA-SA ratio and Q-Tc interval existed in men free of CAN (p=0.04). No association was observed in women with or without CAN. Conculsion: We conclude that a higher FFA-SA ratio is associated with an increased time to cardiac repolarization in those without CAN, particularly in men, helping to explain why the "dead in bed" syndrome is predominantly seen in men.

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Hypoglycaemia and cardiac arrhythmias in diabetes

Therapeutic Advances in Endocrinology and Metabolism ◽

10.1177/2042018820911803 ◽

2020 ◽

Vol 11 ◽

pp. 204201882091180

Author(s):

Andreas Andersen ◽

Peter G. Jørgensen ◽

Filip K. Knop ◽

Tina Vilsbøll

Keyword(s):

Type 2 Diabetes ◽

Type 1 Diabetes ◽

Cardiac Arrhythmias ◽

Severe Hypoglycaemia ◽

Qt Prolongation ◽

Cardiac Autonomic Neuropathy ◽

Consistent Finding ◽

Dead In Bed Syndrome

Hypoglycaemia remains an inevitable risk in insulin-treated type 1 diabetes and type 2 diabetes and has been associated with multiple adverse outcomes. Whether hypoglycaemia is a cause of fatal cardiac arrhythmias in diabetes, or merely a marker of vulnerability, is still unknown. Since a pivotal report in 1991, hypoglycaemia has been suspected to induce cardiac arrhythmias in patients with type 1 diabetes, the so-called ‘dead-in-bed syndrome’. This suspicion has subsequently been supported by the coexistence of an increased mortality and a three-fold increase in severe hypoglycaemia in patients with type 2 diabetes receiving intensive glucose-lowering treatment in the Action to Control Cardiovascular Risk in Diabetes (ACCORD) trial. Studies have investigated the association between hypoglycaemia-induced cardiac arrhythmias. In a rat-model, severe hypoglycaemia resulted in a specific pattern of cardiac arrhythmias including QT-prolongation, ventricular tachycardia, second- and third-degree AV block and ultimately cardiorespiratory arrest. In clinical studies of experimentally induced hypoglycaemia, QTc-prolongation, a risk factor of ventricular arrhythmias, is an almost consistent finding. The extent of QT-prolongation seems to be modified by several factors, including antecedent hypoglycaemia, diabetes duration and cardiac autonomic neuropathy. Observational studies indicate diurnal differences in the pattern of electrocardiographic alterations during hypoglycaemia with larger QTc-prolongations during daytime, whereas the risk of bradyarrhythmias may be increased during sleep. Daytime periods of hypoglycaemia are characterized by shorter duration, increased awareness and a larger increase in catecholamines. The counterregulatory response is reduced during nightly episodes of hypoglycaemia, resulting in prolonged periods of hypoglycaemia with multiple nadirs. An initial sympathetic activity at plasma glucose nadir is replaced by increased vagal activity, which results in bradycardia. Here, we provide an overview of the existing literature exploring potential mechanisms for hypoglycaemia-induced cardiac arrhythmias and studies linking hypoglycaemia to cardiac arrhythmias in patients with diabetes.

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