Diabetes Clinical Trial
Official title:
Predicting Hypoglycaemia and Arrhythmias in the Vulnerable Patient With Diabetes and Chronic Kidney Disease - Validation Study
Patients with insulin-dependent diabetes mellitus (DM) and chronic kidney disease (CKD)
exhibit an excessive risk for cardiac arrhythmias, in particular sudden cardiac death (SCD).
Various studies have shown that hypoglycemic episodes are strong predictors of
cardiovascular mortality in both type 1 and type 2 diabetic patients. Experimental data and
small clinical studies link hypoglycemia with ECG changes and SCD, but little is known about
the direct association of hypoglycemic events and/or rapid swings in blood glucose with
arrhythmias in this high risk population. Ideally, an algorithm should help to identify
patients at risk for hypoglycemia-associated arrhythmias and SCD, but hitherto systematic
analyses of blood glucose values and 12-channel ECGs are lacking in these patients.
In this validation study a 12-lead ECG T-shirt consisting of textile electrodes and a data
logging device wich can record long-term 12-lead ECG data will be tested. The purpose of the
T-shirt is to improve the patient's comfort for long-term recordings and to prevent adverse
effects of regular ECG electrodes. Current systems are limited by the use of ECG electrodes
involving disadvantages like severe direct side effects on the skin such as rash and bullous
lesions as well as slipping electrodes. By the means of the proposed ECG T-shirt those
drawbacks will be avoided.
Patients with diabetes mellitus (DM), especially those with a long duration of diabetes,
insulin treatment and chronic kidney disease (CKD) are vulnerable patients exhibiting a high
risk for cardiac arrhythmias and sudden cardiac death (SCD). Various factors such as the
presence of coronary heart disease, diabetic cardiomyopathy as well autonomic neuropathy are
underlying pathologies associated with the development of potentially fatal arrhythmias in
these patients while hypoglycemic events are considered to directly trigger these
arrhythmias. It has been postulated that severe hypoglycemia may lead to cardiac
arrhythmias, later summarized as the "dead in bed" syndrome. In addition, recent data from
large cardiovascular outcome trials in patients with type 2 diabetes suggest that severe
hypoglycemia is associated with an increased risk of cardiovascular events and
cardiovascular related death. Moreover, CKD markedly increases the risk for hypoglycemia and
even a moderate impairment of kidney function (eGFR < 45 ml/min) is associated with a
significant increase in SCD.
Various pathophysiological mechanisms may contribute to the increased cardiovascular
mortality after hypoglycemia including hypoglycemia-induced release of catecholamines,
pro-arrhythmogenic ECG alterations as well as inflammatory changes. Morphological and
functional alterations of the heart occurring in CKD further contribute to these mechanisms.
So far performed studies were limited by a short duration of glucose and ECG monitoring and
by the fact that only 3 lead Holter-ECGs were used, thus not allowing the assessment of more
sophisticated ECG abnormalities such as QT dispersion, T-wave alternans, or late potentials.
Therefore no clear data exist to predict arrhythmias and SCD and its relation to
hypoglycemia in patients with diabetes. Ideally, a SCD risk score could identify and
characterize high-risk patients but to date little is known about hypoglycemia-associated
ECG markers for the identification of patients at risk for arrhythmias and SCD.
In the general population, various ECG risk markers for SCD have been identified such as
heart rate, cardiac rhythm abnormalities, atrioventriculare (AV) block, QT length, QT
dispersion, heart-rate variability (HRV), T-wave alternans, late potentials, as well as
left- (LBBB) or right-bundle branch block (RBBB) (reviewed in). In patients with diabetes
hypoglycemia, diabetic cardiomyopathy, as well as the presence of autonomic neuropathy may
lead to such ECG abnormalities. Merely sparse data exist on the effect of spontaneous
hypoglycemic episodes and changes in ECG parameters with only a small study in patients with
type 1 diabetes demonstrating that nocturnal hypoglycemia is associated with a decrease in
the low-frequency component of heart rate variability. To date, more sophisticated markers
such as QT dispersion, late potentials, or T-wave alternans were not examined in a
"real-life setting", most likely because these markers require a 12 lead ECG registration of
longer duration.
However, for the establishment of a risk algorithm for the prediction of
hypoglycemia-associated arrhythmias it is mandatory to perform long duration simultaneous
glucose monitoring and 12 lead ECG registration to capture these ECG risk markers for SCD.
In an actually running project the investigators are evaluating the association of
hypoglycemic events/glucose swings and arrhythmias/ECG predictors for SCD a clinical study
will be performed in 50 patients with insulin-treated diabetes and moderate to severe CKD.
These patients receive 7 days continuous glucose and ECG registration and data will be used
for the development of the risk assessment model.
The current validation study seeks to confirm the risk assessment model developed in
collaboration with AICES - Aachen Institute for Advanced Study in Computational Engineering
Science and to approve the capacitive ECG registration device obtained in collaboration with
Philips Chair for Medical Information Technology at University Clinical Center Aachen (UKA).
To this end, 10 patients with insulin-treated diabetes and moderate to severe CKD will be
included. Seven day glucose monitoring as well as data of capacitive ECG recordings will be
generated in this study, thus allowing validation and adjustment of the developed medical
hardware and the mathematic models. The study item is a 12-lead ECG T-shirt consisting of
textile electrodes and a data logging device. The device can record long-term 12-lead ECG
data. The purpose of the T-shirt is to improve the patient's comfort for long-term
recordings and to prevent adverse effects of regular ECG electrodes. Current systems are
limited by the use of ECG electrodes, which are hardly tolerated by the patients because of
severe direct side effects on the skin such as rash and bullous lesions. These side effects
are a result of skin preparation and electrode gel. The proposed ECG T-shirt does not need
these problematic preparations. Another benefit is the fixed placement of the electrodes on
the T-shirt. In regular 12-lead ECG long-term recordings, the electrodes may fall off and
the patient needs to reattach them. Therefore, faulty positioning of the electrodes may
occur.
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