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The drug-induced long QT syndrome (diLQTS) describes a clinical entity in which administration of a drug produces marked prolongation of the QT interval of the electrocardiogram, associated with the development of a polymorphic ventricular tachycardia, termed torsades de pointes (TdP). The heart rate is an important variable affecting the QT interval. The QT interval normally shortens as the heart rate accelerates; however, the adaptation of the QT interval to sudden heart rate acceleration is not instantaneous. Interestingly, Holter studies show that the speed of response of the QT interval to sudden changes in heart rate (that is, the time it takes the QT interval of a given person to reach a new steady-state QT/RR relation) in healthy persons is highly individual and independent of the basic QTc. The investigators and others recently proposed the "quick standing" test as a simple bedside test that facilitates the diagnosis of congenital LQTS. The test takes advantage of the fact that as one stands up, the heart rate acceleration is abrupt while the associated QT-interval shortening is gradual. As the R-R interval shortens faster than the QT interval, the QT appears to "stretch" toward the next P wave and the corrected QT interval (QTc) for heart rate actually increases momentarily. The phenomenon of "QT stretching" is universal but is exaggerated in patients with LQTS, allowing for a simple but accurate diagnostic test. There is no data on the effects of quick standing on drug-associated form of the long QT syndrome. The investigators therefore propose the present study to better understand who these patients with drug-associated form of the long QT syndrome are and what the significance of their abnormal QT-response is.
The drug-induced long QT syndrome (diLQTS) describes a clinical entity in which administration of a drug produces marked prolongation of the QT interval of the electrocardiogram, associated with the development of a polymorphic ventricular tachycardia, termed torsades de pointes (TdP). Drugs that produce diLQTS block the repolarizing current, IKr, encoded by KCNH2, the disease gene for type 2 congenital LQTS (cLQTS) . Some risk factors are drug-specific (pharmacokinetic factors such as cytochrome P450 variants) whereas others (pharmacodynamic factors) seem more related to myocardial sensitivity across drugs. Studies of the congenital syndrome demonstrated variable penetrance in the congenital syndrome; that is, there is variability in the extent to which mutation carriers display long QT intervals, syncope, and sudden death. Thus, one pharmacogenetic hypothesis is that persons displaying diLQTS represent an atypical form of the congenital form of the syndrome. In fact, a minority of subjects with diLQTS have rare mutations in cLQTS disease genes and can thus be labeled as having the congenital syndrome. In a given family, some persons with a LQTS mutation have clearly long QT intervals, whereas others with the same mutation have normal QT intervals at baseline. In some cases, these latter people, often referred to as "latent" or "subclinical" LQTS, experience TdP only after therapy with a QT-prolonging drug. Indeed, when cLQTS disease genes have been screened, mutations are identified in about 10% of subjects with diLQTS. The heart rate is an important variable affecting the QT interval. The QT interval normally shortens as the heart rate accelerates; however, the adaptation of the QT interval to sudden heart rate acceleration is not instantaneous. Animal and clinical studies have shown that following an abrupt increase in ventricular pacing rate, it takes up to 2 minutes until the ventricular refractory period and the QT interval shorten to a new steady state that is appropriate for the new (faster) rate. Interestingly, Holter studies show that the speed of response of the QT interval to sudden changes in heart rate (that is, the time it takes the QT interval of a given person to reach a new steady-state QT/RR relation) in healthy persons is highly individual and independent of the basic QTc. The investigators and others recently proposed the "quick standing" test as a simple bedside test that facilitates the diagnosis of congenital LQTS. The test takes advantage of the fact that as one stands up, the heart rate acceleration is abrupt while the associated QT-interval shortening is gradual. As the R-R interval shortens faster than the QT interval, the QT appears to "stretch" toward the next P wave and the corrected QT interval (QTc) for heart rate actually increases momentarily. The phenomenon of "QT stretching" is universal but is exaggerated in patients with LQTS, allowing for a simple but accurate diagnostic test. There is no data on the effects of quick standing on drug-associated form of the long QT syndrome. The investigators therefore propose the present study to better understand who these patients with drug-associated form of the long QT syndrome are and what the significance of their abnormal QT-response is.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| drug-induced long QT syndrome | Experimental | 20 adults aged above 18 years which were hospitalized in Tel Aviv medical center between January 2013 and June 2015 due to drug-induced long QT syndrome and the associated torsades de pointes, have no exclusion criteria and provide informed consent to participate in the study. Interventions. Participating individuals will be instructed to rest supine for 10 minutes while repeat electrocardiograms are recorded. They will then be instructed to stand up quickly and remain standing still for 10 minutes. Individuals with inability to stand up quickly will be tested with tilt table test used in our hospital |
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| control | Active Comparator | 20 adults aged above 18 years which were hospitalized in Tel Aviv medical center between January 2013 and June 2015 and were treated with specific drugs (antibiotics) that potentially prolong the QT interval but they do not have drug-induced long QT syndrome, have no exclusion criteria and provide informed consent to participate in the study. Interventions. Participating individuals will be instructed to rest supine for 10 minutes while repeat electrocardiograms are recorded. They will then be instructed to stand up quickly and remain standing still for 10 minutes. Individuals with inability to stand up quickly will be tested with tilt table test used in our hospital |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| tilt table | Device | Participating individuals will be instructed to rest supine for 10 minutes while repeat electrocardiograms are recorded. They will then be instructed to stand up quickly and remain standing still for 10 minutes. Individuals with inability to stand up quickly will be tested with tilt table test used in our hospital |
| Measure | Description | Time Frame |
|---|---|---|
| ECG measurements of QT before and during stand up test | ECG measurements of QT and RR before and during stand up test. measured in msec units | 12 months |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Udi Chorin, MD | Tel Aviv MC | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Sourasky medical center (Ichilov) | Tel Aviv | Israel |
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| ID | Term |
|---|---|
| D008133 | Long QT Syndrome |
| ID | Term |
|---|---|
| D001145 | Arrhythmias, Cardiac |
| D006331 | Heart Diseases |
| D002318 | Cardiovascular Diseases |
| D000075224 | Cardiac Conduction System Disease |
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| ID | Term |
|---|---|
| D018667 | Tilt-Table Test |
| ID | Term |
|---|---|
| D003935 | Diagnostic Techniques, Cardiovascular |
| D019937 | Diagnostic Techniques and Procedures |
| D003933 | Diagnosis |
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|
| D006330 | Heart Defects, Congenital |
| D018376 | Cardiovascular Abnormalities |
| D000013 | Congenital Abnormalities |
| D009358 | Congenital, Hereditary, and Neonatal Diseases and Abnormalities |
| D010335 | Pathologic Processes |
| D013568 | Pathological Conditions, Signs and Symptoms |