Reduction of Ischemic Myocardium With Ranolazine-Treatment in Patients With Acute Myocardial Ischemia
NCT ID: NCT01797484
Last Updated: 2018-01-12
Study Results
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View full resultsBasic Information
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Recruitment Status
COMPLETED
Clinical Phase
PHASE2/PHASE3
Total Enrollment
20 participants
Study Classification
INTERVENTIONAL
Study Start Date
2013-08-31
Study Completion Date
2015-06-30
Brief Summary
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The aim of the RIMINI-Trial is to examine the effect of Ranolazine on ischemic myocardium in acute myocardial ischemia.
A pilot-trial by Venkatamaran et al. recently demonstrated, that the area of ischemic myocardium in patients with stable coronary artery disease can be reduced by Ranolazine-treatment2. This effect was shown by significantly reduced areas of atypical or dysfunctional myocardium in SPECT-examinations.
The dimension of myocardial damage (i.e. area of ischemic myocardium) is directly related to the rate of complications (i.e. left-ventricular pump failure, malignant arrhythmia) and the grade of Rehabilitation to daily life (i.e. persistent reduced left-ventricular ejection fraction).
In patients with stable angina pectoris, Ranolazine is used with beneficial results1. Ranolazine improves diastolic blood flow and therefore microcirculation in the myocardium by reducing diastolic tension (via inhibiting late Na+-Influx and consecutive Ca2+-Overload).
Recently published data2 showed that treatment with Ranolazine significantly reduces the ischemic area in chronic damaged myocardium. This is due the effect of improved microcirculation in hibernating myocardium.
Early administration of Ranolazine and improvement of microcirculation in patients with acute damaged myocardium (i.e. directly after acute ischemia) should lead to a recruitment and re-uptake of cardiac activity of hibernating myocardium.
For the RIMINI-Trial patients are given Ranolazine on top of the guideline-based treatment to reduce the area of acute ischemic myocardium.
Patients with unstable angina pectoris and proof of acute cardiac ischemia, proof of myocardial dyskinesia and angina pectoris in the patient history will receive unaltered guideline-based therapy for acute cardiac ischemia5,6. All necessary procedures will be performed to stabilize patients to a hemodynamically compensated state and patients are then transferred to receive cardiac catheterization (angiography and angioplasty if necessary).
After patients are stabilized Ranolazine will be given additionally to guideline based medication.
The measurement of the ischemic myocardial area will be done via three functional echocardiographies with speckle tracking technique10.
A statistical evaluation of ischemic myocardial area before and after treatment with Ranolazine/Placebo will be done after conclusion of the RIMINI-Trial to show the effect of Ranolazine in acute myocardial ischemia.
A pilot-trial by Venkatamaran et al. recently demonstrated, that the area of ischemic myocardium in patients with stable coronary artery disease can be reduced by Ranolazine-treatment2. This effect was shown by significantly reduced areas of atypical or dysfunctional myocardium in SPECT-examinations.
The dimension of myocardial damage (i.e. area of ischemic myocardium) is directly related to the rate of complications (i.e. left-ventricular pump failure, malignant arrhythmia) and the grade of Rehabilitation to daily life (i.e. persistent reduced left-ventricular ejection fraction).
In patients with stable angina pectoris, Ranolazine is used with beneficial results1. Ranolazine improves diastolic blood flow and therefore microcirculation in the myocardium by reducing diastolic tension (via inhibiting late Na+-Influx and consecutive Ca2+-Overload).
Recently published data2 showed that treatment with Ranolazine significantly reduces the ischemic area in chronic damaged myocardium. This is due the effect of improved microcirculation in hibernating myocardium.
Early administration of Ranolazine and improvement of microcirculation in patients with acute damaged myocardium (i.e. directly after acute ischemia) should lead to a recruitment and re-uptake of cardiac activity of hibernating myocardium.
For the RIMINI-Trial patients are given Ranolazine on top of the guideline-based treatment to reduce the area of acute ischemic myocardium.
Patients with unstable angina pectoris and proof of acute cardiac ischemia, proof of myocardial dyskinesia and angina pectoris in the patient history will receive unaltered guideline-based therapy for acute cardiac ischemia5,6. All necessary procedures will be performed to stabilize patients to a hemodynamically compensated state and patients are then transferred to receive cardiac catheterization (angiography and angioplasty if necessary).
After patients are stabilized Ranolazine will be given additionally to guideline based medication.
The measurement of the ischemic myocardial area will be done via three functional echocardiographies with speckle tracking technique10.
A statistical evaluation of ischemic myocardial area before and after treatment with Ranolazine/Placebo will be done after conclusion of the RIMINI-Trial to show the effect of Ranolazine in acute myocardial ischemia.
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Detailed Description
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The aim of the RIMINI-Trial is to examine the effect of Ranolazine on ischemic myocardium in acute myocardial ischemia.
A pilot-trial by Venkatamaran et al. recently demonstrated, that the area of ischemic myocardium in patients with stable coronary artery disease can be reduced by Ranolazine-treatment2. This effect was shown by significantly reduced areas of atypical or dysfunctional myocardium in SPECT-examinations.
The dimension of myocardial damage (i.e. area of ischemic myocardium) is directly related to:
1. Rate of complications (i.e. left-ventricular pump failure, malignant arrhythmia)
2. Grade of Rehabilitation to daily life (i.e. persistent reduced left-ventricular ejection fraction)
Early angioplasty and coronary medication are key factors for preventing complications and ensuring sufficient rehabilitation. This is done to reduce the ischemic area as best as possible.
In patients with stable angina pectoris, Ranolazine is used with beneficial results1. Ranolazine improves diastolic blood flow and therefore microcirculation in the myocardium by reducing diastolic tension (via inhibiting late Na+-Influx and consecutive Ca2+-Overload).
Recently published data2 showed that treatment with Ranolazine significantly reduces the ischemic area in chronic damaged myocardium. This is due the effect of improved microcirculation in hibernating myocardium.
Early administration of Ranolazine and improvement of microcirculation in patients with acute damaged myocardium (i.e. directly after acute ischemia) should lead to a recruitment and re-uptake of cardiac activity of hibernating myocardium.
For the RIMINI-Trial patients are given Ranolazine on top of the guideline-based treatment to reduce the area of acute ischemic myocardium.
Patients with unstable angina pectoris and proof of acute cardiac ischemia (Serum levels of Troponin-T-hs \>14 pg/ml), proof of myocardial dyskinesia and angina pectoris \>/=CCS II (Canadian Cardiovascular Society Classification of Angina Pectoris) in the patient history will receive unaltered guideline-based therapy for acute cardiac ischemia5,6. All necessary procedures will be performed to stabilize patients to a hemodynamically compensated state (normalized levels of blood pressure, heart rate, absent malignant arrhythmia, dyspnoea and angina-like symptoms), and patients are then transferred to receive cardiac catheterization (angiography and angioplasty if necessary).
After patients are stabilized (i.e. via angioplasty, medical treatment) Ranolazine will be given additionally to guideline-based medication (Beta-Blocker, ACE-Inhibitor or AT1-Inhibitor, ASS, Clopidogrel, Statins).
The measurement of the ischemic myocardial area will be done via three functional echocardiographies with speckle tracking technique10 (speckle -tracking echocardiography, SPE):
1. The first speckle tracking for screening and will be done directly with patients presenting in the emergency room.
2. After stabilization and coronary angiography or -plasty and before the first dose of Ranolazine is given, the second speckle tracking will be done for baseline.
3. After 42 days of Ranolazine-treatment the third and final speckle tracking echocardiography will be done.
A statistical evaluation of ischemic myocardial area before and after treatment with Ranolazine/Placebo will be done after conclusion of the RIMINI-Trial to show the effect of Ranolazine in acute myocardial ischemia.
For controlling and comparing the effect, the RIMINI-Trial will be single-blinded and compared to a group of patients not treated with Ranolazine. Participants will be randomized to the treatment-group or the no-treatment-group using a computer based randomization-method.
A pilot-trial by Venkatamaran et al. recently demonstrated, that the area of ischemic myocardium in patients with stable coronary artery disease can be reduced by Ranolazine-treatment2. This effect was shown by significantly reduced areas of atypical or dysfunctional myocardium in SPECT-examinations.
The dimension of myocardial damage (i.e. area of ischemic myocardium) is directly related to:
1. Rate of complications (i.e. left-ventricular pump failure, malignant arrhythmia)
2. Grade of Rehabilitation to daily life (i.e. persistent reduced left-ventricular ejection fraction)
Early angioplasty and coronary medication are key factors for preventing complications and ensuring sufficient rehabilitation. This is done to reduce the ischemic area as best as possible.
In patients with stable angina pectoris, Ranolazine is used with beneficial results1. Ranolazine improves diastolic blood flow and therefore microcirculation in the myocardium by reducing diastolic tension (via inhibiting late Na+-Influx and consecutive Ca2+-Overload).
Recently published data2 showed that treatment with Ranolazine significantly reduces the ischemic area in chronic damaged myocardium. This is due the effect of improved microcirculation in hibernating myocardium.
Early administration of Ranolazine and improvement of microcirculation in patients with acute damaged myocardium (i.e. directly after acute ischemia) should lead to a recruitment and re-uptake of cardiac activity of hibernating myocardium.
For the RIMINI-Trial patients are given Ranolazine on top of the guideline-based treatment to reduce the area of acute ischemic myocardium.
Patients with unstable angina pectoris and proof of acute cardiac ischemia (Serum levels of Troponin-T-hs \>14 pg/ml), proof of myocardial dyskinesia and angina pectoris \>/=CCS II (Canadian Cardiovascular Society Classification of Angina Pectoris) in the patient history will receive unaltered guideline-based therapy for acute cardiac ischemia5,6. All necessary procedures will be performed to stabilize patients to a hemodynamically compensated state (normalized levels of blood pressure, heart rate, absent malignant arrhythmia, dyspnoea and angina-like symptoms), and patients are then transferred to receive cardiac catheterization (angiography and angioplasty if necessary).
After patients are stabilized (i.e. via angioplasty, medical treatment) Ranolazine will be given additionally to guideline-based medication (Beta-Blocker, ACE-Inhibitor or AT1-Inhibitor, ASS, Clopidogrel, Statins).
The measurement of the ischemic myocardial area will be done via three functional echocardiographies with speckle tracking technique10 (speckle -tracking echocardiography, SPE):
1. The first speckle tracking for screening and will be done directly with patients presenting in the emergency room.
2. After stabilization and coronary angiography or -plasty and before the first dose of Ranolazine is given, the second speckle tracking will be done for baseline.
3. After 42 days of Ranolazine-treatment the third and final speckle tracking echocardiography will be done.
A statistical evaluation of ischemic myocardial area before and after treatment with Ranolazine/Placebo will be done after conclusion of the RIMINI-Trial to show the effect of Ranolazine in acute myocardial ischemia.
For controlling and comparing the effect, the RIMINI-Trial will be single-blinded and compared to a group of patients not treated with Ranolazine. Participants will be randomized to the treatment-group or the no-treatment-group using a computer based randomization-method.
Conditions
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Coronary Artery Disease
Acute Myocardial Ischemia
Study Design
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Allocation Method
RANDOMIZED
Intervention Model
PARALLEL
Primary Study Purpose
TREATMENT
Blinding Strategy
SINGLE
Outcome Assessors
Study Groups
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Ranolazine
Ranolazine 500mg bid orally 7 days Ranolazine 750mg bid orally 35 days
Group Type
ACTIVE_COMPARATOR
Ranolazine
Intervention Type
DRUG
Improvement of myocardial microcirculation
No additional medication
No additional medication - control group
Group Type
NO_INTERVENTION
No interventions assigned to this group
Interventions
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Ranolazine
Improvement of myocardial microcirculation
Intervention Type
DRUG
Other Intervention Names
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Ranexa
Eligibility Criteria
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Inclusion Criteria
* Proof of acute cardiac ischemia by elevated serum Troponin T-hs levels \> 14 pg/nl
* Proof of myocardial dyskinesia with functional echocardiography ("speckle tracking")
* Stable angina pectoris \>/= CCS II in patient history
* Stabilized (i.e. normalized vital parameters) patients after coronary angioplasty or angiography
* Coronary angioplasty or angiography not older than 24 hours
* Written informed consent
* Established standard therapy for coronary artery disease (i.e. Beta-Blocker, ACE-Inhibitor or AT1-Inhibitor, ASS, Clopidogrel, Statins)
* Proof of myocardial dyskinesia with functional echocardiography ("speckle tracking")
* Stable angina pectoris \>/= CCS II in patient history
* Stabilized (i.e. normalized vital parameters) patients after coronary angioplasty or angiography
* Coronary angioplasty or angiography not older than 24 hours
* Written informed consent
* Established standard therapy for coronary artery disease (i.e. Beta-Blocker, ACE-Inhibitor or AT1-Inhibitor, ASS, Clopidogrel, Statins)
Exclusion Criteria
* Patients younger than 18 years of age
* Acute cardio-pulmonary decompensation
* Middle and high grade liver insufficiency (Child-Pugh Score B and C)
* High grade renal insufficiency (Creatinine-Clearance \< 30 ml/min)
* Concomitant treatment with potent inhibitors of CYP3A4
* Concomitant administration of class Ia (e.g. quinidine) or class III (e.g. dofetilide, sotalol) antiarrhythmics, except for amiodarone
* Concomitant administration of \> 20 mg simvastatin/day
* Patients with heart failure classification NYHA III and NYHA IV
* Homeless patients and drug-addicted patients
* Pregnant and/or breast-feeding women
* Treatment with Ranolazine prior to enrolment in RIMINI-Trial
* Allergy against Ranolazine
* Acute cardio-pulmonary decompensation
* Middle and high grade liver insufficiency (Child-Pugh Score B and C)
* High grade renal insufficiency (Creatinine-Clearance \< 30 ml/min)
* Concomitant treatment with potent inhibitors of CYP3A4
* Concomitant administration of class Ia (e.g. quinidine) or class III (e.g. dofetilide, sotalol) antiarrhythmics, except for amiodarone
* Concomitant administration of \> 20 mg simvastatin/day
* Patients with heart failure classification NYHA III and NYHA IV
* Homeless patients and drug-addicted patients
* Pregnant and/or breast-feeding women
* Treatment with Ranolazine prior to enrolment in RIMINI-Trial
* Allergy against Ranolazine
Minimum Eligible Age
18 Years
Eligible Sex
ALL
Accepts Healthy Volunteers
No
Sponsors
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Universitätsklinikum Hamburg-Eppendorf
OTHER
Sponsor Role
lead
Responsible Party
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Tjark Frederik Schwemer
Dr. med.
Responsibility Role
PRINCIPAL_INVESTIGATOR
Principal Investigators
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Stefan Blankenberg, Prof. Dr.
Role: PRINCIPAL_INVESTIGATOR
Director of University Heart Center Hamburg Eppendorf
Locations
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University Heart Center Hamburg Eppendorf
Hamburg, , Germany
Site Status
Countries
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Germany
References
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Morrow DA, Scirica BM, Karwatowska-Prokopczuk E, Murphy SA, Budaj A, Varshavsky S, Wolff AA, Skene A, McCabe CH, Braunwald E; MERLIN-TIMI 36 Trial Investigators. Effects of ranolazine on recurrent cardiovascular events in patients with non-ST-elevation acute coronary syndromes: the MERLIN-TIMI 36 randomized trial. JAMA. 2007 Apr 25;297(16):1775-83. doi: 10.1001/jama.297.16.1775.
Reference Type
BACKGROUND
Venkataraman R, Belardinelli L, Blackburn B, Heo J, Iskandrian AE. A study of the effects of ranolazine using automated quantitative analysis of serial myocardial perfusion images. JACC Cardiovasc Imaging. 2009 Nov;2(11):1301-9. doi: 10.1016/j.jcmg.2009.09.006.
Reference Type
BACKGROUND
El-Kadri M, Sharaf-Dabbagh H, Ramsdale D. Role of antiischemic agents in the management of non-ST elevation acute coronary syndrome (NSTE-ACS). Cardiovasc Ther. 2012 Feb;30(1):e16-22. doi: 10.1111/j.1755-5922.2010.00225.x. Epub 2010 Sep 15.
Reference Type
BACKGROUND
Van de Werf F, Bax J, Betriu A, Blomstrom-Lundqvist C, Crea F, Falk V, Filippatos G, Fox K, Huber K, Kastrati A, Rosengren A, Steg PG, Tubaro M, Verheugt F, Weidinger F, Weis M; ESC Committee for Practice Guidelines (CPG). Management of acute myocardial infarction in patients presenting with persistent ST-segment elevation: the Task Force on the Management of ST-Segment Elevation Acute Myocardial Infarction of the European Society of Cardiology. Eur Heart J. 2008 Dec;29(23):2909-45. doi: 10.1093/eurheartj/ehn416. Epub 2008 Nov 12. No abstract available.
Reference Type
BACKGROUND
Task Force for Diagnosis and Treatment of Non-ST-Segment Elevation Acute Coronary Syndromes of European Society of Cardiology; Bassand JP, Hamm CW, Ardissino D, Boersma E, Budaj A, Fernandez-Aviles F, Fox KA, Hasdai D, Ohman EM, Wallentin L, Wijns W. Guidelines for the diagnosis and treatment of non-ST-segment elevation acute coronary syndromes. Eur Heart J. 2007 Jul;28(13):1598-660. doi: 10.1093/eurheartj/ehm161. Epub 2007 Jun 14. No abstract available.
Reference Type
BACKGROUND
Andersen GO, Knudsen EC, Aukrust P, Yndestad A, Oie E, Muller C, Seljeflot I, Ueland T. Elevated serum osteoprotegerin levels measured early after acute ST-elevation myocardial infarction predict final infarct size. Heart. 2011 Mar;97(6):460-5. doi: 10.1136/hrt.2010.206714. Epub 2011 Jan 26.
Reference Type
BACKGROUND
Lunde K, Solheim S, Aakhus S, Arnesen H, Abdelnoor M, Egeland T, Endresen K, Ilebekk A, Mangschau A, Fjeld JG, Smith HJ, Taraldsrud E, Grogaard HK, Bjornerheim R, Brekke M, Muller C, Hopp E, Ragnarsson A, Brinchmann JE, Forfang K. Intracoronary injection of mononuclear bone marrow cells in acute myocardial infarction. N Engl J Med. 2006 Sep 21;355(12):1199-209. doi: 10.1056/NEJMoa055706.
Reference Type
BACKGROUND
Miller TD, Gibbons RJ. Measuring myocardium at risk in acute myocardial infarction--a continuing challenge. J Nucl Cardiol. 2010 Oct;17(5):778-80. doi: 10.1007/s12350-010-9278-3. No abstract available.
Reference Type
BACKGROUND
Geyer H, Caracciolo G, Abe H, Wilansky S, Carerj S, Gentile F, Nesser HJ, Khandheria B, Narula J, Sengupta PP. Assessment of myocardial mechanics using speckle tracking echocardiography: fundamentals and clinical applications. J Am Soc Echocardiogr. 2010 Apr;23(4):351-69; quiz 453-5. doi: 10.1016/j.echo.2010.02.015.
Reference Type
BACKGROUND
Schwemer TF, Radziwolek L, Deutscher N, Diermann N, Sehner S, Blankenberg S, Friedrich FW. Effect of Ranolazine on Ischemic Myocardium IN Patients With Acute Cardiac Ischemia (RIMINI-Trial): A Randomized Controlled Pilot Trial. J Cardiovasc Pharmacol Ther. 2019 Jan;24(1):62-69. doi: 10.1177/1074248418784290. Epub 2018 Jun 24.
Reference Type
DERIVED
Related Links
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http://www.uhz.de
University Heart Center Hamburg Eppendorf
Other Identifiers
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UHZ-KARD-01-2013
Identifier Type: -
Identifier Source: org_study_id
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