Study Results
Results pending
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
Get a concise snapshot of the trial, including recruitment status, study phase, enrollment targets, and key timeline milestones.
Recruitment Status
UNKNOWN
Total Enrollment
1500 participants
Study Classification
OBSERVATIONAL
Study Start Date
2018-09-26
Study Completion Date
2019-06-23
Brief Summary
Review the sponsor-provided synopsis that highlights what the study is about and why it is being conducted.
Overall Aim Coronary artery disease significantly contributes to morbidity and mortality in the United States. Atherosclerotic disease can lead to stenosis of the coronary arteries and subsequent cardiac hypoperfusion. Patients with a critical stenosis of the LAD, potentially leading to acute anterior wall myocardial infarction, may be asymptomatic at presentation with subtle EKG changes as its only manifestation. It is imperative for physicians to recognize patients with new T wave inversions in leads V2-V3 as the standard course of management may lead to poor prognosis.
The purpose of this study is to determine if collateral circulation to the left anterior descending (LAD) artery will mask the presence of a Wellens sign and therefore diminish its diagnostic utility. The conclusion of this study would raise awareness for physicians in light of an absent Wellens sign.
Hypothesis The presence of coronary collateral circulation to the LAD masks the presence of a Wellens sign (both Type 1 and Type 2) in precordial leads V2-V4.
The purpose of this study is to determine if collateral circulation to the left anterior descending (LAD) artery will mask the presence of a Wellens sign and therefore diminish its diagnostic utility. The conclusion of this study would raise awareness for physicians in light of an absent Wellens sign.
Hypothesis The presence of coronary collateral circulation to the LAD masks the presence of a Wellens sign (both Type 1 and Type 2) in precordial leads V2-V4.
Related Clinical Trials
Explore similar clinical trials based on study characteristics and research focus.
A Single Center Diagnostic, Cross-sectional Study of Coronary Microvascular Dysfunction
NCT03537586
Coronary Microvascular Disease
Ischemic Heart Disease
Myocardial Ischemia
ACTIVE_NOT_RECRUITING
NA
Early Detection of Cardiovascular Disease
NCT03466255
Atheroma
Cardiac Disease
Vascular Diseases
+3 more
COMPLETED
Diagnosis and Characterization of Coronary Artery Stenosis by Doppler Ultrasound
NCT00521326
Coronary Stenosis
UNKNOWN
Clinical Evaluation of the CADenceTM System in Detection of Coronary Artery Diseases
NCT01584622
Coronary Artery Disease
WITHDRAWN
NA
Diagnostic Utility of Contrast Echocardiography for Detection of LV Thrombi Post ST Elevation Myocardial Infarction
NCT00539045
Thrombus
Myocardial Infarction
COMPLETED
Detailed Description
Dive into the extended narrative that explains the scientific background, objectives, and procedures in greater depth.
Introduction Electrocardiograms are an inexpensive and indispensible tool to assess cardiac rhythm and ischemia. A Wellens sign on an EKG is either a deeply inverted (Type 1) or biphasic (Type 2) t-wave in precordial leads V2-V3 (but may extend to other precordial leads). It is associated with critical stenosis of the proximal left anterior descending (LAD) artery. Patients with a Wellens sign are at high risk for extensive anterior wall myocardial infarction as the LAD is the main coronary artery that supplies the left ventricle. Exercise stress testing is contraindicated in this patient population. In addition, appropriate management of these patients is crucial to avoid acute myocardial infarction.
There have been a number of studies addressing the role of collateral coronary circulation in myocardial infarctions. Some studies show that the presence of collateral circulation is associated with improved in-hospital outcomes in patients following a ST-elevation myocardial infarction (STEMI) whereas others show that collateral circulation does not decrease morbidity and mortality in patients following acute STEMI. Similarly, patients with collateral circulation may have normal EKGs and be asymptomatic at rest but are symptomatic with corresponding abnormal EKG findings during periods of increased cardiac demand.
Patients with a critically stenosed LAD may be asymptomatic and have normal to minimally elevated cardiac enzymes at the time of presentation with at rest abnormal EKG findings being the sole clue to the patient's gravity. While some studies have shown collateral coronary circulation lead to normal EKGs, there is limited research addressing whether or not collateral circulation affects the presence of a Wellens sign. As a result, its diagnostic utility is questionable.
Overall Aim Coronary artery disease significantly contributes to morbidity and mortality in the United States. Atherosclerotic disease can lead to stenosis of the coronary arteries and subsequent cardiac hypoperfusion. Patients with a critical stenosis of the LAD, potentially leading to acute anterior wall myocardial infarction, may be asymptomatic at presentation with subtle EKG changes as its only manifestation. It is imperative for physicians to recognize patients with new T wave inversions in leads V2-V3 as the standard course of management may lead to poor prognosis.
The purpose of this study is to determine if collateral circulation to the left anterior descending (LAD) artery will mask the presence of a Wellens sign and therefore diminish its diagnostic utility. The conclusion of this study would raise awareness for physicians in light of an absent Wellens sign.
Study Objectives
To identify if coronary collateral circulation masks the presence of a Wellens sign by:
Evaluating catheterization reports Examining for the presence of coronary collateral circulation Examining EKGs for presence of deeply inverted t-waves in precordial leads Examining EKGs for presence of biphasic t-waves in precordial leads Correlating the presence/absence of coronary collateral circulation with EKG findings
Hypothesis:
The presence of coronary collateral circulation to the LAD masks the presence of a Wellens sign (both Type 1 and Type 2) in precordial leads V2-V4.
Study Design This study will be a retrospective chart review of patients who received cardiac catheterization and had LAD and/or Left Main lesions between the years 2000-2016 at Coney Island Hospital. Catheterization imaging and reports will be reviewed for collateral circulation. Subsequent pre-catheterization electrocardiograms, dated up to 1 year prior to cardiac catheterization, will be reviewed for the presence or absence of symmetrical deep (≥2 mV) t-wave inversion (type 1) or biphasic t-wave (type 2) Wellens sign in precordial leads. EKGs will be accessed either electronically or physically. All data will be de-identified and coded to maintain patient confidentiality.
What and how will you measure or collect data to test your hypothesis (or study objectives)? A retrospective chart review of cardiac catheterizations will be employed to assess the presence of coronary collateral circulation. Grading of coronary collateral circulation will be divided into four categories (0=no filling, 1=filling of side branches only, 2=partial filling of epicardial segments, 3=complete filling of epicardial segments). In addition, pre-catheterization EKGs will be analyzed for a.) the presence or absence of deeply inverted t-waves (type 1) or biphasic t-waves (type 2) and b.) the amplitude (mV) of each corresponding Wellens sign. Demographic data including medical record number, age, gender, and known risk factors, including but not limited to diabetes, smoking, drinking, previous myocardial infarction, hyperlipidemia, and hypertension, will be recorded for data analysis.
Describe where the research data will reside and who will have access to hold or maintain the data? Research data will be collected and recorded on a password protected Microsoft Excel Spreadsheet. Excel file will be saved on Coney Island Hospital servers. Computers are password protected and every effort will be made to ensure safekeeping of the aforementioned Excel file. File will be stored for a maximum of three years and will be permanantly eliminated following the conclusion and publication of proposed study.
Data will be managed by Dr. Ida Hui Suen and Dr. George Juang. Data will not be released to other collaborators. De-identified data will be forwarded to central office for assistance with statistical analysis if needed.
Describe the methods that will be used to destroy data and/or specimens at the end of the research study life cycle.
Efforts will be made to ensure that all files are deleted from Coney Island Servers. No specimens will be collected.
Data Analysis Statistical analysis will be performed with the assistance of Brian Altonen of New York Health and Hospital Corporation's Central Office. Chi Square, ANOVA, and multiple logistic regression analyses will be applied.
Sample Size Approximately 6,000 patients received cardiac catheterizations at Coney Island Hospital between 2003-2016. Approximately 30% will have LAD lesions (N=1800); of which approximately 20% will have a Wellens sign (N=360).
Variables Age, Nominal Sex, Categorical (1=M, 2=F) Date of Catheterization Location of Lesion, Categorical (1=LAD Proximal, 2=LAD Mid, 3=LAD Distal, 4=Left Main) Collaterals present, Categorical (0=N, 1=Y) Grading of Collaterals, Categorical (0=none, 1= filling of side branches, 2=partial filling of epicardial segment, 3=complete filling of epicardial segment) Date of pre-cath EKG Wellens Sign Present, Categorical (1=Y, 2=N) Type of Wellens Sign, Categorical (1=Type 1, 2=Type 2)
There have been a number of studies addressing the role of collateral coronary circulation in myocardial infarctions. Some studies show that the presence of collateral circulation is associated with improved in-hospital outcomes in patients following a ST-elevation myocardial infarction (STEMI) whereas others show that collateral circulation does not decrease morbidity and mortality in patients following acute STEMI. Similarly, patients with collateral circulation may have normal EKGs and be asymptomatic at rest but are symptomatic with corresponding abnormal EKG findings during periods of increased cardiac demand.
Patients with a critically stenosed LAD may be asymptomatic and have normal to minimally elevated cardiac enzymes at the time of presentation with at rest abnormal EKG findings being the sole clue to the patient's gravity. While some studies have shown collateral coronary circulation lead to normal EKGs, there is limited research addressing whether or not collateral circulation affects the presence of a Wellens sign. As a result, its diagnostic utility is questionable.
Overall Aim Coronary artery disease significantly contributes to morbidity and mortality in the United States. Atherosclerotic disease can lead to stenosis of the coronary arteries and subsequent cardiac hypoperfusion. Patients with a critical stenosis of the LAD, potentially leading to acute anterior wall myocardial infarction, may be asymptomatic at presentation with subtle EKG changes as its only manifestation. It is imperative for physicians to recognize patients with new T wave inversions in leads V2-V3 as the standard course of management may lead to poor prognosis.
The purpose of this study is to determine if collateral circulation to the left anterior descending (LAD) artery will mask the presence of a Wellens sign and therefore diminish its diagnostic utility. The conclusion of this study would raise awareness for physicians in light of an absent Wellens sign.
Study Objectives
To identify if coronary collateral circulation masks the presence of a Wellens sign by:
Evaluating catheterization reports Examining for the presence of coronary collateral circulation Examining EKGs for presence of deeply inverted t-waves in precordial leads Examining EKGs for presence of biphasic t-waves in precordial leads Correlating the presence/absence of coronary collateral circulation with EKG findings
Hypothesis:
The presence of coronary collateral circulation to the LAD masks the presence of a Wellens sign (both Type 1 and Type 2) in precordial leads V2-V4.
Study Design This study will be a retrospective chart review of patients who received cardiac catheterization and had LAD and/or Left Main lesions between the years 2000-2016 at Coney Island Hospital. Catheterization imaging and reports will be reviewed for collateral circulation. Subsequent pre-catheterization electrocardiograms, dated up to 1 year prior to cardiac catheterization, will be reviewed for the presence or absence of symmetrical deep (≥2 mV) t-wave inversion (type 1) or biphasic t-wave (type 2) Wellens sign in precordial leads. EKGs will be accessed either electronically or physically. All data will be de-identified and coded to maintain patient confidentiality.
What and how will you measure or collect data to test your hypothesis (or study objectives)? A retrospective chart review of cardiac catheterizations will be employed to assess the presence of coronary collateral circulation. Grading of coronary collateral circulation will be divided into four categories (0=no filling, 1=filling of side branches only, 2=partial filling of epicardial segments, 3=complete filling of epicardial segments). In addition, pre-catheterization EKGs will be analyzed for a.) the presence or absence of deeply inverted t-waves (type 1) or biphasic t-waves (type 2) and b.) the amplitude (mV) of each corresponding Wellens sign. Demographic data including medical record number, age, gender, and known risk factors, including but not limited to diabetes, smoking, drinking, previous myocardial infarction, hyperlipidemia, and hypertension, will be recorded for data analysis.
Describe where the research data will reside and who will have access to hold or maintain the data? Research data will be collected and recorded on a password protected Microsoft Excel Spreadsheet. Excel file will be saved on Coney Island Hospital servers. Computers are password protected and every effort will be made to ensure safekeeping of the aforementioned Excel file. File will be stored for a maximum of three years and will be permanantly eliminated following the conclusion and publication of proposed study.
Data will be managed by Dr. Ida Hui Suen and Dr. George Juang. Data will not be released to other collaborators. De-identified data will be forwarded to central office for assistance with statistical analysis if needed.
Describe the methods that will be used to destroy data and/or specimens at the end of the research study life cycle.
Efforts will be made to ensure that all files are deleted from Coney Island Servers. No specimens will be collected.
Data Analysis Statistical analysis will be performed with the assistance of Brian Altonen of New York Health and Hospital Corporation's Central Office. Chi Square, ANOVA, and multiple logistic regression analyses will be applied.
Sample Size Approximately 6,000 patients received cardiac catheterizations at Coney Island Hospital between 2003-2016. Approximately 30% will have LAD lesions (N=1800); of which approximately 20% will have a Wellens sign (N=360).
Variables Age, Nominal Sex, Categorical (1=M, 2=F) Date of Catheterization Location of Lesion, Categorical (1=LAD Proximal, 2=LAD Mid, 3=LAD Distal, 4=Left Main) Collaterals present, Categorical (0=N, 1=Y) Grading of Collaterals, Categorical (0=none, 1= filling of side branches, 2=partial filling of epicardial segment, 3=complete filling of epicardial segment) Date of pre-cath EKG Wellens Sign Present, Categorical (1=Y, 2=N) Type of Wellens Sign, Categorical (1=Type 1, 2=Type 2)
Conditions
See the medical conditions and disease areas that this research is targeting or investigating.
Coronary Artery Disease
Acute Myocardial Infarction
Acute Myocardial Infarction of Anterior Wall
Collateral Circulation, Any Site
Study Design
Understand how the trial is structured, including allocation methods, masking strategies, primary purpose, and other design elements.
Observational Model Type
COHORT
Study Time Perspective
RETROSPECTIVE
Study Groups
Review each arm or cohort in the study, along with the interventions and objectives associated with them.
LAD with collaterals with and without wellens sign
Wellens Sign
Intervention Type
OTHER
presence or absence in presence of coronary collaterals to LAD
Interventions
Learn about the drugs, procedures, or behavioral strategies being tested and how they are applied within this trial.
Wellens Sign
presence or absence in presence of coronary collaterals to LAD
Intervention Type
OTHER
Eligibility Criteria
Check the participation requirements, including inclusion and exclusion rules, age limits, and whether healthy volunteers are accepted.
Inclusion Criteria
All patients receiving cardiac catheterization between 2003-2016 at Coney Island Hospital with LAD lesions and pre-catheterization electrocardiograms.
Exclusion Criteria
None
Minimum Eligible Age
18 Years
Maximum Eligible Age
89 Years
Eligible Sex
ALL
Accepts Healthy Volunteers
No
Sponsors
Meet the organizations funding or collaborating on the study and learn about their roles.
Coney Island Hospital, Brooklyn, NY
OTHER
Sponsor Role
lead
Responsible Party
Identify the individual or organization who holds primary responsibility for the study information submitted to regulators.
George Juang
Primary Investigator
Responsibility Role
PRINCIPAL_INVESTIGATOR
Principal Investigators
Learn about the lead researchers overseeing the trial and their institutional affiliations.
George Juang, MD
Role: PRINCIPAL_INVESTIGATOR
Coney Island Hospital
Locations
Explore where the study is taking place and check the recruitment status at each participating site.
Coney Island Hospital
Brooklyn, New York, United States
Site Status
RECRUITING
Countries
Review the countries where the study has at least one active or historical site.
United States
Central Contacts
Reach out to these primary contacts for questions about participation or study logistics.
George Juang, MD
Role: CONTACT
Facility Contacts
Find local site contact details for specific facilities participating in the trial.
References
Explore related publications, articles, or registry entries linked to this study.
de Zwaan C, Bar FW, Wellens HJ. Characteristic electrocardiographic pattern indicating a critical stenosis high in left anterior descending coronary artery in patients admitted because of impending myocardial infarction. Am Heart J. 1982 Apr;103(4 Pt 2):730-6. doi: 10.1016/0002-8703(82)90480-x.
Reference Type
BACKGROUND
Haines DE, Raabe DS, Gundel WD, Wackers FJ. Anatomic and prognostic significance of new T-wave inversion in unstable angina. Am J Cardiol. 1983 Jul;52(1):14-8. doi: 10.1016/0002-9149(83)90061-9.
Reference Type
BACKGROUND
Yaylak B, Altintas B, Ede H, Baysal E, Akyuz S, Bilge O, Sevuk U, Erdogan G, Ciftci H. Impact of Coronary Collateral Circulation on In-Hospital Death in Patients with Inferior ST Elevation Myocardial Infarction. Cardiol Res Pract. 2015;2015:242686. doi: 10.1155/2015/242686. Epub 2015 Nov 25.
Reference Type
BACKGROUND
Gohlke H, Heim E, Roskamm H. Prognostic importance of collateral flow and residual coronary stenosis of the myocardial infarct artery after anterior wall Q-wave acute myocardial infarction. Am J Cardiol. 1991 Jun 1;67(15):1165-9. doi: 10.1016/0002-9149(91)90920-g.
Reference Type
BACKGROUND
Freedman SB, Dunn RF, Bernstein L, Morris J, Kelly DT. Influence of coronary collateral blood flow on the development of exertional ischemia and Q wave infarction in patients with severe single-vessel disease. Circulation. 1985 Apr;71(4):681-6. doi: 10.1161/01.cir.71.4.681.
Reference Type
BACKGROUND
Martinez-Rios MA, Da Costa BC, Cecena-Seldner FA, Gensini GG. Normal electrocardiogram in the presence of severe coronary artery sease. Am J Cardiol. 1970 Mar;25(3):320-4. doi: 10.1016/s0002-9149(70)80009-1. No abstract available.
Reference Type
BACKGROUND
Other Identifiers
Review additional registry numbers or institutional identifiers associated with this trial.
18-08-283-378(HHC)
Identifier Type: -
Identifier Source: org_study_id
More Related Trials
Additional clinical trials that may be relevant based on similarity analysis.
Non-invasive Diagnosis of Coronary Microvascular Disease: Pilot Study
NCT06070662
RECRUITING
Association Between Peri-procedural Myocardial Injury and Quantitative Blood Flow Ratio
NCT07110298
COMPLETED
Clinical Presentations Before AMI Onset and Coronary Atherosclerosis
NCT03107624
COMPLETED
Coronary Arteriosclerosis in Patients With Acute Ischemic Stroke
NCT00701818
COMPLETED
Evaluation of Patients With Non-obstructive Coronary Arteries
NCT00823563
RECRUITING
Imaging Modalities in Detection of Coronary Artery Disease in End-stage Renal Disease Patients
NCT00726921
COMPLETED
PRE-DETERMINE Cohort Study
NCT01114269
ACTIVE_NOT_RECRUITING
Improving Echo Measurements in the Diagnosis of Aortic Stenosis
NCT02146755
COMPLETED
Clinical Value of Stress Echocardiography in Moderate Aortic Stenosis
NCT02792452
COMPLETED
Role of Endothelial Biomarkers in Patients With Coronary Artery Disease
NCT03146208
UNKNOWN
Multi-Markers In the Diagnosis of Acute Coronary Syndrome
NCT01134913
COMPLETED
EKG Criteria and Identification of Acute Coronary Occlusion
NCT03863327
UNKNOWN
Detection of Subclinical Atherosclerosis in Asymptomatic Individuals
NCT00862056
COMPLETED
Study of Women With Acute Coronary Syndromes and Nonobstructive Coronary Artery Disease
NCT00798122
ACTIVE_NOT_RECRUITING
NA
Development of a Novel Stress Testing Protocol to Define the Relationship Between Coronary Microvascular Dysfunction and Diastology in Women With Angina But No Evidence of Obstructive Coronary Artery Disease
NCT02301663
RECRUITING
NA
Validation of a Single Rest-Stress Imaging Protocol for Myocardial Perfusion Imaging
NCT03265535
UNKNOWN
Non-invasive Diagnosis of Coronary Artery Stenoses by Doppler Echocardiography
NCT00281346
COMPLETED
NA
Rule Out Myocardial Infarction by Computer Assisted Tomography
NCT00990262
COMPLETED
Comparing PCCT With ICA and IVUS in Detecting Cardiac Allograft Vasculopathy
NCT07020039
NOT_YET_RECRUITING
Coronary Artery Vasculopathy in Pediatric Heart Transplant Patients
NCT03231371
COMPLETED
PHASE3
Dilated Cardiomyopathy Detection Using AI and Screening With Mobile Technology (DCM-DETECT)
NCT06688396
RECRUITING
NA
Differences in Epicardial Plaque and Microvascular Function in Women With an Acute Myocardial Infarction
NCT00587002
COMPLETED
NA
Stress Echocardiography Versus Exercise ECG (ExECG) in Women With Chest Pain
NCT02346565
COMPLETED
NA
Risk Stratification After Acute Myocardial Infarction With Cardiac MRI
NCT03725826
COMPLETED