Microvascular Obstruction Diagnosis Using the CoFI™ System Assessment - II (MOCA II)

CorFlow Therapeutics

Status

Not yet enrolling

Conditions

Microvascular Obstruction (MVO)

STEMI - ST Elevation Myocardial Infarction

Treatments

Device: CorFlow Controlled Flow Infusion System - CoFI™

Study type

Interventional

Funder types

Industry

Identifiers

NCT06909578

2402

Details and patient eligibility

About

A prospective, multicenter, international single-arm, pivotal clinical study designed to validate the performance of the CoFI system in detecting MVO in STEMI subjects, as confirmed by CMRI. The study will be conducted in accordance with the Declaration of Helsinki, EN ISO 14155:2020, local and national regulations.

Each study site will receive support from a sponsor-certified proctor during the learning curve to ensure consistent and accurate application of the CoFI system.

Full description

Microvascular obstruction (MVO) is a common complication that occurs after establish-ing coronary vessel patency by percutaneous coronary intervention (PCI) for the treat-ment of acute myocardial infarction (AMI).

Despite the successful restoration of vessel patency through PCI, 50% to 70% of STEMI subjects experience MVO, which affects vessels in the myocardial microcircu-lation. MVO occurs most commonly in the setting of AMI because the prolonged ische-mia leads to endothelial damage, myocyte oedema and microvascular dysfunction.

Research has shown that MVO increases the risk of poor clinical outcomes, including death, re-infarction, reduced left ventricular ejection fraction (LVEF), left ventricular (LV) remodeling, heart failure, and more.

Late gadolinium enhancement (LGE) cardiac magnetic resonance imaging (CMRI) is the current state-of-the-art for MVO identification and quantification. However, due to clinical reasons, CMRI imaging cannot be performed during the subject's emergent state. In most cases, this means that the diagnosis is made outside the biological win-dow where MVO-related damage to heart muscle could be reversed or at least re-duced.

Thus, although CMRI is the most accurate method to diagnose MVO, its use in routine practice is limited. Therefore, a direct and accurate quantitative diagnosis during pri-mary PCI is required for early risk stratification in routine clinical practice.

The Controlled Flow Infusion (CoFI) system is designed to be integrated into current PCI protocols, enabling the rapid and safe detection of MVO after successful PCI pro-cedures. Using a proprietary algorithm, the system can provide an output for diagnos-ing microvascular obstruction (MVO) immediately post-PCI by measuring real-time dis-tal coronary back-pressure response to a dynamic infusion sequence downstream of a low-pressure occlusion balloon.

The aim of the study is to validate the diagnostic performance of the CoFI system in detecting MVO in anterior STEMI subjects following PPCI as measured in CMRI 1-3 days post-procedure.

The study phase2 has two possible routes, A or B. The purpose of phase 1 is to confirm if the pCoFI threshold aligns with the study reference value (previously gathered from data coming from the EU FIH MOCA I study). If alignment is confirmed, the study will progress into the pivotal phase Route A. If not, the study will follow the alternative path, Route B, including a substantial clinical investigation plan (CIP) amendment submis-sion.

Phase 1 aims to demonstrate whether the pCoFI threshold for MVO detection gathered in the US population aligns with the 95% confidence interval of the pCoFI threshold from the EU population gathered in the FIH MOCA-I study.

Phase 2 has two possible routes, A or B. Depending on the outcome of phase 1 the study will continue along either route. The difference between routes A and B is that the threshold is confirmed or needs to be reset, respectively. In case of route B phase 1 would become a training set, whereas in route A would phase 1 be included in the study analysis set.

The sample size for the MOCA-II feasibility and pivotal phases will be based on a con-servative assumed disease prevalence of 50% MVO+.

Interim Analysis An interim analysis is planned to be done after 50% of the subjects have been enrolled to verify if the study's success or futility criteria are met.

Based on the interim analysis, the sample size for the primary endpoint may be ad-justed according to the actual MVO prevalence from the study data set, as defined by CMRI at 1 to 3 days post-PPCI. The observed prevalence and interim estimates of sensitivity and specificity will be used to reassess the required sample size if the interim study data do not justify an early stop for success.

Enrollment

200 estimated patients

Sex

All

Ages

18+ years old

Volunteers

No Healthy Volunteers

Inclusion criteria

Clinical:
1. Subject ≥18 years of age
2. Ability to provide written informed consent according to GCP and governing regulations
3. Diagnosis of acute anterior STEMI
4. Persistent symptoms to balloon time ≤ 6 hours. The assessment by the treating investigator after evaluation by subjects explanation is the defining timepoint for symptom onset.

PPCI & Angiographic

Culprit lesion in the LAD
COFI ballon can be placed according to IFU
Required stent diameter ≥ 2.75 mm and ≤ 5mm
Required stent length ≥ 15 mm
Successful PPCI Procedure as documented by <50% diameter residual angiographic stenosis within all treated culprit lesions with TIMI 2 or 3 flow.

Exclusion criteria

Clinical:
1. Cardiogenic shock
2. Thrombolytic therapy administered for this STEMI
3. Contraindication to CMRI
  1. Cardiac pacemaker or implantable defibrillator;
  2. Non-MRI compatible aneurysm clip;
  3. Neural Stimulator (i.e., TENS unit);
  4. Any implanted or magnetically activated device (insulin pump);
  5. Any type of non-MRI compatible ear implant;
  6. Metal shavings in the orbits;
  7. Any metallic foreign body, shrapnel, or bullet in a location which the physician feels would present a risk to the subject;
  8. Any history indicating contraindication to MRI
  9. Inability to follow breath hold instructions or to maintain a breath hold for >15 seconds; and
  10. Known hypersensitivity or contraindication to gadolinium contrast.
4. Subject with previous MI and/or known cardiomyopathy (ischemic and non ischemic), ventricular pseudoaneurysm, VSD, severe mitral valve regurgitation (with or without papillary muscle rupture), severe known cardiac valvular stenosis or insufficiency, pericardial disease
5. Major bleeding ≤ 30d prior to intervention
6. Major surgery ≤ 30d prior to intervention
7. TIA or stroke ≤ 30d prior to intervention
8. Heart failure with inotrope support and/or consideration for LVAD or heart transplant
9. Known severe renal disease with creatinine > 2.5 mg/dL and/or eGFR < 30 mL/min/1.73 m2
10. Subject has other medical illness (e.g., cancer, dementia) or known history of substance abuse (alcohol, cocaine, heroin, etc.) that may cause non-compliance with the CIP, confound the data interpretation, or is associated with limited life expectancy of less than one year
11. Current participation in another clinical study
12. Pregnancy

PPCI & Angiographic:

CABG of LAD
Unsuitable target vessel anatomy (excessive tortuosity, diffuse disease, or moderate/heavy calcification)
Cardiac condition preventing the use of the CoFI System
Any angiographic post stenting condition that according to the physician implies soc administration of any GpIIb/IIIa inhibitors or adenosine
Cardiac condition mandating elective PCI/CABG procedure prior to CMRI