Upfront Premedication For Reduction of Microvascular Obstruction and No-reflow in Treating ST-segment Elevation Myocardial Infarction

Overview

Angiographic no-reflow during primary PCI procedures occurs at relatively high rate (25%) and is associated with worsening of long term morbidity and mortality. The exact mechanism of no-reflow is not fully understood, yet it is believed to be multifactorial including microvascular plugging with activated platelets and thrombotic debris in addition to the microvascular dysfunction from the ischaemia-reperfusion injury. Despite a theoretical advantage of glycoprotein IIb/IIIa inhibitors (GPi) (like; Tirofiban) to suppress the intense platelets' activation/reaction; their use did not lead to a significant net benefit, because it was opposed by increased risk of bleeding. However, the bleeding that plagued GPi use was predominantly related to vascular access in the era femoral approach was the default. Moreover, there are some recent data suggesting that small intracoronary bolus of GPi was non-inferior to intravenous bolus-infusion dose with less bleeding events. This study plans to assess upfront premedication with small doses of GPi + Nitroglycerin ± Verapamil, with staged restoration of flow (repeated balloon inflation) to reduce angiographic no-reflow and CMR assessed microvascular occlusion (MVO).

A. Study Design This study will be a randomized single blinded prospective study including acute STEMI patients presenting to Aswan heart centre catheterization-lab for pPCI. All patients will undergo pPCI according to the current practice guidelines\[1,2\] and the local hospital policy in managing STEMI patients. B. Study Population Acute STEMI patients presenting for pPCI reperfusion (or recuse PCI), identified upon initial wiring of the IRA to have large thrombus burden (TIMI thrombus grade 4-5). C. Study Site This study with all planned diagnostic and therapeutic protocol will be performed in Aswan Heart Centre, Magdi Yacoub Foundation. D. Study Protocol 1. Patients identified to have large thrombus burden (TIMI-thrombus grade 4 and 5), will be assigned into one of two groups according to a closed envelope randomization system. 2. Group A (active arm); Immediately after restoration of distal flow, they will receive: i. Small dose Tirofiban (intra-coronary bolus of 25µg/Kg),\[22\] ii. Nitroglycerin 100-200 µg,\[12\] iii. Verapamil 100-200 µg (excluding patients with 2nd or 3rd degree AV block, bradycardia HR \< 60, or systolic BP \<100 mmHg)\[5\] iv. Two cycles of balloon up-balloon down (15 seconds occlusion, 15 seconds open artery; repeated two times). v. The rest of the procedure will be completed as standard practice. c. Group B (control arm); pPCI procedure will be performed as per standard practice.\[2\] Bail-out use of any pharmaceutical products will be allowed as per guidelines recommendations (such as: GPi in case of no-reflow or thrombotic complications). d. Patients' baseline data will be collected on site using a standardized case report form directly into a web-based research data collection tool (REDCAP). Baseline characteristics, medical history, biochemical and electrocardiographic findings, prior chronic therapies and treatments administered during hospitalization will be comprehensively tabulated. On admission, blood samples will be collected from all patients to perform routine labs (CBC, INR, renal function test and serum electrolytes), hs-troponin-I, BNP and hs-CRP, according to institutional practice. An initial bed-side echo targeting assessment of LV dimensions and systolic function, significant valvular dysfunction, and exclusion mechanical complications will be performed without delay of revascularization. e. After procedure completion, the following parameters will be collected: i. Occurrence of slow flow/no reflow after stent deployment or stent optimization (TIMI flow \< 3) ii. Final TIMI flow iii. Final corrected TIMI flow count iv. Final TIMI myocardial blush grade v. Final TIMI myocardial perfusion grade vi. ST segment resolution assessed immediately (within 30 minutes). ST segment resolution will be quantified both in the index lead and as sum of the affected leads. vii. Peak cardiac troponin within 24 hours of presentation. viii. Hemoglobin drop (baseline - lowest hemoglobin value during the hospital stay), overt bleeding, need for blood products transfusion will be collected. Bleeding events will be classified according to BARC categories as follows: Type 1: is bleeding that "is not actionable" and does not cause the patient to seek medical attention. Type 2: includes any clinically overt sign of hemorrhage that "is actionable" and requires diagnostic studies, hospitalization, or treatment by a healthcare professional. Type 3 has 3 subdivisions. Type 3a bleeding includes any transfusion with overt bleeding and overt bleeding plus a hemoglobin drop of ≥3 to \<5 g/dL (provided the hemoglobin drop is related to bleeding). Type 3b bleeding includes overt bleeding plus a hemoglobin drop of ≥5 g/dL (provided the hemoglobin drop is related to bleeding), cardiac tamponade, bleeding requiring surgical intervention for control (excluding dental/nasal/skin/hemorrhoid), and bleeding requiring intravenous vasoactive drugs. Type 3c bleeding includes intracranial hemorrhage and intraocular bleeding compromising vision. Type 4 bleeding is coronary artery bypass grafting (CABG)-related (within 48 hours), and type 5 bleeding is fatal which should be categorized as intracranial, gastrointestinal, retroperitoneal, pulmonary, pericardial, or genitourinary. ix. All patients will receive guidelines directed medical therapy as appropriate \[2\], and will receive similar advice for the required secondary preventive life-style changes. x. A comprehensive echocardiographic and CMR examination will be performed predischarge (within 48 hours from presentation) to serve as baseline assessment. xi. At 90-days post procedure, patients will have a mandatory clinical visit for clinical, echocardiographic and CMR follow-up assessment. E. Potential Risks: Primary PCI is considered the gold-standard therapy and is highly recommended to be timely performed in all patients presenting by acute STEMI. Potential risks for pPCI procedures include coronary dissection, perforation, procedural failure, significant bleeding complications or procedural related mortality, however, these complications are very rare (\<1%) and substantially counterbalanced by the procedural benefits on short- and long terms. Active group receiving small doses of (GPi) are theoretically at increased risk for bleeding, which is mitigated by giving small dose. Also, committing the study eligibility to radial access only will further reduce the bleeding risk substantially, because radial access in pPCI was reported to reduce the bleeding risk to the half, compared to femoral access.\[2\] F. Confidentiality of data: Clinical data will be tabulated by number codes that will be anonymized. Only treating physicians will have access to participants identities, while the anonymized tabulated data will be available for the steering committee and the statisticians.