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Single subcutaneous shot offers fast, potent platelet inhibition in STEMI


 

A subcutaneous dose of the second-generation glycoprotein IIb/IIIa inhibitor RUC-4 achieved rapid dose-dependent platelet inhibition in patients with ST-segment elevation MI (STEMI) undergoing stenting in the CEL-02 study.

Platelet inhibition occurred within 15 minutes among the 27 patients, and wore off rapidly, with almost 50% of platelet function recovered within 122 minutes.

The drug was well tolerated, with no thrombocytopenia in the first 72 hours after administration, one injection-site reaction, and two major bleeds likely caused by catheter-based trauma to the proximal radial artery, reported Jurrien ten Berg, MD, PhD, St. Antonius Hospital, Nieuwegein, the Netherlands.

The results were reported during the annual meeting of the European Association of Percutaneous Cardiovascular Interventions (EuroPCR 2021) and published simultaneously in EuroIntervention.

Dr. ten Berg noted that there is a need for drugs like RUC-4 in the early treatment of STEMI because oral P2Y12 inhibitors have a “seriously delayed” onset by about 2-4 hours. Prehospital use of the glycoprotein inhibitor (GPI) tirofiban was shown to improve reperfusion and late outcomes in the ON-TIME 2 trial, but GPIs require continuous intravenous administration and are associated with thrombocytopenia.

“Since RUC-4 is unique among small-molecule GPI in not inducing the receptor to undergo a major conformational change that has been implicated in the development of thrombocytopenia, it is possible that RUC-4 may be associated with fewer episodes of thrombocytopenia than current GPI,” the authors wrote.

RUC-4, also called zalunfiban, can be delivered with a single subcutaneous dose and, in a phase 1 study, demonstrated platelet inhibition within 15 minutes and was well tolerated up to a dose of 0.075 mg/kg among healthy volunteers and patients with stable coronary artery disease on aspirin.

In the CEL-02 study, 27 STEMI patients received a weight-adjusted subcutaneous injection of RUC-4 before primary percutaneous coronary intervention (PCI) in escalating doses of 0.075 mg/kg, 0.090 mg/kg, and 0.110 mg/kg. Patients were given standard treatment in the ambulance, which included aspirin (93%), ticagrelor (93%), and unfractionated heparin (96%). The activated clotting time was less than 200 seconds in 92% of patients who received additional heparin during cardiac catheterization.

The patients’ mean age was 62 years, 26% were women, and 96% were White. Pharmacodynamic data were available for 24 patients.

The average platelet inhibition 15 minutes after the injection was 77.5%, 87.5%, and 91.7%, respectively, for the three escalating doses (P = .002 for trend).

The primary endpoint of at least 77% inhibition of the iso-TRAP channel – which corresponds to 80% inhibition of light transmission aggregometry stimulated by 20 mcM adenosine diphosphate within 15 minutes – was achieved in three of eight patients at the lowest dose and in seven of eight patients at the middle and highest doses.

“Single-dose subcutaneous RUC-4 induces a fast, potent dose-dependent response of platelet inhibition in patients with STEMI presenting for primary PCI,” Dr. ten Berg concluded. “It is therefore promising for prehospital platelet inhibition in STEMI patients, and the results support further research on clinical benefit.”

The double-blind, randomized phase 2b CELEBRATE trial is underway, evaluating 1,668 STEMI patients treated with a 0.110 mg/kg or 0.130 mg/kg dose of RUC-4 or placebo in the ambulance. The coprimary outcomes are restoration of coronary artery blood flow and resolution of ST-segment deviation post-PCI/angiography. Primary completion is set for March 2023.

Dr. Marco Valgimigli, University Hospital in Bern, Switzerland MDedge News

Dr. Marco Valgimigli

Marco Valgimigli, MD, who was not involved in the study, said in an interview that RUC-4 has “some theoretical advantages, compared with conventional IIb/IIIa inhibitors, namely the absence of thrombocytopenia which is, however, relatively rare, especially with tirofiban or eptifibatide.”

The subcutaneous approach may also offer an advantage. Yet, if the administration of RUC-4 is “to happen in the ambulance – a setting where an IV line is usually established – whether the subcutaneous versus IV administration of the treatment proves to be advantageous remains to be seen,” said Dr. Valgimigli, from Cardiocentro Ticino Institute, Ente Ospedaliero Cantonale, Lugano, Switzerland.

“We would need to see the results of large randomized trials embracing this treatment option before a clinical decision can be made, especially considering that IIb/IIa inhibitors in the ambulance have been tested in the past but ultimately abandoned,” he said.

Limitations of the study are its open-label design, the fact that iso-TRAP channel assay data were not reported by the VeryifyNow instrument and had to be calculated from the raw data, and the fact that the timing of the RUC-4 injection immediately before PCI does not fully resemble the expected use of RUC-4 in clinical practice, where RUC-4 would be administered at the same time as the aspirin, ticagrelor, and heparin, and about an hour before PCI, ten Berg and colleagues wrote.

CeleCor Therapeutics sponsored the study and provided study materials. Dr. ten Berg reported receiving lecture or consultancy fees from AstraZeneca, Eli Lilly, Daiichi Sankyo, The Medicines Company, AccuMetrics, Boehringer Ingelheim, Bristol-Myers Squibb, Pfizer, Bayer, Ferrer, and Idorsia, and institutional research grants from ZonMw and AstraZeneca. Coauthor Barry S. Coller is an inventor of RUC-4 and a founder, equity holder, and consultant to CeleCor. He also receives royalties from Centocor/Janssen and the VerifyNow assays. Dr. Valgimigli has received grants from Abbott, Terumo, Medicure, and AstraZeneca, and personal fees from Abbott, Chiesi, Bayer, Daiichi Sankyo, Amgen, Terumo, Alvimedica, AstraZeneca, Biosensors, and Idorsia.

A version of this article first appeared on Medscape.com.

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