The research team is conducting a randomized, double-blind, placebo-controlled, multicenter clinical study aimed at evaluating the impact of adding Tolecilimab (a PCSK9 inhibitor) to standard lipid-lowering therapy (statins ± ezetimibe) on serum lipoprotein(a) \[Lp(a)\] levels and the risk of stroke recurrence within 90 days in patients with ischemic stroke or high-risk TIA (ABCD² ≥ 4) accompanied by elevated lipoprotein(a) levels (≥50 mg/dL).
Atherosclerotic stroke, particularly the large-artery atherosclerosis (LAA) subtype, carries a high risk of recurrence despite standard lipid-lowering therapy with statins. Elevated Lipoprotein(a) \[Lp(a)\] is a key genetic, pro-atherogenic risk factor largely unaffected by conventional statins and is independently associated with an increased risk of LAA-type stroke recurrence, representing a significant unmet residual risk. Proprotein convertase subtilisin/kexin type 9 (PCSK9) inhibitors provide a dual-pathway approach by potently lowering both low-density lipoprotein cholesterol (LDL-C) and Lp(a) levels.Evidence on the benefits of early, intensive lipid-lowering with PCSK9 inhibitors specifically for secondary stroke prevention in high-risk LAA patients with elevated Lp(a) is lacking. The primary purpose of this study is to evaluate the efficacy and safety of adding tafolecimab, a novel PCSK9 inhibitor, to standard lipid-lowering therapy in reducing Lp(a) levels at 90 days in patients with acute ischemic stroke or high-risk transient ischemic attack (TIA) of LAA etiology and elevated Lp(a). Secondary objectives include assessing its impact on LDL-C control, preliminary clinical outcomes (stroke recurrence, composite vascular events), safety, and exploring biomarker associations. This is a multicenter, randomized, double-blind, placebo-controlled clinical trial. A total of 242 patients from multiple centers in China will be enrolled. Key eligibility criteria include: age 35-80 years, acute ischemic stroke or high-risk TIA (ABCD² ≥4) of large-artery atherosclerosis (LAA) etiology occurring 3-7 days before randomization, and lipoprotein(a) \[Lp(a)\] ≥50 mg/dL. Patients will be stratified by site and randomly assigned in a 1:1 ratio to receive either standard lipid-lowering therapy (statin ± ezetimibe) plus tafolecimab (a PCSK9 monoclonal antibody) or standard therapy plus matching placebo for 90 days. Study treatment will be initiated as soon as possible after randomization. Face-to-face visits are scheduled at baseline, day 7 (or hospital discharge), and months 1, 2, and 3 after randomization. At each visit, neurological status (NIHSS, mRS), vital signs, concomitant medications, and adverse events will be recorded. Fasting blood samples will be collected at baseline, month 1, month 2, and month 3 for central laboratory measurement of Lp(a), LDL-C, apolipoprotein B, high-sensitivity C-reactive protein, and interleukin-6. Additional safety laboratories (liver function, renal function, creatine kinase, complete blood count) will be performed at baseline, day 7, and month 3. The primary efficacy endpoint is the percent change in Lp(a) from baseline to 90 days, analyzed using a repeated-measures mixed-effects model (MMRM) with adjustment for baseline value. The key secondary efficacy endpoints include: percent change in LDL-C at 90 days, proportion of patients achieving LDL-C goal (\<1.8 mmol/L or ≥50% reduction), and the occurrence of stroke recurrence, composite vascular events (ischemic stroke, myocardial infarction, hospitalization for unstable angina or heart failure, cardiovascular death), and all-cause death within 90 days. Safety endpoints comprise the incidence of adverse events, serious adverse events, bleeding events (GUSTO classification), hepatotoxicity (ALT/AST \>3× ULN), myotoxicity (CK \>10× ULN or clinical muscle symptoms), and injection-site reactions. The sample size was calculated to provide 80% power to detect a 25% between-group difference in Lp(a) reduction at 90 days, assuming a standard deviation of 67.34% and a two-sided alpha of 0.05, with an anticipated 5% dropout rate. Efficacy analyses will be performed on the intention-to-treat (ITT) population, while safety analyses will include all patients who received at least one dose of study drug. Time-to-event endpoints will be analyzed using Kaplan-Meier estimates and Cox proportional-hazards models. Continuous secondary endpoints will be assessed using MMRM or analysis of covariance.
Treatment should be initiated as soon as possible after randomization, with Tafolecimab administered subcutaneously once every two weeks for a total duration of 90 days. All patients received standard lipid-lowering therapy as recommended by stroke secondary prevention guidelines, including intensive statin treatment with or without ezetimibe, administered at maximally tolerated doses.
Treatment should be initiated as soon as possible after randomization, with Tafolecimab placebo administered subcutaneously once every two weeks for a total duration of 90 days. All patients received standard lipid-lowering therapy as recommended by stroke secondary prevention guidelines, including intensive statin treatment with or without ezetimibe, administered at maximally tolerated doses.
Beijing Tiantan Hopital, Capital Medical University
Beijing, China
The percentage reduction in Lp(a) from baseline at 90 days.
Time frame: From baseline to 90 days after randomization
Incidence of new stroke (including hemorrhagic and ischemic stroke) within 90 days.
Symptoms and signs of acute neurological deficits caused by sudden focal or whole brain, spinal cord or retinal vascular damage, which are related to cerebral circulatory disorders, including hemorrhagic and ischemic stroke
Time frame: From baseline to 90 days after randomization
Incidence of composite clinical endpoint events within 90 days
Including recurrent ischemic stroke, myocardial infarction, rehospitalization for unstable angina or heart failure, and cardiovascular death
Time frame: From baseline to 90 days after randomization
Incidence of myocardial infarction within 90 days.
Acute myocardial infarction is diagnosed by the third edition of the international general diagnostic criteria (Glob Heart. 2012 Dec;7(4):275-95)
Time frame: From baseline to 90 days after randomization
Incidence of vascular death within 90 days.
Vascular death includes stroke, sudden cardiac death, acute myocardial infarction, heart failure, pulmonary embolism, heart / cerebrovascular intervention or surgery (death unrelated to acute MI) and other cardiovascular causes of death \[such as: Arrhythmia irrelevant with sudden cardiac death, aortic aneurysm rupture, or peripheral artery disease. Any death of unknown/unclear cause that occurs within 30 days after stroke, myocardial infarction, or cardio-cerebrovascular operation/surgery will be regarded as death due to stroke, myocardial infarction, or cardio-cerebrovascular operation/surgery, respectively.
Time frame: From baseline to 90 days after randomization
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Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
242
Incidence of all-cause death within 90 days.
Time frame: From baseline to 90 days after randomization
Proportion of patients with poor functional outcome (mRS score 2-6) at 90 days.
The Modified Rankin Scale (mRS) score ranges from 0 to 6, with higher scores indicating worse functional outcome. The modified Rankin Scale (mRS)= 2-6: poor functional outcome
Time frame: From baseline to 90 days after randomization
Proportion of patients with Lp(a) <30 mg/dL at 90 days
Time frame: From baseline to 90 days after randomization
Percent reduction in ApoB and LDL-C levels from baseline to 90 days
Time frame: From baseline to 90 days after randomization
LDL-C goal attainment rate (<1.8 mmol/L or reduction ≥ 50%) at 90 days
Time frame: From baseline to 90 days after randomization
Moderate and severe bleeding events (GUSTO classification)
The GUSTO classification provides a three-tiered (severe, moderate, mild), criteria-driven framework for consistently reporting bleeding complications in clinical research, with a focus on hemodynamic impact and objective laboratory/transfusion data.
Time frame: From baseline to 90 days after randomization
Hepatotoxicity: Post-treatment ALT or AST levels exceeding 3 times the upper limit of normal upon re-measurement
Hepatotoxicity in this context is defined as a confirmed elevation of liver enzymes after treatment. Specifically, it means that a follow-up blood test shows either ALT or AST levels to be more than three times higher than the normal limit. This is a standard safety criterion for detecting potential drug-induced liver injury in clinical trials.
Time frame: From baseline to 90 days after randomization
Muscle toxicity
Post-treatment creatine kinase levels exceeding 10 times the upper limit of normal upon re-measurement, or occurrence of skeletal muscle adverse events (myalgia, myopathy, or rhabdomyolysis)
Time frame: From baseline to 90 days after randomization
Upper Respiratory Tract Infection (URTI):
Common infections affecting the nose, sinuses, throat, or larynx (e.g., common cold, sinusitis). These are general illnesses, not necessarily treatment-related.
Time frame: From baseline to 90 days after randomization
Urinary Tract Infection (UTI)
An infection in any part of the urinary system (bladder, urethra, kidneys). It is monitored as a common potential infection during trials.
Time frame: From baseline to 90 days after randomization
Injection Site Reactions:
Including papules, bleeding, discoloration, pain, itching, rash, induration, erythema, swelling, etc., at the injection site
Time frame: From baseline to 90 days after randomization
Allergic Reactions:
Undesirable immune system responses to the treatment, ranging from mild (rash, itching) to severe, life-threatening anaphylaxis.
Time frame: From baseline to 90 days after randomization
Other Adverse Events/Serious Adverse Events (AEs/SAEs):
Other Adverse Events/Serious Adverse Events (AEs/SAEs):
Time frame: From baseline to 90 days after randomization