To evaluate the efficacy and safety of intra-arterial TNK bridging therapy following incomplete recanalization (2b ≤ eTICI \< 3) after mechanical thrombectomy for acute anterior circulation large vessel occlusion.
Stroke is a group of diseases characterized by neurological deficits resulting from ischemic or hemorrhagic damage to brain tissue. It has high rates of incidence, disability, and mortality, making it the leading cause of disability and a significant cause of death among residents in China, imposing a heavy disease burden on families and society. According to the "China Stroke Center Report 2020", there are approximately 17.8 million stroke survivors among people aged over 40 in China, with 3.4 million new cases annually. Among these, Acute Ischemic Stroke (AIS) accounts for up to 80%. Current common clinical treatment strategies for AIS include Standard Medical Therapy (SMT), which involves Intravenous Thrombolysis (IVT), and Endovascular Thrombectomy (EVT). Extensive clinical evidence has fully confirmed a significant positive correlation between reperfusion quality and patient prognosis, suggesting that adopting more aggressive strategies to optimize reperfusion may be of great significance. Incomplete reperfusion may result from various causes, including distal microthrombi occluding the microvasculature, residual occlusion unreachable by mechanical devices during EVT, and the formation of new emboli. As these situations are typically not amenable to mechanical thrombectomy, intra-arterial thrombolytic therapy has emerged as a potential option to further improve reperfusion in ischemic tissue. The CHOICE study was the first international randomized controlled trial (RCT) on EVT bridging with intra-arterial thrombolysis. Its results indicated that the group receiving successful mechanical thrombectomy combined with intra-arterial alteplase had improved neurological outcomes in AIS patients with anterior circulation large vessel occlusion compared to the control group (90-day mRS 0-1, 59% vs. 40.0%, P=0.047), with no significant difference in bleeding risk between the two groups. Subsequently, several other important related studies were published, including the PEARL study (also using alteplase), the ANGEL-TNK, POST-TNK, and DATE studies (using tenecteplase, TNK), and the POST-UK study (using urokinase). Due to differing patient selection criteria, the results varied. However, a careful comparison reveals that studies whose inclusion criteria comprised patients with eTICI 2b grade (i.e., incomplete recanalization) all yielded positive conclusions, including CHOICE, PEARL, and ANGEL-TNK. More importantly, a subgroup analysis of the ANGEL-TNK study clearly found that in the eTICI 2b group, patients receiving intra-arterial TNK had significantly better clinical outcomes than those in the medical therapy group (90-day mRS 0-1, 42.3% vs. 21.8%, RR=2.08, 95%CI 1.35-3.20, P\<0.001), whereas no significant difference was observed between the two groups in the eTICI 2c/3 group. This suggests that intra-arterial TNK therapy may offer greater benefits in the population failing to achieve complete recanalization. TNK, a genetically engineered variant of alteplase, features amino acid modifications at three key sites, which significantly prolong its half-life and enhance its fibrin-binding specificity. In recent years, it has emerged as one of the most promising novel thrombolytic agents in the field of stroke thrombolysis. Studies have found that in patients with LVO identified on baseline CTA, TNK thrombolysis achieves significantly higher recanalization rates compared to alteplase, indicating TNK's unique advantage for large vessel occlusion. Therefore, the therapeutic effect of EVT combined with intra-arterial TNK thrombolysis holds great potential for AIS patients with anterior circulation large vessel occlusion, particularly those with incomplete recanalization after EVT, but this requires further investigation and confirmation. This study aims to evaluate the efficacy and safety of intra-arterial TNK bridging therapy following incomplete recanalization (2b ≤ eTICI \< 3) after mechanical thrombectomy for acute anterior circulation large vessel occlusion, using a prospective, multicenter, randomized, double-blind, placebo-controlled trial design.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
QUADRUPLE
Enrollment
344
Post-mechanical thrombectomy bridging therapy with intra-arterial tenecteplase (0.0938 mg/kg) for incomplete recanalization (2b ≤ eTICI \< 3).
Post-mechanical thrombectomy bridging "therapy" with intra-arterial placebo (0.0938 mg/kg) for incomplete recanalization (2b ≤ eTICI \< 3).
The First Affiliated Hospital of China Medical University
Shenyang, Liaoning, China
Excellent neurological outcome rate (mRS 0-1) at 90 (±7) days
Excellent neurological outcome rate (mRS 0-1) at 90 (±7) days
Time frame: 3 months after randomization
Change in eTICI grade on cerebral angiography
Change in eTICI grade on cerebral angiography
Time frame: Immediately after intra-arterial thrombolysis
Proportion of patients with mRS score 0-2 at 90 (±7) days
Proportion of patients with mRS score 0-2 at 90 (±7) days
Time frame: 3 months after randomization
Proportion of patients with mRS score 0-3 at 90 (±7) days
Proportion of patients with mRS score 0-3 at 90 (±7) days
Time frame: 3 months after randomization
mRS shift analysis at 90 (±7) days
mRS shift analysis at 90 (±7) days
Time frame: 3 months after randomization
Proportion of patients with NIHSS score 0-1 or a decrease from baseline of ≥10 points at 48 (±12) hours
Proportion of patients with NIHSS score 0-1 or a decrease from baseline of ≥10 points at 48 (±12) hours
Time frame: 48 hours after randomization
Change in NIHSS score at 7 (±1) days
Change in NIHSS score at 7 (±1) days
Time frame: 7 days or discharge after randomization
EQ-5D scale score at 90 (±7) days
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EQ-5D scale score at 90 (±7) days
Time frame: 3 months after randomization
Barthel Index (BI) at 90 (±7) days
Barthel Index (BI) at 90 (±7) days
Time frame: 3 months after randomization