Article Text
Abstract
Background For patients with stroke with large-vessel occlusion (LVO), study of factors predicting response to intravenous thrombolysis (IVT) would allow identifying subgroups with high expected gain, and those for whom it could be considered as futile, and even detrimental. From patients included in the Mechanical Thrombectomy After Intravenous Alteplase vs Alteplase Alone After Stroke trial, we investigated clinical-imaging factors associated with optimal response to IVT.
Methods We included patients receiving IVT alone. Excellent outcome was defined by a 3-month modified Rankin Scale (mRS) score ≤1. Clinical-imaging predictors were assessed on multivariate analysis after multiple imputations. The predictive performance of the model was assessed with the C-statistic.
Results Among 247 patients with LVO treated with IVT alone, 77 (31%) showed 3-month mRS ≤1. Predictors of 3-month mRS ≤1 were no medical history of hypertension (OR 2.43; 95% CI 1.74 to 3.38; p=0.007); no current smoking (OR 2.76; 95% CI 1.79 to 4.26; p=0.02); onset-to-IVT time (OR 0.47 per hour increase; 95% CI 0.23 to 0.78; p=0.003); diffusion-weighted imaging (DWI) volume (OR 0.78 per 10 mL increase; 95% CI 0.68 to 0.89; p=0.0004); presence of susceptibility vessel sign (SVS) (OR 7.89; 95% CI 1.65 to 37.78; p=0.01) and SVS length (OR 0.87 per mm increase; 95% CI 0.80 to 0.94; p=0.001). The prediction models showed a C-statistic=0.79 (95% CI 0.79 to 0.80).
Conclusions In patients with stroke with anterior-circulation LVO treated with IVT alone, predictors of excellent outcome at 3 months were no medical history of hypertension or current smoking, reduced onset-to-IVT time, small DWI volume, presence of SVS and short SVS length. These predictive factors could help practitioners in decision-making for IVT implementation in reperfusion strategies, all the more for the drip and ship paradigm.
Trial registration number NCT01062698.
- stroke
- thrombolysis
- thrombectomy
Data availability statement
Data are available on reasonable request. Only data that are relevant for the main objective of this ancillary study were available from the THRACE trial in agreement with the principal investigator of the trial. Individual de-identified participant data were shared following the explanation of the main objective and the statistical analysis. Data are available on reasonable request to SR (s.richard@chru-nancy.fr).
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Introduction
Intravenous thrombolysis (IVT) is a cornerstone in therapeutic strategies for cerebral reperfusion. It allows for early reperfusion in about one-third of patients with acute ischaemic stroke due to large-vessel occlusion (LVO) of anterior circulation.1 While mechanical thrombectomy (MT) is mostly performed in comprehensive stroke centres with endovascular capacities, patients may have wide access to IVT treatment in developed stroke networks. Main indications and contraindications have been defined following original studies assessing IVT gain and safety.2 3 Nowadays, both are debated in practice as well as in clinical research.4 Then, identification of factors predicting optimal response to IVT or not, would help to define subgroups of patients with LVO for whom high gain is expected or, on the contrary, those with an overriding haemorrhagic risk.
Most studies have explored the association between isolated imaging criteria or clinical findings and response to IVT.5 6 Most prediction models for stroke outcome were developed without considering a revascularisation strategy and without identifying patients with LVO as a poor prognosis subgroup.7
From the major trial Mechanical Thrombectomy After Intravenous Alteplase vs Alteplase Alone After Stroke (THRACE),8 we sought to determine the clinical and imaging predictors of 3-month excellent outcome after IVT alone in patients with anterior-circulation LVO and to evaluate the predictive performance of early neurological improvement to anticipate this successful response to treatment.
Methods
Study population
The study was a subgroup analysis of the randomised controlled THRACE trial study.8 Patients with LVO of the anterior circulation treated with IVT only were included in the present analysis.
Outcome
The primary end point was 3-month excellent outcome after IVT alone, defined as a modified Rankin Scale (mRS) score 0–1 at 3 months.
Clinical and imaging characteristics
Demographic characteristics (age, sex, vascular risk factors and comorbidities), baseline examination data (blood pressure, heart rate, US National Institutes of Health Stroke Scale (NIHSS) score, glycaemia, temperature), symptom onset to IVT treatment time (OTT), clinical outcomes (24-hour NIHSS score, 3-month mRS score) and imaging characteristics (Alberta Stroke Programme Early CT (ASPECT) score, diffusion-weighted imaging (DWI) ischaemic volume, vascular territory of ischaemia, deep white matter hyperintensities by the FAZEKAS score, susceptibility vessel sign (SVS) or hyper-dense middle cerebral artery sign (HMCAS), SVS or HMCAS length, clot burden score (CBS), thrombus location, FLAIR vascular hyperintensities (FVH)/DWI mismatch9 and ASPECT-FVH score10) were extracted from a centralised database.
The NIHSS score improvement from pretreatment to 24-hour examination was defined by the following criteria: (1) a normalised NIHSS score change (%)11; (2) a strong neurological improvement (SNI) defined as 24-hour NIHSS score ≤3; (3) a major neurological improvement (MNI) defined as 24-hour NIHSS score ≤1 or an improvement in NIHSS score ≥8 points; (4) a National Institute of Neurological Disorders and Stroke neurological improvement as an improvement in NIHSS score ≥4 points12; (5) NIHSS score improvement of ≥25% at 24 hours and (6) NIHSS score improvement of ≥50% at 24 hours.
Statistical analysis
All analyses involved using SAS/STAT V.9.3 (SAS Institute, Cary, North Carolina, USA). Continuous variables are described with mean±SD or median±IQR and categorical characteristics with frequency (%).
Groups of patients presenting 3-month mRS score 0–1 vs 2–6 were compared in terms of clinical, anamnestic and radiological criteria by Student’s t-test, Kruskal-Wallis test, χ2 test or Fisher’s exact test, as appropriate. After multiple imputation, predictors of excellent outcome after IVT alone were assessed by stepwise multivariable logistic regression analysis (significance level for entry=0.2, significance level for removing=0.05), estimating ORs and 95% CIs. To account for differences between CT and MRI, the imaging methods were considered a nesting covariate for each studied imaging characteristic. Multivariate model performance was assessed by the C-statistic.
Sensitivity, specificity, positive predictive value (PPV), negative predictive value (NPV) and their 95% CIs for each definition of 24-hour neurological improvement were computed according to 3-month outcome. Associations between 24-hour NIHSS improvement and 3-month outcome were revealed by multivariable logistic regression analysis using crude ORs and after adjustment for the previous predictors of 3-month outcome as well as age, baseline NIHSS score, 24-hour ASPECT score and Safe Implementation of Thrombolysis in Stroke-Monitoring Study haemorrhage classification.13 A Bonferroni correction for the inflation of the first-species risk was performed for this second analysis.
Results
Of the 412 patients included in the THRACE trial, 259 received IVT alone: 208 patients were randomised in the IVT group and 200 actually received IVT alone; 204 patients were randomised in the IVT/MT group and 59 did not receive MT and therefore had IVT alone. Of these 259 patients, 247 were included in our subgroup analysis after excluding 12 patients because of THRACE exclusion criteria (n=5 patients with cervical internal carotid artery occlusion or history of carotid surgery), absence of intracranial anterior circulation occlusion (n=2 basilar artery occlusion or other) and lost to follow-up (n=5 missing 3-month mRS score) (figure 1). Moreover, the 24-hour NIHSS score was available for 230/247 patients. The mean (SD) age was 63.8 (13.9) years and the male/female sex ratio 1.04. A total of 77/247 (31.2%) patients had an excellent 3-month outcome.
Before multiple imputations, cohort description and bivariate analysis were disclosed in table 1.
After multiple imputations, the bivariate analysis showed the probability of 3-month excellent outcome after IVT alone was associated with no history of hypertension (p=0.02), lower mean glycaemia level (p=0.03), lower mean NIHSS score (p=0.002) and shorter mean OTT (p=0.005) (table 2). On imaging, it was associated with smaller infarction volume on DWI (p<0.002), less often a superficial and deep middle cerebral artery infarct (p=0.02), shorter thrombus length (p=0.02 on MRI, p=0.03 on CT), more frequently M1 occlusion (p=0.005), higher CBS (p=0.005 on MRI, p=0.046 on CT) and more commonly FVH/DWI mismatch (p=0.02) (table 2).
Multivariate analysis allowed for identifying the following factors independently associated with 3-month excellent outcome after IVT alone: no history of hypertension (OR 2.43; 95% CI 1.74 to 3.38; p=0.007), no current smoking (OR 2.76; 95% CI 1.79 to 4.26; p=0.02), shorter OTT (OR 0.47 per hour increase; 95% CI 0.23 to 0.78; p=0.003), smaller DWI volume (OR 0.78 per 10 mL increase; 95% CI 0.68 to 0.89; p=0.0004), presence of SVS (OR 7.89; 95% CI 1.65 to 37.78; p=0.01) and reduced SVS length (OR 0.87 per mm increase; 95% CI 0.80 to 0.94; p=0.001) (table 2). The model allowed for good discrimination, with a C-statistic of 0.79 (95% CI 0.79 to 0.80) and was well calibrated, with Brier score 0.16 and adjusted R2 0.31.
The normalised NIHSS score change at 24 hours was independently associated with 3-month mRS score 0–1 (adjusted OR 1.79 per 10% increase; 95% CI 1.65 to 1.93; p<0.0001; area under the receiver operating characteristic curve 0.93; 95% CI 0.89 to 0.96) (table 3). With a normalised NIHSS score change threshold set at 35.7% and a Youden Index at 0.71, sensitivity was 0.92, specificity 0.79, PPV 0.69 and NPV 0.95. To anticipate a 3-month excellent outcome, the best specificity and PPV were found with SNI (specificity=0.96; PPV=0.88), MNI (specificity=0.86; PPV=0.73) or NIHSS score improvement ≥50% (specificity=0.85; PPV=0.74) (table 3).
Discussion
Our study provides important information about factors associated with success with IVT alone in patients with stroke with LVO of the anterior circulation. High predictors of 3-month mRS score 0–1 after IVT alone were no medical history of hypertension, no current smoking, reduced OTT, small DWI volume, presence of SVS and short SVS length. In the context of this treatment, this excellent clinical outcome at 3 months can be strongly anticipated by the early NIHSS improvement criteria SNI, MNI and NIHSS improvement of at least 50%.
Factors found associated with 3-month excellent outcome seemed related to time to IVT, thrombus features, effectiveness of leptomeningeal collateral arteries and the resulting seriousness of the infarction before treatment. Current smoking is known to enhance thrombotic effects with increased platelet adherence, endothelial cell damage and the consequent remodelling of parietal vessels. In patients with LVO, these mechanisms prevent the development of leptomeningeal collateral arteries supplying parenchyma.14 15 Similarly, hypertension would also compromise collateral circulation.16
The DWI volume, presence of SVS and SVS length on MRI were the only independent imaging factors associated with the IVT response. Pretreatment infarction volume is an indicator of the seriousness of the stroke and is associated with early and long-term outcome.17 A lack of leptomeningeal collateral circulation facilitates rapid growth of the ischaemic core. However, the FVH/DWI mismatch seems not an appropriate surrogate of leptomeningeal collateral arteries, nor the ASPECT-FVH score, in predicting 3-month excellent outcome.
Although patients with a large ischaemic core should not be systematically excluded from reperfusion therapy, they are particularly at risk of unfavourable response after IVT alone. This finding is explained in part by the seriousness of cerebral infarction before treatment restricting neurological recovery in the long term, and by absence or delayed reperfusion at the acute phase.18 19
From the occlusion characteristics included in the CBS, SVS length emerged as the most determinant factor. This finding may explain the poor response to IVT with intracranial internal carotid artery occlusion.20 Previous studies have observed a threshold of 8 mm for thrombus length as highly predictive of IVT failure.20 Presence of SVS was associated with red blood cell-dominant thrombus and IVT effectiveness.21 OTT is also probably a predictor combining greater chance of reperfusion and lower infarction volume with early IVT instauration.22
Another issue of this study was to predict optimal response to IVT with excellent outcome at the long term with early clinical examination after treatment. Previous studies have assessed the success of reperfusion mainly by vascular imaging.1 Early clinical improvement of patients with stroke with LVO is strongly associated with satisfactory and sustainable reperfusion.23–26 Consistently, we found a strong association between early and significant clinical improvement after IVT alone and excellent outcome at the long term. Among the different criteria of NIHSS improvement at 24 hours studied, SNI, MNI and NIHSS improvement of at least 50% to anticipate the excellent outcome showed good specificity and PPV. Nevertheless, clinical examination to assess NIHSS score in patients with LVO after IVT has to be performed as fast as possible, and must not delay MT.
The strength of our study lies in the large sample of patients prospectively included in the randomised THRACE study, allowing for a robust analysis of predictors of 3-month excellent outcome after IVT alone. The choice of a dichotomous mRS 1 is supported by the need to increasingly refine the prediction of 3-month favourable outcome for patients who benefit from better adapted and more efficient revascularisation strategies. However, some limitations deserve to be mentioned. First, some important data—such as inflammatory and clotting parameters, or previous use of antiplatelet therapy—were not collected. The earliest NIHSS score assessment after treatment was at 24 hours in our study, but studies report that reperfusion, and consequent NIHSS improvement, occurs almost exclusively during the first 2 hours after IVT instauration. However, this estimation can be considered reliable because the patient clinical state was found quite similar between 1 and 24 hours after treatment.27 We merged data from patients mostly examined with MRI and less with CT but took into account qualitative differences between these imaging techniques in the multivariate analysis.
Predicting the benefit of IVT for patients with LVO to achieve optimal reperfusion remains of high interest. This issue seems different following admission centre. For patients with LVO admitted in a centre without MT capability, IVT represents the first-line treatment in reperfusion strategy. Clinical and radiological criteria associated with optimal response to IVT allow identifying a patient subgroup with high probability to achieve reperfusion during transfer, before planned MT. They can be considered as arguments to help practitioners in decision-making to implement IVT in patients with initial contraindications, nowadays highly debated as elderly, medical history of cerebral haemorrhage, and demonstrated penumbra beyond the time window of 4.5 hours.4 For patients with LVO admitted in MT capable centres, bridging therapy (including IVT and MT) remains the gold standard. But, relevance of IVT is questioned following recent results from DIRECT-MT (Direct Intraarterial Thrombectomy in Order to Revascularize Acute Ischemic Stroke Patients with Large Vessel Occlusion Efficiently in Chinese Tertiary Hospitals) and DEVT (Effect of Endovascular Treatment Alone vs Intravenous Alteplase Plus Endovascular Treatment on Functional Independence in Patients With Acute Ischemic Stroke) trials suggesting MT alone was not non-inferior to bridging therapy.28 29 However for patients who received IVT in DIRECT-MT, higher frequency of cerebral reperfusion was observed, despite high median OTT. More, non-inferiority was not confirmed by the SKIP trial.30 Finally, knowledge about factors predicting cerebral reperfusion achievement or failure after IVT could guide research towards new therapeutic strategies. Clinical improvement with reduction of haemorrhagic risk have been reported with alteplase doses lower than the 0.9 mg/kg standard dose, suggesting possible dosage adjustment following patient and stroke characteristics.31 On the contrary, subgroup of patients with low probability of reperfusion could be candidate to alternative or additional thrombolytics to alteplase. In this way, the EXTEND-IA TNK (Tenecteplase versus Alteplase before Endovascular Therapy for Ischemic Stroke) trial observed a higher rate of reperfusion in patients with LVO after infusion with tenecteplase than alteplase before MT.32 Safety of glenzocimab, in addition to alteplase at the acute phase of cerebral infarction, is currently assessed.33
Conclusions
Predictors of success with IVT alone in LVO stroke are no medical history of hypertension, no current smoking, reduced OTT, small DWI volume, presence of SVS and short SVS length. These predictors may contribute to identifying patients with high probability to achieve optimal cerebral reperfusion after IVT, and help decision-making in therapeutic strategy. This hypothesis and inherent 3-month excellent outcome can strongly be anticipated by early and significant improvement of the NIHSS score.
Data availability statement
Data are available on reasonable request. Only data that are relevant for the main objective of this ancillary study were available from the THRACE trial in agreement with the principal investigator of the trial. Individual de-identified participant data were shared following the explanation of the main objective and the statistical analysis. Data are available on reasonable request to SR (s.richard@chru-nancy.fr).
Ethics statements
Patient consent for publication
Ethics approval
The study is a subgroup analysis of the THRACE trial having received the required legal approval from the “Comité de Protection des Personnes III”, Nord Est Ethics Committee, and the research boards of the participating centres with 2009-A00753-54. All patients or their legal representatives provided written informed consent.
References
Footnotes
Collaborators THRACE investigators: Alain Bonafé, Xavier Leclerc, Nelly Agrinier, Serge Bakchine, Flore Baronnet, Marine Beaumont, Yannick Bejot, Jerome Berge, Marc Bintner, Romain Bourcier, Tae Hee Cho, Frédéric Clarencon, Julien Cogez, Charlotte Cordonnier, Christian Denier, Anne Laure Derelle, Olivier Detante, Xavier Ducrocq, Anthony Faivre, Anne Ferrier, Laetitia Gimenez, Sophie Godard, Benoit Guillon, Emmanuel Houdart, Bertrand Lapergue, Jean-Louis Mas, Thierry Moulin, Mariano Musacchio, Olivier Naggara, Jean Philippe Neau, Michael Obadia, Anne Pasco-Papon, Michel Piotin, Laurent Pierot, Helene Raoult, Frederic Ricolfi, Thomas Ronziere, Guillaume Saliou, Igor Sibon, Sebastien Soize, Jacques Sedat, Christian Stapf, Laurent Suissa, Marie Tisserand, Francis Turjman, Stephane Velasco
Contributors NR-C and SR collected data, performed analysis and drafted the manuscript. BG, SB and FG critically revised the manuscript for substantial changes. MS performed statistical analysis. FZ, YX, LH, GM and CO critically revised the manuscript. All authors have approved the submitted manuscript.
Funding The authors have not declared a specific grant for this research from any funding agency in the public, commercial or not-for-profit sectors.
Competing interests None declared.
Provenance and peer review Not commissioned; externally peer reviewed.
Author note The work has been carried out at Nancy Regional University Hospital, France.