1.
Time Course of Early Hematoma Expansion in Acute Spot-Sign Positive Intracerebral Hemorrhage: Prespecified Analysis of the SPOTLIGHT Randomized Clinical Trial
Al-Ajlan FS, Gladstone DJ, Song D, Thorpe KE, Swartz RH, Butcher KS, Del Campo M, Dowlatshahi D, Gensicke H, Lee GJ, et al
Stroke. 2023
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Editor's Choice
Abstract
BACKGROUND In the SPOTLIGHT trial (Spot Sign Selection of Intracerebral Hemorrhage to Guide Hemostatic Therapy), patients with a computed tomography (CT) angiography spot-sign positive acute intracerebral hemorrhage were randomized to rFVIIa (recombinant activated factor VIIa; 80 μg/kg) or placebo within 6 hours of onset, aiming to limit hematoma expansion. Administration of rFVIIa did not significantly reduce hematoma expansion. In this prespecified analysis, we aimed to investigate the impact of delays from baseline imaging to study drug administration on hematoma expansion. METHODS Hematoma volumes were measured on the baseline CT, early post-dose CT, and 24 hours CT scans. Total hematoma volume (intracerebral hemorrhage+intraventricular hemorrhage) change between the 3 scans was calculated as an estimate of how much hematoma expansion occurred before and after studying drug administration. RESULTS Of the 50 patients included in the trial, 44 had an early post-dose CT scan. Median time (interquartile range) from onset to baseline CT was 1.4 hours (1.2-2.6). Median time from baseline CT to study drug was 62.5 (55-80) minutes, and from study drug to early post-dose CT was 19 (14.5-30) minutes. Median (interquartile range) total hematoma volume increased from baseline CT to early post-dose CT by 10.0 mL (-0.7 to 18.5) in the rFVIIa arm and 5.4 mL (1.8-8.3) in the placebo arm (P=0.96). Median volume change between the early post-dose CT and follow-up scan was 0.6 mL (-2.6 to 8.3) in the rFVIIa arm and 0.7 mL (-1.6 to 2.1) in the placebo arm (P=0.98). Total hematoma volume decreased between the early post-dose CT and 24-hour scan in 44.2% of cases (rFVIIa 38.9% and placebo 48%). The adjusted hematoma growth in volume immediately post dose for FVIIa was 0.998 times that of placebo ([95% CI, 0.71-1.43]; P=0.99). The hourly growth in FFVIIa was 0.998 times that for placebo ([95% CI, 0.994-1.003]; P=0.50; Table 3). CONCLUSIONS In the SPOTLIGHT trial, the adjusted hematoma volume growth was not associated with Factor VIIa treatment. Most hematoma expansion occurred between the baseline CT and the early post-dose CT, limiting any potential treatment effect of hemostatic therapy. Future hemostatic trials must treat intracerebral hemorrhage patients earlier from onset, with minimal delay between baseline CT and drug administration. REGISTRATION URL: https://www. CLINICALTRIALS gov; Unique identifier: NCT01359202.
PICO Summary
Population
Patients with a computed tomography (CT) angiography spot-sign positive acute intracerebral haemorrhage (ICH) enrolled in the SPOTLIGHT trial (n= 50).
Intervention
Recombinant activated factor VIIa (n= 19).
Comparison
Placebo (n= 25).
Outcome
This prespecified analysis aimed to investigate the impact of delays from baseline imaging to study drug administration on haematoma expansion. Haematoma volumes were measured on the baseline CT, early post-dose CT, and 24 hours CT scans. Total haematoma volume (intracerebral haemorrhage + intraventricular haemorrhage) change between the 3 scans was calculated as an estimate of how much haematoma expansion occurred before and after studying drug administration. Of the 50 patients included in the trial, 44 had an early post-dose CT scan. Median time (interquartile range) from onset to baseline CT was 1.4 hours (1.2 - 2.6). Median time from baseline CT to study drug was 62.5 (55 - 80) minutes, and from study drug to early post-dose CT was 19 (14.5 - 30) minutes. Median (interquartile range) total haematoma volume increased from baseline CT to early post-dose CT by 10.0 mL (-0.7 to 18.5) in the rFVIIa arm and 5.4 mL (1.8 - 8.3) in the placebo arm. Median volume change between the early post-dose CT and follow-up scan was 0.6 mL (-2.6 to 8.3) in the rFVIIa arm and 0.7 mL (-1.6 to 2.1) in the placebo arm. Total haematoma volume decreased between the early post-dose CT and 24-hour scan in 44.2% of cases (rFVIIa 38.9% and placebo 48%). The adjusted haematoma growth in volume immediately post dose for FVIIa was 0.998 times that of placebo ([95% CI: 0.71 - 1.43]). The hourly growth in FFVIIa was 0.998 times that for placebo ([95% CI: 0.994 - 1.003]).
2.
Restrictive versus Liberal Transfusion in Patients with Diabetes Undergoing Cardiac Surgery: An Open-Label Randomized, Blinded Outcome Evaluation Trial
Mistry N, Shehata N, Carmona P, Bolliger D, Hu R, Carrier FM, Alphonsus CS, Tseng EE, Royse AG, Royse C, et al
Diabetes, obesity & metabolism. 2021
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Editor's Choice
Abstract
AIM: To characterize the association between diabetes and transfusion and clinical outcomes in cardiac surgery, and to evaluate whether restrictive transfusion thresholds are harmful in these patients. MATERIALS AND METHODS The multinational, open-label, randomized controlled TRICS-III trial assessed a restrictive transfusion strategy (hemoglobin [Hb] transfusion threshold <75 g/L) compared to a liberal strategy (Hb <95 g/L for operating room or ICU; or < 85 g/L for ward) in patients undergoing cardiac surgery on cardiopulmonary bypass with a moderate-to-high risk of death (EuroSCORE ≥6). Diabetes status was collected preoperatively. The primary composite outcome was all-cause death, stroke, myocardial infarction, and new-onset renal failure requiring dialysis at 6 months. Secondary outcomes included components of the composite outcome at 6 months, and transfusion and clinical outcomes at 28 days. RESULTS Of the 5092 patients analyzed, 1396 (27.4%) had diabetes (Restrictive: n = 679, Liberal n = 717). Patients with diabetes had more cardiovascular disease than patients without diabetes. Neither the presence of diabetes (OR [95%CI]1.10[0.93-1.31]) or the restrictive strategy increased the risk for the primary composite outcome (diabetes OR [95%CI]1.04[0.68-1.59] vs. no diabetes OR 1.02[0.85-1.22],p(interaction) = 0.92). In patients with versus without diabetes, a restrictive transfusion strategy was more effective at reducing red blood cell transfusion (diabetes OR [95%CI] 0.28[0.21-0.36]; no diabetes OR [95%CI] 0.40[0.35-0.47];p(interaction) = 0.04). CONCLUSIONS The presence of diabetes did not modify the effect of a restrictive transfusion strategy on the primary composite outcome, but improved its efficacy on red cell transfusion. Restrictive transfusion triggers are safe and effective in patients with diabetes undergoing cardiac surgery. This article is protected by copyright. All rights reserved.
PICO Summary
Population
Patients with diabetes undergoing cardiac surgery enrolled in the multinational TRICS-III trial (n= 1,396).
Intervention
Restrictive transfusion threshold strategy (n= 679).
Comparison
Liberal transfusion threshold strategy (n= 717).
Outcome
Of the 5,092 patients analysed, 1396 (27.4%) had diabetes. Patients with diabetes had more cardiovascular disease than patients without diabetes. Neither the presence of diabetes nor the restrictive strategy increased the risk for the primary composite outcome vs. no diabetes. In patients with vs. without diabetes, a restrictive transfusion strategy was more effective at reducing red blood cell transfusion.