Population Health Research Institute, McMaster University and Hamilton Health Sciences Hamilton, Canada; Department of Medicine, McMaster University, Hamilton, ON, Canada.
Population Health Research Institute, McMaster University and Hamilton Health Sciences Hamilton, Canada; Department of Medicine, McMaster University, Hamilton, ON, Canada.
Lancet Respir Med. 2022 Dec;10(12):1169-1177. doi: 10.1016/S2213-2600(22)00298-3. Epub 2022 Oct 10.
COVID-19 disease is accompanied by a dysregulated immune response and hypercoagulability. The Anti-Coronavirus Therapies (ACT) inpatient trial aimed to evaluate anti-inflammatory therapy with colchicine and antithrombotic therapy with the combination of rivaroxaban and aspirin for prevention of disease progression in patients hospitalised with COVID-19.
The ACT inpatient, open-label, 2 × 2 factorial, randomised, controlled trial was done at 62 clinical centres in 11 countries. Patients aged at least 18 years with symptomatic, laboratory confirmed COVID-19 who were within 72 h of hospitalisation or worsening clinically if already hospitalised were randomly assigned (1:1) to receive colchicine 1·2 mg followed by 0·6 mg 2 h later and then 0·6 mg twice daily for 28 days versus usual care; and in a second (1:1) randomisation, to the combination of rivaroxaban 2·5 mg twice daily plus aspirin 100 mg once daily for 28 days versus usual care. Investigators and patients were not masked to treatment allocation. The primary outcome, assessed at 45 days in the intention-to-treat population, for the colchicine randomisation was the composite of the need for high-flow oxygen, mechanical ventilation, or death; and for the rivaroxaban plus aspirin randomisation was the composite of major thrombosis (myocardial infarction, stroke, acute limb ischaemia, or pulmonary embolism), the need for high-flow oxygen, mechanical ventilation, or death. The trial is registered at www.
gov, NCT04324463 and is ongoing.
Between Oct 2, 2020, and Feb 10, 2022, at 62 sites in 11 countries, 2749 patients were randomly assigned to colchicine or control and the combination of rivaroxaban and aspirin or to the control. 2611 patients were included in the analysis of colchicine (n=1304) versus control (n=1307); 2119 patients were included in the analysis of rivaroxaban and aspirin (n=1063) versus control (n=1056). Follow-up was more than 98% complete. Overall, 368 (28·2%) of 1304 patients allocated to colchicine and 356 (27·2%) of 1307 allocated to control had a primary outcome (hazard ratio [HR] 1·04, 95% CI 0·90-1·21, p=0·58); and 281 (26·4%) of 1063 patients allocated to the combination of rivaroxaban and aspirin and 300 (28·4%) of 1056 allocated to control had a primary outcome (HR 0·92, 95% CI 0·78-1·09, p=0·32). Results were consistent in subgroups defined by vaccination status, disease severity at baseline, and timing of randomisation in relation to onset of symptoms. There was no increase in the number of patients who had at least one serious adverse event for colchicine versus control groups (87 [6·7%] of 1304 vs 90 [6·9%] of 1307) or with rivaroxaban and aspirin versus control groups (85 [8·0%] vs 91 [8·6%]). Among patients assigned to colchicine, 8 (0·61%) had adverse events that led to discontinuation of study drug, mostly gastrointestinal in nature. 17 (1·6%) patients assigned to the combination of rivaroxaban and aspirin had bleeding compared with seven (0·66%) of those allocated to control (p=0·042); the number of serious bleeding events was two (0·19%) versus six (0·57%), respectively (p=0·18). No patients assigned to rivaroxaban and aspirin had serious adverse events that led to discontinuation of study drug.
Among patients hospitalised with COVID-19, neither colchicine nor the combination of rivaroxaban and aspirin prevent disease progression or death.
Canadian Institutes for Health Research, Bayer, Population Health Research Institute, Hamilton Health Sciences Research Institute, Thistledown Foundation.
For the Portuguese, Russian and Spanish translations of the abstract see Supplementary Materials section.
COVID-19 疾病伴有失调的免疫反应和高凝状态。抗冠状病毒治疗(ACT)住院试验旨在评估秋水仙碱的抗炎治疗和利伐沙班联合阿司匹林的抗血栓治疗,以预防 COVID-19 住院患者的疾病进展。
ACT 住院、开放标签、2×2 析因、随机、对照试验在 11 个国家的 62 个临床中心进行。年龄至少 18 岁、有症状、实验室确诊的 COVID-19 患者,在入院后 72 小时内或已入院但临床状况恶化,随机分配(1:1)接受秋水仙碱 1.2mg 后 2 小时再给予 0.6mg,然后每天 0.6mg,共 28 天,与常规治疗相比;在第二次(1:1)随机分组中,接受利伐沙班 2.5mg 每天 2 次加阿司匹林 100mg 每天 1 次,共 28 天,与常规治疗相比。研究者和患者对治疗分配不设盲。在意向治疗人群中,秋水仙碱随机分组的主要结局是高流量氧疗、机械通气或死亡的需要;利伐沙班加阿司匹林随机分组的主要结局是主要血栓形成(心肌梗死、中风、急性肢体缺血或肺栓塞)、高流量氧疗、机械通气或死亡的需要。该试验在 www.clinicaltrials.gov 上注册,编号为 NCT04324463,正在进行中。
2020 年 10 月 2 日至 2022 年 2 月 10 日,在 11 个国家的 62 个地点,2749 名患者被随机分配至秋水仙碱或对照组,以及利伐沙班和阿司匹林联合组或对照组。2611 名患者纳入秋水仙碱(n=1304)与对照组(n=1307)的分析;2119 名患者纳入利伐沙班和阿司匹林(n=1063)与对照组(n=1056)的分析。随访完成率超过 98%。总体而言,1304 名分配至秋水仙碱的患者中有 368 名(28.2%)和 1307 名分配至对照组的患者中有 356 名(27.2%)发生了主要结局(风险比[HR]1.04,95%置信区间 0.90-1.21,p=0.58);1063 名分配至利伐沙班和阿司匹林联合组的患者中有 281 名(26.4%)和 1056 名分配至对照组的患者中有 300 名(28.4%)发生了主要结局(HR 0.92,95%置信区间 0.78-1.09,p=0.32)。在根据疫苗接种状态、基线疾病严重程度和与症状发作的关系确定的亚组中,结果一致。与对照组相比,秋水仙碱组(1304 名中的 87 名[6.7%])和利伐沙班和阿司匹林组(1056 名中的 90 名[8.6%])发生至少一次严重不良事件的患者人数没有增加。在接受秋水仙碱治疗的患者中,有 8 名(0.61%)因药物不良反应而停药,主要为胃肠道性质。与分配至对照组的患者相比,接受利伐沙班和阿司匹林联合治疗的患者中有 17 名(1.6%)发生出血,而分配至对照组的患者中有 7 名(0.66%)(p=0.042);严重出血事件的数量分别为 2 名(0.19%)和 6 名(0.57%)(p=0.18)。没有接受利伐沙班和阿司匹林治疗的患者发生严重不良事件导致停药。
在 COVID-19 住院患者中,秋水仙碱和利伐沙班联合阿司匹林均不能预防疾病进展或死亡。
加拿大卫生研究院、拜耳、人口健康研究所、汉密尔顿健康科学研究所、蓟基金会。
