Valneva Austria, Campus Vienna Biocenter 3, Vienna, Austria.
Medical University of Vienna, Department of Clinical Pharmacology, Vienna, Austria.
Lancet Infect Dis. 2024 Sep;24(9):1045-1058. doi: 10.1016/S1473-3099(24)00175-0. Epub 2024 May 31.
Rising Lyme borreliosis incidence rates, potential for severe outcomes, and limitations in accurate and timely diagnosis for treatment initiation suggest the need for a preventive vaccine; however, no vaccine is currently available for human use. We performed two studies in adults to optimise the dose level and vaccination schedule for VLA15, an investigational Lyme borreliosis vaccine targeting outer surface protein A (OspA) serotypes 1-6, which are associated with the most common pathogenic Borrelia species in Europe and North America.
Both randomised, observer-blind, placebo-controlled, multicentre phase 2 studies included participants aged 18-65 years without recent history of Lyme borreliosis or tick bites. Study one was conducted at nine clinical research and study centre sites in the USA (n=6), Germany (n=2), and Belgium (n=1); study two was conducted at five of the study one US sites. Based on a randomisation list created by an unmasked statistician for each study, participants were randomly assigned via an electronic case report form randomisation module to receive 90 μg (study one only), 135 μg, or 180 μg VLA15 or placebo by intramuscular injection at months 0, 1, and 2 (study one) or 0, 2, and 6 (study two). Study one began with a run-in phase to confirm safety, after which the Data Safety Monitoring Board recommended the removal of the 90 μg group and continuation of the study. In the study one run-in phase, randomisation was stratified by study site, whereas in the study one main phase and in study two, randomisation was stratified by study site, age group, and baseline B burgdorferi (sensu lato) serostatus. All individuals were masked, other than staff involved in randomisation, vaccine preparation or administration, or safety data monitoring. The primary endpoint for both studies was OspA-specific IgG geometric mean titres (GMTs) at 1 month after the third vaccination and was evaluated in the per-protocol population. Safety endpoints were evaluated in the safety population: all participants who received at least one vaccination. Both studies are registered at ClinicalTrials.gov (study one NCT03769194 and study two NCT03970733) and are completed.
For study one, 573 participants were screened and randomly assigned to treatment groups between Dec 21, 2018, and Sept, 26, 2019. For study two, 248 participants were screened and randomly assigned between June 26 and Sept 3, 2019. In study one, 29 participants were assigned to receive 90 μg VLA15, 215 to 135 μg, 205 to 180 μg, and 124 to placebo. In study two, 97 participants were assigned to receive 135 μg VLA15, 100 to 180 μg, and 51 to placebo. At 1 month after the third vaccination (ie, month 3), OspA-specific IgG GMTs in study one ranged from 74·3 (serotype 1; 95% CI 46·4-119·0) to 267·4 units per mL (serotype 3; 194·8-367·1) for 90 μg VLA15, 101·9 (serotype 1; 87·1-119·4) to 283·2 units per mL (serotype 3; 248·2-323·1) for 135 μg, and 115·8 (serotype 1; 98·8-135·7) to 308·6 units per mL (serotype 3; 266·8-356·8) for 180 μg. In study two, ranges at 1 month after the third vaccination (ie, month 7) were 278·5 (serotype 1; 214·9-361·0) to 545·2 units per mL (serotype 2; 431·8-688·4) for 135 μg VLA15 and 274·7 (serotype 1; 209·4-360·4) to 596·8 units per mL (serotype 3; 471·9-754·8) for 180 μg. Relative to placebo, the VLA15 groups had more frequent reports of solicited local adverse events (study one: 94%, 95% CI 91-96 vs 26%, 19-34; study two: 96%, 93-98 vs 35%, 24-49 after any vaccination) and solicited systemic adverse events (study one: 69%, 65-73 vs 43%, 34-52; study two: 74%, 67-80 vs 51%, 38-64); most were mild or moderate. In study one, unsolicited adverse events were reported by 52% (48-57) of participants in the VLA15 groups and 52% (43-60) of those in the placebo groups; for study two these were 65% (58-71) and 69% (55-80), respectively. Percentages of participants reporting serious unsolicited adverse events (study one: 2%, 1-4; study two: 4%, 2-7) and adverse events of special interest (study one: 1%, 0-2; study two: 1%, 0-3) were low across all groups. A single severe, possibly related unsolicited adverse event was reported (worsening of pre-existing ventricular extrasystoles, which resolved after change of relevant concomitant medication); no related serious adverse events or deaths were reported.
VLA15 was safe, well tolerated, and elicited robust antibody responses to all six OspA serotypes. These findings support further clinical development of VLA15 using the 180 μg dose and 0-2-6-month schedule, which was associated with the greatest immune responses.
Valneva.
莱姆病的发病率不断上升,可能出现严重后果,并且在准确及时地进行诊断以启动治疗方面存在局限性,这表明需要一种预防性疫苗;然而,目前尚无人类可用的疫苗。我们对成人进行了两项研究,以优化 VLA15 的剂量水平和接种方案,VLA15 是一种针对主要存在于欧洲和北美的最常见致病性伯氏疏螺旋体的外表面蛋白 A(OspA)血清型 1-6 的莱姆病候选疫苗。
这两项随机、观察者盲、安慰剂对照、多中心 2 期研究纳入了年龄在 18-65 岁之间、无近期莱姆病或蜱叮咬史的参与者。研究 1 在 9 个临床研究和研究中心进行,地点分别位于美国(n=6)、德国(n=2)和比利时(n=1);研究 2 在研究 1 的 5 个美国研究地点进行。基于每个研究的一个未蒙面统计学家创建的随机化列表,通过电子病例报告表随机化模块将参与者随机分配接受 90 μg(仅研究 1)、135 μg 或 180 μg VLA15 或安慰剂,通过肌内注射在 0、1 和 2 个月(研究 1)或 0、2 和 6 个月(研究 2)进行。研究 1 首先进行了一个入组期,以确认安全性,之后数据安全监测委员会建议去除 90 μg 组并继续研究。在研究 1 的入组期,随机化按研究地点分层,而在研究 1 的主要阶段和研究 2 中,随机化按研究地点、年龄组和基线 B burgdorferi(广义)血清学状态分层。所有个体均被设盲,除了参与随机化、疫苗准备或管理或安全性数据监测的工作人员。两项研究的主要终点均为第三次接种后 1 个月时的 OspA 特异性 IgG 几何平均滴度(GMT),并在方案人群中进行评估。安全性终点在安全性人群中进行评估:所有至少接受过一次接种的参与者。这两项研究均在 ClinicalTrials.gov 上注册(研究 1:NCT03769194 和研究 2:NCT03970733),现已完成。
对于研究 1,573 名参与者接受了筛选并随机分配至治疗组,时间为 2018 年 12 月 21 日至 2019 年 9 月 26 日。对于研究 2,248 名参与者于 2019 年 6 月 26 日至 9 月 3 日接受了筛选并随机分配。在研究 1 中,29 名参与者被分配接受 90 μg VLA15,215 名接受 135 μg,205 名接受 180 μg,124 名接受安慰剂。在研究 2 中,97 名参与者被分配接受 135 μg VLA15,100 名接受 180 μg,51 名接受安慰剂。在第三次接种后 1 个月(即第 3 个月),研究 1 中 OspA 特异性 IgG GMT 范围为 90 μg VLA15 组的 74.3(血清型 1;95%CI 46.4-119.0)至 267.4 单位/毫升(血清型 3;194.8-367.1),135 μg 组的 101.9(血清型 1;87.1-119.4)至 283.2 单位/毫升(血清型 3;248.2-323.1),180 μg 组的 115.8(血清型 1;98.8-135.7)至 308.6 单位/毫升(血清型 3;266.8-356.8)。在研究 2 中,第三次接种后 1 个月(即第 7 个月)的范围为 135 μg VLA15 组的 278.5(血清型 1;214.9-361.0)至 545.2 单位/毫升(血清型 2;431.8-688.4),180 μg 组的 274.7(血清型 1;209.4-360.4)至 596.8 单位/毫升(血清型 3;471.9-754.8)。与安慰剂相比,VLA15 组更频繁地报告了局部不良事件(研究 1:94%,95%CI 91-96 与 26%,19-34;研究 2:96%,93-98 与 35%,24-49 在任何接种后)和全身不良事件(研究 1:69%,65-73 与 43%,34-52;研究 2:74%,67-80 与 51%,38-64);大多数是轻度或中度的。在研究 1 中,VLA15 组和安慰剂组分别有 52%(48-57)和 52%(43-60)的参与者报告了未经报告的不良事件;在研究 2 中,这些比例分别为 65%(58-71)和 69%(55-80)。报告严重未经报告的不良事件(研究 1:2%,1-4;研究 2:4%,2-7)和特别关注的不良事件(研究 1:1%,0-2;研究 2:1%,0-3)的参与者比例在所有组中均较低。仅报告了 1 例严重程度可能相关的未经报告的不良事件(先前存在的室性期前收缩加重,在改变相关伴随药物后缓解);未报告相关严重不良事件或死亡。
VLA15 安全、耐受良好,并引起针对所有 6 种 OspA 血清型的强烈抗体反应。这些发现支持使用 180 μg 剂量和 0-2-6 个月方案进一步开发 VLA15,该方案与最大的免疫反应相关。
Valneva。
