许多疫苗接种不良反应的病因学模型,包括SARS-CoV-2刺突疫苗

IF 0.9 Q4 IMMUNOLOGY
D. Ricke
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引用次数: 0

摘要

目的接种疫苗的个体(接种者)在接种后没有不良事件、轻度不良事件、多重不良事件或严重不良事件。许多疫苗不良事件发生在不同的疫苗上,发生频率也不同。许多这些不良事件通常被认为与对活性疫苗成分(抗原)和/或可能对一种或多种疫苗辅料的免疫反应有关。这些疫苗不良事件大多数是自限性的,并在几天内消退。SARS-CoV-2刺突疫苗的疫苗不良反应数量高于所有其他疫苗。疫苗不良反应反应的数据分析能否为高反应原性疫苗提供病因学见解?方法采用疫苗不良事件报告系统(VAERS)数据库,按疫苗、年龄、性别、剂量、接种后发病日期等分类,对所有疫苗不良事件数据进行挖掘。结果与不良事件数量最多的疫苗进行比较。结果对于报告数量最多的疫苗和不良事件,发病日在前三天近似为2次幂衰减模式。多种不相关疫苗的这种模式的一致性缩小了可能的病因机制。许多不良事件症状与组胺水平升高相关的症状重叠。在这里,先天免疫反应和特异性升高的组胺水平被认为是大多数这些不良事件的原因。这一假设是基于先天免疫反应模型,该模型释放了大量炎症分子,包括组胺;据推测,这种激增超过了疫苗接种者正常的组胺耐受水平,导致了反应性不良事件。此外,当组胺水平低于接种者的耐受阈值时,这些症状就会消失。该模型可以通过检测与症状发作时间相对应的疫苗接种者组胺水平升高来评估。如果得到证实,该模型的直接结果预测,特定的抗组胺治疗、肥大细胞稳定剂和可能的二胺氧化酶可能会降低疫苗接种者在接种大多数或所有高反应性疫苗(包括2019冠状病毒病(COVID-19)刺突疫苗)后经历的不良事件的发生率或严重程度。结论:报告的大多数不良事件的起病发生率与较高反应原性水平的疫苗接种的先天免疫应答的可能病因一致。本文提出的假设是,大多数不良事件是由组胺激增暂时超过疫苗接种者的耐受水平引起的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Etiology model for many vaccination adverse reactions, including SARS-CoV-2 spike vaccines
Objective Vaccinated individuals (vaccinees) experience no adverse events, mild adverse events, multiple adverse events, or serious adverse events post vaccination. Many of these vaccine adverse events occur with different vaccines with different occurrence frequencies. Many of these adverse events are generally considered as associated with immune responses to the active vaccine components (antigens) and/or to possibly one or more of the vaccine excipients. Most of these vaccine adverse events are self-limiting and resolve within days. The number of vaccine adverse reactions is higher for SARS-CoV-2 spike vaccines than all other vaccines. Can data analysis of vaccine adverse reactions responses provide etiology insights for high reactogenicity vaccines? Methods The Vaccine Adverse Event Reporting System (VAERS) database was data mined for all vaccine adverse events data by vaccine, age, gender, dose, and day of onset post vaccination. Results for vaccines with the highest number of adverse events were compared. Results For vaccines and adverse events with the highest numbers of reports, the day of onset approximates a power of two decay pattern for the first three days. The consistency of this pattern for multiple unrelated vaccines narrows possible etiology mechanisms. Many of these adverse event symptoms overlap symptoms associated with elevated histamine levels. Herein, innate immune responses and specifically elevated histamine levels are proposed to be causative for the majority of these adverse events. This hypothesis is based on a model of innate immune responses releasing a surge of inflammatory molecules, including histamine; this surge is hypothesized to exceed the normal histamine tolerance level for vaccinees causing reactogenicity adverse events. Further, these symptoms resolve as histamine levels fall below the vaccinee's tolerance threshold. This model can be evaluated by the detection of elevated histamine levels in vaccinees corresponding to timing of symptoms onset. If confirmed, a direct consequence of this model predicts that specific antihistamine treatments, mast cell stabilizers, and possibly diamine oxidase enzyme may reduce the incidence or severity of adverse events experienced by vaccinees post vaccinations for most or all high reactogenicity vaccines including coronavirus disease 2019 (COVID-19) spike vaccines. Conclusions The reported onset occurrences of the majority of reported adverse events are consistent with the likely etiology of innate immune responses to vaccinations for vaccines with higher reactogenicity levels. Herein, the hypothesis is proposed that the majority of these adverse events result from a histamine surge that temporarily exceeds the vaccinee's tolerance level.
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