An Outline of the Immunogenic Potential of Progressing SARSCoV- 2 Vaccine Technologies among Children and Adolescents.

Q3 Biochemistry, Genetics and Molecular Biology Recent patents on biotechnology Pub Date : 2024-01-01 DOI:10.2174/1872208317666230612141930
Hytham Ghanem, Shehab Ghanem, Ehsan AlMutawa
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Abstract

Background: SARS-CoV-2, a highly dynamic beta-coronavirus, can afflict all age groups. Notably, over 16100 mortalities have been recorded among children as yet. In this regard, many vaccine projects are operational to assess immuno-potency among young cohorts. A bulk of reports have evidenced the efficacy of these immunization technologies in the elderly population, though the impact is yet to be determined among children.

Objectives: This review is envisioned to outline the current efficacy of contributing vaccine technologies and examine the dose-dependent impact of immunization regimens in lowering the risks of SARS-CoV-2 infections among children and adolescents. Furthermore, the current review exclusively estimated the vaccine impact at current doses.

Methods: A total of 52 research papers extracted from PubMed, Pubmed Central, Science Direct, Research Gate, Google Scholar and Semantic Scholar were screened along with an emphasis on patents. Inclusion criteria involved all published reports directly or indirectly linked to the contributing vaccine candidates that are operational among the young cohort. Unrelated research papers were excluded from the study. Key search terminologies included information on vaccine identifiers, such as name, type and clinical trial ID, and successively restricted to children and adolscents age groups.

Results: Several vaccine designs, such as mRNA-based vaccinations, viral vector vaccines, DNA vaccines, inactivated vaccines, recombinant vaccines, and protein-based immunizations, are being examined at various stages of clinical trials to gauge the effects on children and adolescents. With reference to the published reports, the mRNA 1273 (1610 GMT; 6-10 yrs, 1401 GMT; 12-15 yrs), BNT162b2 (1407 GMT; 6 months- <2 yrs, 1535 GMT; 2-4 yrs, 4583 GMT; 5-11 yrs, 1239.5 GMT; 12-15 yrs) and Ad5 nCoV (1037.5 GMT; 6-17 yrs) offered relatively high neutralization titers with sharp seroconversion rates compared to MVC-COV1901 (648.5 GMT; 12-17 yrs) and ZyCoV-D (133.49 GMT; 12-17 yrs), which produced modest immune responses.

Conclusion: Currently, the WHO is analyzing emerging evidence to issue an emergency use list of vaccines for vaccinating children and adolescents.

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进展中的SARS-CoV-2疫苗技术在儿童和青少年中的免疫原性潜力概述
SARS-CoV-2是一种高度动态的乙型冠状病毒,可影响所有年龄组。值得注意的是,截至目前,儿童死亡人数已超过16100人。在这方面,许多疫苗项目正在运作,以评估年轻人群体的免疫效力。大量报告证明了这些免疫技术对老年人的有效性,但对儿童的影响尚待确定。本综述旨在概述现有疫苗技术的有效性,并研究免疫方案在降低儿童和青少年感染SARS-CoV-2风险方面的剂量依赖性影响。此外,目前的审查只估计了当前剂量下疫苗的影响。从PubMed、PubMed Central、ScienceDirect、research Gate、谷歌Scholar、Semantic Scholar等网站共筛选了52篇研究论文。纳入标准涉及所有与在年轻队列中起作用的候选疫苗直接或间接相关的已发表报告。不相关的研究论文被排除在研究之外。关键搜索术语包括疫苗标识符信息,如名称、类型和临床试验ID,并先后限制在儿童和青少年年龄组。几种疫苗设计,如基于mrna的疫苗接种、病毒载体疫苗、DNA疫苗、灭活疫苗、重组疫苗和基于蛋白质的免疫接种,正在临床试验的不同阶段进行审查,以评估对儿童和青少年的影响。参考已发表的报告,mRNA 1273(格林威治标准时间1610;6-10年,1401 GMT;12-15年),BNT162b2(格林尼治标准时间1407;6个月- <2年,1535 GMT;2-4年,4583 GMT;5-11年,1239.5 GMT;12-15岁)和Ad5 nCoV(格林威治标准时间1037.5;6-17岁)提供相对较高的中和滴度,与MVC-COV1901 (648.5 GMT;12-17岁)和ZyCoV-D (133.49 GMT;目前,世卫组织正在分析新出现的证据,以发布一份用于为儿童和青少年接种疫苗的紧急使用清单。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Recent patents on biotechnology
Recent patents on biotechnology Biochemistry, Genetics and Molecular Biology-Biotechnology
CiteScore
2.90
自引率
0.00%
发文量
51
期刊介绍: Recent Patents on Biotechnology publishes review articles by experts on recent patents on biotechnology. A selection of important and recent patents on biotechnology is also included in the journal. The journal is essential reading for all researchers involved in all fields of biotechnology.
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