Experimental animal models for brain abscess: a systematic review.

IF 1 4区医学 Q4 CLINICAL NEUROLOGY British Journal of Neurosurgery Pub Date : 2024-12-01 Epub Date: 2022-12-29 DOI:10.1080/02688697.2022.2160865

Theis Mariager, Carsten Bjarkam, Henrik Nielsen, Jacob Bodilsen

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Abstract

Background: Brain abscess (BA) is a rare, but severe infection and experimental BA animal models may prove crucial for advances in treatment. This review describes the development of experimental BA models and the clinical advances obtained from these, in a historical perspective.

Material and methods: Experimental BA studies from inception until June 15, 2022, were included by searching the PubMed and Embase databases. Inclusion required the use of an experimental BA animal model. Non-bacterial BA models, in vitro studies, veterinarian case-reports, and articles written in non-English language were excluded. Bias was not systematically assessed, and the review was not registered at the PROSPERO.

Results: 79 studies were included. The majority of animal BA models have been based on small rodents using Staphylococcus aureus. The models have delineated the natural development of BA and provided detailed descriptions of the histopathological characteristics consisting of a necrotic centre surrounded by layers of inflammatory cells and fibroblasts encapsulated by a dense collagenous layer. Radiological studies of animal BA have been shown to correlate with the corresponding stages of human BA in both computed tomography and magnetic resonance imaging and may guide diagnosis as well as the timing of neurosurgical intervention. Moreover, pharmacokinetic studies of the intracavitary penetration of various antimicrobials have helped inform medical treatment of BA. Other studies have examined the diverse effects of corticosteroids including decreased cerebral oedema, intracranial pressure, and intracavitary drug concentration, whereas concerns on decreased or weakened capsule formation could not be confirmed. Finally, studies on the immunological response to BA have highlighted potential future immunomodulatory targets.

Conclusions: Animal models have been vital for improvements in the management of BA. Experimental BA models resembling human disease including polymicrobial infection by oral cavity flora in large animals are needed.

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脑脓肿的实验动物模型：系统综述。

背景：脑脓肿（BA）是一种罕见但严重的感染，实验性脑脓肿动物模型可能被证明是治疗进展的关键。这篇综述从历史的角度描述了实验性 BA 模型的发展以及由此取得的临床进展：通过检索 PubMed 和 Embase 数据库，纳入了从开始到 2022 年 6 月 15 日的实验性 BA 研究。纳入要求使用实验性 BA 动物模型。排除了非细菌性鼻炎模型、体外研究、兽医病例报告以及非英语撰写的文章。未对偏倚进行系统评估，也未在 PROSPERO 网站上注册该综述：结果：共纳入 79 项研究。大多数动物 BA 模型都是以小型啮齿动物为基础，使用金黄色葡萄球菌。这些模型描述了 BA 的自然发展过程，并详细描述了其组织病理学特征，即坏死中心被炎症细胞层和成纤维细胞层包围，并被致密的胶原层包裹。对动物 BA 的放射学研究表明，计算机断层扫描和磁共振成像与人类 BA 的相应阶段相关，可为诊断和神经外科干预的时机提供指导。此外，对各种抗菌药物腔内渗透的药代动力学研究也有助于为 BA 的医学治疗提供依据。其他研究还探讨了皮质类固醇的各种作用，包括减轻脑水肿、降低颅内压和腔内药物浓度，但关于囊形成减少或减弱的担忧却无法证实。最后，对 BA 免疫反应的研究强调了未来潜在的免疫调节目标：动物模型对改善 BA 的治疗至关重要。需要建立与人类疾病相似的 BA 实验模型，包括大型动物口腔菌群的多微生物感染。

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

British Journal of Neurosurgery 医学-临床神经学

CiteScore

2.30

自引率

9.10%

发文量

139

审稿时长

3-8 weeks

期刊介绍： The British Journal of Neurosurgery is a leading international forum for debate in the field of neurosurgery, publishing original peer-reviewed articles of the highest quality, along with comment and correspondence on all topics of current interest to neurosurgeons worldwide. Coverage includes all aspects of case assessment and surgical practice, as well as wide-ranging research, with an emphasis on clinical rather than experimental material. Special emphasis is placed on postgraduate education with review articles on basic neurosciences and on the theory behind advances in techniques, investigation and clinical management. All papers are submitted to rigorous and independent peer-review, ensuring the journal’s wide citation and its appearance in the major abstracting and indexing services.