Toxicologic Pathology Forum Opinion: Interpretation of Gliosis in the Brain and Spinal Cord Observed During Nonclinical Safety Studies.

IF 1.4 4区 医学 Q3 PATHOLOGY Toxicologic Pathology Pub Date : 2023-01-01 Epub Date: 2023-04-14 DOI:10.1177/01926233231164557
Brad Bolon
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Abstract

Gliosis, defined as a nonneoplastic reaction (hypertrophy and/or proliferation) of astrocytes and/or microglial cells, is a frequent finding in the central nervous system (CNS [brain and/or spinal cord]) in nonclinical safety studies. Gliosis in rodents and nonrodents occurs at low incidence as a spontaneous finding and is induced by various test articles (e.g., biomolecules, cell and gene therapies, small molecules) delivered centrally (i.e., by injection or infusion into cerebrospinal fluid or neural tissue) or systemically. Several CNS gliosis patterns occur in nonclinical species. First, gliosis may accompany degeneration and/or necrosis of cells (mainly neurons) or neural parenchyma (neuron processes and myelin). Second, gliosis often follows inflammation (i.e., leukocyte accumulation causing parenchymal damage) or neoplasm formation. Third, gliosis may appear as variably sized, randomly scattered foci of reactive glial cells in the absence of visible parenchymal damage or inflammation. In interpreting test article-related CNS gliosis, adversity is indicated by parenchymal injury (e.g., degeneration, necrosis, or inflammation) and not the mere existence of a glial reaction. In the absence of clear structural damage to the parenchyma, gliosis as a standalone CNS finding should be interpreted as a nonadverse reaction to regional alterations in microenvironmental conditions rather than as evidence of a glial reaction associated with neurotoxicity.

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毒理病理学论坛意见:非临床安全性研究中观察到的大脑和脊髓胶质增生的解释。
神经胶质增生被定义为星形胶质细胞和/或小胶质细胞的非肿瘤性反应(肥大和/或增生),是非临床安全性研究在中枢神经系统(CNS [大脑和/或脊髓])中经常发现的现象。啮齿类动物和非啮齿类动物神经胶质增生的发生率较低,是一种自发现象,各种试验品(如生物大分子、细胞和基因疗法、小分子)通过中枢给药(即注射或输注到脑脊液或神经组织中)或全身给药均可诱发神经胶质增生。在非临床物种中会出现几种中枢神经系统胶质增生模式。首先,胶质增生可能伴随细胞(主要是神经元)或神经实质(神经元突触和髓鞘)的变性和/或坏死。其次,神经胶质增生往往伴随着炎症(即白细胞聚集导致实质损伤)或肿瘤的形成。第三,神经胶质增生可能表现为大小不一、随机散布的反应性神经胶质细胞灶,而没有可见的实质损伤或炎症。在解释与试验品相关的中枢神经系统神经胶质病变时,实质损伤(如变性、坏死或炎症)而非单纯的神经胶质反应的存在才是逆境的表现。在实质结构没有明显损伤的情况下,神经胶质增生作为中枢神经系统的一个独立发现,应被解释为对微环境条件区域性改变的非逆反应,而不是与神经毒性相关的神经胶质反应的证据。
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来源期刊
Toxicologic Pathology
Toxicologic Pathology 医学-病理学
CiteScore
4.70
自引率
20.00%
发文量
57
审稿时长
6-12 weeks
期刊介绍: Toxicologic Pathology is dedicated to the promotion of human, animal, and environmental health through the dissemination of knowledge, techniques, and guidelines to enhance the understanding and practice of toxicologic pathology. Toxicologic Pathology, the official journal of the Society of Toxicologic Pathology, will publish Original Research Articles, Symposium Articles, Review Articles, Meeting Reports, New Techniques, and Position Papers that are relevant to toxicologic pathology.
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