Wu Yue, Li Lu, Li Yi-Tong, Zhang Lei, Gong Shuang, Zhang Yang, Wang Jue, Zhang Ling, Kong Qi
Institute of Laboratory Animal Sciences, CAMS & PUMC, National Human Diseases Animal Model Resource Center, National Center of Technology Innovation for Animal Model, NHC Key Laboratory of Comparative Medicine, State Key Laboratory of Respiratory Health and Multimorbidity, Key Laboratory of Pathogen Infection Prevention and Control (Peking Union Medical College), Ministry of Education, Beijing, China.
Nutshell Therapeutics (Shanghai) co., Ltd, Shanghai, China.
CNS Neurosci Ther. 2025 May;31(5):e70411. doi: 10.1111/cns.70411.
Research on animal models of neurological diseases has primarily focused on understanding pathogenic mechanisms, advacing diagnostic strateggies, developing pharmacotherapies, and exploring preventive interventions. To facilitate comprehensive and systematic studies in this filed, we have developed the Neurological Disease Animal Model Database (ND-AMD), accessible at https://www.uc-med.net/NDAMD. This database is signed around the central theme of "Big Data - Neurological Diseases - Animal Models - Mechanism Research," integrating large-scale, multi-dimensional, and multi-scale data to facilitate in-depth analyses. ND-AMD serves as a resource for panoramic studies, enabling comparative and mechanistic research across diverse experimental conditions, species, and disease models.
Data were systematically retrieved from PubMed, Web of Science, and other relevant databases using Boolean search strategies with standardized MeSH terms and keywords. The collected data were curated and integrated into a structured SQL-based framework, ensuring consistency through automated validation checks and manual verification. Heterogeneity and sensitivity analyses were conducted using Cochran's Q test and the I statistic to assess variability across studies. Statistical workflows were implemented in Python (SciPy, Pandas, NumPy) to support multi-scale data integration, trend analysis, and model validation. Additionally, a text co-occurrence network analysis was performed using Natural Language Processing (TF-IDF and word embeddings) to identify key conceptual linkages and semantic structures across studies.
ND-AMD integrates data from 483 animal models of neurological diseases, covering eight disease categories, 21 specific diseases, 13 species, and 152 strains. The database provides a comprehensive repository of experimental and phenotypic data, covering behavioral, physiological, biochemical, molecular pathology, immunological, and imaging characteristics. Additionally, it incorporates application-oriented data, such as drug evaluation outcomes. To enhance data accessibility and facilitate in-depth analysis, ND-AMD features three custom-developed online tools: Model Frequency Analysis, Comparative Phenotypic Analysis, and Bibliometric Analysis, enabling systematic comparison and trend identification across models and experimental conditions.
The centralized feature of ND-AMD enables comparative analysis across different animal models, strains, and experimental conditions. It helps capture intricate interactions between biological systems at different levels, ranging from molecular mechanisms to cellular processes, neural networks, and behavioral outcomes. These models play a vital role as tools in replicating pathological conditions of neurological diseases. By offering users convenient, efficient, and intuitive access to data, ND-AMD enables researchers to identify patterns, trends, and potential therapeutic targets that may not be apparent in individual studies.
神经疾病动物模型的研究主要集中在理解致病机制、推进诊断策略、开发药物疗法以及探索预防干预措施。为了促进该领域的全面系统研究,我们开发了神经疾病动物模型数据库(ND - AMD),可通过https://www.uc - med.net/NDAMD访问。该数据库围绕“大数据 - 神经疾病 - 动物模型 - 机制研究”这一核心主题构建,整合了大规模、多维度和多尺度的数据,以利于深入分析。ND - AMD作为全景研究的资源,能够在不同的实验条件、物种和疾病模型之间进行比较和机制研究。
使用基于布尔搜索策略的标准化医学主题词(MeSH)术语和关键词,从PubMed、Web of Science和其他相关数据库中系统检索数据。收集到的数据经过整理并整合到基于结构化SQL的框架中,通过自动验证检查和人工核查确保一致性。使用 Cochr an's Q检验和I统计量进行异质性和敏感性分析,以评估各研究之间的变异性。在Python(SciPy、Pandas、NumPy)中实施统计工作流程,以支持多尺度数据整合、趋势分析和模型验证。此外,使用自然语言处理(TF - IDF和词嵌入)进行文本共现网络分析,以识别各研究之间的关键概念联系和语义结构。
ND - AMD整合了来自483种神经疾病动物模型的数据,涵盖8个疾病类别、21种特定疾病、13个物种和152个品系。该数据库提供了实验和表型数据的全面存储库,包括行为、生理、生化、分子病理学、免疫学和成像特征。此外,它还纳入了面向应用的数据,如药物评估结果。为了提高数据的可访问性并便于深入分析,ND - AMD具有三个定制开发的在线工具:模型频率分析、比较表型分析和文献计量分析,能够在模型和实验条件之间进行系统比较和趋势识别。
ND - AMD的集中化特点使得能够在不同的动物模型、品系和实验条件之间进行比较分析。它有助于捕捉从分子机制到细胞过程、神经网络和行为结果等不同层面生物系统之间的复杂相互作用。这些模型作为复制神经疾病病理状况的工具发挥着至关重要的作用。通过为用户提供方便、高效且直观的数据访问,ND - AMD使研究人员能够识别个体研究中可能不明显的模式、趋势和潜在治疗靶点。
