Multivariate Cluster Point Process to Quantify and Explore Multi-Entity Configurations: Application to Biofilm Image Data.

IF 1.8 4区 医学 Q3 MATHEMATICAL & COMPUTATIONAL BIOLOGY
Statistics in Medicine Pub Date : 2024-12-10 Epub Date: 2024-10-24 DOI:10.1002/sim.10261
Suman Majumder, Brent A Coull, Jessica L Mark Welch, Patrick J La Riviere, Floyd E Dewhirst, Jacqueline R Starr, Kyu Ha Lee
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引用次数: 0

Abstract

Clusters of similar or dissimilar objects are encountered in many fields. Frequently used approaches treat each cluster's central object as latent. Yet, often objects of one or more types cluster around objects of another type. Such arrangements are common in biomedical images of cells, in which nearby cell types likely interact. Quantifying spatial relationships may elucidate biological mechanisms. Parent-offspring statistical frameworks can be usefully applied even when central objects ("parents") differ from peripheral ones ("offspring"). We propose the novel multivariate cluster point process (MCPP) to quantify multi-object (e.g., multi-cellular) arrangements. Unlike commonly used approaches, the MCPP exploits locations of the central parent object in clusters. It accounts for possibly multilayered, multivariate clustering. The model formulation requires specification of which object types function as cluster centers and which reside peripherally. If such information is unknown, the relative roles of object types may be explored by comparing fit of different models via the deviance information criterion (DIC). In simulated data, we compared a series of models' DIC; the MCPP correctly identified simulated relationships. It also produced more accurate and precise parameter estimates than the classical univariate Neyman-Scott process model. We also used the MCPP to quantify proposed configurations and explore new ones in human dental plaque biofilm image data. MCPP models quantified simultaneous clustering of Streptococcus and Porphyromonas around Corynebacterium and of Pasteurellaceae around Streptococcus and successfully captured hypothesized structures for all taxa. Further exploration suggested the presence of clustering between Fusobacterium and Leptotrichia, a previously unreported relationship.

量化和探索多实体配置的多变量聚类点过程:生物膜图像数据的应用。
在许多领域都会遇到相似或不相似的对象集群。常用的方法是将每个聚类的中心对象视为潜在对象。然而,一种或多种类型的物体往往会聚集在另一种类型的物体周围。这种排列在细胞的生物医学图像中很常见,其中附近的细胞类型可能会相互作用。量化空间关系可以阐明生物机制。即使中心对象("亲代")与外围对象("子代")不同,亲代-子代统计框架也能有效应用。我们提出了新颖的多变量聚类点过程(MCPP)来量化多对象(如多细胞)排列。与常用方法不同的是,MCPP 利用了簇中中心父对象的位置。它考虑到了可能的多层次、多变量聚类。模型表述需要说明哪些对象类型作为聚类中心,哪些位于外围。如果此类信息未知,则可通过偏差信息准则(DIC)比较不同模型的拟合度,从而探索对象类型的相对作用。在模拟数据中,我们比较了一系列模型的 DIC;MCPP 能正确识别模拟关系。与经典的单变量 Neyman-Scott 过程模型相比,它还能产生更准确、更精确的参数估计。我们还使用 MCPP 对人类牙菌斑生物膜图像数据中的拟议配置进行量化,并探索新的配置。MCPP 模型量化了链球菌和卟啉单胞菌围绕棒状杆菌以及巴斯德菌科围绕链球菌的同时聚类,并成功捕捉到了所有类群的假设结构。进一步的探索表明,镰刀菌和钩端螺旋体之间存在聚类关系,这种关系以前从未报道过。
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来源期刊
Statistics in Medicine
Statistics in Medicine 医学-公共卫生、环境卫生与职业卫生
CiteScore
3.40
自引率
10.00%
发文量
334
审稿时长
2-4 weeks
期刊介绍: The journal aims to influence practice in medicine and its associated sciences through the publication of papers on statistical and other quantitative methods. Papers will explain new methods and demonstrate their application, preferably through a substantive, real, motivating example or a comprehensive evaluation based on an illustrative example. Alternatively, papers will report on case-studies where creative use or technical generalizations of established methodology is directed towards a substantive application. Reviews of, and tutorials on, general topics relevant to the application of statistics to medicine will also be published. The main criteria for publication are appropriateness of the statistical methods to a particular medical problem and clarity of exposition. Papers with primarily mathematical content will be excluded. The journal aims to enhance communication between statisticians, clinicians and medical researchers.
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