Samir Rustam
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View article: Author Correction: Unsupervised discovery of tissue architecture in multiplexed imaging
Author Correction: Unsupervised discovery of tissue architecture in multiplexed imaging Open
View article: Unsupervised discovery of tissue architecture in multiplexed imaging
Unsupervised discovery of tissue architecture in multiplexed imaging Open
Multiplexed imaging and spatial transcriptomics enable highly resolved spatial characterization of cellular phenotypes, but still largely depend on laborious manual annotation to understand higher-order patterns of tissue organization. As …
View article: A Unique Cellular Organization of Human Distal Airways and Its Disarray in Chronic Obstructive Pulmonary Disease
A Unique Cellular Organization of Human Distal Airways and Its Disarray in Chronic Obstructive Pulmonary Disease Open
Rationale: Remodeling and loss of distal conducting airways, including preterminal and terminal bronchioles (pre-TBs/TBs), underlie progressive airflow limitation in chronic obstructive pulmonary disease (COPD). The cellular basis o…
View article: Unsupervised discovery of tissue architecture in multiplexed imaging
Unsupervised discovery of tissue architecture in multiplexed imaging Open
View article: Unsupervised discovery of tissue architecture in multiplexed imaging
Unsupervised discovery of tissue architecture in multiplexed imaging Open
Multiplexed imaging and spatial transcriptomics enable highly resolved spatial characterization of cellular phenotypes, but still largely depend on laborious manual annotation to understand higher-order patterns of tissue organization. As …
View article: Unsupervised discovery of tissue architecture in multiplexed imaging
Unsupervised discovery of tissue architecture in multiplexed imaging Open
Multiplexed imaging and spatial transcriptomics enable highly resolved spatial characterization of cellular phenotypes, but still largely depend on laborious manual annotation to understand higher-order patterns of tissue organization. As …
View article: A Unique Cellular Organization of Human Distal Airways and Its Disarray in Chronic Obstructive Pulmonary Disease
A Unique Cellular Organization of Human Distal Airways and Its Disarray in Chronic Obstructive Pulmonary Disease Open
In the human lung, terminal bronchioles (TBs), the most distal conducting airways, open to respiratory bronchioles (RBs) that lead to the alveolar region where gas exchange takes place. This transition occurs in pulmonary lobules, lung tis…