Astrocytes, a major cell type found throughout the central nervous system, have general roles in the modulation of synapse formation and synaptic transmission, blood-brain barrier formation, and regulation of blood flow, as well as metabolic support of other brain resident cells. Crucially, emerging evidence shows specific adaptations and astrocyte-encoded functions in regions, such as the spinal cord and cerebellum. To investigate the true extent of astrocyte molecular diversity across forebrain regions, we used single-cell RNA sequencing. Our analysis identifies five transcriptomically distinct astrocyte subtypes in adult mouse cortex and hippocampus. Validation of our data in situ reveals distinct spatial positioning of defined subtypes, reflecting the distribution of morphologically and physiologically distinct astrocyte populations. Our findings are evidence for specialized astrocyte subtypes between and within brain regions. The data are available through an online database (https://holt-sc. glialab.org/), providing a resource on which to base explorations of local astrocyte diversity and function in the brain.
Peritoneal dialysis (PD) is an effective home-based therapy for end-stage renal failure. Intraperitoneal administration of drugs to PD patients is particularly important for the treatment of peritonitis. Clinicians need to know that the administered drug is compatible with both the PD solution and its container. A detailed literature search on drug compatibility and stability was performed and results of all published stability studies are presented for all drugs, PD solutions, and containers studied. These data will aid clinicians managing PD patients and provide a resource to demonstrate which drugs have been shown to be stable in various PD solutions and solution containers. This is important information to assist clinicians in applying effective treatments, in particular, for peritonitis.
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