Issue 11, 2021

A microfluidic bubble perfusion device for brain slice culture

Abstract

Ex vivo brain slice cultures are utilized as analytical models for studying neurophysiology. Common approaches to maintaining slice cultures include roller tube and membrane interface techniques. The rise of organ-on-chip technologies has demonstrated the value of microfluidic perfusion culture systems for sampling and analysis of complex biology under well-controlled in vitro or ex vivo conditions. A number of approaches to microfluidic brain slice culture have been developed, however these typically involve complex design, fabrication, or operational parameters in order to meet the high oxygen demands of brain slices. Here, we present proof-of-principle for a novel approach to microfluidic brain slice culture. In this system, which we term a microfluidic bubble perfusion device, principles of droplet microfluidics were employed to generate droplets of perfusion media dispersed between bubbles of carbogen gas, and brain tissue slices were perfused with the resulting monodispersed droplets and bubbles. The challenge of tissue immobilization in the flow system was addressed using a two-part cytocompatible carbohydrate-based tissue adhesive. Best practices are discussed for perfusion chamber designs that maintain segmented flow throughout the course of perfusion. Control of droplet and bubble volumes was possible across the range of ca. 4–15 μL, bubble generation frequency was well controlled in the range ca. 1–7 bubbles per min, and bubble duty cycle was well controlled across the range ca. 20–80%. Murine hypothalamic tissue slices containing the suprachiasmatic nuclei were successfully maintained for durations of 8–10 hours, with tissue remaining viable for the duration of perfusion as assessed by Ca2+ imaging and propidium iodide (PI) staining.

Graphical abstract: A microfluidic bubble perfusion device for brain slice culture

Supplementary files

Article information

Article type
Paper
Submitted
16 Dec 2020
Accepted
17 Feb 2021
First published
18 Feb 2021

Anal. Methods, 2021,13, 1364-1373

A microfluidic bubble perfusion device for brain slice culture

A. Saleheen, D. Acharyya, R. A. Prosser and C. A. Baker, Anal. Methods, 2021, 13, 1364 DOI: 10.1039/D0AY02291H

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