AI Article Synopsis
- Researchers often conduct cell and tissue culture in unnatural conditions, which limits the accuracy of their findings for actual biological functions.
- A new expandable multiplexed flow system for cell culture superfusion has been developed, featuring a compact pump capable of managing up to 48 channels, improving culture conditions.
- This system allows for realistic simulations of physiological processes, demonstrated through circadian entrainment with cortisol, enhancing the reliability of research outcomes in biomedical studies.
Article Abstract
Cells and tissues are routinely cultured for biological research with findings being extrapolated to their host organ and tissue function. However, most samples are cultured and studied in unphysiological environments, without temporal variation in the biochemical cues that are ubiquitous . The artificiality of these conditions undermines the predictive value of cell culture studies. We ascribe the prevalence of this suboptimal culture methodology to the lack of practical continuous flow systems that are economical and robust. Here, we design and implement an expandable multiplexed flow system for cell culture superfusion. By expanding on the concept of the planar peristaltic pump, we fabricated a highly compact and multiplexed pump head with up to 48 active pump lines. The pump is incorporated into a custom, open-top superfusion system configured for conventional multi-well culture plates. We then demonstrated the utility of the system for circadian entrainment using a daily cortisol pulse, generating a sustained circadian amplitude that is essential for physiological emulation and chrono-pharmacological studies. The multiplexed pump is complemented by a package of fluidic interconnection and management methods enabling user-friendly and scalable operation. Collectively, the suite of technologies provides a much-needed improvement in physiological emulation to support the predictive value of biomedical and biological research.
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| http://dx.doi.org/10.1039/d1lc00841b | DOI Listing |
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