Dongyoung Lee scite author profile

A microfluidic islet perifusion device was developed for the assessment of dynamic insulin secretion of multiple pancreatic islets and simultaneous fluorescence imaging of calcium influx and mitochondrial potential changes. The fanned out design of the second generation device optimized the efficient mixing and uniform distribution of rapid alternating solutions in the perifusion chamber and allowed for the generation of reproducible glucose gradients. Simultaneous imaging of calcium influx and mitochondrial potential changes in response to glucose stimulation showed high signal-noise ratio and spatial-temporal resolution. These results suggest that this system can be used for detailed study of the endocrine function of pancreatic islets with simultaneous imaging of intracellular ion fluxes and mitochondrial membrane potential changes. This tool can be used for quality assessment of islets preparation before transplantation and for in vitro studies of islet function.

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Systematic prevention of bubble formation and accumulation for long-term culture of pancreatic islet cells in microfluidic device

Wang

Lee

Zhang

et al. 2012

Biomed Microdevices

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Reliable long-term cell culture in microfluidic system is limited by air bubble formation and accumulation. In this study, we developed a bubble removal system capable of both trapping and discharging air bubbles in a consistent and reliable manner. Combined with PDMS (Polydimethylsiloxane) hydrophilic surface treatment and vacuum filling, a microfluidic perifusion system equipped with the bubble trap was successfully applied for long-term culture of mouse pancreatic islets with no bubble formation and no flow interruption. In addition to demonstrating normal cell viability and islet morphology, post-cultured islets exhibited normal insulin secretion kinetics, intracellular calcium signaling, and changes in mitochondrial potentials in response to glucose challenge. This design could be easily adapted by other microfluidic systems due to its simple design, ease of fabrication, and portability.

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Dual microfluidic perifusion networks for concurrent islet perifusion and optical imaging

Lee

Wang

Mendoza-Elias

et al. 2011

Biomed Microdevices

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In this study, a new class of duplex microfluidic device is described that utilizes a dual perifusion network to simultaneously perform live-cell optical imaging of physiological activities and study insulin release kinetics on two islet populations. In addition, this device incorporates on-chip staggered herringbone mixers (SHMs) to increase mixing efficiency and facilitate the generation of user-defined chemical gradients. Using mouse islets, we simultaneously measure dynamic insulin release, changes in mitochondrial potentials, and calcium influx in responses to insulin secretagogues (glucose and tolbutamide), showing a high signal-to-noise ratio and spatiotemporal resolution of all measured parameters for both perifusion chambers. This system has many potential applications for studying β-cell physiology and pathophysiology, as well as for therapeutic drug screening. This dual perifusion device is not limited to islet studies and could easily be applied to other tissues and cells without major modifications.

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Application of Microfluidic Technology to Pancreatic Islet Research: First Decade of Endeavor

Wang

Mendoza-Elias

et al. 2010

Bioanalysis

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β-cells respond to blood glucose by secreting insulin to maintain glucose homeostasis. Perifusion enables manipulation of biological and chemical cues in elucidating the mechanisms of β-cell physiology. Recently, microfluidic devices made of polydimethylsiloxane and Borofloat glass have been developed as miniaturized perifusion setups and demonstrated distinct advantages over conventional techniques in resolving rapid secretory and metabolic waveforms intrinsic to β-cells. In order to enhance sensing and monitoring capabilities, these devices have been integrated with analytical tools to increase assay throughput. The spatio-temporal resolutions of these analyses have been improved through enhanced flow control, valves and compartmentalization. For the first time, this review provides an overview of current devices used in islet studies and analyzes their strengths and experimental suitability. To realize the potential of microfluidic islet applications, it is essential to bridge the gap in design and application between engineers and biologists through the creation of standardized bioassays and user-friendly interfaces.

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Modified gold nanoparticle vectors: A biocompatible intracellular delivery system for pancreatic islet cell transplantation

Vega

Wang

Harvat

et al. 2010

Surgery

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Dongyoung Lee

Microfluidic perifusion and imaging device for multi-parametric islet function assessment

Systematic prevention of bubble formation and accumulation for long-term culture of pancreatic islet cells in microfluidic device

Dual microfluidic perifusion networks for concurrent islet perifusion and optical imaging

Application of Microfluidic Technology to Pancreatic Islet Research: First Decade of Endeavor

Modified gold nanoparticle vectors: A biocompatible intracellular delivery system for pancreatic islet cell transplantation

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