AI Article Synopsis
- A microfluidic islet perifusion device was created to study insulin secretion from multiple islets while allowing for simultaneous imaging of calcium and mitochondrial changes.
- The device has a three-layer design: the first layer immobilizes the islets in microscale wells; the second layer contains a circular chamber for perifusion; and the third layer includes a channel for mixing solutions before entering the chamber.
- It can generate different glucose concentration patterns, such as linear, bell-shaped, and square gradients, enhancing the experimental capabilities of the device.
Article Abstract
A microfluidic islet perifusion device was developed for the assessment of dynamic insulin secretion of multiple islets and simultaneous fluorescence imaging of calcium influx and mitochondrial potential changes. The device consists of three layers: first layer contains an array of microscale wells (500 mum diameter and 150 mum depth) that help to immobilize the islets while exposed to flow and maximize the exposed surface area of the islets; the second layer contains a circular perifusion chamber (3 mm deep, 7 mm diameter); and the third layer contains an inlet-mixing channel that fans out before injection into the perifusion chamber (2 mm in width, 19 mm in length, and 500 mum in height) for optimizing the mixing efficiency prior to entering the perifusion chamber. The creation of various glucose gradients including a linear, bell shape, and square shapes also can be created in the microfluidic perifusion network and is demonstrated.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2819793 | PMC |
| http://dx.doi.org/10.3791/1649 | DOI Listing |
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