Microfluidic device for multimodal characterization of pancreatic islets

Mohammed, Javeed Shaikh; Wang, Yong; Harvat, Tricia A.; Oberholzer, José; Eddington, David T.

doi:10.1039/b809590f

Cited by 112 publications

(111 citation statements)

References 54 publications

(122 reference statements)

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“…Their significance still needs to be related to in vivo performance, and they can only provide an average assessment of islet preparation. Recently, a very interesting microfluidic device has been described which allows for the integration of different biochemical assays and optical imaging of the isolated islets (21). Although this is an exciting device, it is limited to in vitro applications.…”

Section: Introductionmentioning

confidence: 99%

Functional MRI characterization of isolated human islet activation

et al. 2010

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The noninvasive assessment of pancreatic islets would be an invaluable tool in advancing the treatment of type I diabetes and in understanding its pathophysiology. As shown previously in rodents, manganese-enhanced MRI (MEMRI) can be successfully used to quantify β-cell function. In this study, we successfully applied this technique to isolated human pancreatic islets in both a static and, more significantly, MRI-compatible perfusion set-up. Unlike rodent islets, which produced a significant increase in the signal-to-noise ratio (SNR) when treated with 25 µM MnCl(2) or less, human islets demonstrated significant manganese uptake when exposed to an extracellular concentration of 50 µM MnCl(2). Nonspecific passive manganese uptake was present and quantified in a 15% SNR increase over the control group. However, glucose-induced manganese uptake caused an SNR increase equal to 45% over nonactivated islets. This corresponds to a statistically significant decrease in the T(1) relaxation time from 1501 ms for untreated islets to 1362 ms following passive uptake, and to 861 ms following glucose stimulation. As expected, no manganese cytotoxicity was measured, as shown by normal insulin secretion profiles. These data confirm the viability of MEMRI to assess isolated human islet functionality in vitro, and this technique shows promise for the monitoring of their performance in vivo following transplantation.

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Section: Introductionmentioning

confidence: 99%

Functional MRI characterization of isolated human islet activation

et al. 2010

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“…In addition, microfluidic platforms can allow realtime measurements of islet secretion through continuous sampling of the islet effluent. 9 In terms of quantitative measurement, enzyme-linked immunosorbent assay (ELISA) and western blots are common standard techniques for quantification of insulin secretion, providing preliminary assessments of functionality. Although mature and specific, these techniques lack dynamic assessment, are costly and time-consuming, and they involve multistep protocols that often result in error.…”

Section: Introductionmentioning

confidence: 99%

“…16 The method of islet immobilization on different microfluidic platforms varies, including use of mechanical actuators 15 and well arrays. 9,17 Using actuators requires complicated islet loading procedures, prevents good perifusion around the islets, and subjects islets to mechanical stress. Well-type arrays enable immobilization of a small but sufficient quantity of islets for batch analysis of islet preparations.…”

Section: Introductionmentioning

confidence: 99%

Microfluidic platform for assessing pancreatic islet functionality through dielectric spectroscopy

et al. 2015

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Human pancreatic islets are seldom assessed for dynamic responses to external stimuli. Thus, the elucidation of human islet functionality would provide insights into the progression of diabetes mellitus, evaluation of preparations for clinical transplantation, as well as for the development of novel therapeutics. The objective of this study was to develop a microfluidic platform for in vitro islet culture, allowing the multi-parametric investigation of islet response to chemical and biochemical stimuli. This was accomplished through the fabrication and implementation of a microfluidic platform that allowed the perifusion of islet culture while integrating real-time monitoring using impedance spectroscopy, through microfabricated, interdigitated electrodes located along the microchamber arrays. Real-time impedance measurements provide important dielectric parameters, such as cell membrane capacitance and cytoplasmic conductivity, representing proliferation, differentiation, viability, and functionality. The perifusion of varying glucose concentrations and monitoring of the resulting impedance of pancreatic islets were performed as proof-of-concept validation of the lab-on-chip platform. This novel technique to elucidate the underlying mechanisms that dictate islet functionality is presented, providing new information regarding islet function that could improve the evaluation of islet preparations for transplantation. In addition, it will lead to a better understanding of fundamental diabetes-related islet dysfunction and the development of therapeutics through evaluation of potential drug effects. V C 2015 AIP Publishing LLC. [http://dx

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“…[ 8 ] Ability to reverse diabetes mellitus after islet infusion to diabetic nude mice has been used as the in vivo model to evaluate the islet potency, but the investigation can last for up to 45 d, which signifi cantly hinders the wide application of this method. [ 9 ] Thus far, assessing the mitochondrial functions, particularly measuring the oxygen consumption rate (OCR) of islets, appears to be the most promising assay, which correlates well with the transplant outcomes in the nude mice bioassay. [ 7 ] OCR provides an important readout to probe the islet viability and functionality because it refl ects multiple functional processes in pancreatic islets, which are associated with the insulin secretion, oxidative stress, and the viability of islets.…”

Section: Introductionmentioning

confidence: 99%

Sensing and Sensibility: Single‐Islet‐based Quality Control Assay of Cryopreserved Pancreatic Islets with Functionalized Hydrogel Microcapsules

Chen

Shu

Gao

et al. 2015

Adv Healthcare Materials

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Despite decades of research and clinical studies of islet transplantations, fi nding simple yet reliable islet quality assays that correlate accurately with in vivo potency is still a major challenge, especially for real-time and singleislet-based quality assessment. Herein, proof-of-concept studies of a cryopreserved microcapsule-based quality control assays are presented for single islets. Individual rat pancreatic islets and fl uorescent oxygen-sensitive dye (FOSD) are encapsulated in alginate hydrogel microcapsules via a microfl uidic device. To test the susceptibility of the microcapsules and the FOSD to cryopreservation, the islet microcapsules containing FOSD are cryopreserved and the islet functionalities (adenosine triphosphate, static insulin release measurement, and oxygen consumption rate) are assessed after freezing and thawing steps. The cryopreserved islet capsules with FOSD remain functional after encapsulation and freezing/thawing procedures, validating a simple yet reliable individual-islet-based quality control method for the entire islet processing procedure prior to transplantation. This work also demonstrates that the functionality of cryopreserved islets can be improved by introducing trehalose into the routinely used cryoprotectant dimethyl sulfoxide. The functionalized alginate hydrogel microcapsules with embedded FOSD and optimized cryopreservation protocol presented in this work serve as a versatile islet quality assay and offer tremendous promise for tackling existing challenges in islet transplantation procedures.

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Microfluidic device for multimodal characterization of pancreatic islets

Cited by 112 publications

References 54 publications

Functional MRI characterization of isolated human islet activation

Functional MRI characterization of isolated human islet activation

Microfluidic platform for assessing pancreatic islet functionality through dielectric spectroscopy

Sensing and Sensibility: Single‐Islet‐based Quality Control Assay of Cryopreserved Pancreatic Islets with Functionalized Hydrogel Microcapsules

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