Itzia Iglesias scite author profile

The choice of enzyme blend is critical for successful islet isolation. Islet yield, viability, integrity, and function are important factors that influence the outcome of islet transplantation. Liberase HI has been used as a standard enzyme for pancreas digestion and has successfully produced islets that reversed diabetes. However, the replacement of Liberase HI with collagenase NB1 has significantly influenced the process outcome, both in quality and quantity of the isolated islets. The assessment of islet cells by Flow Cytometry (FC) has been reported to be useful for evaluating islet quality. The aim of this study was to assess the isolation outcomes and islet quality when comparing human islet cell processed with Liberase HI and NB1. A total of 66 islet isolations, 46 processed using Liberase HI and 20 using Serva NB1, were retrospectively analyzed. Islet yield, function in vitro, islet cell viability by FC, as well as isolation-related factors were compared. There was no significant difference in donor characteristics such as age and height; however, body mass index (BMI) in the Liberase HI group was significantly higher. There was also no significant difference in prepurification, postisolation, or postculture IEQ or percent recovery between the two groups. Flow data showed Liberase HI preparations had a significantly higher percent of live cells (DAPI(-)) and NG(+)/TMRE(+) when compared to NB1. Stimulation Indices (SI) for Liberase HI (n = 45) showed 3.17 and NB1 (n = 18) 2.71 (p = NS). The results of Annexin V/DAPI staining for live, apoptotic, and necrotic cells were 50.7 ± 2.24%, 14.4 ± 1.02%, and 27.8 ± 1.92% for Liberase HI versus 48.1 ± 1.93%, 12.3 ± 0.92%, and 33.9 ± 2.28% for NB1. Islets isolated using Liberase HI showed higher viable β cells by NG/TMRE staining and decreased necrosis by Annexin V/DAPI staining. FC assessment may be useful for determining the choice of digestion enzyme to maximize viable islets.

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Standardized Transportation of Human Islets: An Islet Cell Resource Center Study of more than 2,000 Shipments

Kaddis

Hanson

Cravens

et al. 2013

Cell Transplant

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Preservation of cell quality during shipment of human pancreatic islets for use in laboratory research is a crucial, but neglected, topic. Mammalian cells, including islets, have been shown to be adversely affected by temperature changes in vitro and in vivo, yet protocols that control for thermal fluctuations during cell transport are lacking. To evaluate an optimal method of shipping human islets, an initial assessment of transportation conditions was conducted using standardized materials and operating procedures in 48 shipments sent to a central location by 8 pancreas-processing laboratories using a single commercial airline transporter. Optimization of preliminary conditions was conducted, and human islet quality was then evaluated in 2,338 shipments pre- and post-implementation of a finalized transportation container and standard operating procedures. The initial assessment revealed that the outside temperature ranged from a mean of −4.6±10.3°C to 20.9±4.8°C. Within-container temperature drops to or below 15°C occurred in 16 shipments (36%), while the temperature was found to be stabilized between 15–29°C in 29 shipments (64%). Implementation of an optimized transportation container and operating procedure reduced the number of within-container temperature drops (≤15°C) to 13% (n=37 of 289 winter shipments), improved the number desirably maintained between 15–29°C to 86% (n=250), but also increased the number reaching or exceeding 29°C to 1% (n=2; overall p<0.0001). Additionally, post-receipt quality ratings of excellent to good improved pre- vs. post- implementation of the standardized protocol, adjusting for pre-shipment purity/viability levels (p<0.0001). Our results show that extreme temperature fluctuations during transport of human islets, occurring when using a commercial airline transporter for long distance shipping, can be controlled using standardized containers, materials, and operating procedures. This cost-effective and pragmatic standardized protocol for the transportation of human islets can potentially be adapted for use with other mammalian cell systems, and is available online at: http://iidp.coh.org/sops.aspx.

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Comprehensive Analysis of Human Pancreatic Islets Using Flow and Laser Scanning Cytometry

Iglesias

Bentsi-Barnes

Umeadi

et al. 2008

Transplantation Proceedings

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Assessing islet cellular composition and beta cell viability using Flow Cytometry (FC) and Laser Scanning Cytometry (LSC) may aid in determining the transplant quality of islets. Human islets (2500 IEQ, n = 44, purity >or=80%) dissociated into a single cell suspension were stained with ductal marker CA19, with Newport Green (NG) and FluoZin3 (FL3) for beta-cell identification, with TMRE to assess mitochondrial membrane potential, with DAPI to identify live vs. dead cells, and with Annexin-V/DAPI to differentiate apoptotic and necrotic cells. For LSC, cell preparations (n = 9) were stained for insulin (beta-cells), glucagon (alpha-cells), somatostatin (delta cells), and pancreatic polypeptide (ppp cells). Fluorescence microscopy (EtBr/FDA) and insulin response were also measured. DAPI- staining was 73.78% +/- 1.37, while EtBr/FDA was 96% +/- 0.48. 52.5% +/- 3.73 of all cells were NG+, of which 58.08% +/- 2.61 were NG+/TMRE+. Annexin-V/DAPI staining (n = 26) showed 13.8% +/- 0.89 apoptotic, 27.2% +/- 2.0 necrotic, and 51.9% +/- 2.22 live cells. 26.0% +/- 5.19 of cells were CA19 positive (n = 17), of which 45.5% +/- 4.37 were also TMRE+, and 5.2% +/- 1.2 of the TMRE+ were also NG+/CA19+. NG and FL3 showed similar staining (n = 8). Comparison of short-term (or=3 days) culture showed similar TMRE+/NG+ averages, albeit lower percentages of live (36.4% vs 51.9%), and higher percentages of apoptotic (19.2% vs 13.8%) and necrotic cells (37.4% vs 27.2%) for long-term, as determined by Annexin-V staining. LSC resulted in 54.17% +/- 4.62 beta-cells, 33.33% +/- 4.16 alpha-cells, 8.75% +/- 2.5 delta-cells, and 3.75% +/- 0.79 ppp cells. There is no significant difference between insulin positive cells and NG positive cells (P

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Testing Combinations of Protease Inhibitor and Preservation Solution to Improve Islet Quality and Yield

Al-Abdullah¹,

Bentsi-Barnes²,

Valiente³

et al. 2008

Transplantation Proceedings

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Itzia Iglesias

The Effects of Digestion Enzymes on Islet Viability and Cellular Composition

Standardized Transportation of Human Islets: An Islet Cell Resource Center Study of more than 2,000 Shipments

Comprehensive Analysis of Human Pancreatic Islets Using Flow and Laser Scanning Cytometry

Testing Combinations of Protease Inhibitor and Preservation Solution to Improve Islet Quality and Yield

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