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In JoVE (2)
- Human Pancreatic Islet Isolation: Part I: Digestion and Collection of Pancreatic Tissue
- Human Pancreatic Islet Isolation: Part II: Purification and Culture of Human Islets
Other Publications (17)
- Pancreas
- Biomaterials
- Neuroscience Letters
- The Journal of Surgical Research
- Pancreas
- Neuroscience Letters
- Transplantation
- Immunology Letters
- Pancreas
- Transplantation
- Artificial Cells, Blood Substitutes, and Immobilization Biotechnology
- Bioanalysis
- Cell Transplantation
- The Journal of Surgical Research
- Journal of Microencapsulation
- Biomedical Microdevices
- Diabetes Care
Articles by Meirigeng Qi in JoVE
JoVE General
Human Pancreatic Islet Isolation: Part I: Digestion and Collection of Pancreatic Tissue
Department of Surgery, University of Illinois, Chicago
Achieving high quality and appropriate quantity of human islets is one of the prominent prerequisites for successful islet transplantation. In this video, we describe step by step the procedures for human pancreatic islet isolation (part I: digestion and collection of pancreatic tissue) using a modified automated method.
JoVE General
Human Pancreatic Islet Isolation: Part II: Purification and Culture of Human Islets
Department of Surgery, University of Illinois, Chicago
Achieving high quality and appropriate quantity of human islets is one of the prominent prerequisites for successful islet transplantation. In this video, we describe step by step the procedures for human pancreatic islet isolation (part II: purification and culture of human islets) using a modified automated method.
Other articles by Meirigeng Qi on PubMed
In Vivo Functioning and Transplantable Mature Pancreatic Islet-like Cell Clusters Differentiated from Embryonic Stem Cell
Although the differentiation of embryonic stem (ES) cells to islet like clusters using differentiation method without employing gene transfer technique has been recently reported, neither endocrine granules in the cytoplasm nor in vivo function of differentiated islet like clusters has been demonstrated.
PVA Hydrogel Sheet Macroencapsulation for the Bioartificial Pancreas
We newly developed a sheet-type macroencapsulation device entrapping rat islets from 3% polyvinyl alcohol (PVA) dissolved in Euro-Collins solution containing 10% fetal bovine serum and 5% dimethyl sulfoxide (PVA + EC) using a freezing/thawing technique. The same encapsulation technique but with 3% PVA dissolved only in double-distilled water (PVA) and a culture of free islets were served as controls. After 14-day culture in the CMRL-1066 medium, the islet recovery rate, morphological changes, insulin content, and insulin secretion were evaluated in vitro to prove the feasibility of this method of encapsulation. We also xenotransplanted the device into the peritoneal cavity of diabetic C57BL/6 mice to check its function in vivo. After 1-day culture, the islet recovery rate and insulin content in the PVA group were significantly lower than that in the PVA + EC and free islet groups. After 14-day culture, only the islets in the PVA+EC group maintained a normal morphology and effective insulin secretory response to high glucose while the response was not observed in the PVA group after 1-day culture and no longer observed in the free islets after 7-day culture. After transplantation of rat islets encapsulated in the PVA + EC device to diabetic C57BL/6 mice, nonfasting blood glucose levels showed a rapid decrease from high glucose levels of pre-transplantation, maintaining significantly lower glucose levels during the whole course of study in comparison with the sham-operated group. Our results indicated that this freezing/thawing macroencapsulation technique using 3% PVA + EC was effective for xenotransplantation of islet cells.
Transplantation of Mouse Embryonic Stem Cell-derived Neurons into the Striatum, Subthalamic Nucleus and Substantia Nigra, and Behavioral Recovery in Hemiparkinsonian Rats
Usefulness of the in vitro and in vivo generation of neural precursors from embryonic stem (ES) cells has been widely discussed, but functional recovery in animal models of Parkinson's disease (PD) is not fully understood. The aim of this study was to investigate a transplantation strategy for PD by assessing whether double-transplants in the striatum (ST) and substantia nigra (SN), or ST and subthalamic nucleus (STN) induce functional recovery in 6-hydroxydopamine-lesioned rats. Methamphetamine-induced rotation was significantly reduced by transplantation of mouse ES cell-derived neurons into the ST, but not the STN or SN alone. Double-transplantation was also effective at recovering rotational behavior. Although immunoreactivity for tyrosine hydroxylase (TH) was almost completely lost in the ipsilateral striatum in hemiparkinsonian rats, TH immunoreactivity was detected in transplanted cells and sprouting fibers in the ST, STN and SN. These results suggest that both the involvement of ST as a place of transplantation and the number of ES cell-derived neurons are essential factors for efficacy on hemiparkinsonian behaviors.
Cold Preservation of Islets in UW Solution--with Special Reference to Apoptosis
Apoptosis progresses in cultured islets. Little is known with regard to apoptosis under cold preservation. We examined viability and function of islets in University of Wisconsin (UW) solution.
Effect of Rat-to-mouse Bioartificial Pancreas Xenotransplantation on Diabetic Renal Damage and Survival
Diabetic nephropathy is a life-threatening complication of diabetes mellitus. Bioartificial pancreas transplantation is becoming a therapeutic option for diabetes mellitus as it protects both allogeneic and xenogeneic islets from the host immune system. This study was undertaken to determine the effectiveness of bioartificial pancreas transplantation to improve or prevent diabetic renal damage.
Improvement of Focal Ischemia-induced Rat Dopaminergic Dysfunction by Striatal Transplantation of Mouse Embryonic Stem Cells
Middle cerebral artery occlusion (MCAO) caused behavioral dysfunction with massive neuronal loss. Cell transplantation may recover this deficit by replacing damaged brain cells. In this study, we examined the effects of transplantation of mouse embryonic stem (ES) cells or ES cell-derived neuron-like (ES-N) cells on behavioral function in ischemic rats. Seven days after MCAO, ES or ES-N cells were transplanted into ipsilateral striata (but not the substantia nigra) of ischemic rats. Transplanted rats exhibited a gradual reduction in the number of rotations induced by methamphetamine compared to vehicle-injected rats. These rats also showed a significant improvement in rota-rod performance. At 15 weeks after transplantation, immunoreactivities for tyrosine hydroxylase (TH) and dopamine transporter (DAT) in the striatum were significantly recovered in rats grafted with ES or ES-N cells compared to vehicle-injected rats. These results suggest that intrastriatal-transplantation of ES or ES-N cells improved the dopaminergic function and subsequently recover behavioral dysfunction in focal ischemic rats.
Human Islet Isolation Outcomes from Pancreata Preserved with Histidine-Tryptophan Ketoglutarate Versus University of Wisconsin Solution
This study was designed to compare Histadine-Tryptophan-Ketogluterate (HTK) with University of Wisconsin (UW) solution. Pancreata from extended criteria donors were flushed and transported with HTK (n=41) or UW (n=45). Isolation outcomes were determined by islet yields, viability and in vitro and in vivo function. Final yields were similar between two groups (HTK: 383,085 vs. UW: 328,514 EIN, P=0.14). In the HTK group, 63.4% (26/41) of isolations resulted in a yield of over 300,000, and in the UW group this was achieved in 46.7% (21/45; P=0.12). Viability results were similar (HTK: 82.9 vs. UW: 82.7%, P=0.93). Stimulation index in the HTK and UW groups were comparable (5.28 vs. 4.91, P=0.62). Ten out of 41 islet preparations in HTK and 4 of 45 in UW group were suitable for clinical transplantation (P=0.05). Our study shows HTK is equivalent to UW solution in the preservation of pancreata for islet isolation.
Immune Regulation of T Lymphocyte by a Newly Characterized Human Umbilical Cord Blood Stem Cell
Previous work identified a novel type of stem cell from human umbilical cord blood, designated cord blood-stem cells (CB-SC). To further evaluate their immune characteristics, we cocultured CB-SC with allogeneic peripheral blood lymphocytes in the presence of phytohaemagglutinin (PHA) or interleukin-2 (IL-2). Results showed that CB-SC could significantly inhibit lymphocyte proliferation and reduce tyrosine phosphorylation of STAT5 in both PHA- and IL-2-stimulated lymphocytes, along with the regulation on the phenotypes of CD4+ and CD8+ T cells. Additionally, CB-SC also suppressed the proliferation of IL-2-stimulated CD4+CD25+ regulatory T cells. Mechanism studies revealed that programmed death receptor-1 ligand 1 (PD-L1) expressed on CB-SC membrane, together with a soluble factor nitric oxide (NO) released by PHA-stimulated CB-SC, not prostaglandin E2 (PGE2) and transforming growth factor-beta1 (TGF-beta1), mainly contributed to the T cell suppression induced by CB-SC, as demonstrated by blocking experiments with a nitric oxide synthase inhibitor (Nomega-nitro-l-arginine, l-NNA) and a neutralizing antibody to PD-L1. Our findings may advance our understanding of the immunobiology of stem cells and facilitate the therapeutic application of cord blood stem cells.
Hyperglycemia and Diabetic Renal Change in a Model of Polyvinyl Alcohol Bioartificial Pancreas Transplantation
We have developed a bioartificial pancreas transplantation method using polyvinyl alcohol. Using this model, the relationship between hyperglycemia and parameters that represent renal function was investigated.
Improved Human Pancreatic Islet Purification with the Refined UIC-UB Density Gradient
Human islet isolation outcomes were compared between two purification methods; 32 pancreases were processed by conventional Biocoll purification method (SM, standard method) and 132 pancreases by a refined University of Illinois at Chicago UW/Biocoll method (UIC-UB). There was no difference in donor characteristics between the two study groups. The prepurification equivalent islet number was similar between the groups (359,425+/-40,794 equivalent islet number in SM vs. 370,682+/-17,579 in UIC-UB). SM purified islets were mostly collected in only 2 of 12 fractions (68.9% and 36.3% purity). With the UIC-UB, highly purified islets were collected in 6 of 12 separate fractions (fractions 3-8 with purity of 84.8%, 82.5%, 72.0%, 59.3%, 46.8%, and 36.2%). UIC-UB yielded significantly greater islet yield compared with SM (368,419+/-18,245 vs. 260,908+/-37,835, P=0.017). Islet recovery rate was superior in UIC-UB (84.9% vs. 64.5%, P=0.04). Our study demonstrates a superior recovery of highly pure human pancreatic islets after purification using the refined method of UIC-UB gradient.
Encapsulation of Human Islets in Novel Inhomogeneous Alginate-ca2+/ba2+ Microbeads: in Vitro and in Vivo Function
Microencapsulation may allow for immunosuppression-free islet transplantation. Herein we investigated whether human islets can be shipped safely to a remote encapsulation core facility and maintain in vitro and in vivo functionality. In non-encapsulated islets before and encapsulated islets after shipment, viability was 88.3+/-2.5 and 87.5+/-2.7% (n=6, p=0.30). Stimulation index after static glucose incubation was 5.4+/-0.5 and 6.3+/-0.4 (n=6, p=0.18), respectively. After intraperitoneal transplantation, long-term normoglycemia was consistently achieved with 3,000, 5,000, and 10,000 IEQ encapsulated human islets. When transplanting 1,000 IEQ, mice returned to hyperglycemia after 30-55 (n=4/7) and 160 days (n=3/7). Transplanted mice showed human oral glucose tolerance with lower glucose levels than non-diabetic control mice. Capsules retrieved after transplantation were intact, with only minimal overgrowth. This study shows that human islets maintained the viability and in vitro function after encapsulation and the inhomogeneous alginate-Ca(2+)/Ba(2+) microbeads allow for long-term in vivo human islet graft function, despite long-distance shipment.
Application of Microfluidic Technology to Pancreatic Islet Research: First Decade of Endeavor
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.
Highly Purified Versus Filtered Crude Collagenase: Comparable Human Islet Isolation Outcomes
This study was designed to retrospectively compare the impact of crude Sigma V collagenase (Sigma V, n=52) with high-purified Serva NB1 collagenase (Serva NB1, n=42) on human islet isolation outcomes. A three-step filtration was applied to the crude Sigma V to remove endotoxin contamination and impurities; in addition, this process was used as a lot prescreening tool. Isolation outcomes were determined by digestion efficacy, islet yields, purity, viability, glucose-stimulated insulin release, and endotoxin content. The digestion efficacy between Sigma V and Serva NB1 was statistically significant (Sigma V: 64.71% vs. Serva NB1: 69.71%, p=0.0014). However, the islet yields were similar (Sigma V: 23422.58 vs. Serva NB1: 271097 IEq, p=0.23) between groups. There was no significant purity difference observed in fractions with purities greater than 75%. Viability (Sigma V: 93.3% vs. Serva NB1: 94.8%, p=0.061) and stimulation indexes (Sigma V: 3.41 vs. Serva NB1: 2.74, p=0.187) were also similar between the two groups. The impact of cold ischemia and age on the isolation outcome in the Sigma V group was comparable to the Serva NB1 group. The endotoxin content of the final products in the filtered Sigma V group was significantly less than that in the high-purified Serva NB1 group (0.022 EU/ml vs. 0.052 EU/ml, p=0.003). Additionally, in the Sigma V group there was minimal lot to lot variation and no significant loss of enzymatic activity after filtration. These findings indicate that the use of Sigma V or other crude enzyme blends for research pancreata is warranted to reduce isolation costs and increase the amount of islets available for critical islet research. These findings also validate the need for a systematic enzyme analysis to resolve these inconsistencies in overall enzyme quality once and for all.
A Recommended Laparoscopic Procedure for Implantation of Microcapsules in the Peritoneal Cavity of Non-human Primates
The anatomical spatial distribution of microencapsulated islets transplanted into the peritoneal cavity of large animals remains a relatively unexplored area of study. In this study, we developed a new implantation approach using laparoscopy in order to avoid microcapsule amalgamation. This approach constitutes a clinically relevant method, which can be used to evaluate the distribution and in vivo biocompatibility of various types of transplanted microcapsules in the future.
Effect of Prolonged Gelling Time on the Intrinsic Properties of Barium Alginate Microcapsules and Its Biocompatibility
Pericapsular fibrotic overgrowth (PFO) may be attributed to an immune response against microcapsules themselves or to antigen shedding through microcapsule pores from encapsulated islet tissue. Modification of microcapsules aimed at reducing pore size should prevent PFO and improve graft survival. This study investigated the effect of increased gelling time (20 vs. 2 min) in barium chloride on intrinsic properties of alginate microcapsules and tested their biocompatibility in vivo. Prolonged gelling time affected neither permeability nor size of the microcapsules. However, prolonged gelling time for 20 min produced brittle microcapsules compared to 2 min during compression test. Encapsulation of human islets in both types of microcapsules affected neither islet viability nor function. The presence of PFO when transplanted into a large animal model such as baboon and its absence in small animal models such as rodents suggest that the host immune response towards alginate microcapsules is species rather than alginate specific.
Dual Microfluidic Perifusion Networks for Concurrent Islet Perifusion and Optical Imaging
This study explores a new class of duplex microfluidic device which utilizes a dual perifusion network to simultaneously perform live-cell optical imaging of physiological activities and study insulin release kinetics on two islet populations. This device also incorporates on-chip staggered herringbone mixers (SHMs) to increase mixing efficiency and facilitate the generation of user-defined chemical gradients. Mouse islets are used to simultaneously measure dynamic insulin release, changes in mitochondrial potentials, and calcium influx in response to insulin secretagogues (glucose and tolbutamide), and show 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.
Long-term Metabolic and Immunological Follow-up of Nonimmunosuppressed Patients with Type 1 Diabetes Treated with Microencapsulated Islet Allografts: Four Cases
To assess long-term metabolic and immunological follow-up of microencapsulated human islet allografts in nonimmunosuppressed patients with type 1 diabetes (T1DM).
