Your search keyword '"de Koning, Eelco"' showing total 28 results

1. Presence of immunogenic alternatively spliced insulin gene product in human pancreatic delta cells

Author

van Tienhoven, René, Kracht, Maria J. L., van der Slik, Arno R., Thomaidou, Sofia, Wolters, Anouk H. G., Giepmans, Ben N. G., Riojas, Juan Pablo Romero, Nelson, Michael S., Carlotti, Françoise, de Koning, Eelco J. P., Hoeben, Rob C., Zaldumbide, Arnaud, and Roep, Bart O.

Published

2023

2. Genetic regulation of RNA splicing in human pancreatic islets

Author

Atla, Goutham, Bonàs-Guarch, Silvia, Cuenca-Ardura, Mirabai, Beucher, Anthony, Crouch, Daniel J. M., Garcia-Hurtado, Javier, Moran, Ignasi, Irimia, Manuel, Prasad, Rashmi B., Gloyn, Anna L., Marselli, Lorella, Suleiman, Mara, Berney, Thierry, de Koning, Eelco J. P., Kerr-Conte, Julie, Pattou, Francois, Todd, John A., Piemonti, Lorenzo, and Ferrer, Jorge

Published

2022

3. Stimulation of vascularization of a subcutaneous scaffold applicable for pancreatic islet‐transplantation enhances immediate post‐transplant islet graft function but not long‐term normoglycemia

Author

Smink, Alexandra M, Li, Shiri, Swart, Daniël H, Hertsig, Don T, de Haan, Bart J, Kamps, Jan AAM, Schwab, Leendert, van Apeldoorn, Aart A, de Koning, Eelco, Faas, Marijke M, Lakey, Jonathan RT, and de Vos, Paul

Subjects

Engineering, Biomedical Engineering, Transplantation, Digestive Diseases, Diabetes, Metabolic and endocrine, Animals, Blood Glucose, Delayed-Action Preparations, Glucose Tolerance Test, Human Umbilical Vein Endothelial Cells, Humans, Insulin, Intercellular Signaling Peptides and Proteins, Islets of Langerhans, Islets of Langerhans Transplantation, Liposomes, Male, Mice, Nude, Neovascularization, Physiologic, Rats, Sprague-Dawley, Subcutaneous Tissue, Time Factors, Tissue Scaffolds, type 1 diabetes, islet transplantation, controlled growth factor release, vascularization, scaffold, Chemical Sciences, Biological Sciences, Biological sciences, Chemical sciences

Abstract

The liver as transplantation site for pancreatic islets is associated with significant loss of islets, which can be prevented by grafting in a prevascularized, subcutaneous scaffold. Supporting vascularization of a scaffold to limit the period of ischemia is challenging and was developed here by applying liposomes for controlled release of angiogenic factors. The angiogenic capacity of platelet-derived growth factor, vascular endothelial growth factor, acidic fibroblast growth factor (aFGF), and basic FGF were compared in a tube formation assay. Furthermore, the release kinetics of different liposome compositions were tested. aFGF and L-α-phosphatidylcholine/cholesterol liposomes were selected to support vascularization. Two dosages of aFGF-liposomes (0.5 and 1.0 μg aFGF per injection) were administered weekly for a month after which islets were transplanted. We observed enhanced efficacy in the immediate post-transplant period compared to the untreated scaffolds. However, on the long-term, glucose levels of the aFGF treated animals started to increase to diabetic levels. These results suggest that injections with aFGF liposomes do improve vascularization and the immediate restoration of blood glucose levels but does not facilitate the long-term survival of islets. Our data emphasize the need for long-term studies to evaluate potential beneficial and adverse effects of vascularization protocols of scaffolds. © 2017 Wiley Periodicals, Inc. J Biomed Mater Res Part A: 105A: 2533-2542, 2017.

Published

2017

4. Pancreatic β-Cell Identity Change through the Lens of Single-Cell Omics Research.

Author

Leenders, Floris, de Koning, Eelco J. P., and Carlotti, Françoise

Subjects

*TYPE 2 diabetes, *TYPE 1 diabetes, *ENDOPLASMIC reticulum, *DEPERSONALIZATION, *OXIDATIVE stress

Abstract

The main hallmark in the development of both type 1 and type 2 diabetes is a decline in functional β-cell mass. This decline is predominantly attributed to β-cell death, although recent findings suggest that the loss of β-cell identity may also contribute to β-cell dysfunction. This phenomenon is characterized by a reduced expression of key markers associated with β-cell identity. This review delves into the insights gained from single-cell omics research specifically focused on β-cell identity. It highlights how single-cell omics based studies have uncovered an unexpected level of heterogeneity among β-cells and have facilitated the identification of distinct β-cell subpopulations through the discovery of cell surface markers, transcriptional regulators, the upregulation of stress-related genes, and alterations in chromatin activity. Furthermore, specific subsets of β-cells have been identified in diabetes, such as displaying an immature, dedifferentiated gene signature, expressing significantly lower insulin mRNA levels, and expressing increased β-cell precursor markers. Additionally, single-cell omics has increased insight into the detrimental effects of diabetes-associated conditions, including endoplasmic reticulum stress, oxidative stress, and inflammation, on β-cell identity. Lastly, this review outlines the factors that may influence the identification of β-cell subpopulations when designing and performing a single-cell omics experiment. [ABSTRACT FROM AUTHOR]

Published

2024

5. Impact of a Public Health Emergency on Behavior, Stress, Anxiety and Glycemic Control in Patients With Pancreas or Islet Transplantation for Type 1 Diabetes.

Author

Landstra, Cyril P., Ruissen, Merel M., Regeer, Hannah, Nijhoff, Michiel F., Ballieux, Bart E. P. B., van der Boog, Paul J. M., de Vries, Aiko P. J., Huisman, Sasja D., and de Koning, Eelco J. P.

Subjects

GLYCEMIC control, TYPE 1 diabetes, CONTINUOUS glucose monitoring, PANCREAS transplantation, HEALTH behavior, LONELINESS

Abstract

A public health emergency such as the COVID-19 pandemic has behavioral, mental and physical implications in patients with type 1 diabetes (T1D). To what extent the presence of a transplant further increases this burden is not known. Therefore, we compared T1D patients with an islet or pancreas transplant (β-cell Tx; n = 51) to control T1D patients (n = 272). Fear of coronavirus infection was higher in those with β-cell Tx than without (Visual Analogue Scale 5.0 (3.0-7.0) vs. 3.0 (2.0-5.0), p = 0.004) and social isolation behavior was more stringent (45.8% vs. 14.0% reported not leaving the house, p < 0.001). A previous β-cell Tx was the most important predictor of at-home isolation. Glycemic control worsened in patients with β-cell Tx, but improved in control patients (ΔHbA1c +1.67 ± 8.74 vs. -1.72 ± 6.15 mmol/mol, p = 0.006; ΔTime-In-Range during continuous glucose monitoring -4.5% (-6.0%-1.5%) vs. +3.0% (-2.0%-6.0%), p = 0.038). Fewer patients with β-cell Tx reported easier glycemic control during lockdown (10.4% vs. 22.6%, p = 0.015). All T1D patients, regardless of transplantation status, experienced stress (33.4%), anxiety (27.9%), decreased physical activity (42.0%), weight gain (40.5%), and increased insulin requirements (29.7%). In conclusion, T1D patients with β-cell Tx are increasingly affected by a viral pandemic lockdown with higher fear of infection, more stringent social isolation behavior and deterioration of glycemic control. [ABSTRACT FROM AUTHOR]

Published

2024

6. Simultaneous pancreas–kidney transplantation in patients with type 1 diabetes reverses elevated MBL levels in association with MBL2 genotype and VEGF expression

Author

Bijkerk, Roel, van der Pol, Pieter, Khairoun, Meriem, van Gijlswijk-Jansen, Danielle J., Lievers, Ellen, de Vries, Aiko P. J., de Koning, Eelco J., de Fijter, Hans W., Roelen, Dave L., Vossen, Rolf H. A. M., van Zonneveld, Anton Jan, van Kooten, Cees, and Reinders, Marlies E. J.

Published

2016

7. Genetic regulation of RNA splicing in human pancreatic islets

Author

Goutham Atla, Bonàs-Guarch, Sílvia, Cuenca-Ardura, Mirabai, Beucher, Anthony, Crouch, Daniel J.M., Garcia-Hurtado, Javier, Moran, Ignasi, T2DSystems Consortium, Irimia, Manuel, Prasad, Rashmi B, Gloyn, Anna L., Marselli, Lorella, Suleiman, Mara, Berney, Thierry, De Koning, Eelco J P, Kerr-Conte, Julie, Pattou, Francois, Todd, John A., Piemonti, Lorenzo, Ferrer, Jorge, Atla, Goutham, Bonàs-Guarch, Silvia, Cuenca-Ardura, Mirabai, Beucher, Anthony, Crouch, Daniel J M, Garcia-Hurtado, Javier, Moran, Ignasi, Irimia, Manuel, Prasad, Rashmi B, Gloyn, Anna L, Marselli, Lorella, Suleiman, Mara, Berney, Thierry, de Koning, Eelco J P, Kerr-Conte, Julie, Pattou, Francoi, Todd, John A, Piemonti, Lorenzo, Ferrer, Jorge, Barcelona Supercomputing Center, Wellcome Trust, Imperial College Healthcare NHS Trust- BRC Funding, and Medical Research Council (MRC)

Subjects

Informàtica::Aplicacions de la informàtica::Bioinformàtica [Àrees temàtiques de la UPC], Quantitative trait loci, RNA splicing, Bioinformatics, Diabetes pathophysiology, 05 Environmental Sciences, Pancreatic islets, G-protein signaling, TWAS, Senescence, CTRB2, Islets of Langerhans, Humans, Protein Isoforms, T2D, eQTLs, Diabetes, Beta cells, Type 2 diabetes, 06 Biological Sciences, Pancreatic beta-cells, Beta cell, Type 1 diabetes, Exodeoxyribonucleases, Diabetes Mellitus, Type 1, Diabetes Mellitus, Type 2, RNA, Long Noncoding, 08 Information and Computing Sciences, sQTLs, T2DSystems Consortium, Genètica, Proinsulin

Abstract

Background Non-coding genetic variants that influence gene transcription in pancreatic islets play a major role in the susceptibility to type 2 diabetes (T2D), and likely also contribute to type 1 diabetes (T1D) risk. For many loci, however, the mechanisms through which non-coding variants influence diabetes susceptibility are unknown. Results We examine splicing QTLs (sQTLs) in pancreatic islets from 399 human donors and observe that common genetic variation has a widespread influence on the splicing of genes with established roles in islet biology and diabetes. In parallel, we profile expression QTLs (eQTLs) and use transcriptome-wide association as well as genetic co-localization studies to assign islet sQTLs or eQTLs to T2D and T1D susceptibility signals, many of which lack candidate effector genes. This analysis reveals biologically plausible mechanisms, including the association of T2D with an sQTL that creates a nonsense isoform in ERO1B, a regulator of ER-stress and proinsulin biosynthesis. The expanded list of T2D risk effector genes reveals overrepresented pathways, including regulators of G-protein-mediated cAMP production. The analysis of sQTLs also reveals candidate effector genes for T1D susceptibility such as DCLRE1B, a senescence regulator, and lncRNA MEG3. Conclusions These data expose widespread effects of common genetic variants on RNA splicing in pancreatic islets. The results support a role for splicing variation in diabetes susceptibility, and offer a new set of genetic targets with potential therapeutic benefit. This research was supported by Ministerio de Ciencia e Innovación (BFU2014-54284-R, RTI2018-095666-B-I00), Medical Research Council (MR/L02036X/1), a Wellcome Trust Senior Investigator Award (WT101033), European Research Council Advanced Grant (789055), EU Horizon 2020 TDSystems (667191), ESPACE (874710), and Marie Sklodowska-Curie (643062, ZENCODE). S.B.G was supported by a Juan de la Cierva postdoctoral fellowship (MINECO; FJCI-2017-32090). M.C.A was supported by a Boehringer Ingelheim Fonds PhD fellowship. Work in CRG was supported by the CERCA Programme, Generalitat de Catalunya, Centro de Excelencia Severo Ochoa (CEX2020-001049), and support of the Spanish Ministry of Science and Innovation to the EMBL partnership. Work in Imperial College was supported by NIHR Imperial Biomedical Research Centre. M.I. was supported by a European Research Council consolidator award (101002275). D.J.M.C. and J.A.T. were supported by JDRF grants 9-2011-253, 5-SRA-2015-130-A-N, 4- SRA-2017-473-A-N, and Wellcome grants 091157/Z/10/Z and 107212/Z/15/Z, to the Diabetes and Inflammation Laboratory, Oxford, as well as the Oxford Biomedical Research Computing (BMRC) facility, a joint development between the Wellcome Centre for Human Genetics and the Big Data Institute supported by Health Data Research UK and NIHR Oxford Biomedical Research Centre, and Wellcome Trust Core Award grant 203141/Z/16/Z. D.M.J.C analysis with the UK Biobank Resource was conducted under Application 31295. A.L.G. is a Wellcome Senior Fellow in Basic Biomedical Science and was supported by the Wellcome Trust (095101, 200837, 106130, 203141), the NIDDK (U01DK105535 and UM1 DK126185), and the Oxford NIHR Biomedical Research Centre. Peer Reviewed "Article signat per 20 autors/es: Goutham Atla, Silvia Bonàs-Guarch, Mirabai Cuenca-Ardura, Anthony Beucher, Daniel J. M. Crouch, Javier Garcia-Hurtado, Ignasi Moran, the T2DSystems Consortium, Manuel Irimia, Rashmi B. Prasad, Anna L. Gloyn, Lorella Marselli, Mara Suleiman, Thierry Berney, Eelco J. P. de Koning, Julie Kerr-Conte, Francois Pattou, John A. Todd, Lorenzo Piemonti & Jorge Ferrer"

Published

2022

8. Monitoring β-Cell Survival After Intrahepatic Islet Transplantation Using Dynamic Exendin PET Imaging: A Proof-of-Concept Study in Individuals With Type 1 Diabetes.

Author

Jansen, Theodorus J.P., Buitinga, Mijke, Boss, Marti, Nijhoff, Michiel F., Brom, Maarten, de Galan, Bastiaan E., van der Graaf, Marinette, van Koeverden, Sebastiaan, Vantyghem, Marie-Christine, Beron, Amandine, Pattou, François, Engelse, Marten A., Velikyan, Irina, Eriksson, Olof, de Koning, Eelco J.P., and Gotthardt, Martin

Subjects

TYPE 1 diabetes, POSITRON emission tomography, ISLANDS, DIAGNOSTIC imaging, ISLANDS of Langerhans

Abstract

Intrahepatic transplantation of islets of Langerhans (ITx) is a treatment option for individuals with complicated type 1 diabetes and profoundly unstable glycemic control, but its therapeutic success is hampered by deterioration of graft function over time. To improve ITx strategies, technologies to noninvasively monitor the fate and survival of transplanted islets over time are of great potential value. We used [68Ga]Ga-NODAGA-exendin-4 (68Ga-exendin) positron emission tomography (PET)/computed tomography (CT) imaging to demonstrate the feasibility of quantifying β-cell mass in intrahepatic islet grafts in 13 individuals with type 1 diabetes, nine after ITx with functional islet grafts and four control patients not treated with ITx. β-Cell function was measured by mixed-meal tolerance test. With dynamic 68Ga-exendin PET/CT images, we determined tracer accumulation in hepatic hotspots, and intrahepatic fat was assessed using MRI and spectroscopy. Quantification of hepatic hotspots showed a significantly higher uptake of 68Ga-exendin in the ITx group compared with the control group (median 0.55 [interquartile range 0.51–0.63] vs. 0.43 [0.42–0.45]). GLP-1 receptor expression was found in transplanted islets by immunohistochemistry. Intrahepatic fat was not detected in a majority of the individuals. Our study provides the first clinical evidence that radiolabeled exendin imaging can be used to monitor viable transplanted islets after intraportal ITx. Article Highlights: This clinical study researched the potential of radiolabeled exendin to follow the fate and survival of intrahepatic islet grafts. Is it feasible to quantitatively detect intrahepatic islet transplants with [68Ga]Ga-NODAGA-exendin-4 (68Ga-exendin) positron emission tomography (PET) imaging? Our study findings indicate that the imaging technique 68Ga-exendin PET can be used to monitor viable islet mass after intrahepatic islet transplantation in humans. Alongside functional measures, 68Ga-exendin PET imaging could significantly aid in the evaluation of strategies designed to improve islet engraftment, survival, and function. [ABSTRACT FROM AUTHOR]

Published

2023

9. Reimagining care for young adults living with type 1 diabetes.

Author

Morrissey, Eimear C, Dinneen, Sean F, Lowry, Michelle, de Koning, Eelco JP, and Kunneman, Marleen

Subjects

TYPE 1 diabetes, YOUNG adults

Abstract

Young adults living with type 1 diabetes often struggle to achieve what clinicians consider to be optimal levels of metabolic control. Despite the impact that this can have on a young person's future risk of complications, there are relatively few studies reporting new ways of organizing or delivering care to this cohort. In this article, we explore some of the reasons why young adult diabetes care is challenging, and describe approaches to "re‐imagining" how care might be improved. The work is informed by the 'Making Care Fit' collaborative and by a program of research, entitled D1 Now, involving co‐design of a complex person‐centered intervention with young adults. [ABSTRACT FROM AUTHOR]

Published

2022

10. Quantification of Unmethylated Insulin DNA Using Methylation Sensitive Restriction Enzyme Digital Polymerase Chain Reaction.

Author

van de Leemkolk, Fenna E. M., Nell, Rogier J., Versluis, Mieke, de Koning, Eelco J. P., Huurman, Volkert A. L., Alwayn, Ian P. J., Ploeg, Rutger J., van der Velden, Pieter A., and Engelse, Marten A.

Subjects

DNA methylation, POLYMERASE chain reaction, INSULIN therapy, TYPE 1 diabetes, CELL survival, NUCLEIC acid isolation methods, ENZYMES

Abstract

Assessment of specific ß-cell death can be used to determine the quality and viability of pancreatic islets prior to transplantation and hence predict the suitability of the pancreas for isolation. Recently, several groups have demonstrated that unmethylated insulin (INS)- DNA is correlated to ß-cell death in type 1 diabetes patients and during clinical islet isolation and subsequent transplantation. Here, we present a step-by-step protocol of our novel developed method for quantification of the relative amount of unmethylated INS-DNA using methylation sensitive restriction enzyme digital polymerase chain reaction This method provides a novel and sensitive way to quantify the relative amount of ß-cell derived unmethylated INS-DNA in cellular lysate. We therefore suggest that this technique can be of value to reliably determine the purity of an islet preparation and may also serve as a measure of the quality of islets prior to transplantation measuring unmethylated INS-DNA as a reflection of the relative amount of lysed ß-cells. [ABSTRACT FROM AUTHOR]

Published

2022

11. Key Factors Relevant for Healthcare Decisions of Patients with Type 1 and Type 2 Diabetes in Secondary Care According to Healthcare Professionals.

Author

Ruissen, Merel M, Sont, Jacob K, van Vugt, Heidi A, Kunneman, Marleen, Rutten, Guy EHM, and de Koning, Eelco JP

Subjects

MEDICAL personnel, TYPE 2 diabetes, TYPE 1 diabetes, SECONDARY care (Medicine), GLYCEMIC control, NURSE practitioners

Abstract

Purpose: Understanding which factors are important for healthcare decisions of patients with diabetes in clinical practice is important to personalise diabetes care strategies and tailor care plans to the individual. The main drivers for these healthcare decisions remain unclear. This study assessed which key factors are relevant for healthcare decisions during clinical consultations for patients with type 1 diabetes (T1DM) and type 2 diabetes (T2DM), according to healthcare professionals. Materials and Methods: Annual diabetes reviews were performed as part of a trial assessing the impact of a consultation model facilitating person-centred diabetes care in six hospital outpatient clinics. After each consultation, we asked healthcare professionals to choose a maximum of three out of 20 factors that were most relevant for healthcare decisions about treatment goals and the professional support needed during the upcoming year. Factors were characterised as either person or disease-related. Percentages reflect the number of annual diabetes reviews in which the key factor was reported. Results: Seventeen physicians and eight diabetes specialist nurses reported the key factors relevant for healthcare decisions in 285 annual diabetes reviews (T1DM n = 119, T2DM n = 166). Healthcare professionals most often reported quality of life (31.9%), motivation (27.0%) and diabetes self-management (25.6%), and to a lesser extent glycaemic control (24.2%), to be important for decisions about treatment goals. For decisions about the professional support needed during the upcoming year patient's preferences (33.7%), diabetes self-management (33.3%), quality of life (27.0%) and motivation (25.6%) were most often considered relevant by healthcare professionals. Conclusion: According to healthcare professionals, person-related factors such as quality of life, diabetes self-management and motivation are predominantly relevant for healthcare decisions about treatment goals and the professional support needed during the upcoming year. [ABSTRACT FROM AUTHOR]

Published

2022

12. Oxidative Stress Leads to β-Cell Dysfunction Through Loss of β-Cell Identity.

Author

Leenders, Floris, Groen, Nathalie, de Graaf, Natascha, Engelse, Marten A., Rabelink, Ton J., de Koning, Eelco J. P., and Carlotti, Françoise

Subjects

OXIDATIVE stress, DEPERSONALIZATION, TYPE 1 diabetes, REACTIVE oxygen species

Abstract

Pancreatic β-cell failure is a critical event in the onset of both main types of diabetes mellitus but underlying mechanisms are not fully understood. β-cells have low anti-oxidant capacity, making them more susceptible to oxidative stress. In type 1 diabetes (T1D), reactive oxygen species (ROS) are associated with pro-inflammatory conditions at the onset of the disease. Here, we investigated the effects of hydrogen peroxide-induced oxidative stress on human β-cells. We show that primary human β-cell function is decreased. This reduced function is associated with an ER stress response and the shuttling of FOXO1 to the nucleus. Furthermore, oxidative stress leads to loss of β-cell maturity genes MAFA and PDX1, and to a concomitant increase in progenitor marker expression of SOX9 and HES1. Overall, we propose that oxidative stress-induced β-cell failure may result from partial dedifferentiation. Targeting antioxidant mechanisms may preserve functional β-cell mass in early stages of development of T1D. [ABSTRACT FROM AUTHOR]

Published

2021

13. Examination of the Igls Criteria for Defining Functional Outcomes of _-cell Replacement Therapy: IPITA Symposium Report.

Author

Landstra, Cyril P., Andres, Axel, Chetboun, Mikael, Conte, Caterina, Kelly, Yvonne, Berney, Thierry, de Koning, Eelco J. P., Piemonti, Lorenzo, Stock, Peter G., Pattou, François, Vantyghem, Marie-Christine, Bellin, Melena D., and Rickels, Michael R.

Subjects

PANCREATIC beta cells, TREATMENT of diabetes, GLUCOSE

Abstract

Context: The Igls criteria were developed to provide a consensus definition for outcomes of ß-cell replacement therapy in the treatment of diabetes during a January 2017 workshop sponsored by the International Pancreas & Islet Transplant Association (IPITA) and the European Pancreas & Islet Transplant Association. In July 2019, a symposium at the 17th IPITA World Congress was held to examine the Igls criteria after 2 years in clinical practice, including validation against continuous glucose monitoring (CGM)-derived glucose targets, and to propose future refinements that would allow for comparison of outcomes with artificial pancreas system approaches. Evidence acquisition: Utilization of the criteria in various clinical and research settings was illustrated by population as well as individual outcome data of 4 islet and/or pancreas transplant centers. Validation against CGM metrics was conducted in 55 islet transplant recipients followed-up to 10 years from a fifth center. Evidence synthesis: The Igls criteria provided meaningful clinical assessment on an individual patient and treatment group level, allowing for comparison both within and between different ß-cell replacement modalities. Important limitations include the need to account for changes in insulin requirements and C-peptide levels relative to baseline. In islet transplant recipients, CGM glucose time in range improved with each category of increasing ß-cell graft function. Conclusions: Future Igls 2.0 criteria should consider absolute rather than relative levels of insulin use and C-peptide as qualifiers with treatment success based on glucose assessment using CGM metrics on par with assessment of glycated hemoglobin and severe hypoglycemia events. [ABSTRACT FROM AUTHOR]

Published

2021

14. Human stomach tissue as alternative source of insulin-producing cells.

Author

de Koning, Eelco J. P. and Carlotti, Françoise

Subjects

*TYPE 1 diabetes, *HUMAN stem cells, *STOMACH, *ISLANDS of Langerhans, *TISSUES

Abstract

Pancreatic islet cell replacement therapy is a promising strategy for patients with type 1 diabetes mellitus, but the scarcity of organ donors and need for immunosuppression hamper its wide application. Huang and colleagues developed an efficient method to redirect the fate of primary human gastric stem cells, generated from stomach tissue, towards insulin-producing β-cells. [ABSTRACT FROM AUTHOR]

Published

2023

15. Detection and localization of viral infection in the pancreas of patients with type 1 diabetes using short fluorescently-labelled oligonucleotide probes

Author

Busse, Niels, Paroni, Federico, Richardson, Sarah J., Laiho, Jutta E., Oikarinen, Maarit, Frisk, Gun, Hyöty, Heikki, de Koning, Eelco, Morgan, Noel G., Maedler, Kathrin, Hubrecht Institute for Developmental Biology and Stem Cell Research, Lääketieteen ja biotieteiden tiedekunta - Faculty of Medicine and Life Sciences, and University of Tampere

Subjects

Biolääketieteet - Biomedicine, Cellbiologi, type 1 diabetes, Polymerase Chain Reaction, Sensitivity and Specificity, enteroviruses, oligonucleotide probes, Pathology Section, Journal Article, Enterovirus Infections, Humans, pancreas, In Situ Hybridization, Fluorescence, Enterovirus, Fluorescent Dyes, islets, Cancer och onkologi, Sisätaudit - Internal medicine, Cell Biology, Immunohistochemistry, Research Paper: Pathology, Diabetes Mellitus, Type 1, Oncology, Cancer and Oncology, RNA, Viral

Abstract

Enteroviruses, specifically of the Coxsackie B virus family, have been implicated in triggering islet autoimmunity and type 1 diabetes, but their presence in pancreata of patients with diabetes has not been fully confirmed. To detect the presence of very low copies of the virus genome in tissue samples from T1D patients, we designed a panel of fluorescently labeled oligonucleotide probes, each of 17-22 nucleotides in length with a unique sequence to specifically bind to the enteroviral genome of the picornaviridae family. With these probes enteroviral RNA was detected with high sensitivity and specificity in infected cells and tissues, including in FFPE pancreas sections from patients with T1D. Detection was not impeded by variations in sample processing and storage thereby overcoming the potential limitations of fragmented RNA. Co-staining of small RNA probes in parallel with classical immunstaining enabled virus detection in a cell-specific manner and more sensitively than by viral protein.

Published

2017

16. Advances in β-cell replacement therapy for the treatment of type 1 diabetes.

Author

Vantyghem, Marie-Christine, de Koning, Eelco J P, Pattou, François, and Rickels, Michael R

Subjects

*TYPE 1 diabetes, *HUMAN stem cells, *KIDNEY transplantation, *IMMUNOLOGICAL tolerance, *PANCREAS transplantation

Abstract

The main goal of treatment for type 1 diabetes is to control glycaemia with insulin therapy to reduce disease complications. For some patients, technological approaches to insulin delivery are inadequate, and allogeneic islet transplantation is a safe alternative for those patients who have had severe hypoglycaemia complicated by impaired hypoglycaemia awareness or glycaemic lability, or who already receive immunosuppressive drugs for a kidney transplant. Since 2000, intrahepatic islet transplantation has proven efficacious in alleviating the burden of labile diabetes and preventing complications related to diabetes, whether or not a previous kidney transplant is present. Age, body-mass index, renal status, and cardiopulmonary status affect the choice between pancreas or islet transplantation. Access to transplantation is limited by the number of deceased donors and the necessity of immunosuppression. Future approaches might include alternative sources of islets (eg, xenogeneic tissue or human stem cells), extrahepatic sites of implantation (eg, omental, subcutaneous, or intramuscular), and induction of immune tolerance or encapsulation of islets. [ABSTRACT FROM AUTHOR]

Published

2019

17. A Retrievable, Efficacious Polymeric Scaffold for Subcutaneous Transplantation of Rat Pancreatic Islets.

Author

Smink, Alexandra M., Hertsig, Don T., Schwab, Leendert, van Apeldoorn, Aart A., de Koning, Eelco, Faas, Marijke M., de Haan, Bart J., and de Vos, Paul

Abstract

Objective: We aim on developing a polymeric ectopic scaffold in a readily accessible site under the skin. Summary Background Data: The liver as transplantation site for pancreatic islets is associated with significant loss of islets. Several extrahepatic sites were tested in experimental animals, but many have practical limitations in the clinical setting and do not have the benefit of easy accessibility. Methods and Results: Functional survival of rat islets was tested during 7 days of culture in the presence of poly(D,L-lactide-co-e-caprolactone) (PDLLCL), poly(ethylene oxide terephthalate)/polybutylene terephthalate (PEOT/PBT) block copolymer, and polysulfone. Tissue responses were studied in vivo after subcutaneous implantation in rats. Culture on PEOT/PBT and polysulfone profoundly disturbed function of islets, and induced severe tissue responses in vivo. Modification of their hydrophilicity did not change the suitability of the polymers. PDLLCL was the only polymer that promoted functional survival of rat islets in vitro and was associated with minor tissue reactions after 28 days. Rat islets were transplanted in the PDLLCL scaffold in a diabetic rat model. Before islet seeding, the scaffold was allowed to engraft for 28 days to allow the tissue response to dampen and to allow blood vessel growth into the device. Islet transplantation into the scaffold resulted in normoglycemia within 3 days and for the duration of the study period of 16 weeks. Conclusions: In conclusion, we found that some polymers such as PEOT/PBT and polysulfone interfere with islet function. PDLLCL is a suitable polymer to create an artificial islet transplantation site under the skin and supports islet survival. [ABSTRACT FROM AUTHOR]

Published

2017

18. Microwell Scaffolds for the Extrahepatic Transplantation of Islets of Langerhans

Author

Buitinga, Mijke, Truckenmüller, Roman, Engelse, Marten A., Moroni, Lorenzo, Ten Hoopen, Hetty W. M., van Blitterswijk, Clemens A., de Koning, Eelco JP., van Apeldoorn, Aart A., and Karperien, Marcel

Subjects

TISSUE scaffolds, LANGERHANS cells, HOMOGRAFTS, BLOOD diseases, LIVER transplantation, TYPE 1 diabetes, PATIENTS

Abstract

Allogeneic islet transplantation into the liver has the potential to restore normoglycemia in patients with type 1 diabetes. However, the suboptimal microenvironment for islets in the liver is likely to be involved in the progressive islet dysfunction that is often observed post-transplantation. This study validates a novel microwell scaffold platform to be used for the extrahepatic transplantation of islet of Langerhans. Scaffolds were fabricated from either a thin polymer film or an electrospun mesh of poly(ethylene oxide terephthalate)-poly(butylene terephthalate) (PEOT/PBT) block copolymer (composition: 4000PEOT30PBT70) and were imprinted with microwells, ∼400 µm in diameter and ∼350 µm in depth. The water contact angle and water uptake were 39±2° and 52.1±4.0 wt%, respectively. The glucose flux through electrospun scaffolds was three times higher than for thin film scaffolds, indicating enhanced nutrient diffusion. Human islets cultured in microwell scaffolds for seven days showed insulin release and insulin content comparable to those of free-floating control islets. Islet morphology and insulin and glucagon expression were maintained during culture in the microwell scaffolds. Our results indicate that the microwell scaffold platform prevents islet aggregation by confinement of individual islets in separate microwells, preserves the islet’s native rounded morphology, and provides a protective environment without impairing islet functionality, making it a promising platform for use in extrahepatic islet transplantation. [ABSTRACT FROM AUTHOR]

Published

2013

19. Clinical Trials with Stem Cell-Derived Insulin-Producing Cells

Author

Lei, Ji, Markmann, James F., Piemonti, Lorenzo, editor, Odorico, Jon, editor, Kieffer, Timothy J ., editor, Sordi, Valeria, editor, and de Koning, Eelco, editor

Published

2023

20. An Ethical Perspective on the Social Value of Cell-Based Technologies in Type 1 Diabetes

Author

de Jongh, Dide, Bunnik, Eline M., Piemonti, Lorenzo, editor, Odorico, Jon, editor, Kieffer, Timothy J ., editor, Sordi, Valeria, editor, and de Koning, Eelco, editor

Published

2023

21. Scaffolds for Encapsulation of Stem Cell-Derived β Cells

Author

de Vries, Rick, van Apeldoorn, Aart A., Piemonti, Lorenzo, editor, Odorico, Jon, editor, Kieffer, Timothy J ., editor, Sordi, Valeria, editor, and de Koning, Eelco, editor

Published

2023

22. Label-Free Detection of Insulin and Glucagon within Human Islets of Langerhans Using Raman Spectroscopy.

Author

Hilderink, Janneke, Otto, Cees, Slump, Cees, Lenferink, Aufried, Engelse, Marten, van Blitterswijk, Clemens, de Koning, Eelco, Karperien, Marcel, and van Apeldoorn, Aart

Subjects

LIVER transplantation, BIOMARKERS, RAMAN spectroscopy, INSULIN, GLUCAGON, ISLANDS of Langerhans, TYPE 1 diabetes

Abstract

Intrahepatic transplantation of donor islets of Langerhans is a promising therapy for patients with type 1 diabetes. It is of critical importance to accurately monitor islet quality before transplantation, which is currently done by standard histological methods that are performed off-line and require extensive sample preparation. As an alternative, we propose Raman spectroscopy which is a non-destructive and label-free technique that allows continuous real-time monitoring of the tissue to study biological changes as they occur. By performing Raman spectroscopic measurements on purified insulin and glucagon, we showed that the 520 cm-1 band assigned to disulfide bridges in insulin, and the 1552 cm-1 band assigned to tryptophan in glucagon are mutually exclusive and could therefore be used as indirect markers for the label-free distinction between both hormones. High-resolution hyperspectral Raman imaging for these bands showed the distribution of disulfide bridges and tryptophan at sub-micrometer scale, which correlated with the location of insulin and glucagon as revealed by conventional immunohistochemistry. As a measure for this correlation, quantitative analysis was performed comparing the Raman images with the fluorescence images, resulting in Dice coefficients (ranging between 0 and 1) of 0.36 for insulin and 0.19 for glucagon. Although the use of separate microscope systems with different spatial resolution and the use of indirect Raman markers cause some image mismatch, our findings indicate that Raman bands for disulfide bridges and tryptophan can be used as distinctive markers for the label-free detection of insulin and glucagon in human islets of Langerhans. [ABSTRACT FROM AUTHOR]

Published

2013

23. Examination of the Igls Criteria for Defining Functional Outcomes of β-cell Replacement Therapy: IPITA Symposium Report

Author

Cyril P Landstra, Eelco J.P. de Koning, François Pattou, Michael R. Rickels, Thierry Berney, Marie-Christine Vantyghem, Axel Andres, Mikael Chetboun, Lorenzo Piemonti, Peter G. Stock, Melena D. Bellin, Caterina Conte, Yvonne Kelly, Landstra, Cyril P, Andres, Axel, Chetboun, Mikael, Conte, Caterina, Kelly, Yvonne, Berney, Thierry, de Koning, Eelco J P, Piemonti, Lorenzo, Stock, Peter G, Pattou, Françoi, Vantyghem, Marie-Christine, Bellin, Melena D, and Rickels, Michael R

Subjects

medicine.medical_specialty, endocrine system diseases, Reports and Recommendations, type 1 diabetes, Endocrinology, Diabetes and Metabolism, medicine.medical_treatment, education, Replacement, Clinical Biochemistry, Population, 030209 endocrinology & metabolism, Context (language use), 030204 cardiovascular system & hematology, Pancreas transplantation, Biochemistry, Artificial pancreas, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, Internal medicine, Diabetes mellitus, medicine, Islet transplantation, Intensive care medicine, Continuous glucose monitoring, pancreas transplantation, health care economics and organizations, Type 1 diabetes, education.field_of_study, geography, Modalities, geography.geographical_feature_category, ddc:617, business.industry, islet transplantation, Biochemistry (medical), Β-cell, medicine.disease, Islet, beta-cell replacement, β-cell replacement, continuous glucose monitoring, business

Abstract

Context The Igls criteria were developed to provide a consensus definition for outcomes of β-cell replacement therapy in the treatment of diabetes during a January 2017 workshop sponsored by the International Pancreas & Islet Transplant Association (IPITA) and the European Pancreas & Islet Transplant Association. In July 2019, a symposium at the 17th IPITA World Congress was held to examine the Igls criteria after 2 years in clinical practice, including validation against continuous glucose monitoring (CGM)-derived glucose targets, and to propose future refinements that would allow for comparison of outcomes with artificial pancreas system approaches. Evidence acquisition Utilization of the criteria in various clinical and research settings was illustrated by population as well as individual outcome data of 4 islet and/or pancreas transplant centers. Validation against CGM metrics was conducted in 55 islet transplant recipients followed-up to 10 years from a fifth center. Evidence synthesis The Igls criteria provided meaningful clinical assessment on an individual patient and treatment group level, allowing for comparison both within and between different β-cell replacement modalities. Important limitations include the need to account for changes in insulin requirements and C-peptide levels relative to baseline. In islet transplant recipients, CGM glucose time in range improved with each category of increasing β-cell graft function. Conclusions Future Igls 2.0 criteria should consider absolute rather than relative levels of insulin use and C-peptide as qualifiers with treatment success based on glucose assessment using CGM metrics on par with assessment of glycated hemoglobin and severe hypoglycemia events.

Published

2021

24. Micro-fabricated scaffolds lead to efficient remission of diabetes in mice.

Author

Buitinga, Mijke, Assen, Frank, Hanegraaf, Maaike, Wieringa, Paul, Hilderink, Janneke, Moroni, Lorenzo, Truckenmüller, Roman, van Blitterswijk, Clemens, Römer, Gert-Willem, Carlotti, Françoise, de Koning, Eelco, Karperien, Marcel, and van Apeldoorn, Aart

Subjects

*TREATMENT of diabetes, *TYPE 1 diabetes, *ANIMAL models of diabetes, *INTRAHEPATIC bile ducts, *INSULIN therapy, *REVASCULARIZATION (Surgery)

Abstract

Despite the clinical success of intrahepatic islet transplantation in treating type 1 diabetes, factors specific to this transplantation site hinder long-term insulin independence. The adoption of alternative, extravascular sites likely improve islet survival and function, but few locations are able to sufficiently confine islets in order to facilitate engraftment. This work describes a porous microwell scaffold with a well-defined pore size and spacing designed to guarantee islet retention at an extrahepatic transplantation site and facilitate islet revascularization. Three techniques to introduce pores were characterized: particulate leaching; solvent casting on pillared wafers; and laser drilling. Our criteria of a maximum pore diameter of 40 μm were best achieved via laser drilling. Transplantation studies in the epididymal fat of diabetic mice elucidated the potential of this porous scaffold platform to restore blood glucose levels and facilitate islet engraftment. Six out of eight mice reverted to stable normoglycemia with a mean time to remission of 6.2 ± 3.2 days, which was comparable to that of the gold standard of renal subcapsular islet grafts. In contrast, when islets were transplanted in the epididymal fat pad without a microwell scaffold, only two out of seven mice reverted to stable normoglycemia. Detailed histological evaluation four weeks after transplantation found a comparable vascular density in scaffold-seeded islets, renal subcapsular islets and native pancreatic islets. However, the vascularization pattern in scaffold-seeded islets was more inhomogeneous compared to native pancreatic islets with a higher vascular density in the outer shell of the islets compared to the inner core. We also observed a corresponding decrease in the beta-cell density in the islet core. Despite this, our data indicated that islets transplanted in the microwell scaffold platform were able to maintain a viable beta-cell population and restore glycemic control. Furthermore, we demonstrated that the microwell scaffold platform facilitated detailed analysis at a subcellular level to correlate design parameters with functional physiological observations. [ABSTRACT FROM AUTHOR]

Published

2017

25. Genetically Engineered Human Islets Protected From CD8-mediated Autoimmune Destruction In Vivo.

Author

Zaldumbide, Arnaud, Alkemade, Gonnie, Carlotti, Françoise, Nikolic, Tatjana, Abreu, Joana RF, Engelse, Marten A, Skowera, Anja, de Koning, Eelco J, Peakman, Mark, Roep, Bart O, Hoeben, Rob C, and Wiertz, Emmanuel JHJ

Subjects

*ISLANDS of Langerhans transplantation, *TREATMENT of diabetes, *TYPE 1 diabetes, *CYTOMEGALOVIRUS diseases, *T cells, *C-peptide, *SERINE proteinases, *AUTOIMMUNE diseases

Abstract

Islet transplantation is a promising therapy for type 1 diabetes, but graft function and survival are compromised by recurrent islet autoimmunity. Immunoprotection of islets will be required to improve clinical outcome. We engineered human β cells to express herpesvirus-encoded immune-evasion proteins, 'immunevasins.' The capacity of immunevasins to protect β cells from autoreactive T-cell killing was evaluated in vitro and in vivo in humanized mice. Lentiviral vectors were used for efficient genetic modification of primary human β cells without impairing their function. Using a novel β-cell-specific reporter gene assay, we show that autoreactive cytotoxic CD8+ T-cell clones isolated from patients with recent onset diabetes selectively destroyed human β cells, and that coexpression of the human cytomegalovirus-encoded US2 protein and serine proteinase inhibitor 9 offers highly efficient protection in vitro. Moreover, coimplantation of these genetically modified pseudoislets with β-cell-specific cytotoxic T cells into immunodeficient mice achieves preserved human insulin production and C-peptide secretion. Collectively, our data provide proof of concept that human β cells can be efficiently genetically modified to provide protection from killing mediated by autoreactive T cells and retain their function in vitro and in vivo. [ABSTRACT FROM AUTHOR]

Published

2013

26. Interleukin-1 antagonism in type 1 diabetes of recent onset: two multicentre, randomised, double-blind, placebo-controlled trials.

Author

Moran, Antoinette, Bundy, Brian, Becket, Dorothy J., DiMeglia, Linda A., Gitelman, Stephen E., Goland, Robin, Greenbaum, Carla J., Herold, Kevan C., Marks, Jennifer B., Raskin, Philip, Sanda, Srinath, Schatz, Desmond, Wherrett, Diane K., Wilson, Darrell M., Krischer, Jeffrey P., Skyler, Jay S., Pickersgill, Linda, de Koning, Eelco, Ziegler, Anette-G., and Böehm, Bernhard

Subjects

*INTERLEUKIN-1, *ACUTE phase proteins, *TYPE 1 diabetes, *DIABETES, *RANDOMIZED controlled trials

Abstract

Background Innate immunity contributes to the pathogenesis of autoimmune diseases, such as type 1 diabetes, but until now no randomised, controlled trials of blockade of the key innate immune mediator interleukin-1 have been done. We aimed to assess whether canakinumab, a human monoclonal anti-interleukin-1 antibody, or anakinra, a human interleukin-1 receptor antagonist, improved β-cell function in recent-onset type I diabetes. Methods We did two randomised, placebo-controlled trials in two groups of patients with recent-onset type 1 diabetes and mixed-meal-tolerance-test-stimulated C peptide of at least 0-2 nM. Patients in the canakinumab trial were aged 6-45 years and those in the anakinra trial were aged 18-35 years. Patients in the canakinumab trial were enrolled at 12 sites in the USA and Canada and those in the anakinra trial were enrolled at 14 sites across Europe. Participants were randomly assigned by computer-generated blocked randomisation to subcutaneous injection of either 2 mg/kg (maximum 300 mg) canakinumab or placebo monthly for 12 months or 100 mg anakinra or placebo daily for 9 months. Participants and carers were masked to treatment assignment. The primary endpoint was baseline-adjusted 2-h area under curve C-peptide response to the mixed meal tolerance test at 12 months (canakinumab trial) and 9 months (anakinra trial). Analyses were by intention to treat. These studies are registered with ClinicalTrials.gov, numbers NCT00947427 and NCT00711503, and EudraCT number 2007-007146-34. Findings Patients were enrolled in the canakinumab trial between Nov 12, 2010, and April 11, 2011, and in the anakinra trial between Jan 26, 2009, and May 25, 2011. 69 patients were randomly assigned to canakinumab (n=47) or placebo (n=22) monthly for 12 months and 69 were randomly assigned to anakinra (n=35) or placebo (n=34) daily for 9 months. No interim analyses were done. 45 canakinumab-treated and 21 placebo-treated patients in the canakinumab trial and 25 analdnra-treated and 26 placebo-treated patients in the anakinra trial were included in the primary analyses. The difference in C peptide area under curve between the canaldnumab and placebo groups at 12 months was 0.01 nmol/L (95% C1-0.11 to 0.14; p=0.86), and between the anakinra and the placebo groups at 9 months was 0-02 nmol/L (-0.09 to 0.15; p=0.71). The number and severity of adverse events did not differ between groups in the canakinumab trial. In the anakinra trial, patients in the anakinra group had significantly higher grades of adverse events than the placebo group (p=0.018), which was mainly because of a higher number of injection site reactions in the anakinra group. Interpretation Canakinumab and anakinra were safe but were not effective as single immunomodulatory drugs in recent-onset type 1 diabetes. Interleuldn-1 blockade might be more effective in combination with treatments that target adaptive immunity in organ-specific autoimmune disorders. Funding National Institutes of Health and Juvenile Diabetes Research Foundation. [ABSTRACT FROM AUTHOR]

Published

2013

27. Oxidative stress in pancreatic alpha and beta cells as a selection criterion for biocompatible biomaterials.

Author

Sthijns, Mireille M.J.P.E., Jetten, Marlon J., Mohammed, Sami G., Claessen, Sandra M.H., de Vries, Rick H.W., Stell, Adam, de Bont, Denise F.A., Engelse, Marten A., Mumcuoglu, Didem, van Blitterswijk, Clemens A., Dankers, Patricia Y.W., de Koning, Eelco J.P., van Apeldoorn, Aart A., and LaPointe, Vanessa L.S.

Subjects

*OXIDATIVE stress, *ACUTE phase reaction, *ETHYLENE oxide, *MANUFACTURING cells, *PANCREATIC beta cells

Abstract

The clinical success rate of islet transplantation, namely independence from insulin injections, is limited by factors that lead to graft failure, including inflammation, acute ischemia, acute phase response, and insufficient vascularization. The ischemia and insufficient vascularization both lead to high levels of oxidative stress, which are further aggravated by islet encapsulation, inflammation, and undesirable cell-biomaterial interactions. To identify biomaterials that would not further increase damaging oxidative stress levels and that are also suitable for manufacturing a beta cell encapsulation device, we studied five clinically approved polymers for their effect on oxidative stress and islet (alpha and beta cell) function. We found that 300 poly(ethylene oxide terephthalate) 55/poly(butylene terephthalate) 45 (PEOT/PBT300) was more resistant to breakage and more elastic than other biomaterials, which is important for its immunoprotective function. In addition, it did not induce oxidative stress or reduce viability in the MIN6 beta cell line, and even promoted protective endogenous antioxidant expression over 7 days. Importantly, PEOT/PBT300 is one of the biomaterials we studied that did not interfere with insulin secretion in human islets. • PEOT/PBT300 does not induce oxidative stress in pancreatic alpha and beta cells. • PET and PVDF induce oxidative stress in alpha cells, but not in beta cells. • Beta cells can protect themselves against oxidative stress induced by certain biomaterials. [ABSTRACT FROM AUTHOR]

Published

2021

28. US food and drug administration (FDA) panel endorses islet cell treatment for type 1 diabetes: A pyrrhic victory?

Author

Paola Maffi, Marten A. Engelse, Steve White, Robert Hilbrands, Frantisek Saudek, Axel Andres, Torbjörn Lundgren, Paul Johnson, Roger Lehmann, Thierry Berney, Lorenzo Piemonti, John Casey, Eelco J.P. de Koning, Julie Kerr-Conte, Bart Keymeulen, François Pattou, James Shaw, Olle Korsgren, Hanne Scholz, Pathology/molecular and cellular medicine, Chemical Engineering and Industrial Chemistry, Diabetes Clinic, Diabetes Pathology & Therapy, Piemonti, Lorenzo, Andres, Axel, Casey, John, de Koning, Eelco, Engelse, Marten, Hilbrands, Robert, Johnson, Paul, Keymeulen, Bart, Kerr-Conte, Julie, Korsgren, Olle, Lehmann, Roger, Lundgren, Torbjörn, Maffi, Paola, Pattou, Francoi, Saudek, Frantisek, Shaw, Jame, Scholz, Hanne, White, Steve, and Berney, Thierry

Subjects

medicine.medical_specialty, pancreatic islet transplantation, Islets of Langerhans Transplantation, 030230 surgery, European medicines agency, Food and drug administration, Islets of Langerhans, 03 medical and health sciences, 0302 clinical medicine, Japan, Humans, Regulatory authorities, Medicine, Intensive care medicine, food and drug administration, Licensure, Transplantation, geography, Type 1 diabetes, geography.geographical_feature_category, ddc:617, Ethical issues, United States Food and Drug Administration, business.industry, Australia, Islet, medicine.disease, United Kingdom, United States, Europe, Diabetes Mellitus, Type 1, regulatory authorities, Pyrrhic victory, 030211 gastroenterology & hepatology, Pancreatic islet transplantation, business

Abstract

Allogeneic islet transplantation is a standard of care treatment for patients with labile type 1 diabetes in many countries around the world, including Japan, the United Kingdom, Australia, much of continental Europe, and parts of Canada. The United States is now endorsing islet cell treatment for type 1 diabetes, but the FDA has chosen to consider islets as a biologic that requires licensure, making the universal implementation of the procedure in the clinic very challenging and opening the manufacture of islet grafts to private companies. The commercialization of human tissues raises significant legal and ethical issues and ironically leads to a situation where treatments developed as a result of the scientific and economic efforts of academia over several decades become exploited exclusively by for-profit entities.