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21	Pancreatic Islet Transplantation : Modifications of Islet Properties to Improve Graft Survival Cabric, Sanja January 2007 (has links) During the past decade clinical islet transplantation has become a viable strategy for curing type 1 diabetes. The limited supply of organs, together with the requirement for islets from multiple donors to achieve insulin independence, has greatly limited the application of this approach. The islets are infused into the liver via the portal vein, and once exposed to the blood, the grafted tissue has been shown to be damaged by the instant blood-mediated inflammatory reaction (IBMIR), which is characterized by coagulation and complement activation as well as leukocyte infiltration into the islets. Islet revascularization is a subsequent critical step for the long-term function of the transplanted graft, which may partially be impeded by the IBMIR. In this thesis, we have explored novel strategies for circumventing the effects of the IBMIR and facilitating islet revascularization. Systemic inhibitors of the IBMIR are typically associated with an increased risk of bleeding. We therefore evaluated alternative strategies for modulating the islets prior to transplantation. We demonstrated, using an adenoviral vector, that a high level of expression and secretion of the anticoagulant hirudin could be induced in human islets. An alternative approach to limiting the IBMIR was developed in which anticoagulant macromolecular heparin complexes were conjugated to the islet surface. This technique proved effective in limiting the IBMIR in both an in vitro blood loop model and an allogeneic porcine model of islet transplantation. An increased adhesion of endothelial cells to the heparin-coated islet surface was demonstrated, as was the capacity of the heparin conjugate to bind the angiogenic factors VEGF and FGF; these results have important implications for the revascularization process. The outcome of the work in this thesis suggests that modulation of the islet surface is an attractive alternative to systemic therapy as a strategy for preventing the IBMIR. Moreover, the same techniques can be employed to induce revascularization and improve the engraftment of the transplanted islets. Ultimately, improved islet viability and engraftment will make islet transplantation a more effective procedure and increase the number of patients whose diabetes can be cured. Medicine Diabetes islet transplantation islets of Langerhans coagulation activation IBMIR hirudin heparin growth factor angiogenesis Medicin
22	Leukocytes in Angiogenesis : Learning from Transplanted Pancreatic Islets Christoffersson, Gustaf January 2013 (has links) Angiogenesis, the growth of new blood vessels, is a complex process involving several cell types and molecular signals. Excessive vascular growth is a problem in tumors, and insufficient vascularization hampers the function of transplanted insulin-producing pancreatic islets. Understanding the mechanisms behind blood vessel growth generates increased means to control angiogenesis. In this thesis a model of pancreatic islet transplantation to muscle has been used to study the involvement of leukocytes in the development of new vasculature. Transplantation of isolated islets of Langerhans into mouse muscle promoted revascularization of the grafts to a level comparable to native islets in the pancreas. The complete and functional vascular restoration resulted in improved blood glucose control compared to the clinical standard implantation site, the liver. This proved muscle as a transplantation site to be a clinically relevant option for the treatment of type 1 diabetes. The rapid islet revascularization process was found to be dependent on a distinct subset of neutrophils characterized by high expression of the chemokine receptor CXCR4 and the enzyme matrix metalloproteinase 9 (MMP-9). These cells were recruited to recently transplanted and hypoxic grafts by islet-secreted vascular endothelial growth factor A (VEGF-A). Leukocyte migration and interactions in the engraftment area were monitored using a high-speed confocal microscope followed by software tracking. New software was developed to visualize migration statistics. This tool revealed areas around the islet graft where neutrophil gathering coincided with sites of angiogenesis. Macrophages in the engraftment area positioned themselves close to the newly formed vasculature and were shown to have a stabilizing effect on the vessels. When macrophages were removed, no pericytes were recruited to the forming vasculature. The perivascular macrophages also began to express a pericyte marker when in the graft, suggesting a close relationship between these cell types or macrophage plasticity. In conclusion, this thesis presents muscle as a proangiogenic transplantation site for pancreatic islets for the treatment of type 1 diabetes, where the revascularization of the grafts was dependent on the recruitment and actions of specialized immune cells. angiogenesis pancreatic islet transplantation islets of Langerhans diabetes mellitus leukocytes neutrophils macrophages pericytes MMP-9 VEGF-A
23	Imaging Islets of Langerhans by Positron Emission Tomography : Quantification of Beta-Cell Mass in the Native Pancreas and the Islet Graft Eriksson, Olof January 2011 (has links) Type 1 and 2 Diabetes Mellitus are a growing health problem throughout the world. There is an increasing need for methodologies, which are both reliable and non-invasive to measure the amount of insulin-producing tissue (Beta-cell mass, or BCM), as well as rapidly quantify changes in the BCM due to the onset of disease, beta-cell replacement therapy, or other treatments. Positron Emission Tomography (PET) is a non-invasive, quantitative functional imaging technique which can be used to study dynamical or static processes inside the body. In this thesis, we present a study protocol for in vivo imaging of the most common form of beta- cell replacement therapy; islet transplantation. Islets were labeled with the PET tracer, 2-deoxy-2[18F]fluoro-D-glucose ([18F]FDG), and administered intra-portally, while the recipient was monitored by PET/CT. The hepatic distribution of the islets was highly heterogeneous, and around 25% (human) or 50% (porcine) of the administered islets could not be found in the liver after completed transplantation, confirming previous reports of considerable cell injury during the procedure leading to low hepatic engraftment. Native BCM in the pancreas can potentially be quantified using a PET tracer with sufficiently high specificity, but the major obstacle is the relative low amounts of insulin producing tissue (only 1-2% of the pancreatic volume). Two tetrabenazine analogues, [18F]FE-(+)-DTBZ and [18F]FE-(+)-DTBZ-d4, are ligands to VMAT2, which is expressed in islet tissue. Both analogues were investigated and characterized as potential BCM imaging agents both in vitro and in vivo. Both tracers exhibited high preferential binding to islet tissue compared to exocrine pancreatic tissue. However, the specificity was not high enough to overcome the obscuring exocrine signal in vivo (7-10% of the signal originating from specific islet tracer uptake). This thesis demonstrates that it is possible to quantitatively assess islet transplantation by PET imaging. In vivo determination of native pancreatic BCM is, in theory, possible with both [18F]FE-(+)-DTBZ and [18F]FE-(+)-DTBZ-d4, but tracer analogues with higher islet specificity is needed for quantification of smaller BCM changes with physiological impact. Positron Emission Tomography [18F]FDG dihydrotetrabenazine Islet transplantation IBMIR beta-cell mass MEDICINE MEDICIN
24	A suplementação com glutationa-etil-éster durante o isolamento de ilhotas pancreáticas em roedores melhora a viabilidade celular e os resultados do transplante de ilhotas / Glutathione ethyl ester supplementationduring pancreatic islet isolation improves viability and transplant outcomes in a murine marginal islet mass model Alexandre Sarubbi Raposo do Amaral 25 September 2012 (has links) As complicações relacionadas ao diabetes mellitus estão intimamente ligadas à hiperglicemia. Os pacientes que evoluem com grande instabilidade metabólica e progressão das complicações microvasculares apesar do tratamento intensivo com insulina são candidatos ao transplante de pâncreas. Neste contexto, o transplante de ilhotas pancreáticas surge como alternativa por ser menos invasivo e menos imunogênico. No entanto, o processo de digestão do pâncreas e isolamento das ilhotas pancreáticas expõe as células endócrinas a diversos estímulos nocivos, que resultam em diminuição da viabilidade das células isoladas e menor chance de sucesso após o transplante. A geração de espécies reativas de oxigênio (ERO) e o consumo das defesas anti-oxidantes durante o processo de digestão do pâncreas pode contribuir para a perda da viabilidade das ilhotas isoladas. O objetivo deste estudo foi avaliar o impacto da suplementação com glutationa etil mono-éster (GEE), um éster de melhor biodisponibilidade da glutationa (um importante anti-oxidante endógeno) nos resultados do isolamento e do transplante de ilhotas pancreáticas em um modelo animal. GEE foi adicionada na concentração de 10 mM na solução de colagenase durante o isolamento das ilhotas de rato. Após o isolamento, foram realizados estudos in vitro para avaliar a presença de ERO com o ensaio carboxi-H2DCFDA e a viabilidade das ilhotas isoladas com os ensaios JC-1 (integridade mitocondrial) e Sytogreen/brometo de etídio (integridade da membrana celular); viabilidade das células beta-pancreáticas por citometria de fluxo para avaliação de necrose e apoptose, TUNEL para a avaliação do índice de apoptose e secreção de insulina estimulada por glicose. Realizamos também estudos in vivo, com o transplante das ilhotas na cápsula renal de camundongos diabéticos, seguimento dos animais por 30 dias após o transplante e recuperação do enxerto para análise histológica. Quatro grupos de animais foram avaliados: 1) Animais transplantados com número suficiente de ilhotas para reverter o diabetes (500) não isoladas com GEE; 2) Animais transplantados com número suficiente de ilhotas (500) isoladas em presença de GEE; 3) Animais transplantados com número insuficiente de ilhotas (150) não isoladas com GEE e 4) Animais transplantados com número insuficiente de ilhotas (150) isoladas em presença de GEE. A suplementação com GEE na concentração de 10 mM durante o isolamento das ilhotas diminuiu a formação de ERO (Controle 57,0 ± 4,3% versus GEE 47,0 ± 3,9%, p = 0,0034) e aumentou a viabilidade das ilhotas, conforme demonstrado pelo ensaio Sytogreen/brometo de etídio (Controle 70,6 ± 3,4% versus GEE 83,6 ± 4,8%, p= 0,0010) e pela diminuição na porcentagem de células TUNEL-positivas (Controle de 39,2 ± 5,0% versus GEE 29,1 ± 1,9%, p= 0,042) no grupo tratado. O estudo de viabilidade por citometria de fluxo também mostrou um número maior de células beta pancreáticas viáveis no grupo tratado (Controle 21,4 ± 3,4% versus GEE 33,7 ± 3,9%, p= 0,0156). A manutenção da integridade funcional das ilhotas teve impacto nos resultados dos transplantes, com menor índice de célula TUNEL-positivas (Controle 23,3 ± 2,6% versus GEE 8,3 ± 0,8%, p < 0,0001) nos enxertos recuperados após as primeiras 24 horas do transplante e maior porcentagem de animais normoglicêmicos (Controle 30% versus GEE 65,2%, p = 0,004) após transplante de um número marginal de 150 ilhotas na cápsula renal após seguimento de 30 dias. Em conclusão, estes dados corroboram que a formação de ERO é uma causa relevante de dano celular durante o isolamento de ilhotas pancreáticas e sugerem que o uso do compostos anti-oxidante GEE pode ser uma estratégia para melhorar os resultados dos transplantes de ilhotas / The vascular complications related to Diabetes Mellitus are closely linked to hyperglycemia. Patients who develop metabolic instability and progression of microvascular complications despite intensive insulin therapy are candidates to pancreas transplantation. Pancreatic islet transplant is an alternative approach since it is less immunogenic and minimally invasive. However, the success of pancreatic islet transplantation still faces many challenges, mainly related to cell damage during the islet isolation process and early post-transplant period. The increase in reactive oxygen species (ROS) generation and the consumption of antioxidant defenses might be factors related to these injuries. The aim of the present study was to evaluate whether supplementation with glutathione-ethyl-ester (GEE), a compound with higher bioavailability than glutathione (an important endogenous antioxidant), could improve islet viability and efficacy in a marginal islet transplantation model in rodents. GEE was added to a final concentration of 10 mM in collagenase solution during islet isolation. After isolation, in vitro studies were conducted to evaluate the presence of ROS using carboxy-H2DCFDA assay and the viability of isolated islets with JC-1 assay (mitochondrial integrity), Sytogreen/ethidium bromide assay (cellular membrane integrity), fractional beta cell viability assay by flow cytometry, TUNEL assay for apoptosis evaluation and glucose-stimulated insulin secretion. We also performed in vivo studies with islet transplantation under the kidney capsule of diabetic mice, 30 days follow-up after transplantation and recovery of the graft for histological analysis. Four experimental groups were evaluated: 1) animals transplanted with 500 islets, a number considered sufficient to promote diabetes reversion, not isolated in presence of GEE; 2) animals transplanted with 500 islets isolated in presence of GEE; 3) animals transplanted with 150 islets, a number considered insufficient to promote diabetes reversion, not isolated in presence of GEE and 4) animals transplanted with 150 islets isolated in presence of GEE. The addition of GEE at 10 mM concentration during islet isolation was able to decrease ROS content in isolated islets (Control 57.0 ± 4.3% versus GEE 47.0 ± 3.9%, p = 0.0034) and increase islet viability, as demonstrated by the Sytogreen/ethidium bromide assay (Control 70.6 ± 3.4% versus GEE 83.6 ± 4.8%, p = 0.0010) as well as by the reduction in TUNEL-positive cells (Control 39.2 ± 5.0% versus GEE 29.1 ± 1.9%, p = 0.042) in the treated group. The fractional beta-cell viability also showed an improvement in the treated group (Control 21.4 ± 3.4% versus GEE 33.7 ± 3.9%, p = 0.0156). The improved cell viability observed in vitro was translated into better outcomes in vivo, since supplementation of GEE during the isolation process resulted in a significantly lower rate of TUNEL-positive cells (Control 23,3 ± 2,6% versus GEE 8,3 ± 0,8%, p < 0,0001) in the islet grafts recovered after 24h of transplantation and in a higher percentage of normoglycemia (Control 30% versus GEE 65,2%, p = 0,004) after 30 days of follow-up in animals transplanted with the marginal islet mass (150 islets). In conclusion, the current data corroborate that ROS production is a relevant cause of cellular damage during islet isolation and suggest that the use of GEE might be a strategy to improve islet transplantation outcomes Apoptose Diabetes mellitus Estresse oxidativo Transplante de ilhotas pancreáticas Apoptosis Diabetes mellitus Oxidative stress Pancreatic islet transplantation
25	Modelo de transplante de ilhotas pancreáticas para a câmara anterior do olho em camundongos diabéticos / Model of pancreatic islet transplantation to the anterior chamber of the eye in diabetic mice Leonardo dos Santos Castellar 12 March 2015 (has links) Estima-se que, em 2013, cerca de 382 milhões de pessoas eram portadoras de diabetes mundialmente. Já o diabetes mellitus do tipo 1 (DMT1) representa de 5-10% desse total de casos, cujo tratamento atual se pauta na administração de insulina exógena. Contudo, desde a publicação do protocolo de Edmonton, o transplante de ilhotas pancreáticas se apresenta como nova técnica no tratamento para o DMT1, inclusive obtendo a independência de insulina em alguns casos. Apesar disso, a escolha do sítio receptor ainda é essencial para diminuir efeitos adversos e permitir o acompanhamento do enxerto. Nesse sentido, destaca-se o transplante de ilhotas para a câmara anterior do olho, pois permite, além do restabelecimento do controle glicêmico, o estudo da fisiologia dos enxertos in vivo. Dessa forma, o objetivo foi estabelecer metodologia de isolamento e transplante de ilhotas de alta reprodutibilidade e baixo custo, utilizando a câmara anterior do olho como sítio receptor. O isolamento foi realizado via injeção de solução de colagenase (1 mg/mL via ducto colédoco) em camundongos machos C57BL/6 hígidos de 8 semanas de idade e posterior transplante dessas ilhotas para camundongos machos da mesma espécie com diabetes induzido por injeção de aloxana (60 mg/kg, i.v.). Esses camundongos foram submetidos a infusão de aproximadamente 250 equivalentes de ilhotas (IEQs) para a câmara anterior do olho e tiveram sua glicemia e alteração de massa corpórea acompanhadas por 14 dias após o transplante. Também foi realizado teste de tolerância a glicose via injeção de solução de glicose (2g/kg i.p.) e realização da curva glicêmica. Obteve-se, na etapa de padronização, que a adição de 0,5% (%p/v) de albumina de soro bovino à solução de colagenase foi capaz de aumentar o número de IEQs isolados por animal. Quanto ao transplante, obteve-se que 50% dos animais submetidos à técnica tiveram diminuição significativa na sua glicemia (172,5 ± 6,4 mg/dL), quando comparados com o grupo controle diabético (582,8 ± 27,5 mg/dL) (p < 0,05). Entretanto, todos os animais tiveram aumento significativo da massa corpórea no período de acompanhamento e glicemia de jejum significativamente menor que os animais diabéticos (p < 0,05). Ademais, a curva glicêmica dos animais que tiveram transplante considerado bem sucedido, no teste de tolerância a glicose, se aproxima da curva do grupo controle sadio. Conclui-se que o modelo de transplante de ilhotas pancreáticas para a câmara anterior do olho foi bem estabelecido neste projeto, confirmado pelos resultados que evidenciam o transplante de ilhotas funcionais capazes de reduzir sensivelmente a glicemia e promover o ganho de peso em camundongos diabéticos. / It is estimated that, in 2013, around 382 million people had diabetes worldwide. Of that number, 5-10% represented cases of T1DM, which treatment is based in the administration of exogenous insulin. However, since the Edmonton protocol was published, islet transplantation presented itself as novel technique for T1DM treatment, achieving insulin independence in some cases. Although, recipient site choice is still essential to diminish side effects and enable graft follow up. In that sense, transplantation to the anterior chamber of the eye stands out, since it allows, beyond the reestablishment of glycemic control, study of islet physiology in vivo. That way, the objective was to establish a low cost and high reproducible model of islet isolation and transplantation, using the anterior chamber of the eye as receptor site. Islet isolation was made by injection of collagenase solution (1 mg/mL via common bile duct) in 8 week old healthy male C57BL/6 mice and followed by transplantation of these islets to male mice of the same age and species with diabetes induced by alloxan injection (60 mg/kg i.v.). These mice were subject of 250 islet equivalents (IEQs) infusion to the anterior chamber of the eye and had their blood glucose and change in body mass monitored for 14 days after transplantation. A glucose tolerance test (GTT) was also made, by injection of glucose solution (2g/kg i.p.) and a glycemic curve was plotted. In the standardization period, was observed that the addition of 0,5% (%w/v) bovine serum albumin is capable of increasing the number of IEQs isolated from each animal. About the transplants, was obtained that 50% of animals subject to transplantation had their blood glucose decreased significantly (172,5 ± 6,4 mg/dL), when compared to the diabetic control group (582,8 ± 27,5 mg/dL) (p < 0,05). However, all animals subject to the procedure had significant body mass increase, when compared to the same control group and fasting blood glucose significantly lower than diabetic animals (p < 0,05). Moreover, the glycemic curve of animals, who had their transplantation considered successful, was similar to that found in healthy control animals, in the GTT. We conclude that the model of transplant to the anterior chamber of the eye is well established in this project, which is confirmed by results that shows transplantation of functional islets, capable of promoting a significant decrease in blood glucose and an increase in total body mass in diabetic animals. Aloxana Câmara anterior do olho Diabetes mellitus Transplante de ilhotas Alloxan Anterior chamber of the eye Diabetes mellitus Islet transplantation
26	Prevascularization-free Primary Subcutaneous Transplantation of Xenogeneic Islets Co-encapsulated with Hepatocyte Growth Factor / HGF(肝細胞増殖因子)の共カプセル化による血管新生前処置不要の皮下異種膵島移植 Yang, Sin-Yu 24 May 2021 (has links) 京都大学 / 新制・課程博士 / 博士(医学) / 甲第23368号 / 医博第4737号 / 新制\|\|医\|\|1051(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授川口義弥, 教授妹尾浩, 教授稲垣暢也 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM Xenogeneic Islets Islet transplantation Hepatocyte Growth Factor subcutaneous transplantation Prevascularization-free Tpye 1 diabetes 490
27	Noninvasive quantitative evaluation of viable islet grafts using ¹¹¹In-exendin-4 SPECT/CT / ¹¹¹インジウム標識exendin-4 SPECT/CTを用いた、生存移植膵島量の非侵襲的評価 Botagarova, Ainur 24 November 2023 (has links) 京都大学 / 新制・課程博士 / 博士(医学) / 甲第24965号 / 医博第5019号 / 新制\|\|医\|\|1069(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授川口義弥, 教授波多野悦朗, 教授中本裕士 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM β-cell mass β-cell imaging islet transplantation type 1 diabetes mellitus SPECT/CT 490
28	Engraftment of Pancreatic Islets in Alternative Transplantation Sites and the Feasibility of in vivo Monitoring of Native and Transplanted Beta-Cell Mass Espes, Daniel January 2016 (has links) Islet transplantation is a possible curative treatment for type 1 diabetes (T1D). Currently the liver dominates as implantation site, despite the many challenges encountered at this site. Acute hypoxia in islets transplanted to muscle and omentum, two possible alternative sites, was prevailing. However, it was rapidly reversed at both implantation sites, in contrast to when islets were transplanted intraportally. At the intramuscular site hypoxia was further relieved by co-transplantation of an oxygen carrier, polymerized hemoglobin, which also improved the functional outcome. The complement system was activated after islet transplantation to muscle, but did not hamper graft function. Both mouse and human islets transplanted to omentum become well re-vascularized and have a functional blood flow and oxygenation comparable with that of endogenous islets. Animals transplanted with islets to the omentum had a superior graft function compared with animals receiving intraportal islet grafts. Alloxan-diabetic animals were cured with a low number of islets both when the islets were implanted in the omentum and muscle. The islet grafts responded adequately to both glucose and insulin and displayed a favorable mRNA gene expression profile. A challenge in diabetes research and in islet transplantation is that there are no established techniques for quantifying beta-cell mass in vivo. By using radiolabeled Exendin-4, a GLP-1 receptor agonist, beta-cell mass after transplantation to muscle of mice was quantified. The results may well be translated to the clinical setting. By comparing the pancreatic accumulation of [11C]5-hydroxy tryptophan ([11C]5-HTP) as detected by positron emission tomography (PET) in T1D patients with that of healthy controls, a 66% decrease was observed. This may in fact represent the loss of beta-cells, taking into account that other cells within the islets of Langerhans are largely unaffected in T1D. In conclusion, the data presented support the use of alternative implantation sites for islet transplantation. In addition to improving the functional outcome this may enable more transplantations since the number of transplanted islets may be reduced. The techniques investigated for quantifying transplanted and endogenous beta-cell mass may greatly improve our knowledge of the pathophysiology of T1D and become a valuable tool for evaluation of beta-cell mass. Type 1 diabetes Islet transplantation Alternative implantation sites Exendin-4 Positron Emission Tomography 5-hydroxy tryptophan Beta-cell mass
29	The Role of Innate Immunity in Islet Transplantation : Clinical and Experimental Studies Moberg, Lisa January 2004 (has links) <p>Clinical islet transplantation is an emerging procedure to cure type 1 diabetes. The graft is implanted by infusion into the liver through the portal vein. A major obstacle that still needs to be overcome is the requirement for islets from multiple donors to achieve insulin independence. </p><p>An innate inflammatory reaction, the IBMIR, is elicited when islets are exposed to blood. The IBMIR has been described as a clotting reaction culminating in disruption of islet morphology and is a plausible cause for loss of tissue during the early post-transplant period. </p><p>In this thesis, the underlying mechanisms of the IBMIR were characterized. The IBMIR was for the first time demonstrated in patients undergoing an islet transplant, and a number of clinically applicable strategies to limit this reaction were identified.</p><p>The thrombin inhibitor melagatran completely blocked the IBMIR in an <i>in vitro</i> tubing blood loop system, indicating that thrombin is the driving force in the reaction. Interestingly, islets were shown to produce and secrete tissue factor (TF), the physiological trigger of coagulation. Inactivated FVIIa, a specific inhibitor of TF, successfully blocked initiation of the IBMIR. An alternative approach to limit the IBMIR was to pre-treat islets in culture prior to transplantation. Nicotinamide added to the culture medium effectively decreased the level of TF in human islets. Infiltration of immune cells, also a part of the IBMIR, was characterized in detail. The predominant cell types infiltrating the islets were neutrophilic granulocytes and, to a lesser degree, monocytes. Both cell types may exert direct cytotoxic effects, and the antigen-presenting monocytes may also be important for directing the specific immune system to the site of inflammation. </p><p>These findings have provided new insight into the nature of the IBMIR and offer several new strategies to improve the outcome of clinical islet transplantation.</p> Immunology diabetes islet transplantation islet of Langerhans coagulation activation IBMIR tissue factor thrombin inactivated FVIIa melagatran neutrophilic granulocyte Immunologi Immunology Immunologi
30	The Microvasculature of Endogenous and Transplanted Pancreatic Islets : Blood Perfusion, Oxygenation and Islet Endocrine Function Olsson, Richard January 2006 (has links) <p>Type 1 diabetes mellitus affects millions of people worldwide. Islet transplantation is a minimal invasive surgical procedure that restores euglycemia and halts the progression of diabetic complications. However, despite transplantation of islets from multiple donors most patients reverse to hyperglycemia within five years. New strategies to improve long-term outcome of islet transplantation are indispensable. This thesis studied differences in the microvasculature between endogenous and transplanted pancreatic islets, and investigated means to improve islet graft revascularization and function. Islet graft microvessels were similar to endogenous islets responsive to adenosine, angiotensin II and nitric oxide (NO). Recipient hyperglycemia induced a higher basal islet graft blood flow, which also was less dependent on NO than in normoglycemic recipients. Transplantation of freshly isolated instead of cultured islets improved graft revascularization, oxygenation and function. Pretreatment of islets with vascular endothelial growth factor decreased their expression of matrix metalloproteinase-9 (MMP-9) and impaired graft revascularization. Moreover, MMP-9 pretreatment <i>per se</i> improved graft revascularization. <i>In vivo</i>, 20-25% of all endogenous rat islets was low oxygenated (pO<sub>2</sub> <10 mmHg). Changes in the islet mass, by means of whole-pancreas transplantation, doubled the fraction of low oxygenated islets in the endogenous pancreas of transplanted animals, whereas this fraction almost completely disappeared after a 60% partial pancreatectomy. Interestingly, oxygenation was related to metabolism, since well oxygenated islets <i>in vivo</i> had 50% higher leucine-dependent protein biosynthesis, which includes (pro)insulin biosynthesis. In intraportally transplanted islets, the low oxygenated fraction of islets was markedly increased one day post-transplantation, and the oxygenation remained low following revascularization. In summary, these data suggest that a better revascularization of transplanted islets can improve graft function. Furthermore, the oxygenation and metabolism of endogenous islets is tightly regulated. This regulation seems to be disturbed following transplantation, which may contribute to long-term islet graft failure. </p> Cell biology diabetes mellitus pancreatic islets islet transplantation vascular engraftment islet microcirculation oxygenation blood flow protein biosynthesis Cellbiologi

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