Papel do inflamassoma NLRP3 nas alterações vasculares promovidas pelo diabetes tipo 1 em modelo induzido por estreptozotocina / Role of the NLRP3 inflammasome in the vascular alterations induced by type 1 diabetes in a streptozotocin-induced model

Pereira, Camila André

10 August 2018

O diabetes mellitus (DM) está associado a diversas complicações micro e macrovasculares diretamente relacionadas a doenças cardiovasculares. A prolongada exposição à hiperglicemia e a resistência a insulina são considerados os principais fatores envolvidos nestas complicações, as quais são exacerbadas pela disfunção endotelial. Mediadores inflamatórios contribuem potencialmente para o desenvolvimento de disfunção endotelial pela geração de espécies reativas de oxigênio (EROs) que, por sua vez, estimulam a transcrição de fatores pró- inflamatórios. Receptores específicos, como os NLRs (NOD-like receptors, receptores do tipo NOD) contribuem para instalação de processo inflamatório pela ativação do complexo inflamassoma. Este regula a ativação da caspase-1 e o processamento proteolítico dos precursores pró-IL-1? e pró-IL-18 nas citocinas maduras. Diversos mediadores podem ativar o inflamassoma NLRP3 como, por exemplo, EROs e DNA mitocondrial. Pouco é conhecido sobre o envolvimento de receptores NLRP3 e DNA mitocondrial na disfunção endotelial associada ao diabetes. Testamos a hipótese que a deficiência genética do receptor NLRP3 confere resistência à ativação de processo inflamatório na vasculatura de animais com diabetes tipo 1 (DM1) e, ainda, que DNA mitocondrial contribui para a ativação vascular do inflamassoma NLRP3 e para disfunção endotelial. Foram utilizados camundongos C57Bl/6 e deficientes para NLRP3, os quais foram tratados com veículo ou submetidos a protocolo para indução de DM1 com estreptozotocina. Parâmetros vasculares funcionais foram determinados em artérias mesentéricas de resistência. Células de músculo liso vascular (CMLV) e endoteliais foram utilizadas para avaliação da ativação do inflamassoma NLRP3 por DNA mitocondrial. A geração de EROs foi avaliada pela fluorescência para o dihidroetídio e pela quimiluminescência para lucigenina. A ativação de caspase-1 e IL-1? foi avaliada por western blot e o influxo de cálcio, por fluorescência. DNA mitocondrial foi avaliado pela expressão gênica de componentes da mitocôndria. O diabetes reduziu a vasodilatação dependente de endotélio, o que não ocorreu em artérias de animais deficientes de NLRP3. Animais diabéticos apresentaram aumento da expressão vascular do receptor NLRP3, da ativação de caspase-1 eIL-1? e da geração de EROs e peróxido de hidrogênio no leito mesentérico, eventos que ocorreram em menor intensidade em camundongos deficientes de NLRP3. Houve redução na expressão proteica vascular de Nox4 (NADPH oxidase 4), bem como na expressão gênica da molécula de adesão celular vascular-1 (VCAM-1, vascular cell adhesion molecule-1) e molécula de adesão intercelular-1 (ICAM-1, intercellular adhesion molecule-1) em animais deficientes de NLRP3. Houve aumento da liberação de DNA mitocondrial citosólico no pâncreas de animais diabéticos. A incubação com o DNA mitocondrial extraído do pâncreas de animais diabéticos promoveu ativação do inflamassoma em CMLV provenientes de animais C57Bl/6, mas não em CMLV provenientes de animais deficientes de NLRP3. Esta ativação foi associada ao aumento de EROs e influxo de cálcio. Essa mesma ativação também foi observada em células endoteliais. DNA mitocondrial de camundongos diabéticos também reduziu a dilatação dependente do endotélio em artérias mesentéricas, o que foi associado à geração de EROs e ativação do inflamassoma NLRP3. Pacientes diabéticos apresentaram aumento do DNA mitocondrial circulante e ativação de caspase-1 e IL-1? no soro. Os resultados demonstram que o DNA mitocondrial pancreático de animais diabéticos promove ativação, em CMLV e células endoteliais, do inflamassoma NLRP3 através do aumento no influxo de cálcio e da geração de EROs, contribuindo para o processo de disfunção endotelial. A deficiência de NLRP3 protege os animais diabéticos contra os danos vasculares inflamatórios e disfunção endotelial. / Diabetes mellitus (DM) is associated with several micro and macrovascular complications directly related to cardiovascular diseases. Prolonged exposure to hyperglycemia and insulin resistance are considered the main factors involved in these complications, which are exacerbated by endothelial dysfunction. Inflammatory mediators potentially contribute to the development of endothelial dysfunction by the generation of reactive oxygen species (ROS), which, in turn, stimulate the transcription of pro-inflammatory factors. Specific receptors such as NLRs (NOD-like receptors) contribute to the onset of inflammatory processes by the activation of a multiprotein complex called inflammasome. The NLRP3 inflammasome regulates the activation of caspase-1 and the proteolytic processing of pro-IL-1? and pro-IL-18 precursors into mature cytokines. Several mediators, such as ROS and mitochondrial DNA activate the NLRP3 inflammasome. Considering that it is not clear whether NLRP3 and mitochondrial DNA contribute to diabetes-associated endothelial dysfunction, we hypothesized that the genetic deficiency of the NLRP3 confers resistance to vascular inflammatory processes in animals with type 1 diabetes (T1D) and that mitochondrial DNA contributes to vascular activation of NLRP3 inflammasome and endothelial dysfunction. C57B1/6 and NLRP3 knockout mice were treated with vehicle or streptozotocin to induce T1D. Functional vascular parameters were determined in resistance mesenteric arteries. Cultured vascular smooth muscle cells (VSMC) and endothelial cells were used to determine NLRP3 inflammasome activation by mitochondrial DNA. ROS generation was evaluated by dihydroethidium fluorescence and by chemiluminescence for lucigenin. Caspase-1 and IL-1? activation was evaluated by western blot. Calcium influx was determined by fluorescence and mitochondrial DNA by mRNA expression of mitochondrial components. Diabetes reduced endothelium-dependent vasodilation in C57B1/6, but not in NLRP3 knockout mice. Diabetic mice presented increased vascular NLRP3 receptor expression, increased caspase-1 and IL-1? activation, as well as ROS and hydrogen peroxide generation, events that were mildly observed in NLRP3 knockout mice. There was a reduction in the vascular protein expression of Nox4 (NADPH oxidase 4) as wellas in the gene expression of VCAM-1 (vascular cell adhesion molecule-1) and ICAM-1 (intercellular adhesion molecule-1) in NLRP3 knockout animals. There was an increase in cytosolic mitochondrial DNA release in pancreas from diabetic animals. Mitochondrial DNA from the pancreas of diabetic mice induced NLRP3 inflammasome activation in VSMC from C57B1/6 mice, but not in VSMC from NLRP3 knockout mice. This activation was associated with increased levels of ROS and calcium influx and was also detected in endothelial cells. Mitochondrial DNA from diabetic mice also decreased endothelium-dependent dilation in mesenteric arteries, which was associated with ROS generation and NLRP3 inflammasome activation. Diabetic patients exhibited increased serum mitochondrial DNA and caspase-1 and IL-1? activation. The results demonstrate that pancreatic mitochondrial DNA from diabetic mice activates the NLRP3 inflammasome in VSMC and endothelial cells by increasing calcium influx and ROS generation, contributing to endothelial dysfunction. NLRP3 deficiency prevents diabetes-related vascular inflammatory damage and endothelial dysfunction.

diabetes tipo 1

disfunção endotelial

DNA mitocondrial

endothelial dysfunction

inflamassoma NLRP3

mitochondrial DNA

NLRP3 inflammasome

type 1 diabetes

Papel do inflamassoma NLRP3 nas alterações vasculares promovidas pelo diabetes tipo 1 em modelo induzido por estreptozotocina / Role of the NLRP3 inflammasome in the vascular alterations induced by type 1 diabetes in a streptozotocin-induced model

Camila André Pereira

10 August 2018

O diabetes mellitus (DM) está associado a diversas complicações micro e macrovasculares diretamente relacionadas a doenças cardiovasculares. A prolongada exposição à hiperglicemia e a resistência a insulina são considerados os principais fatores envolvidos nestas complicações, as quais são exacerbadas pela disfunção endotelial. Mediadores inflamatórios contribuem potencialmente para o desenvolvimento de disfunção endotelial pela geração de espécies reativas de oxigênio (EROs) que, por sua vez, estimulam a transcrição de fatores pró- inflamatórios. Receptores específicos, como os NLRs (NOD-like receptors, receptores do tipo NOD) contribuem para instalação de processo inflamatório pela ativação do complexo inflamassoma. Este regula a ativação da caspase-1 e o processamento proteolítico dos precursores pró-IL-1? e pró-IL-18 nas citocinas maduras. Diversos mediadores podem ativar o inflamassoma NLRP3 como, por exemplo, EROs e DNA mitocondrial. Pouco é conhecido sobre o envolvimento de receptores NLRP3 e DNA mitocondrial na disfunção endotelial associada ao diabetes. Testamos a hipótese que a deficiência genética do receptor NLRP3 confere resistência à ativação de processo inflamatório na vasculatura de animais com diabetes tipo 1 (DM1) e, ainda, que DNA mitocondrial contribui para a ativação vascular do inflamassoma NLRP3 e para disfunção endotelial. Foram utilizados camundongos C57Bl/6 e deficientes para NLRP3, os quais foram tratados com veículo ou submetidos a protocolo para indução de DM1 com estreptozotocina. Parâmetros vasculares funcionais foram determinados em artérias mesentéricas de resistência. Células de músculo liso vascular (CMLV) e endoteliais foram utilizadas para avaliação da ativação do inflamassoma NLRP3 por DNA mitocondrial. A geração de EROs foi avaliada pela fluorescência para o dihidroetídio e pela quimiluminescência para lucigenina. A ativação de caspase-1 e IL-1? foi avaliada por western blot e o influxo de cálcio, por fluorescência. DNA mitocondrial foi avaliado pela expressão gênica de componentes da mitocôndria. O diabetes reduziu a vasodilatação dependente de endotélio, o que não ocorreu em artérias de animais deficientes de NLRP3. Animais diabéticos apresentaram aumento da expressão vascular do receptor NLRP3, da ativação de caspase-1 eIL-1? e da geração de EROs e peróxido de hidrogênio no leito mesentérico, eventos que ocorreram em menor intensidade em camundongos deficientes de NLRP3. Houve redução na expressão proteica vascular de Nox4 (NADPH oxidase 4), bem como na expressão gênica da molécula de adesão celular vascular-1 (VCAM-1, vascular cell adhesion molecule-1) e molécula de adesão intercelular-1 (ICAM-1, intercellular adhesion molecule-1) em animais deficientes de NLRP3. Houve aumento da liberação de DNA mitocondrial citosólico no pâncreas de animais diabéticos. A incubação com o DNA mitocondrial extraído do pâncreas de animais diabéticos promoveu ativação do inflamassoma em CMLV provenientes de animais C57Bl/6, mas não em CMLV provenientes de animais deficientes de NLRP3. Esta ativação foi associada ao aumento de EROs e influxo de cálcio. Essa mesma ativação também foi observada em células endoteliais. DNA mitocondrial de camundongos diabéticos também reduziu a dilatação dependente do endotélio em artérias mesentéricas, o que foi associado à geração de EROs e ativação do inflamassoma NLRP3. Pacientes diabéticos apresentaram aumento do DNA mitocondrial circulante e ativação de caspase-1 e IL-1? no soro. Os resultados demonstram que o DNA mitocondrial pancreático de animais diabéticos promove ativação, em CMLV e células endoteliais, do inflamassoma NLRP3 através do aumento no influxo de cálcio e da geração de EROs, contribuindo para o processo de disfunção endotelial. A deficiência de NLRP3 protege os animais diabéticos contra os danos vasculares inflamatórios e disfunção endotelial. / Diabetes mellitus (DM) is associated with several micro and macrovascular complications directly related to cardiovascular diseases. Prolonged exposure to hyperglycemia and insulin resistance are considered the main factors involved in these complications, which are exacerbated by endothelial dysfunction. Inflammatory mediators potentially contribute to the development of endothelial dysfunction by the generation of reactive oxygen species (ROS), which, in turn, stimulate the transcription of pro-inflammatory factors. Specific receptors such as NLRs (NOD-like receptors) contribute to the onset of inflammatory processes by the activation of a multiprotein complex called inflammasome. The NLRP3 inflammasome regulates the activation of caspase-1 and the proteolytic processing of pro-IL-1? and pro-IL-18 precursors into mature cytokines. Several mediators, such as ROS and mitochondrial DNA activate the NLRP3 inflammasome. Considering that it is not clear whether NLRP3 and mitochondrial DNA contribute to diabetes-associated endothelial dysfunction, we hypothesized that the genetic deficiency of the NLRP3 confers resistance to vascular inflammatory processes in animals with type 1 diabetes (T1D) and that mitochondrial DNA contributes to vascular activation of NLRP3 inflammasome and endothelial dysfunction. C57B1/6 and NLRP3 knockout mice were treated with vehicle or streptozotocin to induce T1D. Functional vascular parameters were determined in resistance mesenteric arteries. Cultured vascular smooth muscle cells (VSMC) and endothelial cells were used to determine NLRP3 inflammasome activation by mitochondrial DNA. ROS generation was evaluated by dihydroethidium fluorescence and by chemiluminescence for lucigenin. Caspase-1 and IL-1? activation was evaluated by western blot. Calcium influx was determined by fluorescence and mitochondrial DNA by mRNA expression of mitochondrial components. Diabetes reduced endothelium-dependent vasodilation in C57B1/6, but not in NLRP3 knockout mice. Diabetic mice presented increased vascular NLRP3 receptor expression, increased caspase-1 and IL-1? activation, as well as ROS and hydrogen peroxide generation, events that were mildly observed in NLRP3 knockout mice. There was a reduction in the vascular protein expression of Nox4 (NADPH oxidase 4) as wellas in the gene expression of VCAM-1 (vascular cell adhesion molecule-1) and ICAM-1 (intercellular adhesion molecule-1) in NLRP3 knockout animals. There was an increase in cytosolic mitochondrial DNA release in pancreas from diabetic animals. Mitochondrial DNA from the pancreas of diabetic mice induced NLRP3 inflammasome activation in VSMC from C57B1/6 mice, but not in VSMC from NLRP3 knockout mice. This activation was associated with increased levels of ROS and calcium influx and was also detected in endothelial cells. Mitochondrial DNA from diabetic mice also decreased endothelium-dependent dilation in mesenteric arteries, which was associated with ROS generation and NLRP3 inflammasome activation. Diabetic patients exhibited increased serum mitochondrial DNA and caspase-1 and IL-1? activation. The results demonstrate that pancreatic mitochondrial DNA from diabetic mice activates the NLRP3 inflammasome in VSMC and endothelial cells by increasing calcium influx and ROS generation, contributing to endothelial dysfunction. NLRP3 deficiency prevents diabetes-related vascular inflammatory damage and endothelial dysfunction.

diabetes tipo 1

disfunção endotelial

DNA mitocondrial

inflamassoma NLRP3

endothelial dysfunction

mitochondrial DNA

NLRP3 inflammasome

type 1 diabetes

A ativação do receptor AIM2 na mucosa intestinal confere proteção ao diabetes tipo 1 experimental / The activation of AIM2 receptor in the intestinal mucosal protects against experimental type 1 diabetes

Jefferson Antonio Leite

31 July 2018

O diabetes tipo 1 (DM1) é uma doença autoimune caracterizada pela destruição das células ? presentes nas ilhotas pancreáticas por linfócitos T autorreativos, especialmente Th1 e Th17, levando o indivíduo a um estado de hiperglicemia. Embora existam diversos estudos que abordam a resposta imune adaptativa no contexto do DM1, poucos trabalhos tentaram elucidar o papel da resposta imune inata no desenvolvimento da doença. Neste contexto, observamos que camundongos WT pré-diabéticos possuem um aumento significativo na expressão gênica e proteica do receptor AIM2 e de moléculas relacionadas à sua via de ativação e sinalização (Caspase-1, IL-1? e IL-18) nos linfonodos pancreáticos (LNPs) e no íleo. Posteriormente, foi verificado que camundongos deficientes do receptor AIM2 tornaram-se mais suscetíveis ao DM1, comprovado por elevados níveis de glicose sanguínea e menor produção de insulina em relação aos animais selvagens (WT) após a administração com estreptozotocina (STZ). Tal suscetibilidade está relacionada a um processo de disbiose e aumento da translocação de bactérias da microbiota intestinal para os LNPs de camundongos AIM2-/-. De maneira interessante, o inflamassoma AIM2 foi ativado apenas na presença de DNA fecal de animais diabéticos, que possui uma microbiota em disbiose, uma vez que resultou na produção significativa da citocina IL-1?. Também foi constatado que a ativação do receptor AIM2 na mucosa intestinal regulou a expressão gênica e proteica de proteínas de junção celular, peptídeos antimicrobianos e mucinas, como forma de minimizar a translocação de bactérias da microbiota para os LNPs. Adicionalmente, foi visto que a ativação do receptor AIM2 contribui para a indução de células Th17 intestinais, para a migração de neutrófilos no intestino, assim como para a expressão das citocinas IL-23, IL-17 e IL-22 no íleo. Por fim, mostramos que o receptor AIM2 modulou negativamente a ativação de células dendríticas expressando TLR4 e TLR9, que correlacionou com o aumento de células Tc1 patogênicas nos LNPs. De forma geral, nossos resultados demonstram que a ativação do receptor AIM2 na mucosa intestinal desempenha um importante papel em controlar a homeostase da microbiota intestinal, manter a integridade da barreira intestinal, e consequentemente. / Type 1 diabetes (T1D) is an autoimmune disease characterized by the destruction of ? cells present in the pancreatic islets by autoreactive T lymphocytes, especially Th1 and Th17, leading to a state of hyperglycemia. There are many studies that address the role of adaptive immune response, so only some studies have attempted to elucidate the role of the innate immune response in the context of T1D. In this regard, we observed that pre-diabetic WT mice have a significant increase in the gene and protein expression of the AIM2 receptor and in molecules related to its activation and signaling pathways (Caspase-1, IL- 1? and IL-18) in the pancreatic lymph nodes (PLNs) and in the ileum. Subsequently, it was verified that AIM2 receptor deficient mice became more susceptible to T1D, as proved by blood glucose levels and lower insulin production compared to wild-type mice (WT) after administration of streptozotocin (STZ). This susceptibility was related to a process of dysbiosis and increased translocation of bacteria from gut microbiota to PLNs in AIM2-/- mice. Interestingly, the AIM2 inflammasome was activated in the presence of fecal DNA from diabetic mice, which has a gut microbiota in dysbiosis, since resulted in significant production of IL-1?. It was found that activation of the AIM2 receptor in the intestinal mucosa regulated the gene and protein expression of tightjunction proteins, antimicrobial peptides and mucins in order to minimizing a bacterial translocation of the microbiota to the PLNs. In addition, it was seen that activation of the AIM2 receptor contributes to induction of intestinal Th17 cells, to neutrophil migration in the intestine, as well as for expression of IL-23, IL-17 and IL-22 cytokines in the ileum. Finally, we show that the AIM2 receptor negatively modulated the activation of dendritic cells expressing TLR4 and TLR9, which correlated with the increase of pathogenic Tc1 cells in the PLNs. In general, the results demonstrate that activation of the AIM2 receptor in the intestinal mucosa plays an important role in controlling the composition of gut microbiota homeostasis, maintaining the intestinal barrier function, and consequently reducing the bacterial translocation to the PLNs, conferring a protective effect to the immunopathogeny against to DM1.

The artificial pancreas in children and adolescents with type 1 diabetes : bringing closed-loop home

Tauschmann, Martin

January 2019

Type 1 diabetes is one of the most common chronic conditions in childhood and adolescence. Despite ongoing development of more physiological insulin preparations, recent advancements in insulin pump technology and more accurate blood glucose monitoring, in clinical practice it remains challenging to achieve normoglycaemia whilst reducing the risk of hypoglycaemia, particularly in young people with type 1 diabetes. Closed-loop insulin delivery (the artificial pancreas) is an emerging technology gradually progressing from bench to clinical practice. Closed-loop systems combine glucose sensing with computer-based algorithm informed insulin delivery to provide real-time glucose-responsive insulin administration. The key objective of my thesis is to evaluate the safety, efficacy and utility of closed-loop insulin delivery in children and adolescents with type 1 diabetes outside of the research facility setting. Results of five clinical trials are presented in the main chapters of this thesis. In a mechanistic study, the impact of glucose sensor operation duration on efficacy of overnight closed-loop was investigated comparing closed-loop performance on day 1 of sensor insertion to day 3 to 4 of sensor. Twelve adolescents with type 1 diabetes attended the research facility for two overnight visits. The sequence of the interventions was random. Despite differences in sensor accuracy, overnight CL glucose control informed by sensor glucose on day 1 or day 3-4 after sensor insertion was comparable. The model predictive controller appears to mitigate against sensor inaccuracies. In home settings, overnight closed-loop application was evaluated over three months in 25 children and adolescents with type 1 diabetes aged six to 18 years. The study was conducted at three centres in the UK and adopted a randomised cross-over design. Compared to sensor-augmented pump therapy, overnight home use of closed-loop increased the proportion of time sensor glucose was in target, and reduced mean glucose and hypoglycaemia. Two randomised crossover studies evaluated the safety and efficacy of day-and-night hybrid closed-loop insulin delivery in young people with type 1 diabetes aged 10 to 18 years over seven days, and 21 days, respectively. A total of 24 subjects were enrolled in this single centre trial. Free-living home use of day-and-night closed-loop in suboptimally controlled adolescents with type 1 diabetes was safe, and improved glucose control without increasing the risk of hypoglycaemia. Finally, closed-loop technology was assessed in five very young children (aged one to seven years) with type 1 diabetes in a two-period, crossover study. Closed-loop was used during both 3-week intervention periods, either with standard strength insulin (U100), or with diluted insulin (U20). The order of intervention was random. Free-living home use of day-and-night hybrid closed-loop in very young children with type 1 diabetes was feasible and safe. Glucose control was comparable during both intervention periods. Thus, use of diluted insulin during closed-loop insulin delivery might not be of additional benefit in this population. In conclusion, studies conducted as part of my thesis demonstrate that use of hybrid closed-loop insulin delivery systems in children and adolescents aged one to 18 years in free daily living without remote monitoring or supervision is feasible, safe and effective. My work supports the progression of this technology from research to mainstream clinical practice.

Um jogo feito pra mim: estrutura conceitual para o desenvolvimento de videogames para crianças com diabetes mellitus tipo 1 / \"A game made for me\": conceptual framework for the development of videogames for children with type 1 diabetes mellitus

Sparapani, Valéria de Cássia

17 December 2015

O diabetes mellitus tipo 1 é uma doença crônica que afeta principalmente a população infantojuvenil, e a sua incidência tem aumentado em todo o mundo. Diversos são os desafios enfrentados por essas crianças para o alcance do adequado manejo da doença. A não adesão ao tratamento e a escassez de intervenções estruturadas para essa clientela configuram a necessidade do desenvolvimento de novas estratégias educativas que sejam criativas, interativas e pautadas na valorização das suas necessidades e preferências. Nesse âmbito, os videogames têm surgido como estratégias educativas capazes de incorporar essas necessidades e promover a mudança positiva de comportamentos inadequados. Embora a literatura aponte o potencial uso dos videogames no suporte do manejo de doenças crônicas, registra-se a preocupação crescente sobre qual a melhor forma de desenvolver essas estratégias. A integração de princípios teóricos e metodológicos é recomendada, porém pouco descrita e explorada nos estudos. Este estudo objetiva desenvolver uma estrutura conceitual para fundamentar o desenvolvimento de videogames para crianças com diabetes mellitus tipo 1. Trata-se de um estudo metodológico que descreve os passos para o desenvolvimento dessa estrutura conceitual, considerando as Teorias de Mudança de Comportamentos em Saúde e a abordagem centrada no usuário como referenciais teóricos e metodológicos, respectivamente. Realizou-se estudo descritivo e transversal, de natureza quantitativa, para o levantamento do perfil das crianças e adolescentes com diabetes mellitus tipo 1, usuários de um hospital público do interior paulista, para conhecer com mais propriedade os futuros usuários do videogame. Em seguida, foram realizados dois ciclos de grupos focais, totalizando 11 grupos, com a participação de 21 crianças entre 7 e 12 anos. Realizou-se análise de conteúdo dedutiva e indutiva desses dados e elaborou-se a categoria central \"Um jogo feito pra mim\". Identificamos preferências quanto aos jogos de videogames e também as necessidades de aprendizagem relacionadas ao conhecimento sobre a doença e aquelas relativas às tarefas de autocuidado e, com isso, comportamentos inadequados dessas crianças. As crianças elencaram suas preferências quanto ao desenho de um videogame voltado para elas, com foco nos resultados identificados previamente. A seguir, relacionamos os resultados obtidos com os determinantes de mudanças de comportamentos em saúde e descrevemos, para cada um, suas influências no comportamento das crianças. Finalmente, a estrutura conceitual foi desenvolvida, mediante os passos cumpridos anteriormente, com base nas Teorias de Mudança de Comportamentos em Saúde e seus determinantes. A estrutura conceitual propõe um videogame que contempla seis fases, cada qual abordando um estágio de mudança de comportamento e determinantes específicos, alinhados às necessidades e preferências identificadas junto às crianças participantes. Apresentamos a aplicabilidade dessa estrutura, considerando cada fase proposta. Os resultados deste estudo contribuem para o avanço nas discussões de como as teorias de mudança de comportamento e seus determinantes devem estar relacionados ao desenho de tecnologias interativas. Ainda, este estudo auxilia pesquisas futuras cujos objetos de estudo sejam o desenvolvimento de videogames, para crianças com diabetes, que sejam agentes de mudanças e ao mesmo tempo criativos e divertidos / Type 1 diabetes mellitus is a chronic illness that mainly affects the child-juvenile population, and its incidence has increased all over the world. These children face different challenges to achieve the appropriate management of the disease. Non-compliance with the treatment and the lack of structured interventions for these clients entail the need to develop new educational strategies that are creative, interactive and based on the valuation of their needs and preferences. In that context, videogames have emerged as educational strategies capable of incorporating these needs and promoting positive change in inappropriate behaviors. Although the literature appoints the potential use of videogames to support the management of chronic illnesses, there is growing concern with the best way to develop these strategies. The integration of theoretical and methodological principles is recommended, but hardly described and explored in research. This study aims to develop a conceptual framework to support the development of videogames for children with type 1 diabetes mellitus. A methodological study was undertaken that describes the steps for the development of this conceptual framework, in view of the Health Behavior Change Theories and the User- Centered Design approach as theoretical and methodological frameworks, respectively. A descriptive and cross-sectional quantitative study was developed to survey the profile of children and adolescents with type 1 diabetes mellitus, who attend a public hospital in the interior of the State of São Paulo, so as to get to know the future videogame users more properly. Next, two cycles of focus groups were held, totaling 11 groups, in which 21 children between 7 and 12 years participated. These data were subject to deductive and inductive content analysis and a central category was elaborated named \"A game made for me\". We identified preferences regarding the use of videogames, as well as the learning needs related to the knowledge on the disease and to the self-care tasks and, thus, these children\'s inappropriate behaviors. The children listed their preferences for the design of a videogame aimed at them, focused on the previously identified results. Next, we relate the results obtained with the determinants of health behavior changes theories and we describe, for each of them, their influences on the children\'s behavior. Finally, the conceptual framework was developed through the steps developed earlier, based on the Health Behavior Changes Theories and their determinants. The conceptual framework proposed a videogame that consists of six phases, each of which addresses one stage of behavior change and specific determinants, aligned with the needs and preferences identified among the participating children. We present the applicability of this framework in view of each phase proposed. The results of this study contribute to advance in the discussions on how the behavioral theories and their determinants should be related to the design of interactive technologies. In addition, this study supports future studies aimed at developing videogames for children with diabetes, to serve as agents of change and, at the same time, be creative and funny

Child

Comportamentos saudáveis

Criança

Diabetes Mellitus Tipo 1

Enfermagem pediátrica

Healthy behaviors

Pediatric nursing

Type 1 Diabetes Mellitus

Videogames

Videogames

Genetic algorithm tuning of artificial pancreas MPC with individualized models

Sehlin, Olov

January 2019

Diabetes is a growing chronic disease and a worldwide problem. Without any available cure in sight for the public other methods needs to be applied to increase the life quality of diabetic patients. Artificial Pancreas (AP), a concept of having a closed loop system to control the glucose level on Type 1 Diabetes (T1D) patients has been introduced and is under development. In this thesis, Model Predictive Control (MPC) has been re implemented from scratch in MATLAB/SIMULINK with associated Kalman filter and prediction function. It was implemented in the latest version of the UVA/Padova Simulator which is a tool approved by FDA for simulating diabetes treatment in order to speed up the AP development. Different MPC cost functions where tested together with integral action on a simplified system using a linear approximation of a population model. It was implemented and tuned with a new simulation tuning method using Genetic Algorithm (GA). It showed that the quadratic cost function without integral action was the best with respect to performance and time efficiency. 3 hours was the best prediction horizon and was used for the individualized tuning using the University of Virginia (UVA)/Padova simulator. For the individualized MPC, models identified by the University of Padova were used. These simulations showed that an individualized model could be used for improved T1D treatment compared to an average population model even though the results were mixed. Almost all of the patients got improved treatment with the closed treatment and non hypoglycemic event occurred. The identification of better models is a great challenge for the future development of the AP MPC due to the excitation problems.

Artificial Pancreas

Genetic Algorithm

Kalman Filter

Model Predictive Control

UVA / Padova T1D Simulator

Type 1 Diabetes

Control Engineering

Reglerteknik

Upplevda hinder och risker vid fysisk aktivitet hos typ 1 diabetiker : En systematisk litteraturstudie / The perceived obstacles and risks during physical activity for type 1 diabetics : A systematic literature study

Krantz, Irina

January 2019

Introduction: In Sweden, 450,000 people suffer from diabetes, of which 10-15% have type 1 diabetes. Individuals who have lived with the disease for a long time run the risk of complications. Physical activity is central to the treatment, but there are risks and obstacles that can lead to the individual avoiding physical activity.  Aim: The purpose is to investigate perceived risks and other obstacles during physical activity for type 1 diabetics.  Methods: The choice of method was a systematic literature study. The databases WorldCat Discovery and Pubmed were used in the search of reports. After the search, 10 reports were selected, and a thematic analysis was applied. Then 3 themes were chosen which were later used to analyze the reports. They were as follows: the fear and the risk of hypoglycemia, the obstacles and remedies in relation to physical activity and behavioral changes in the individual.  Results: The fear of a hypoglycemia prevents the individual from exercising. The result showed that women suffers from anxiety concerning their diabetes to a greater extent than men. Aids such as Continuous Glucose Monitoring can minimize anxiety and the risk of getting into hypoglycemia during physical activity.  Conclusion: Constantly worrying about getting into hypoglycemia can cause the individual to stop caring for the risks associated with the disease. One of the factors that led to the individual being unable to perform physical activity was hyperglycaemia. Continuous blood glucose monitoring as well as support of personnel at exercise facilities can lead to the individual overcoming obstacles and concerns.

type 1 diabetes

hypoglycaemia

physical activity

anxiety

risks

typ 1 diabetes

hypoglykemi

fysisk aktivitet

oro

risker

Health Sciences

Hälsovetenskaper

Structural and functional changes in the feet of young people with Type 1 diabetes mellitus

Duffin, Anthony C., University of Western Sydney, College of Science, Technology and Environment, School of Science, Food and Horticulture

January 2002

Diabetes can affect the structure and function of the foot, resulting in severe limitation of mobility and reduction of life expectancy. Early warning signs include limited joint mobility (LJM), soft tissue changes, high plantar pressure (HPP), high pressure time integrals (P/TI) and plantar callus. These abnormalities were examined in 216 young people with diabetes and 57 controls. The fingers, toes, ankle subtalar and first metatarsophalangeal joints shows reduced motion and the plantar aponeurosis was thicker in diabetic subjects. Skin thickness was the same for diabetic and control subjects. LJM in the feet was more common in males and older subjects. Subtalar and finger LJM was associated with early sensory nerve changes and finger LJM was associated with retinopathy and higher HbAtc. Thicker plantar aponeurosis was associated with male gander and larger feet. High peak pressure, high P/TI and callus were no more common in diabetic subjects than controls. However, high P/TI and callus were associated with early sensory nerve changes in young people with diabetes. Diabetic subjects with callus were significantly older than those without callus. Those with HPP had higher body mass index and less motion at the first MTP joints than those without HPP. Although plantar callus, HPP and high P/TI were no more common in young people with diabetes these abnormailities may be complicated by diabetes. Cushioning, custom orthoses or both in combination significantly reduced peak pressure and P/TI in diabetic subjects. / Doctor of Philosophy (PhD)

diabetes in adolescence

Type 1 diabetes mellitus

foot diseases

foot abnormalities

limited joint mobility

pressure time integrals

plantar pressure

plantar callus

Diabetes in Young Adults : Remission, β-cell function and markers of inflammation

Schölin, Anna

January 2003

<p>Type 1 diabetes is caused by immuno-mediated β-cell destruction leading to insulin deficiency and hyperglycaemia. The decline in β-cell function and the clinical course after diagnosis vary. Whether the process of destruction of the β-cells is associated with markers of a non-specific inflammatory response is unknown. The aims of these studies were to identify factors of importance for clinical remission (low insulin need and normoglycaemia) and long-term β-cell function and estimate the degree of non-inflammatory response in type 1 diabetes in young adults. Clinical remission and β-cell function eight years after diagnosis were assessed and related to clinical, biochemical and immunological variables at diagnosis, including islet autoantibodies [ICA, GADA, IA-2A]. Markers of low-grade inflammation in plasma [CRP and IL-6] were estimated and the concentrations were related β-cell function [plasma C-peptide], glycaemic control and autoimmunity at diagnosis and the first year thereafter. The results showed that clinical remission occurred in about half of the patients with newly diagnosed type 1 diabetes. Preserved β-cell function eight years after diagnosis was observed in 16% of the patients classified at diagnosis as having autoimmune type 1 diabetes. Duration of remission was dependent on BMI, degree of metabolic derangement and presence of GADA at diagnosis. BMI at diagnosis was also of importance for preserved β-cell function after eight years of the disease, as were the amount of islet antibodies and presence of ICA. Elevated CRP levels were noted in the majority of cases at diagnosis and both CRP and IL-6 concentrations were stable the first year after clinical diagnosis. High concentrations of CRP and IL-6 did not relate to β-cell destruction or the degree of autoimmunity. CRP concentrations were higher in islet antibody negative than in positive patients. CRP also correlated positively to BMI, C-peptide at 12 months and to increasing HbA1c between six and 12 months. In general, females had shorter remissions, lower concentrations of serum bicarbonate and higher levels and prevalence of GADA at diagnosis, compared to males. Females also had higher HbA1c and CRP values the first year after diagnosis. In summary, BMI at diagnosis is a strong predictor of duration of remission and preservation of β-cell function. Elevated CRP concentrations are correlated to factors linked rather to insulin resistance than to β-cell destruction. Females appear to have a more acute onset and a more severe course of the disease than males.</p>

Internal medicine

type 1 diabetes

young adults

remission

β-cell function

islet antibodies

gender

CRP

Invärtesmedicin

Internal medicine

Invärtesmedicin

Body Composition in Adolescents with Type 1 Diabetes : Aspects of Glycaemic Control and Insulin Sensitivity

Särnblad, Stefan

January 2004

<p>Excessive weight gain has frequently been reported in adolescents with type 1 diabetes, especially in girls. In general, puberty is associated with reduced insulin sensitivity that is further diminished by overweight. The causes and consequences of excessive weight gain in adolescents with type 1 diabetes are not fully understood. The studies described in this thesis addressed body composition in adolescents with type 1 diabetes and the relationships between physical activity, energy intake and changes in body composition. Furthermore, the effect of metformin as additional therapy on glycaemic control and insulin sensitivity was examined in a randomised placebo-controlled study. Body mass index (BMI) and percentage body fat (%BF) were significantly higher in girls with type 1 diabetes compared to healthy control girls. Mean HbA1c during puberty, but not mean insulin dose, was positively related to BMI at the age of 18 in girls with diabetes. A centralised fat distribution was associated with poor glycaemic control, increased daily dosage of insulin and elevated cholesterol and triglyceride levels. Neither total physical activity nor total energy intake differed between adolescent girls with type 1 diabetes and healthy age-matched control girls. A high dietary fat intake was positively related to gain in %BF in girls with type 1 diabetes. Additional therapy with metformin for three months improved glycaemic control and peripheral insulin sensitivity in adolescents with poorly controlled type 1 diabetes. The improvement in glycaemic control was related to insulin sensitivity at baseline, implying that the most insulin resistant subjects benefited most from the metformin therapy. It is concluded that the excessive weight gain observed in girls with type 1 diabetes is mainly attributable to an increased fat mass and that dietary fat intake is of importance for this gain in body fat. Additional treatment with metformin improves glycaemic control in adolescents with poorly controlled type 1 diabetes.</p>

Pediatrics

Type 1 diabetes mellitus

Adolescent

Body composition

Physical activity

Energy intake

Metformin

Insulin sensitivity

Pediatrik

Paediatric medicine

Pediatrisk medicin