Performance clinique des implants acétabulaires monoblocs avec articulations de grands diamètres en arthroplastie de la hanche primaire et de révision : le défi des cotyles atypiques

Synnott, Paul-André

12 1900

La prothèse totale de la hanche (PTH) avec cupule acétabulaire monobloc et articulation de grand diamètre (LDH) offre une amplitude articulaire supraphysiologique et une stabilité accrue. Reposant sur une fixation primaire par press-fit, l’implantation de ces prothèses sur des cotyles atypiques peut représenter un défi technique. L’objectif principal de ce mémoire est d’évaluer la stabilité de la fixation primaire et secondaire de ces implants lorsqu’utilisés dans un cotyle atypique en première intention ou en révision prothétique. Comme objectif secondaire, nous évaluerons les résultats fonctionnels rapportés par le patient (PROMs) à l’aide de scores validés. Deux séries de cas consécutifs de PTHs LDH monoblocs sur cotyles atypiques ont été évaluées : 125 PTHs primaires et 47 révisions de PTH (rPTH). La mesure d’efficacité primaire était la révision acétabulaire pour toutes causes aseptiques. Les PROMs ont été évalués au dernier suivi avec les scores de Western Ontario and McMaster Universities Osteoarthritis Index (WOMAC), Forgotten Joint Score (FJS) et Patient’s Joint Perception (PJP). Une évaluation radiologique à la recherche de signes de descellement aseptique a été complétée au dernier suivi. En PTH primaire, après un suivi moyen de 9,2 ans (2,2-15,8), aucun descellement aseptique de la cupule n’a été identifié. Il y a eu 13 (10,4%) révisions sans lien avec la fixation acétabulaire. En rPTH, après un suivi moyen de 4,5 ans (2,0-13,7), il y a eu 5 (10,6%) ré-révision de la cupule incluant 2 pertes de fixation primaire. Le taux de luxation fut de 0% en PTH primaire et de 8,5% (4/47) en rPTH. Les résultats fonctionnels moyens en PTH primaire et rPTH étaient un WOMAC de 9,2 et 19,5 ainsi qu’un FJS de 80,9 et 57,3, respectivement. Quant au PJP en PTH primaire et en rPTH, respectivement, 49,4% et 8,8% des patients percevaient leurs hanches comme naturelle, 19,1% et 23,5% comme une articulation artificielle sans restriction tandis que 31,5% et 67,7% rapportaient un certain degré de restriction. Lorsqu’utilisés par des opérateurs expérimentés sur cotyles présentant un défi de fixation primaire, les cupules monoblocs LDH sont des options intéressantes offrant un faible taux de révision et de complication ainsi que d’excellents résultats cliniques à moyen terme. / Total hip arthroplasty (THA) with monobloc acetabular cup with large diameter bearing (LDH) offers supraphysiologic range of motion and increased stability. Relying on primary press-fit fixation, implantation of these prostheses on atypical acetabula can represent a technical challenge. The main objective of this thesis is to evaluate the stability of primary and secondary fixation of these implants on atypical acetabula in first intention or prosthetic revision. As a secondary objective, we will assess the mid-term clinical results using validated patient-reported outcome measures (PROMs). Two consecutive case series of monobloc LDH THA with atypical acetabula were evaluated: 125 THAs and 47 revisions THA (rTHA). The primary efficacy measure was acetabular revision for all aseptic causes. PROMs were assessed at last follow-up with the Western Ontario and McMaster Universities Osteoarthritis Index (WOMAC), Forgotten Joint Score (FJS) and Patient’s Joint Perception question (PJP). A radiological evaluation assessing for signs of aseptic loosening was completed at last follow-up. In primary THA, after a mean follow-up of 9,2 years (2,2-15,8), no aseptic loosening of the acetabular cup was identified. There were 13 (10,4%) revisions unrelated to acetabular fixation. In rTHA, after a mean follow-up of 4,5 years (2,0-13,7), there were 5 (10,6%) cup re-revisions: 2 loss of primary fixation and 3 recurrent instabilities. The dislocation rate in primary THA was 0% and 8,5% (4/47) in rTHA. The average functional scores in primary THA and rTHA were a WOMAC of 9,2 and 19,5 and a FJS of 80,9 and 57,3, respectively. As for PJP in primary THA and rTHA, respectively, 49,4% and 8,8% of patients perceived their hip as natural, 19,1% and 23,5% as an unrestricted artificial joint while 31,5% and 67,7% reported some degree of restriction. When used by experienced operators on acetabula presenting a technical challenge for primary fixation, LDH monoblocs cups are attractive options offering low revision and complication rates and excellent mid-term clinical results.

Remplacement total de la hanche

Chirurgie de révision

Acétabulum

Prothèse de la hanche

Fixation

Dysplasie acétabulaire

Tête fémorale de grand diamètre

Monobloc

Total hip replacement

Revision surgery

Acetabulum

Hip prosthesis

Fixation

Acetabular dysplasia

Large diameter head

Monobloc

Surgery / Chirurgie (UMI : 0576)

Hodnocení motoriky dětí ve věku 0-12 měsíců s diagnózou vývojová dysplázie kyčelní pomocí škály Peabody Developmental Motor Scales - 2. / Evaluation of motor skills of children aged 0-12 months with developmental dysplasia of the hip by Peabody Developmental Motor Scales - 2 scale.

Frajtová, Aneta

January 2021

brace on the child's motor development and it briefly informs about the possibilities of the objective evaluation of child' significant influence of the diagnosis DDH and inseparable orthopaedic brace on the child's - ltaneusly intensive physiotherapy using Vojta's reflex

The tumor suppressing roles of tissue structure in cervical cancer development

Nguyen, Hoa Bich

07 October 2013

Indiana University-Purdue University Indianapolis (IUPUI) / Cervical cancer is caused by the persistent infection of human papilloma virus (HPV) in the cervix epithelium. Although effective preventative care is available, the widespread nature of infection and the variety of HPV strains unprotected by HPV vaccines necessitate a better understanding of the disease for development of new therapies. A major tumor suppressing mechanism is the inhibition of cell division by tissue structure; however, the underlining molecular circuitry for this regulation remains unclear. Recently, the Yap transcriptional co-activator has emerged as a key growth promoter that mediates contact growth arrest and limits organ size. Thus, we aimed to uncover upstream signals that connect tissue organization to Yap regulation in the inhibition of cervical cancer. Two events that disrupt tissue structure were examined including the loss of the tumor suppressor LKB1 and the expression of the viral oncogene HPV16-E6. We identified that Yap mediates cell growth regulation downstream of both LKB1 and E6. Restoration of LKB1 expression in HeLa cervical cancer cells, which lack this tumor suppressor, or shRNA knockdown of LKB1 in NTERT immortalized normal human dermal keratinocytes, demonstrated that LKB1 promotes Yap phosphorylation, nuclear exclusion, and proteasomal degradation. The ability of phosphorylation-defective Yap mutants to rescue LKB1 phenotypes, such as reduced cell proliferation and cell size, suggest that Yap inhibition contributes to LKB1 tumor suppressor function(s). Interestingly, LKB1’s suppression of Yap activity required neither the canonical Yap kinases, Lats1/2, nor metabolic downstream targets of LKB1, AMPK and mTORC1. Instead, the scaffolding protein NF2 was required for LKB1 to induce a specific actin cytoskeleton structure that associates with Yap suppression. Meanwhile, HPV16-E6 promoted Yap activation in all stages of keratinocyte differentiation. E6 activated the Rap1 small GTPase, which in turn promoted Yap activity. Since Rap1 does not mediate differentiation inhibition caused by E6, E6 may play a role in promoting cell growth through Rap1-Yap activation rather than preventing growth arrest through the disruption of differentiation. Altogether, the LKB1-NF2-Yap and E6-Rap1-Yap pathways represent two examples of a novel phenomenon, whereby the structure of a cell directly influences its gene expression and proliferation.

Cervical cancer

Yap

LKB1

HPV-E6

NF2

tissue structure

Papillomaviruses -- Research

Cervix uteri -- Cancer

Tumor suppressor proteins

Cells -- Growth -- Regulation

Cell proliferation -- Research

Papillomavirus vaccines

Phosphorylation

Transcription factors

Dysplasia

Keratinocytes -- Differentiation

Cancer cells -- Research

Multifocal periapical cemental dysplasia in periodontal Ehlers–Danlos syndrome combined with leukoencephalopathy in the mutation of c.890G > a, G297D [pEDS]

Nilius, Manfred, Nilius, Minou Helene, Müller, Charlotte, Lauer, Guenter, Koch, Berit, Kohlhaas, Marcus

04 June 2024

Periodontal Ehlers-Danlos syndrome (pEDS) is a rare disorder caused by heterozygous mutations in complement 1 subunit genes C1R and C1S. To date, 148 cases have been described in the literature.We describe a case of a suspected de novo-mutation of pEDS with generalized Periapical cemental dysplasia (PCD) and cerebral leukoencephalopathy.

info:eu-repo/classification/ddc/610

ddc:610

<b>Predictive Modeling of Mechanical Platelet Activation in Fibromuscular Dysplasia</b>

James Scott Malloy (18431865)

26 April 2024

<p dir="ltr">Fibromuscular Dysplasia (FMD) is a non-inflammatory, non-atherosclerotic blood vessel disorder characterized by a series of narrowed and dilated regions of vasculature. These patients are prescribed blood thinners or anti-platelet therapeutics as treatment to this systemic disease. Current image-based diagnostic methods cannot reliably predict a patient’s risk of stroke in order to properly manage medication. There are also challenges in distinguishing FMD from other diseases that can cause arterial obstructions, like atherosclerosis or vasculitis.</p><p dir="ltr">The ultimate goal of this research is to develop a methodology for evaluating the risk of mechanical platelet activation based on medical imaging. Our hypothesis is that subject-specific assessment of platelet activation due to hemodynamic stress can improve risk stratification of FMD patients. The aims of the projects were therefore to 1) Develop a CFD-based methodology for estimating platelet activation state, and 2) Test this methodology on a small cohort of subjects with FMD, carotid artery stenosis, and healthy controls. A modeling workflow was developed, combining Eulerian and Lagrangian approaches to compute flow fields and evaluate shear stress history of particles advected through the vascular geometries. From this stress history, predictive estimates of mechanical platelet activation can be calculated utilizing a platelet activation state (PAS) metric. We applied this modeling workflow to assess platelet activation in segments of carotid arteries of patients with Fibromuscular Dysplasia, Carotid Artery Stenosis, and healthy controls for comparison against experiments performed at the Cleveland Clinic assessing mechanical platelet activation in patients with each of these conditions. This work supports the development of a patient-specific determination of these same metrics, in order to more precisely assess patient risk of stroke.</p>

Haematology

Biomedical imaging

Computational physiology

Bio-fluids

Biomedical fluid mechanics

Mechanical Platelet Activation

Computational Fluid Dynamics

Stroke Modeling

Clot Modeling

Hemodynamics

Thrombosis

fibromuscular dysplasia (FMD)

Role of the cotransporter KCC2 in cortical excitatory synapse development and febrile seizure susceptibility

Awad, Patricia Nora

08 1900

Le co-transporteur KCC2 spécifique au potassium et chlore a pour rôle principal de réduire la concentration intracellulaire de chlore, entraînant l’hyperpolarisation des courants GABAergic l’autorisant ainsi à devenir inhibiteur dans le cerveau mature. De plus, il est aussi impliqué dans le développement des synapses excitatrices, nommées aussi les épines dendritiques. Le but de notre projet est d’étudier l’effet des modifications concernant l'expression et la fonction de KCC2 dans le cortex du cerveau en développement dans un contexte de convulsions précoces. Les convulsions fébriles affectent environ 5% des enfants, et ce dès la première année de vie. Les enfants atteints de convulsions fébriles prolongées et atypiques sont plus susceptibles à développer l’épilepsie. De plus, la présence d’une malformation cérébrale prédispose au développement de convulsions fébriles atypiques, et d’épilepsie du lobe temporal. Ceci suggère que ces pathologies néonatales peuvent altérer le développement des circuits neuronaux irréversiblement. Cependant, les mécanismes qui sous-tendent ces effets ne sont pas encore compris. Nous avons pour but de comprendre l'impact des altérations de KCC2 sur la survenue des convulsions et dans la formation des épines dendritiques. Nous avons étudié KCC2 dans un modèle animal de convulsions précédemment validé, qui combine une lésion corticale à P1 (premier jour de vie postnatale), suivie d'une convulsion induite par hyperthermie à P10 (nommés rats LHS). À la suite de ces insultes, 86% des rats mâles LHS développent l’épilepsie à l’âge adulte, au même titre que des troubles d’apprentissage. À P20, ces animaux presentent une augmentation de l'expression de KCC2 associée à une hyperpolarisation du potentiel de réversion de GABA. De plus, nous avons observé des réductions dans la taille des épines dendritiques et l'amplitude des courants post-synaptiques excitateurs miniatures, ainsi qu’un déficit de mémoire spatial, et ce avant le développement des convulsions spontanées. Dans le but de rétablir les déficits observés chez les rats LHS, nous avons alors réalisé un knock-down de KCC2 par shARN spécifique par électroporation in utero. Nos résultats ont montré une diminution de la susceptibilité aux convulsions due à la lésion corticale, ainsi qu'une restauration de la taille des épines. Ainsi, l’augmentation de KCC2 à la suite d'une convulsion précoce, augmente la susceptibilité aux convulsions modifiant la morphologie des épines dendritiques, probable facteur contribuant à l’atrophie de l’hippocampe et l’occurrence des déficits cognitifs. Le deuxième objectif a été d'inspecter l’effet de la surexpression précoce de KCC2 dans le développement des épines dendritiques de l’hippocampe. Nous avons ainsi surexprimé KCC2 aussi bien in vitro dans des cultures organotypiques d’hippocampe, qu' in vivo par électroporation in utero. À l'inverse des résultats publiés dans le cortex, nous avons observé une diminution de la densité d’épines dendritiques et une augmentation de la taille des épines. Afin de confirmer la spécificité du rôle de KCC2 face à la région néocorticale étudiée, nous avons surexprimé KCC2 dans le cortex par électroporation in utero. Cette manipulation a eu pour conséquences d’augmenter la densité et la longueur des épines synaptiques de l’arbre dendritique des cellules glutamatergiques. En conséquent, ces résultats ont démontré pour la première fois, que les modifications de l’expression de KCC2 sont spécifiques à la région affectée. Ceci souligne les obstacles auxquels nous faisons face dans le développement de thérapie adéquat pour l’épilepsie ayant pour but de moduler l’expression de KCC2 de façon spécifique. / The potassium-chloride cotransporter KCC2 decreases intracellular Cl- levels and renders GABA responses inhibitory. In addition, it has also been shown to modulate excitatory synapse development. In this project, we investigated how alterations of KCC2 expression levels affect these two key processes in cortical structures of a normal and/or epileptic developing brain. First, we demonstrate that KCC2 expression is altered by early-life febrile status epilepticus. Febrile seizures affect about 5% of children during the first year of life. Atypical febrile seizures, particularly febrile status epilepticus, correlate with a higher risk of developing cognitive deficits and temporal lobe epilepsy as adults, suggesting that they may permanently change the developmental trajectory of neuronal circuits. In fact, the presence of a cerebral malformation predisposes to the development of atypical febrile seizures and temporal lobe epilepsy. The mechanisms underlying these effects are not clear. Here, we investigated the functional impact of this alteration on subsequent synapse formation and seizure susceptibility. We analyzed KCC2 expression and spine density in the hippocampus of a well-established rodent model of atypical febrile seizures, combining a cortical freeze lesion at post-natal day 1 (P1) and hyperthermia-induced seizure at P10 (LHS rats). 86% of these LHS males develop epilepsy and learning and memory deficits in adulthood. At P20, we found a precocious increase in KCC2 protein levels, accompanied by a negative shift of the reversal potential of GABA (EGABA) by gramicidin-perforated patch. In parallel, we observed a reduction in dendritic spine size by DiI labelling and a reduction of miniature excitatory postsynaptic current (mEPSC) amplitude in CA1 pyramidal neurons, as well as impaired spatial memory. To investigate whether the premature expression of KCC2 played a role in these alterations in the LHS model, and on seizure susceptibility, we reduced KCC2 expression in CA1 pyramidal neurons by in utero electroporation of shRNA using a triple-probe electrode. This approach lead to reduced febrile seizure susceptibility, and rescued spine size shrinkage in LHS rats. Our results show that an increase of KCC2 levels induced by early-life insults affect seizure susceptibility and spine development and may be a contributing factor to the occurrence of hippocampal atrophy and associated cognitive deficits in LHS rats. Second, we investigated whether KCC2 premature overexpression plays a role in spine alterations in the hippocampus. We overexpressed KCC2 in hippocampal organotypic cultures by biolistic transfection and in vivo by in utero electroporation. In contrast to what was previously published, we observed that both manipulations lead to a decrease in spine density in the hippocampus, as well as an increase in spine head size in vivo. In fact, it has been previously shown that overexpressing KCC2 leads to an increase of spine density in the cortex in vivo. To prove that this discrepancy is due to brain regional differences, we overexpressed KCC2 in the cortex by in utero electroporation, and similarly found an increase in spine density and length. Altogether, our results demonstrate for the first time, that alterations of KCC2 expression are brain circuit-specific. These findings highlights the obstacles we will face to find adequate pharmacological treatment to specifically modulate KCC2 in a region-specific and time-sensitive manner in epilepsy.

Co-transporteur KCC2

Cortex

Convulsions fébriles atypiques

Dysplasie corticale

Susceptibilité aux convulsions

Développement des synapses excitatrices

KCC2 cotransporter

Atypical febrile seizures

Cortical dysplasia

Seizure susceptibility

Excitatory synapse development

Análise genética de pacientes portadores de cardiomiopatia arritmogênica do ventrículo direito (CAVD) e caracterização funcional em cardiomiócitos diferenciados (hiPSC-CM) / Genetic analysis of patients with arrhythmogenic right ventricular cardiomyopathy (ARVC) and functional characterization of patient-specific cardiomyocytes derived from hiPSCs (hiPSC-CM

Wulkan, Fanny

10 May 2019

A cardiomiopatia arritmogênica do ventrículo direito (CAVD) tem origem genética e é caracterizada pela substituição de células miocárdicas por tecido fibroadiposo. A doença tem uma prevalência aproximada de 1:3500, sendo mais frequentemente diagnosticada em indivíduos jovens, atletas e do sexo masculino. Atualmente, várias alterações genéticas associadas a CAVD foram descritas em 12 genes diferentes. No entanto, existem poucos estudos na literatura que descrevem o espectro mutacional da doença usando um painel abrangente de genes potencialmente causais, em populações diferentes das coortes descendentes de europeus. O sequenciamento de nova geração (NGS) como ferramenta para o diagnóstico molecular da doença, permite um avanço na correlação entre alterações genotípicas e fenotípicas e tem aportado potenciais benefícios que crescem juntamente com os desafios na sua interpretação. Além disso, o uso de hiPSCs como modelo in vitro de determinadas doenças cardíacas, permite avaliar especificamente a relação do genótipo com as diferentes consequências fenotípicas celulares da CAVD. Entretanto, os mecanismos moleculares da doença ainda são pouco esclarecidos e não há na literatura estudos que englobem ao mesmo tempo o perfil mutacional (com um painel extenso de genes) e estudo funcional das alterações encontradas com o uso de hiPSC-CMs. Esta tese teve como objetivo descrever a prevalência de variantes causais em genes associados à CAVD na população brasileira, e caracterizar, do ponto de vista funcional, os cardiomiócitos derivados de hiPSC (hiPSC-CMs) de pacientes com mutações identificadas, a fim de associar o perfil mutacional e a expressão fenotípica celular. Quarenta e sete indivíduos, não aparentados, sendo 38 (80,85%) pacientes do sexo masculino, idade média 40,2 ± 15,56 anos, com diagnóstico clínico de CAVD, foram submetidos ao sequenciamento de um painel genético relacionado à cardiomiopatias hereditárias, compreendendo os 12 genes previamente descritos como causadores de CAVD, utilizando sequenciamento de nova geração (NGS). As variantes foram interpretadas e classificadas de acordo com os critérios da ACMG. Variantes patogênicas ou provavelmente patogênicas foram encontradas em dezoito probandos (38,3%), com maior número de ocorrências no gene PKP2 (38,8%). Entre os 18 casos positivos, treze variantes diferentes foram encontradas, quatro delas novas variantes em genes desmossomais, sem descrição prévia na literatura. Variantes de significado incerto (VSI) foram encontradas em 16 pacientes. A presença de uma variante causal ocorreu em todos os probandos assintomáticos e foi significativamente associada a probandos com histórico familiar de morte súbita cardíaca abaixo de 35 anos. Para a modelagem celular da CAVD, foram geradas hiPSCs de dois pacientes a partir de células progenitoras de urina (UPCs) e fibroblastos, por transfecção episomal. O primeiro paciente possuía alteração missense no gene PKP2 e o segundo, uma inserção no gene DSC2. As hiPSCs foram caracterizadas quanto ao seu potencial de pluripotência e posteriormente diferenciadas em cardiomiócitos (hiPSC-CMs). Nossos resultados demonstraram diferenças fenotípicas significativas entre os CAVD-CMs comparados com os controle-CMs, como: reduções significativas de expressão das proteínas desmossomais e desmossomos estruturalmente alterados; presença de marcadores do acúmulo de gotículas lipídicas e regulação aumentada do fator de transcrição proadipogênico PPAR-gama; aumento de duração do potencial de campo (FPD) e do potencial de ação em 90% de repolarização (APD90); velocidade de condução mais lenta e uma força de contração menor. Em conclusão, este é o primeiro trabalho a caracterizar o perfil genético da CAVD, abrangendo todos os genes descritos até o momento relacionados à doença, na população brasileira. Os dados obtidos neste trabalho sugerem que, pacientes com história familiar de MSC ( < 35 anos) têm maior probabilidade de portar uma variante causal. Além disso, nossos achados sugerem que pacientes com alteração causal no gene PKP2 têm uma maior gravidade da apresentação fenotípica de arritmia. Nosso modelo celular, que contemplou células paciente-específicas com diferentes alterações das estudadas até o presente momento,sugere ser possível o estudo do efeito das alterações genéticas na CAVD e pode ser um acréscimo às ferramentas disponíveis para estudar o mecanismo desta doença complexa / Arrhythmogenic right ventricular cardiomyopathy (ARVC) has a genetic origin and is mainly characterized by the replacement of myocardial cells with fibroadipose tissue. The disease has a prevalence of approximately 1: 3.500, being more frequently diagnosed in young individuals, athletes and males. Currently, several mutations associated with ARVC have been described in 12 different genes. However, there are few studies in the literature that describe the mutational spectrum of the disease using a comprehensive panel of potentially causal genes in populations other than European-descent cohorts. Next Generation Sequencing (NGS) as a tool for molecular diagnosis of the disease allows an advance in the correlation between genotypic and clinical phenotypic aspects and has potential benefits that grow along with the challenges in its interpretation. In addition, the use of hiPSCs as an in vitro model of certain heart diseases, allows to specifically evaluate the relationship of the genotype with the different cellular phenotypic consequences of ARVC. However, the molecular mechanisms of the disease are still poorly understood and there are no studies in the literature that include both the mutational profile (with an extensive panel of genes) and functional study of different causal variants, with the use of hiPSC-CMs. The aim of this thesis was to describe the prevalence of causal variants in ARVC-associated genes in the Brazilian population, and to characterize, from a functional point of view, cardiomyocytes derived from hiPSC (hiPSC-CMs) from patients with identified mutations, in order to associate the mutational profile and cellular phenotypic expression. Forty-seven unrelated probands, 38 (80.85%) male, mean age 40.2 ± 15.56 years, with clinical diagnosis of ARVC, were submitted to a cardiomyopathy-related gene panel sequencing, comprising 12 genes, using next-generation sequencing (NGS). Variants were interpreted and classified according to the ACMG criteria. Pathogenic or Likely Pathogenic variants were found in eighteen probands (38.3%), with the largest number of occurrences in the PKP2 gene (38.8%). Among the 18 positive cases, thirteen different variants were found, four of them novel mutations in desmosomal genes, without previous description in the literature. Variants of uncertain significance (VUS) were found in 16 patients. The presence of a causal variant was present in all asymptomatic probands and was significantly associated with probands who have a family history of sudden cardiac death under 35 years. For the cellular modeling, from urinary progenitor cells (UPCs) and fibroblasts, hiPSCs from two patients were generated by episomal transfection. The first patient had a missense variant in the PKP2 gene, while the second had an insertion in the DSC2 gene. The hiPSCs were characterized for its pluripotency potential and subsequently differentiated into cardiomyocytes (hiPSC-CMs). Our results demonstrated significant phenotypic differences between the ARVC-CMs compared to the control-CMs, such as: significant reductions in the expression of desmosomal proteins and structurally altered desmosomes; presence of lipid droplet accumulation markers and increased regulation of the proadipogenic transcription factor PPAR-gamma; prolonged field potential duration (FPD) and action potential in 90% repolarization (APD90); slower conduction velocity and a lower active contraction force. In conclusion, this is the first work to characterize the genetic profile of ARVC, covering all genes described to date related to the disease, in the Brazilian population. The data obtained in this study suggests that patients with a family history of sudden cardiac death ( < 35 years) are more likely to carry a causal variant. In addition, our findings suggest that patients with causal variant in the PKP2 gene have a greater severity of the phenotypic presentation of arrhythmia. Our cellular model, which contemplated patient-specific cells with different causal variants of the previous studies, suggests that it is possible to study the effect of the genetic changes in ARVC, and may be an addition to the tools available to study the mechanism of this complex disease

Cardiomiopatias

Cardiomyopathies

Cellular reprogramming

Células-tronco pluripotentes induzidas

Genética médica

Genetics medical

High-throughput nucleotide sequencing

Induced pluripotent stem cells

Miócitos cardíacos

Mutação

Mutation

Myocytes cardiac

Reprogramação celular

Parenteral nutrition as a risk factor for bronchopulmonary dysplasia: its role and possible mechanisms in infants less than 29 weeks gestation

Mohamed, Ibrahim

04 1900

No description available.

nutrition parentérale

glutathion sérique

potentiel redox du glutathion

stress oxydatif

stress redox

ascorbylperoxyde

glutathion peroxydase

dysplasie bronchopulmonaire

nouveau-né prématuré

oxygen

Parenteral nutrition

serum glutathione

redox potential of glutathione

oxidative stress

redox stress

ascorbylperoxide

glutathione peroxidase

bronchopulmonary dysplasia

preterm infants

oxygène

Bases génétiques de la dysplasie fibromusculaire : une approche d’étude d’exome et de génétique épidémiologique / Understanding the genetic basis of fibromuscular dysplasia using approaches of whole exome sequencing and genetic epidemiology

Kiando, Soto Romuald

08 July 2016

La dysplasie fibromusculaire artérielle (DFM) est un groupe de pathologies vasculaires non inflammatoires, et non athéromateuses de la paroi artérielle. Elle est caractérisée par la sténose, l'occlusion, l’anévrisme ou la dissection des artères de petit et moyen calibres, en particulier les artères rénales et le tronc supra-aortique. La DFM est un facteur de risque de l’hypertension et de l’accident vasculaire cérébral. Elle touche essentiellement les femmes (80% des cas) de moins de 50 ans. La prévalence en population générale est inconnue et les estimations varient de 0.4% pour les formes cliniques à 4% dans une cohorte de donneurs de reins. Une agrégation familiale a été démontrée et une composante génétique suggérée. L'objectif de mon travail de thèse était de caractériser les bases génétiques la DFM. Dans la première partie, nous avons analysé des variants génétiques rares générés par séquençage d'exomes chez 16 cas apparentés de DFM issus de 7 fratries. Aucun gène majeur n’était muté pour l’ensemble des fratries ou pour au moins 3 fratries sur 7. Cependant, nous avons pu mettre en évidence puis validé un enrichissement en variants rares à fort potentiel fonctionnel de quatre gènes candidats pour la DFM (MYLK, OBSCN, DYNC2H1, RNF213) en combinant l’approche de séquençage d’exomes et l’étude d’association gène entier de 62767 variants rares (MAF < 5%) générés par génotypage avec la puce Exome-chip chez 249 cas non apparentés de DFM et 689 témoins. Cependant, l’implication de ces gènes dans la DFM doit être confirmée dans d’autres familles, et par des études de validations fonctionnelles. Dans la seconde partie, nous avons étudié l'association avec la DFM de 25606 variants fréquents (MAF ≥ 5%) de l’Exome-chip. Les résultats majeurs obtenus ont été répliqués dans une première étude (402 cas de DFM et 2537 témoins) puis dans 3 autres études incluant 512 cas de DFM et 669 témoins. La méta-analyse de l’ensemble a permis d’associer à la DFM le polymorphisme rs9349379-A situé dans l’intron du gène PHACTR1 (OR=1,39 [1,39-1,54] ; P=7,36 ×10-10). Ce variant est aussi un facteur de risque pour la maladie coronaire, la migraine et la dissection de l’artère cervicale. Des études complémentaires conduites chez 2458 volontaires non malades ont permis de montrer que l’allèle à risque pour la DFM, rs9349379-A est associé avec une augmentation de l’épaisseur intima média (P=1,97×10-4) et du rapport de la paroi sur la lumière artérielle (P=0,002), deux paramètres décrits comme augmentés chez les cas de DFM dans des études antérieures. Ensuite, PHACTR1 a été détecté par immunohistochimie dans l’endothélium et les cellules musculaires lisses de carotides dysplasiques et non dysplasiques avec une expression augmentée de PHACTR1 pour les porteurs de l’allèle à risque de DFM dans des cultures primaires de fibroblastes humains (N=86, P=0,003). Enfin, l’invalidation de Phactr1 chez le poisson zèbre conduit à une dilatation des vaisseaux indiquant un défaut du développement vasculaire. Ce travail confirme le caractère multifactoriel et hétérogène de la DFM et ouvre de nouvelles perspectives pour évaluer l’ensemble de la variabilité génomique des patients de DFM par des approches massives de génétique épidémiologique. / Fibromuscular dysplasia (FMD) is a group of nonatherosclerotic and noninflammatory vascular diseases leading to stenosis, aneurysm, dissection and/or occlusion of medium-sized arteries, in particular the renal and extracranial cervical arteries. Clinical manifestations of FMD are hypertension, dizziness, pulsatile tinnitus, transient ischemic attack or stroke, according to the involved arterial beds. FMD occurs predominantly (80% of cases) in females under 50 years with a variable prevalence estimation from 0.4% for asymptomatic clinical relevant forms to 4% in potential renal donors. The pathogenesis of FMD is unknown and a genetic origin is suspected given its demonstrated familial aggregation. The aim of my thesis work was to characterize genetic basis of FMD. In the first part of this thesis, we analyzed whole exome sequencing data in 16 related FMD cases from seven families. No gene harbors variants that were shared by all affected members in at least three out seven families. Using combined strategy of whole exome sequencing and gene based association study of 62,767 rare variants (MAF < 5%) generated by Exome‐chip arrays in 249 unrelated FMD cases and 689 controls, we have identified and validated an enrichment of rare and putatively functional variants in four candidates genes (MYLK, OBSCN, DYNC2H1 and RNF213). This results need to be validated in other FMD families and by functional analysis. In the second part, we analyzed 25,606 common variants (MAF ≥ 5%) generated by Exome‐chip array. Top loci were replicated in first replication study (402 cases and 2,537 controls) and in 3 others studies (512 cases and 669 controls). Meta-analysis of all including 1,154 unrelated FMD cases and 3,895 controls allowed identification of association between FMD and rs9349379-A (OR=1.39 [1.39-1.54]; P=7.4×10‐10). rs9349379 is intronic to PHACTR1, a risk locus for coronary artery disease, migraine, and cervical artery dissection. The analyses of geometrical parameters of carotids from 2,458 healthy volunteers indicated higher intima media thickness (P = 1.97×10‐4) and wall to lumen ratio (P = 0.002) in rs9349379‐A carriers, suggesting indices of carotid hypertrophy as previously described in carotids of FMD patients. Immunohistochemistry detected PHACTR1 in endothelium and smooth muscle cells of FMD and normal human carotids. The expression of PHACTR1 by genotypes in primary human fibroblasts showed higher expression in rs9349379‐A carriers (N=86, P=0.003). Phactr1 knockdown in zebrafish resulted in dilated vessels indicating subtle impairment of vascular development. This work confirms the multifactorial and heterogeneous genetic architecture of the FMD and opens new opportunities to evaluate all of genomic variability of FMD patients with massive genetic epidemiology approaches.

Dysplasie fibromusculaire artérielle

DFM

Exome

Séquençage d’exome

Étude d’association gène entier

Exome-chip

GWAS

SKAT

PHACTR1

Fibromuscular dysplasia

FMD

Whole exome sequencing

Gene based association test

Exome-chip

GWAS

SKAT

PHACTR1

572.8

Molekulare Analyse eines Homöobox-Gen-Promotors in der Gehirnanlage von Wirbeltierembryonen / Molecular analysis of a homeobox gene promotor in the prospective forebrain of vertebrates

Spieler, Derek

07 April 2005

No description available.

610 Medizin, Gesundheit

Medicine

Promotoranalyse

Homöobox-Gen

Huhn

Maus

Zebrafisch

GANF/HESX1

Otx2

Pax6

Gehirnanlage des Prosenzephalons

Elektroporation

Septo-optische Dysplasie (SOD)

promotoranalysis

chicken

mouse

zebrafish

GANF/HESX1

Otx2

Pax6

prospective forebrain

electroporation

septo-optic dysplasia (SOD)

44.36 und 44.48

M und W