Papillary Fibroelastoma Involving the Left Ventricular Wall

Schoondyke, Jeffrey W., Burress, Jonathan W., Shabaneh, Bahaeddin, Giorgadze, Tamar A., Costello, Patrick N., Fahrig, Stephen, Whitaker, Jack

01 June 2003

A 71-year-old white woman presented to her primary care physician for a routine visit and was found to have a new, previously undocumented cardiac murmur. A subsequent transthoracic echocardiogram revealed a 1 cm mobile mass arising from the lateral free wall of the left ventricle. Transesophageal echocardiography later confirmed these findings. The patient underwent a left ventriculotomy and excision of a .7 cm friable mass, which was later identified as a papillary fibroelastoma (PFE) by routine histopathologic studies. We present this unique case with a review of the literature.

cardiac tumor

lambl's excrescence

papillary fibroelastoma

Pathology

Developments for a Swept Wing Airfoil to Study the Effects of Step and Gap Excrescences on Boundary Layer Transition

Hedderman, Simon Peter

02 October 2013

Skin friction drag reduction is one of the most promising paths in the investigation of the reduction of aircraft fuel burn. 40 – 50% of overall drag comes from the surfaces of the wings and stabilizers. Natural laminar flow airfoils can extend the region of laminar flow and reduce skin friction drag. However, real-world aircraft wings do not have perfectly smooth surfaces, and therefore the tolerances for step and gap excrescences on these airfoils must be investigated. Previous work has focused on excrescences on flat plates, and only recently included pressure gradient effects. A new three-dimensional swept wing airfoil with an actuated leading edge (SWIFTER) has been constructed, and will extend the body of knowledge of step and gap excrescences to a more real-world configuration and higher Reynolds numbers. An integrated control system for the leading edge actuation system is proposed, including both interface hardware and control code. A heating system for the test surface is also discussed, and the controller hardware, sensors, and code specified. For wind tunnel testing, a proposed set of wall liners are developed from zero-lift condition streamlines and divided into parts suitable for manufacturing, assembly, and installation. Finally, preliminary wind tunnel step excrescence tests using an existing swept-wing model and applique step material were conducted, and the results are discussed with relevance to testing on the new model.

boundary layer

stability

excrescence

excrescences

SWIFT

SWIFTER

step

gap

airfoil

swept wing

actuation control system

heating sheet

wind tunnel

wall liners

natural laminar flow

nlf

Morpho-functional impact of Vangl2 on hippocampus development / Impact morpho-fonctionnel de Vangl2 sur le développement de l’hippocampe

Dos Santos Carvalho, Steve Francois

30 November 2016

La Polarité Cellulaire Planaire (PCP) est une voie de signalisation originellement identifiée chez les invertébrés pour son rôle dans l’établissement d’une asymétrie cellulaire perpendiculaire à l’axe apico‐basal. Elle définit une polarité dans le plan d’un épithélium et coordonne cette polarité dans tout l'épithélium. L'activation de la voie PCP conduit à une réorganisation ducyto squelette en passant par une modulation des zones d'adhésion, régulant ainsi la forme et les mouvements des cellules. La voie de signalisation de la PCP est conservée tout au long de l'évolution jusqu'au mammifères, et contrôle la morphogénèse de divers tissus dont les tissus épithéliaux et mésenchymateux, ainsi que pour les tissues cardiaques, osseux, pulmonaire ou encore rénaux, mais aussi le système nerveux pour n'en citer que quelques‐uns.Afin d'identifier le rôle de vangl2, un des gènes centraux de la PCP, dans la mise en place de la circuiterie hippocampale, nous avons créé un modèle murin où vangl2 est supprimé de façon conditionnelle (cKO) dans le télencéphale à des stades précoces de l’embryogénèse. J’ai d'abord montré que Vangl2 est enrichi dans les neurones immatures de la zone sous granulaire du DG, ainsi que dans l’arborisation des neurites (axones et dendrites) des cellules granulaires (CG) du gyrus denté (DG) de l’hippocampe. Ainsi, Vangl2 est enrichi dans le stratum lucidum (sl), une région dense en contacts synaptiques entre le DG et le CA3. Dans cette région a lieu une synapse très particulière entre l'axone des CG, la fibre moussue (Mf) qui forme des boutons géants (MfB) et les excroissances épineuse (TE) issues de la partie proximale des dendrites apicaux. L'analyse structurale et ultra structurale de ces épines démontre que l'élargissement et la complexification de la synapse MfB/TE est bloquée dans nos mutants, alors que les zones actives (PSD) des épines sont présentes, mais réorganisées. De façon intéressante,dans une zone plus distale des dendrites des neurones du CA3 (sl), les épines sont, elles, plus grosses, suggérant un remodelage complexe du réseau en l'absence de vangl2. Enfin, j’ai pu montrer que ces défauts morphologiques étaient corrélés à des problèmes de mémoire complexe (mémoire déclarative) qui dépendent de l’hippocampe mais aussi du cortex. Cette étude montre pour la première fois l’importance du signal PCP dans maturation in vivo d’un circuit hippocampique spécifique ainsi que ces conséquences cognitives. D'autres résultats in vitro montrent que la suppression de vangl2 augmente la vitesse de déplacement des cônes de croissance sur des substrats de N‐cadhérine. J’ai utilisé la microscopie en super résolution spt‐PALM‐TIRF pour montrer que cette augmentation de croissance est inversement proportionnelle à la vitesse du flux rétrograde d’actine. Des expériences de FRAP permettent de suggérer que les molécules de N‐cadhérine engagées dans des interactions hémophiliques (adhésion) est plus importante dans les mutants vangl2 Je propose que Vangl2 contrôle le recyclage et la stabilité des protéines N‐cadhérine dans les sites d’adhésion afin de réguler localement les dynamiques d’actine et par conséquent la croissance neuronale. / Planar Cell Polarity (PCP) is a signaling pathway originally known for its role in the establishment of cellular asymmetry perpendicular to the apico‐basal axis, in the plane of an epithelium. PCPsignaling has been shown to be crucial for many tissue patterning, including epithelial and mesenchymal tissue, but also cardiac, lung, bone, or kidney tissues, to cite a few. PCP signaling controls the regulation of cellular movement via the control of adhesion turnover and cytoskeleton reorganization. Vangl2 is one of the most upstream core PCP proteins that has been implicated in the recent years in various neuronal mechanisms, such as axonal guidance, dendrite morphogenesis or synaptogenesis. However, most of these studies rely on acute downregulation of the gene in vitro or in the use of a mouse presenting a spontaneous mutation of this gene, called Loop‐tail (Vangl2Lp) which causes the death of the embryo at birth. Moreover, the Vangl2Lp form of this protein has been described has a dominant‐negative form, making it difficult to untangle the molecular mechanism leading to the many phenotypes (included neuronal ones) reported inhomozygotes Looptail mice. To bypass this problem we created a conditional knockout (cKO) mouse in which vangl2 is deleted in the telencephalon during early embryogenesis. First, I analyzed the profile of expression of the protein during the first 3 weeks after birth, and I show that Vangl2 is specifically targeted to the arborization of granular cells (GC) of the dentate gyrus (DG) of the hippocampus, and excluded from cell bodies. Also, the protein was highly enriched in immature neurons of the subgranular zone of the DG, and in the stratum lucidum, a region of high‐density contacts between the GC and the CA3. In this region, a special type of synapse is formed: the Mossy Fiber Bouton (MfB) / Thorny Excrescence (TE) synapse. These synapses are bigger and more complex than conventional synapses. I then performed a structural and ultrastructural analysis of the DG/CA3 circuit in the Vangl2 cKO mice in order to understand the role of Vangl2 in the hippocampus maturation. For this, I used stereotaxic mice infection viruses, and Serial block face scanning electron microscopy (SBFsEM) with 3D reconstruction. Results show that in cKO mice, Mfs fasciculation is mildly impacted, and that the enlargement and complexification of the MfB/TE synapse is arrested, with TEs almost absent. I was able to link these morphological abnormalities to deficits in complex hippocampal‐dependent learning tasks. This work demonstrates for the first time the importance of PCP signaling for the in vivo maturation of a specific hippocampal circuit and its specific cognitive consequences. Next, I attempted to identify the functional consequences of vangl2 deletion on young hippocampal neuron maturation. My results confirm that Vangl2 is expressed in young hippocampal neurons and that the deletion of the gene affected neurite outgrowth on Ncadherin substrate. I used spt‐PALM‐TIRF super‐resolution microscopy to show that this increased neurite outgrowth was inversely proportional to a decrease in actin retrograde flowand to a decrease in the number of directed actin trajectories. These results strongly suggest that N‐cadherin adhesions are affected by Vangl2 deletion. FRAP experiments demonstratedthat in Vangl2 cKO neurons the recovery of N‐cadherin molecules engaged in homophilicbindings (adhesion) was decreased, suggesting that the turnover of N‐cadherin involved inadhesion is reduced. Altogether, I propose that Vangl2 controls the turnover/stability of Ncadherin proteins at adhesion sites to regulate local actin dynamics and consequently neuronal outgrowth

Polarité Cellulaire Planaire

Vangl2

N-cadhérine

Cône de croissance

Croissance neuronale

Adhésion

Flux rétrograde d’actine

Embrayage Moléculaire

Hippocampe

Gyrus Denté

CA3

Fibre Moussue

Bouton Fibre Moussue

Excroissance épineuse

PSD

Mémoire de Travail

Mémoire déclarative

Planar Cell Polarity

Vangl2

N-cadherin

Growth cone

Neuronal outgrowth

Adhesion

Actin Retrograde Flow

Molecular Clutch

Hippocampus

Dentate Gyrus

CA3

Mossy Fiber

Mossy Fiber Bouton

Thorny Excrescence

PSD

Working Memory

Declarative Memory