Role of neck angulation and endograft oversizing in folding and its impact on device fixation strength

Lin, Kathleen Kei

01 May 2012

Objective: To assess neck angulation and endograft oversizing as factors contributing to folding. Endograft folding will then be assessed on its role in endograft fixation strength. Methods: Bench top flow loop experiments were performed with barbless Gore Excluder endovascular grafts (EVG) that were deployed into silicone aorta-AAA models with neck angles of 0, 30, and 60. A total of five oversizings were tested: -7%, 2%, 12%, 24%, and 38% with N= 3 for each oversizing at each neck angle for a total of 45 experiments. Photographs of the stent apex to apex distances were taken for the entire circumference of the device for a total of 8 photos per experiment. Measurements of the apex to apex distance were taken for the top three stent layers and variance for each stent layer was calculated. Variances for all three stent layers were summed to represent the folding metric. The silicone model was then removed from the flow loop and placed on the uniaxial extension tester to for pull out testing to assess impact on attachment strength. Results: Neck angle and oversizing increases folding risk at oversizing ≥12% for 0° and 30° neck angles, and ≥ 2% oversizing for a 60° neck angle. Folding metric comparison between 0° vs. 30° and 0° vs. 60° across all oversizings had statistical significance (Mann-Whitney U, p

abdominal aortic aneurysm

endovascular graft

folding

neck angulation

oversizing

silicone phantoms

En jämförelsestudie av värmeväxlare : Värmeöverföring för värmeväxlare i korrosiva miljöer

Parment, Rasmus

January 2018

Det finns stora vinningar att göra inom både transport- och industrisektorn genom att effektivisera materialanvändningen i produkter. Denna vinning återfinns i både materialkostnader och energieffektivisering. Scandymet AB är ett företag som tillverkar värmeväxlare och elektriska doppvärmare för ytbehandlingsindustrin. Denna rapport syftar till att utvärdera hur väl ett kalkylark som används som underlag för dimensionering av värmeväxlare hos företaget stämmer överens med verkligheten. En testrigg har därför konstruerats för att undersöka kalkylarkets validitet gällande temperaturer under 46 grader Celsius. I rapporten redovisas resultaten av tester på fyra olika värmeväxlare och resultaten har jämförts med företagets kalkylark. Undersökningarna visar att två av dessa värmeväxlare är överdimensionerade och två värmeväxlare stämde väl överens med kalkylarket. I samtliga tester används vatten som media, men då Scandymet AB värmeväxlares huvudsakliga användningsområde är korrosiva vätskor dras slutsatsen att fler undersökningar med andra fluider skulle behövas för att ytterligare fördjupa kunskapen inom värmeväxlarnas korrekta dimensionering. / There are huge gains in both the transport and industry sectors by making material use more efficient in products. This gain is found in both material costs and energy efficiency. Scandymet AB is a company that manufactures heat exchanger and electric immersion heaters for the surface treatment industry. This report aims to evaluate how well a spreadsheet used as basis for the dimensioning of heat exchangers at the company is consistent with reality. A test rig has therefore been designed and constructed to investigate the validity of the spreadsheet. The report presents the results of tests on four different heat exchangers and the results have been compared with the company’s spreadsheet. In all tests water has been used as the media to be heated, but since Scandymet AB’s heat exchanger’s main application is corrosive liquids, therefore I consider that a deeper investigation with additional fluids would be necessary to further deepen the knowledge in the area.

Heat exchanger

oversizing

energy

efficiency

heat transfer

heat-transfer coefficient

Scandymet AB

Värmeväxlare

överdimensionering

energi

effektivisering

värmeöverföring

värmegenomgång

värmeövergångstal

värmemotstånd

Scandymet AB

Energy Engineering

Energiteknik

Branddimensionering av stålkonstruktioner : Kostnadseffektivisering av brandskydd i industrihallar av stål / Fire design of steel structures : Cost minimization of fire protection in industrial steel buildings

David, Amanda, Altinsu, Gabriel

January 2021

Stål är ett vanligt förekommande konstruktionsmaterial som används i olika typer av byggnader. Det är ett material med vilket klena dimensioner kan användas för att åstadkomma stora spännvidder och fria ytor. Däremot mjuknar stål vid höga temperaturer vilket kan innebära allvarliga skador i form av kollaps. I förebyggande syfte är det därför viktigt att brandskydda stålkonstruktioner på ett korrekt sätt. Syftet med detta examensarbete har varit att undersöka vilket brandskydd som är mest kostnadseffektivt genom att jämföra olika brandskydd som tillämpas i industrihallar. Studien har utförts i samarbete med Blixthuset Stålhallar och innefattar ett av deras pågående projekt där branddimensionering behövde utföras. Brandskydden som har jämförts är överdimensionering av stålprofil VKR 250X250X10, brandskivor, brandmålning och brandisolering. Initialt har lasteffekten i rumstemperatur beräknats i enlighet med Eurokoderna. Därefter har lasteffekten i brandlastfallet beräknats, följt av att den kritiska ståltemperaturen tagits fram på respektive våningsplan för både mittpelare och fasadpelare. Vid jämförelse av lasteffekterna som beräknats fram har utnyttjandegraden identifierats och därmed har behovet av brandskydd blivit känt. När den kritiska ståltemperaturen och utnyttjandegraden har fåtts fram har offerter från företag kunnat efterfrågas och en kostnadsjämförelse har därmed blivit möjlig. Studien har visat att överdimensionering av stålpelare inte är en effektiv lösning då inte ens den tjockaste profilen VKR 400X400X16 var tillräcklig tjock för att uppnå brandkravet R60. Trots överdimensionering hade stålpelarna behövt ytterligare brandskydd för att klara av brandkravet. Det dyraste brandskyddet var montering av brandskivor, följt av brandmålning och brandisolering. / Steel is a commonly used construction material. It is a material where small dimensions can be used to achieve large spans and free spaces. Steel softens however when encountering high temperatures which can cause severe damage such as collapses. It is therefore with greatest importance that fire protection is designed correctly. This bachelor thesis contains a study that compares different fire protections for industrialbuildings in steel, and the purpose of the study was to find the most economic efficient fire protection. This study has been made in collaboration with Blixthuset Stålhallar where one of their projects needed fire protection to be designed. The fire protections being compared was over dimensioning steel column VKR 250X250X10, using fire gips, fire insulation and fire painting. Initially, the load effect in room temperature was designed according to the Eurocodes. Thereafter, the load effect in the fire load case was designed, followed by finding the critical steel temperature. When comparing the two load effects, the utilization could be recognized and consequently, the requisite of fire protection could be identified. When the amount of fire protection needed was determined, offers from different companies could be taken in for comparison. The study showed that oversizing is an inefficient solution of fire protecting the steel columns since even the thickest steel column VKR 400X400X16 was not thick enough to achieve the fire requirement R60. Despite oversizing the steel columns, other fire protection would still be needed. Furthermore, the study showed that the most expensive fire protection wasassembly of fire discs, followed by fire painting. The cheapest alternative was fire insulation.

Fire

Steel

Fire protection

Industrial steel buildings

Oversizing

Fire paint

Fire gips

Fire insulation

Brand

Stål

Brandskydd

Industrihall

Överdimensionering

Brandmålning

Brandskivor

Brandisolering

Building Technologies

Husbyggnad

Determinação do impacto do oversizing da endoprótese sobre a aorta torácica. Estudo experimental em porcos / Impact of stent-graft oversizing on the thoracic aorta: experimental study in a porcine model

Sincos, Igor Rafael

09 November 2012

Introdução: A utilização da técnica endovascular para tratar as diversas afecções da aorta têm suplantado as técnicas abertas tradicionais, sendo particularmente promissora no trauma 1. A ruptura traumática da aorta é a segunda causa de morte por acidente de trânsito 2,3; e o reparo endoluminal dessas lesões com endopróteses apresenta menor taxa de mortalidade e paraplegia quando comparada a cirurgia aberta, no entanto os resultados a longo prazo ainda não estão disponíveis2-7. As próteses aprovadas e comercialmente disponíveis, até o momento desse estudo, foram desenhadas para doença aneurismática, com diâmetro muito superior ao diâmetro da aorta de jovens (vítimas de trauma). Esse sobredimensionamento (oversizing) pode levar a alteração mecânica na interação da prótese com a parede aórtica, comprometendo a vascularização e aumento o risco de complicações relacionadas ao implante de endopróteses 8-12. Objetivos: Analisar, a partir de um modelo animal experimental, o efeito biomecânico e histopatológico de quatro níveis diferentes de sobredimensionamento de endopróteses sobre a aorta não aterosclerótica, semelhante às encontradas em pacientes jovens vítimas de trauma. Método: O diâmetro da aorta torácica suína é semelhante ao da aorta de jovens adultos (18-20 mm), desta forma 25 porcos foram randomizados em 5 grupos: 1 controle (sem stent) e 4 grupos de sobredimensionamento (A: 10% -19 %, B: 20% -29%, C: 30% -39%, e D: >40% de sobredimensionamento). Dois tipos de testes biomecânicos foram realizados em todas as aortas 4 semanas após a implantação da endoprótese: \" z\" endoprótese; e o teste de biomecânica propriamente dito dos fragmentos aórticos coletados. Os fragmentos foram, então, submetidos a uma análise histológica e imunohistoquímica. Resultados: Os resultados do teste de destacamento, que avaliou a força necessária para remover o stent da aorta, foram semelhantes nos quatro grupos (A: 42 N, B: 41 N, C: 46 N e D: 46 N, p= 0,881204). O segundo teste foi realizado em três segmentos da aorta. Força máxima, estresse máximo e tensão máxima suportada pela parede da aorta tiveram uma correlação negativa e linear com o oversizing, isto é, quanto maior o oversizing, menor a resistência do fragmento à ruptura. Houve diferenças significativas em todos os quatro grupos, quando comparados com o grupo controle. A deformação máxima e o Strain, que refletem as propriedades elásticas da parede da aorta, foram muito semelhantes em todos os quatro grupos de sobredimensionamento. Mas, uma diminuição significativa da elasticidade foi encontrada quando comparados cada um dos grupos com o grupo controle (p= 0,0000001). A análise histológica e imunohistoquímica demonstrou que a parede da aorta tem uma perda significativa de fibras musculares e ?-actina com o aumento do sobredimensionamento (p= 0,000198 e p= 0,002031, respectivamente). A quantidade de fibra elástica apresentou uma queda significativa independente do sobredimensionamento (p= 0,0000001). Conclusões: Os quatro níveis de sobredimensionamento estudados não demonstraram diferenças significativas no teste de destacamento. Os testes biomecânicos dos fragmentos da aorta mostraram uma diminuição na resistência da parede aórtica proporcional ao aumento do oversizing. A elasticidade da parede aórtica sofre alteração significativa independente do sobredimensionamento utilizado. Os exames histopatológicos e imunohistoquímicos comprovaram o desarranjo na estrutura da parede aórtica com a utilização de endopróteses, resultando na diminuição da quantidade de fibras elásticas e musculares / Introduction: The use of endovascular techniques to treat the various disorders of the aorta has supplanted traditional open techniques, and is particularly promising in trauma1. The traumatic rupture of the aorta is the second leading cause of death by traffic accident2, 3, and repair of these lesions with endoluminal stents has showed lower mortality and paraplegia when compared to open surgery, however the long-term results are not yet available2-7. The endoprosthesis approved and commercially available during this study were designed to aneurysmal disease, with a diameter greater than the diameter of the aorta of young people ( ) \" z \" prosthesis with the aortic wall, affecting the vascularization and raising the risk of complications related to stent-graft implantation8-12. Purpose: Analyze, from an experimental animal model, the biomechanical and histological effects of four different levels of stents-graft oversizing in non-atherosclerotic aortas; such as those aorta found in young individuals who undergo stent-graft repair for traumatic aortic injuries. Methods: The diameter of the porcine thoracic aorta is similar to the aorta of young adults (18-20 mm), so 25 pigs were randomized into 5 groups: 1 control (without stent-graft) and 4 oversizing groups (A: 10%-19%, B: 20%-29%, C: 30%-39%, and D: .40%). Two types of biomechanical tests were performed on all aortas 4 weeks after endoprosthesis deployment: The \"detachment\" of the stent, and the biomechanics test of aortic fragments collected. The fragments were submitted to a histological and an immunohistochemistry analysis. Results: The results of the detachment test, which analyzed the strength necessary to remove the stent-graft from the aorta, were similar in the 4 groups (A: 42 N, B: 41 N, C: 46 N e D: 46 N, p= 0,881204). The second test was performed in 3 aortic segments. Maximum strength, maximum stress, and maximum tension supported by the aortic wall had a negative and linear correlation with oversizing. There were significant differences in all 4 groups when compared with the control group. The maximum deformation and strain, which reflect the elastic properties of the aortic wall, were very similar in all 4 groups. But a significant decrease in elasticity was found when compared each group with the control group (p = 0.0000001). Histological and immunohistochemistry analysis supported that the aortic wall has a signifi-?-actin by increasing the oversize (p = 0.000198 p = 0.002031, respectively). The amount of elastic fiber showed a significant drop regardless of the oversizing (p = 0.0000001). Conclusion: The four levels of oversizing studied did not show significant differences in the detachment test. Biomechanical tests of the fragments of the aorta showed a decrease in resistance of the aortic wall with increase in oversize. The elasticity of the aortic wall undergoes significant change independent of the oversizing used. The histopathological and immunohistochemical examinations confirmed the breakdown in the structure of the aortic wall with the use of stents-graft, resulting in decreased amount of elastic and muscle fibers.

Aorta torácica

Biomecânica

Biomechanics

Displacement force

Endovascular procedures/adverse effects

Estresse de parede

Força de destacamento

Modelo porcino

Modelos animais

Models animal

Oversizing

Oversizing

Porcine model

Shear strength

Sobredimensionamento

Stent-graft

Stents

Strain

Tensão de parede

Tension

Thoracic aorta

Wall stress

Determinação do impacto do oversizing da endoprótese sobre a aorta torácica. Estudo experimental em porcos / Impact of stent-graft oversizing on the thoracic aorta: experimental study in a porcine model

Igor Rafael Sincos

09 November 2012

Introdução: A utilização da técnica endovascular para tratar as diversas afecções da aorta têm suplantado as técnicas abertas tradicionais, sendo particularmente promissora no trauma 1. A ruptura traumática da aorta é a segunda causa de morte por acidente de trânsito 2,3; e o reparo endoluminal dessas lesões com endopróteses apresenta menor taxa de mortalidade e paraplegia quando comparada a cirurgia aberta, no entanto os resultados a longo prazo ainda não estão disponíveis2-7. As próteses aprovadas e comercialmente disponíveis, até o momento desse estudo, foram desenhadas para doença aneurismática, com diâmetro muito superior ao diâmetro da aorta de jovens (vítimas de trauma). Esse sobredimensionamento (oversizing) pode levar a alteração mecânica na interação da prótese com a parede aórtica, comprometendo a vascularização e aumento o risco de complicações relacionadas ao implante de endopróteses 8-12. Objetivos: Analisar, a partir de um modelo animal experimental, o efeito biomecânico e histopatológico de quatro níveis diferentes de sobredimensionamento de endopróteses sobre a aorta não aterosclerótica, semelhante às encontradas em pacientes jovens vítimas de trauma. Método: O diâmetro da aorta torácica suína é semelhante ao da aorta de jovens adultos (18-20 mm), desta forma 25 porcos foram randomizados em 5 grupos: 1 controle (sem stent) e 4 grupos de sobredimensionamento (A: 10% -19 %, B: 20% -29%, C: 30% -39%, e D: >40% de sobredimensionamento). Dois tipos de testes biomecânicos foram realizados em todas as aortas 4 semanas após a implantação da endoprótese: \" z\" endoprótese; e o teste de biomecânica propriamente dito dos fragmentos aórticos coletados. Os fragmentos foram, então, submetidos a uma análise histológica e imunohistoquímica. Resultados: Os resultados do teste de destacamento, que avaliou a força necessária para remover o stent da aorta, foram semelhantes nos quatro grupos (A: 42 N, B: 41 N, C: 46 N e D: 46 N, p= 0,881204). O segundo teste foi realizado em três segmentos da aorta. Força máxima, estresse máximo e tensão máxima suportada pela parede da aorta tiveram uma correlação negativa e linear com o oversizing, isto é, quanto maior o oversizing, menor a resistência do fragmento à ruptura. Houve diferenças significativas em todos os quatro grupos, quando comparados com o grupo controle. A deformação máxima e o Strain, que refletem as propriedades elásticas da parede da aorta, foram muito semelhantes em todos os quatro grupos de sobredimensionamento. Mas, uma diminuição significativa da elasticidade foi encontrada quando comparados cada um dos grupos com o grupo controle (p= 0,0000001). A análise histológica e imunohistoquímica demonstrou que a parede da aorta tem uma perda significativa de fibras musculares e ?-actina com o aumento do sobredimensionamento (p= 0,000198 e p= 0,002031, respectivamente). A quantidade de fibra elástica apresentou uma queda significativa independente do sobredimensionamento (p= 0,0000001). Conclusões: Os quatro níveis de sobredimensionamento estudados não demonstraram diferenças significativas no teste de destacamento. Os testes biomecânicos dos fragmentos da aorta mostraram uma diminuição na resistência da parede aórtica proporcional ao aumento do oversizing. A elasticidade da parede aórtica sofre alteração significativa independente do sobredimensionamento utilizado. Os exames histopatológicos e imunohistoquímicos comprovaram o desarranjo na estrutura da parede aórtica com a utilização de endopróteses, resultando na diminuição da quantidade de fibras elásticas e musculares / Introduction: The use of endovascular techniques to treat the various disorders of the aorta has supplanted traditional open techniques, and is particularly promising in trauma1. The traumatic rupture of the aorta is the second leading cause of death by traffic accident2, 3, and repair of these lesions with endoluminal stents has showed lower mortality and paraplegia when compared to open surgery, however the long-term results are not yet available2-7. The endoprosthesis approved and commercially available during this study were designed to aneurysmal disease, with a diameter greater than the diameter of the aorta of young people ( ) \" z \" prosthesis with the aortic wall, affecting the vascularization and raising the risk of complications related to stent-graft implantation8-12. Purpose: Analyze, from an experimental animal model, the biomechanical and histological effects of four different levels of stents-graft oversizing in non-atherosclerotic aortas; such as those aorta found in young individuals who undergo stent-graft repair for traumatic aortic injuries. Methods: The diameter of the porcine thoracic aorta is similar to the aorta of young adults (18-20 mm), so 25 pigs were randomized into 5 groups: 1 control (without stent-graft) and 4 oversizing groups (A: 10%-19%, B: 20%-29%, C: 30%-39%, and D: .40%). Two types of biomechanical tests were performed on all aortas 4 weeks after endoprosthesis deployment: The \"detachment\" of the stent, and the biomechanics test of aortic fragments collected. The fragments were submitted to a histological and an immunohistochemistry analysis. Results: The results of the detachment test, which analyzed the strength necessary to remove the stent-graft from the aorta, were similar in the 4 groups (A: 42 N, B: 41 N, C: 46 N e D: 46 N, p= 0,881204). The second test was performed in 3 aortic segments. Maximum strength, maximum stress, and maximum tension supported by the aortic wall had a negative and linear correlation with oversizing. There were significant differences in all 4 groups when compared with the control group. The maximum deformation and strain, which reflect the elastic properties of the aortic wall, were very similar in all 4 groups. But a significant decrease in elasticity was found when compared each group with the control group (p = 0.0000001). Histological and immunohistochemistry analysis supported that the aortic wall has a signifi-?-actin by increasing the oversize (p = 0.000198 p = 0.002031, respectively). The amount of elastic fiber showed a significant drop regardless of the oversizing (p = 0.0000001). Conclusion: The four levels of oversizing studied did not show significant differences in the detachment test. Biomechanical tests of the fragments of the aorta showed a decrease in resistance of the aortic wall with increase in oversize. The elasticity of the aortic wall undergoes significant change independent of the oversizing used. The histopathological and immunohistochemical examinations confirmed the breakdown in the structure of the aortic wall with the use of stents-graft, resulting in decreased amount of elastic and muscle fibers.

Aorta torácica

Biomecânica

Estresse de parede

Força de destacamento

Modelo porcino

Modelos animais

Oversizing

Sobredimensionamento

Stents

Tensão de parede

Biomechanics

Displacement force

Endovascular procedures/adverse effects

Models animal

Oversizing

Porcine model

Shear strength

Stent-graft

Strain

Tension

Thoracic aorta

Wall stress

Performance hémodynamique de prothèses valvulaires aortiques percutanées et stratégies d'implantation lors de procédures "valve-in-valve" : études in vitro et in vivo / Hemodynamic performance of transcatheter aortic valve prostheses and strategie of implantation for valve-in-valve procedures : in vitro and in vivo studies

Zenses, Anne-Sophie

17 October 2018

L’implantation valvulaire aortique percutanée (TAVI) a émergé comme une alternative à la chirurgie pour les patients avec sténose sévère et haut risque chirurgical. Cette technique s’étend à une population plus large (e.g. anatomie plus complexe, risque chirurgical plus bas), ainsi qu'au traitement Valve-in-Valve (ViV) des bioprothèses (BPs) chirurgicales défaillantes. Cependant, deux complications majeures en limitent la généralisation. En TAVI « classique », la présence de fuites péripothétiques a été associée à une mortalité augmentée. Les effets du surdimensionnement de la prothèse percutanée pour assurer son étanchéité, ou de la forme de l’anneau souvent non circulaire, sur la performance hémodynamique, sont mal connus. En ViV, la présence de hauts gradients est fréquente et associée à une mortalité augmentée. Les BPs de taille nominale ≤ 21 mm et le mode de dégénérescence par sténose, facteurs mis en cause dans la sténose résiduelle et associés à une mortalité augmentée, ne sont pas assez spécifiques et il n’existe actuellement aucune recommandation pour le traitement des petites BPs. Par ailleurs, le bénéfice hémodynamique réel du ViV par rapport aux statuts avant ViV n’a pas été étudié.L’objectif général de ce travail doctoral est de comprendre les interactions entre la prothèse percutanée et l’anneau aortique ou la BP à traiter, impliquées dans la performance hémodynamique, en particulier dans des conditions d’implantation complexes, afin d’étendre les indications du TAVI. En ViV, le défi est de préciser les facteurs associés à sa performance et son utilité hémodynamique et de proposer des stratégies d’implantation afin d’optimiser le succès de la procédure. / Transcatheter aortic valve implantation (TAVI) has emerged as an alternative to surgery for patients with severe aortic stenosis and high surgical risk. This technique is extending to a wider population (e.g. with more complex anatomy or lower surgical risk), as well as to patients with degenerated surgical bioprostheses (BPs). However, two major concerns remain limiting. Regarding “classical TAVI”, periprosthetic leaks have been associated with increased mortality. Oversizing is used to secure the device within the aortic annulus which is often non circular. The effects of oversizing and annulus shape on the hemodynamic performance are unknown. Regarding ViV implantations, elevated post-procedural gradients are common and have been associated with increased mortality. The principal factors associated with this residual stenosis as well as with increased risk of mortality, have been BPs label size ≤ 21 mm and mode of failure by stenosis. These factors are not specific enough and there is currently no recommendation for the treatment of small BPs. Besides, the actual hemodynamic benefit associated with ViV has not been evaluated (vs. pre ViV status).The general objective of this work is to understand the interactions between the transcatheter prosthesis and the aortic annulus or the BP to be treated, which impact the hemodynamic performance, especially in complex conditions of implantation, in order to extend the indications of TAVI. In the context of ViV, the objective is to specify the factors associated with the hemodynamic performance and utility of the treatment. The final aim is to provide strategies of implantation in order to optimize the success of the procedure.

Performance hémodynamique

Bioprothèses dégénérées

Valve-In-Valve

Simulation in vitro

Sténose résiduelle

Surdimensionnement

Hemodynamic performance

Degenerated bioprostheses

Valve-In-Valve

In vitro simultation

Residual stenosis

Oversizing

612