Avaliação da ecografia 3D (SonoAvc) para contagem de folículos antrais em mulheres inférteis : sua correlação com ecografia convencional 2D e com os níveis séricos do hormônio anti-Mülleriano

Fagundes, Paulo Augusto Peres

January 2015

Introdução: A contagem de folículos antrais (AFC) tornou-se uma ferramenta importante na avaliação da reserva ovariana. Vários estudos têm demonstrado uma relação entre a contagem de folículos antrais por ecografia transvaginal 2D e o hormônio anti- Mülleriano. Poucos estudos têm sido feitos estudando o papel da ecografia transvaginal 3D SonoAVC, particularmente em mulheres inférteis. A contagem de folículos na ecografia 2D convencional, como é conhecida, tem limitações como a variabilidade intra e inter-observadores e o tempo gasto no exame no caso de múltiplos folículos. Com a contagem automatizada dos folículos fornecida pelo software 3D Sono AVC, o tempo gasto é menor e a variabilidade entre observadores pode ser diminuída ou eliminada. Objetivos: Avaliar a contagem de folículos antrais pela nova tecnologia 3DSonoAVC em mulheres inférteis e sua relação com a ecografia transvaginal 2D convencional e a dosagem sérica do hormônio anti-Mülleriano. Métodos: Estudo prospectivo transversal, onde avaliamos um grupo de 43 mulheres inférteis com idade entre 25 e 40 anos, coletados entre abril e setembro de 2015, em um centro de reprodução assistida privado em Porto Alegre, Rio Grande do Sul, Brasil. Os dados das pacientes incluíram a idade, o IMC e causa da infertilidade. No dia 3 do ciclo, os níveis séricos de AMH, FSH, CA 125, prolactina, TSH, E2, foram medidos e o número de folículos antrais (2-9) medidos pela ecografia. Foi realizada uma varredura ecográfica transvaginal com 3D SonoAVC e o 2D. Resultados: As medianas (amplitude de variação) dos níveis séricos de AMH, FSH, CA 125, prolactina, TSH, E2, foram 2,98 (0,02-15,8), 9,45 (5-9.4) 14,0 (6-35) 13,6 (5.2-29.4) 2,1 (0.61- 5,99) 46,2 (4,0-79), respectivamente, e a contagem de folículos antrais foi de 15,7 (3-35) com 2D e 17,0 (3-45) com o 3D. O tempo médio gasto para a realização da medição dos folículos pela ecografia 2D foi de 275 ±109 s e pelo 3DSonoAVC foi de 103 ± 57 s, (p<0.0005). A idade e a contagem de folículos pelo 2D tiveram um coeficiente de correlação negativo, r= -0,3 (p = 0,028). A idade e a contagem pelo 3D SonoAVC tiveram um r = - 0,29 (p = 0,031). A correlação de HAM com a contagem de folículos apresentou um coeficiente, r = 0,675 (p <0,01) com 2D e r = 0,659 (p <0,001) com o 3DSonoAVC. As duas contagens pelo 2D e 3D SonoAVC, mostraram uma correlação positiva forte, r = 0,983 (p <0,001). O volume ovariano correlacionado com o HAM mostrou um r = 0,510 (p <0,001). O volume do ovário se mostrou fortemente correlacionado com o número de folículos, r = 0,809 (p <0,01). Na avaliação dos folículos <6 mm e HAM, se identificou um r = 0,537 (p <0,001) com o 2D e r = 0,510 (p <0,001) com o 3D SonoAVC. Conclusão: O estudo sugere que existe uma forte correlação entre o 3D SonoAVC e o 2D na contagem de folículos antrais. A contagem dos folículos antrais por ambos os métodos foi positivamente correlacionada com os níveis séricos do hormônio anti- Mülleriano. O 3D SonoAVC se mostrou significativamente mais rápido que o 2D na contagem de folículos. / Introduction: The counting of antral follicles (AFC) has become an important tool in the assessment of ovarian reserve. Several studies have shown a relationship between the antral follicle count by conventional 2D transvaginal sonography and serum anti- Müllerian hormone. Few studies have been done studying the role of 3D SonoAVC technology, particularly in infertile women. The follicle count in the conventional 2D ultrasound, as known, has limitations as the intra- and inter-observer variability and increasing the time of performing the test in case of multiple follicles. With automated technology follicle count provided by the software 3DSono AVC, the time spent is less, and the variability between observers can be decreased or eliminated. Objectives: Evaluate the antral follicle count the new 3D technology (SonoAVC) in infertile women and its relationship with conventional 2D transvaginal ultrasound and serum anti-Müllerian hormone. Methods: This is a cross-sectional, prospective study, where they were evaluated a group of 43 infertile women aged less than 40 years, collected between April and September 2015 at a private fertility clinic in Porto Alegre, south Brazil. Patient data including age, BMI, cause of infertility. On cycle day 3, serum levels of AMH, FSH, CA 125, Prolactin, TSH, E2, were measured and the number of antral follicles (2-9 mm) estimated at ultrasound. Was performed a double scanning with transvaginal ultrasound 2D and 3D SonoAVC. Results: Median (range) serum levels of AMH, FSH, Ca 125, Prolactin, TSH, E2, were 2.98(0.02-15.8), 9.45(5-9.4)14.0(6-35)13.6(5.2-29.4)2.1(0.61-5.99)46,2(4.0-79), respectively, and antral follicle count was 15.7(3-35) with 2D and 17,0(3-45) with 3D. The average time taken to carry out the measurement of the follicles by 2D ultrasound was 275 ± 109 and the 3DSonoAVC was 103 ± 57 s., (p <0.0005). The age and the total count of follicles 2D had a negative correlation coefficient, r= -0.3 (p = 0.028). Age and 3D antral follicles count had r= -0.29 (p = 0.031).The dosage AMH was correlated with the total number of early antral follicles, r= 0.675 (p <0.01) with 2D and r=0.659 (p <0.001) with 3D. The two count, 2D and 3D SonoAVC, showed a strongly positive correlation, r=0.983 (p <0.001) Ovarian volume correlated with AMH dosage, r=0.510 (p <0.001). The ovarian volume is strongly correlated with follicle count, r=0.809 (p <0.01). In the evaluation of the follicles <6 mm and AMH, r=0.537 (p <0.001) in 2D and r= 0.510 (p <0.001) in 3D. Conclusion: The study suggests that there is a strong correlation between the 3D and 2D SonoAVC the antral follicle count. The counting of antral follicles by both methods was positively correlated with serum levels of anti-Müllerian hormone. 3D SonoAVC was significantly faster than in 2D follicle count.

Hormônio antimülleriano

Infertilidade

Vagina

Ultrassonografia

Antral follicle count

Anti-Müllerian hormone

Infertility

Transvaginal ultrasound

3D SonoAVC

Estimativa do crescimento de gordura subcutânea e área de olho de lombo por ultrassonografia de carcaça em bovinos de diferentes grupos genéticos e sexo criados em pastagem / Estimate of subcutaneous fat growth and loin eye area for carcass ultrasonography in different breed of cattle and gender in pastures

Castilho, José Otávio Pinto

January 2015

O objetivo doestudo foi estimar o crescimento dostecidos muscular e adiposo por ultrassonografia e verificar as possíveis diferenças entre grupos genéticos no crescimento e características produtivas de novilhas Angus e Brangus com idade inicial de oito meses, e novilhos Angus, Braford e Brangus com idade inicial de sete meses, recriados sobre pastagem. Para avaliação entre as raças de novilhas foramconsideradas as seguintes características: peso vivo (PV) área de olho de lombo (AOLUS), espessura de gordura subcutânea (EGSUS) e espessura de gordura na picanha (EGPUS), observação de cio e prenhez. As avaliaçõesdos novilhos foram realizadas utilizando-se as características, PV, AOLUS, EGSUS, EGPUS, peso de carcaça (PC), rendimento de carcaça (RC), peso de cortes primários (PCP) e rendimento de cortes primários (RCP). O peso vivo inicial (PVI) 224,37 kg das novilhas Angus não prenhas foi superior (p<0,05) a 219,30 kg das prenhas. A espessura de gordura subcutânea inicial (EGSIUS) em novilhas Angus prenhes 0,95 mm foi superior (p<0,05) a0,80 mm a das não prenhes. O PVI em novilhas Brangusnão prenhas 223,33 kg foi superior (p<0,05) a214,11 kg das prenhas. A espessura de gordura subcutânea final (EGSFUS) das novilhas Brangus prenhes 2,08 mm foi superior (p<0,05) a1,89 mm das não prenhes. Houve diferença (p<0,05) quanto a taxa de prenhez 88,22% das novilhas Angus e 73,91% das Brangus. O PVI 228,74 kg dos novilhos Angus foi superior (p<0,05) a195,92 kg dos Braford porém o PVI dos novilhos Brangus 220,26 kg não apresentou diferença entre médias. A área de olho de lombo inicial (AOLIUS) dos novilhos Angus 42,44 cm² foi superior (p<0,05) a 38,32 cm²dos Braford. Não houve diferença da AOLIUS40,69 cm² dos novilhos Brangus com os demais grupos genéticos. A EGSIUS 1,90 mm dos novilhos Angus e 2,20 mm dos Brangus não apresentaram diferença significativa, no entanto, as médias foram superiores (p<0,05) a 0,70 mm dos novilhos Braford. As características das carcaças dos novilhos coletadas ao abate não apresentaram diferença entre médias de peso e rendimento. Novilhas com maior espessura de gordura subcutânea final (EGSFUS) apresentaram maior número de animais com manifestação de 1º cio e prenhez. As variações ambientais ocorridas pelas estações do ano no sistema de produção, não influenciaram diferenças derendimento dos cortes primários das carcaças dos novilhos ao abate. / Theaim of this study was to estimate the growth of muscle and adipose tissues by ultrasound and check for any genetic differences between groups in growth and production characteristics of Angus and Brangus heifers with initial age of eight months and steers Angus, Brangus and Braford with initial age of seven months, recreated on pasture.For evaluation between breeds heifers were deemed the following characteristics, body weight (PV) rib eye area (AOLUS), backfat thickness (EGPUS) and fat thickness on the rump (EGPUS), observing estrus and pregnancy.The evaluation between breeds of steers was performed using the characteristics, PV, AOLUS, EGSUS, EGPUS, carcass weight (PC), carcass yield (RC), weight of primal cuts (PCP) and income primal cuts (RCP). Weight and characteristics evaluated by ultrasound showed no significant difference between breeds of Brangus and Angus heifers.In genetic group Angus initial body weight (PVI) of pregnant heifers 219.30 kg and not pregnant 224.37 kg was significantly different (p<0.05). The initial thickness of subcutaneous fat (EGSIUS) Angus heifers was significantly different (p <0.05) in animals pregnant 0.95 mm and non-pregnant 0.80 mm.In Brangus heifers the PVI was different (p<0.05) between heifers pregnant 214.11 kg and non-pregnant 223.33 kg. The final thickness of subcutaneous fat (EGSFUS) in Brangus heifers was significantly different (p<0.05) for pregnant animals 2.08 mm and non-pregnant1.89 mm.There were differences (p <0.05) as the pregnancy rate 82.22% of Angus heifers and 73.91% of Brangus. The PVI Angus steers 228.74 kg was higher (p<0.05) to the Braford steers 195.92 kg but Brangus steers 220.26 kg no differences between means of genetic groups.The initial ribeye area (AOLIUS) Angus steers 42.44 cm² was higher (p<0.05) of Braford steers 38.32 cm² with no difference of Brangus steers 40.69 cm² AOLIUS with other genetic groups.The EGSIUS Angus steers 1.90 mm and Brangus 2.20 mm showed no significant difference significantly, however the means were higher (p<0.05) of the steers Braford 0.70 mm.The characteristics of the carcasses of steers collected at slaughter showed no difference in mean weight and yield.Heifers with higher EGSUS showed higher participation in the number of animals with expression of 1st estrus and pregnancy. Environmental variations by the seasons in the production system did not influence differences in yield of the primary cuts of carcasses of steers for slaughter.

Novilho

Carcaça

Gordura

Músculo

Composição corporal

Genetics groups bovine

Carcass ultrasound

Muscle growth curve

Fat deposition

Polímero eletrólito derivado de goma de cajueiro para uso como floculante no tratamento de efluentes

Klein, Jalma Maria

January 2015

Neste trabalho, um polímero eletrólito derivado de goma de cajueiro graftizada com poliacrilamida (GC-g-PAM) foi desenvolvido para uso como floculante no tratamento de águas. Foi investigado o efeito da concentração de acrilamida e do iniciador persulfato de potássio, da energia de micro-ondas e de ultrassom sobre a eficiência da reação, produtividade e viscosidade intrínseca dos copolímeros GC-g-PAM. As matérias-primas e os copolímeros graftizados foram caracterizados por espectroscopia de infravermelho, ressonância magnética nuclear, análise termogravimétrica, calorimetria exploratória diferencial e espalhamento de luz dinâmico. A síntese realizada por ultrassom permitiu a obtenção de copolímeros graftizados com elevada eficiência de grafting e viscosidade intrínseca, em curto período de tempo. Os copolímeros obtidos com baixa concentração de iniciador (1,90×10−4 mol e 2,85×10−4 mol) apresentaram raio hidrodinâmico 1,5 vezes maior do que o raio da goma de cajueiro devido à graftização de cadeias longas de poliacrilamida nas cadeias da goma de cajueiro. A estrutura química dos copolímeros graftizados afetou positivamente o desempenho destes quando utilizados como floculante no processo de floculação. Os copolímeros GC-g-PAM apresentaram eficiência superior a 90% na remoção da turbidez de suspensão aquosa de caulim, usada como referência, bem como em água de abastecimento in natura. A grande vantagem dos floculantes GC-g-PAM reside no fato destes apresentarem cadeia macromolecular biodegradável e cadeias laterais menores do que a cadeia principal da poliacrilamida comercial, não biodegradável, utilizada como floculante. O uso do floculante derivado da goma de cajueiro para recuperação e purificação de águas, em detrimento do floculante sintético, visa a longo prazo diminuir o impacto ambiental causado pelo acúmulo de floculante sintético no lodo, já que esse não é biodegradável. / In this work a polymer electrolyte derived from cashew gum with polyacrylamide (GC-g-PAM) was developed for use as a flocculant in water treatment. The effect of concentration of acrylamide and potassium persulfate initiator, as well as microwave and ultrasound energy over the grafting efficiency, productivity, and intrinsic viscosity of copolymers GC-g-PAM were investigated. The raw materials and grafted copolymers were characterized by infrared spectroscopy, nuclear magnetic resonance spectroscopy, thermogravimetric analysis, differential scanning calorimetry, and dynamic light scattering. The synthesis performed with ultrasound allowed the achievement of grafted copolymer with high grafting efficiency and intrinsic viscosity, in a short reaction time. The copolymers obtained at low initiator concentration (1.90×10−4 mol and 2.85×10−4 mol) presented a hydrodynamic radius 1.5 times larger than the one from cashew gum due to grafting of long chains of polyacrylamide onto cashew gum backbone. The chemical structure of grafted copolymers affected positively the performance of flocculants when they were used in flocculation processes. The turbidity removal of copolymer GC-g-PAM in kaolin suspension, used as reference, and in water treatment was higher than 90%. The great advantage of flocculants GC-g-PAM lies in the fact that they show biodegradable macromolecular chain with branches that are shorter than polyacrylamide commercial, non-biodegradable, used as a flocculant. The use of flocculant derived from cashew gum for water purification and recovery, instead of synthetic flocculant, in long term will decrease the environmental impact caused by the accumulation of synthetic flocculant in the sludge, since it is non-biodegradable.

Acrilamida

Tratamento de efluentes

Eletrólitos

Água : Tratamento

Floculação

Cashew gum

Acrylamide

Ultrasound

Microwave

Flocculant

Modelling and monitoring nonlinear acoustic phenomena in high-intensity focused ultrasound therapy

Jackson, Edward James

January 2015

High intensity focused ultrasound (HIFU) provides a wide range of noninvasive therapies ranging from drug delivery to the destruction of kidney stones. In particular, thermal ablation by HIFU presents an effective noninvasive method for the treatment of deep seated solid tumours. HIFU’s further uptake is limited by a need for improved treatment planning and monitoring. Two nonlinear acoustic phenomena that play key roles in HIFU treatment: finite amplitude effects that lead to the generation of harmonics and steepening of wavefronts, and acoustic cavitation. The former must be taken into careful consideration for treatment planning purposes, while the latter has the potential to provide fast, real-time, cost effective treatment monitoring. The first half of this thesis provides new measurements for the nonlinear acoustic properties of tissue, assesses the validity of two common modelling techniques for simulating HIFU fields. The second half develops a new method for combining passive acoustic mapping- an ultrasound monitoring technique- with MR thermometry, to assess estimates of cavitation enhanced heating derived from passive acoustic maps. In the first results chapter B/A was measured in ex-vivo bovine liver, over a heating/ cooling cycle replicating temperatures reached during HIFU ablation, adapting a finite amplitude insertion technique (FAIS), which also allowed for measurement of sound-speed and attenuation. The method measures the nonlinear progression of a plane-wave through liver and B/A was chosen so that numerical simulations matched measured waveforms. Results showed that attenuation initially decreased with heating then increased after denaturation, sound-speed initially increased with temperature and then decreased, and B/A showed an increase with temperature but no significant post-heating change. These data disagree with other reports that show a significant change and suggest that any nonlinear enhancement in the received ultrasound signal post-treatment is likely due to acoustic cavitation rather than changes in tissue nonlinearity. In the second results chapter two common methods of modelling HIFU fields were compared with hydrophone measurements of nonlinear HIFU fields at a range of frequencies and pressures. The two methods usedwere the KZK equation and the commercial package PZFlex. The KZK equation has become the standard method for modelling focused fields, while the validity of PZFlex for modelling these types of transducers is unclear. The results show that the KZK equation is able to match hydrophone measurements, but that PZFlex underestimates the magnitude of the harmonics. Higher order harmonics in PZFlex are not the correct shape, and do not peak around the focus. PZFlex performs worse at higher pressures and frequencies, and should be used with caution. In the final two chapters a system for estimating cavitation-enhanced heating from acoustic maps is developed and benchmarked against magnetic resonance thermometry methods. The first chapter shows that the ultrasound and MR monitoring systems are compatible, and registers the two imaging systems. The HIFUfocus is clearly visible in passive maps acquired in the absence of cavitation and these coincide with the centre of heating in MR temperature images. When cavitation occurs, it coincides spatially and temporally with the appearance of a clear spike in temperature, especially when the passive maps are processed using the Robust Capon Beamformer algorithm. The final chapter shows how passive maps can be converted into thermal heating inputs, and used to estimate cavitation-enhanced temperature increases. These estimates have the potential to closely match maximum temperature rise, and estimated thermal dose after the estimated temperature rise is spatially averaged. However, themethod is not always successful. This is partly due to uncertainties in MR thermometry estimates, partly due to uncertainties in the acoustic properties of tissue.

616.07

BOND STRENGTH EVALUATION IN ADHESIVE JOINTS USING NDE AND DIC METHODS

Poudel, Anish

01 May 2015

Adhesive bonding of graphite epoxy composite laminates to itself or traditional metal alloys in modern aerospace and aircraft structural applications offers an excellent opportunity to use the most efficient and intelligent combination of materials available thus providing an attractive package for efficient structural designs. However, one of the major issues of adhesive bonding is the occasional formation of interfacial defects such as kissing or weak bonds in the bondline interface. Also, there are shortcomings of existing non-destructive evaluation (NDE) methods to non-destructively detect/characterize these interfacial defects and reliably predicting the bond shear strength. As a result, adhesive bonding technology is still not solely implemented in primary structures of an aircraft. Therefore, there is a greater demand for a novel NDE tool that can meet the existing aerospace requirement for adhesive bondline characterization. This research implemented a novel Acoustography ultrasonic imaging and digital image correlation (DIC) technique to detect and characterize interfacial defects in the bondline and determine bond shear strength in adhesively bonded composite-metal joints. Adhesively bonded Carbon Fiber Reinforced Plastic (CFRP) laminate and 2024-T3 Aluminum single lap shear panels subjected to various implanted kissing/weak bond defects were the primary focus of this study. Kissing/weak bonds were prepared by controlled surface contamination in the composite bonding surface and also by improperly mixing the adhesive constituent. SEM analyses were also conducted to understand the surface morphology of substrates and their interaction with the contaminants. Morphological changes were observed in the microscopic scale and the chemical analysis confirmed the stability of the contaminant at or very close to the interface. In addition, it was also demonstrated that contaminants migrated during the curing of the adhesive from CFRP substrate which caused a decrease of bond shear strength in single lap shear test samples. Through-transmission ultrasonics (TTU) Acoustography at 3.8 MHz showed promising results on the detectability of bondline defects in adhesively bonded CFRP-Al lap shear test samples. A correlation between Acoustography ultrasonic attenuation and average bond shear strength in CFRP-Al lap shear panels demonstrated that differential attenuation increased with the reduction of the bond shear strength. Similarly, optical DIC tests were conducted to identify and quantify kissing bond defects in CFRP-Al single lap shear joints. DIC results demonstrated changes in the normal strain (εyy) contour map of the contaminated specimens at relatively lower load levels (15% ~ 30% of failure loads). Kissing bond regions were characterized by negative strains, and these were attributed to high compressive bending strains and the localized disbonding taking placed at the bondline interface as a result of the load application. It was also observed that contaminated samples suffered from more compressive strains (εyy) compared to the baseline sample along the loading direction and they suffered from less compressive strains (εxx) compared to the baseline sample perpendicular to the loading direction. This demonstrated the adverse effect of the kissing bond on the adhesive joint integrity. This was a very significant finding for the reason that hybrid ultrasonic DIC is being developed as a faster, more efficient, and more reliable NDE technique for determining bond quality and predicting bond shear strength in adhesively bonded structures.

Acoustography

Bond Strength

Digital Image Correlation

Single Lap Joints

Strain

Ultrasound

EFFECT OF UV-C LIGHT, HIGH INTENSITY ULTRASOUND AND NONTHERMAL ATMOSPHERIC PLASMA TREATMENTS ON THE ALLERGENICITY OF MAJOR COW MILK PROTEINS

Tammineedi, Chatrapati Veera Raghava Kumar

01 August 2012

Milk is one of the eight major food allergens. Cow's milk allergy is the most common allergy in children under 2 years of age. About 1.6 to 2.8 percent of children under this age are reported to have cow's milk allergy. Casein, β-lactoglobulin and α-lactalbumin are major milk protein allergens. Nonthermal treatments like high intensity ultrasound, ultraviolet (UV) light and nonthermal plasma treatments have been reported in the literature to be effective in reducing the allergenicity of different food proteins. Hence it was expected for these treatments to reduce cow milk allergenicity. The objective of this study was to investigate the effect of high intensity ultrasound, nonthermal atmospheric plasma and UV-C light treatments in reducing the allergenicity of isolated major milk proteins. Sonics Vibracell VC 505 ultrasonic liquid processor was used to perform high intensity ultrasound treatments. UV light treatments were performed using a DDK Scientific Corporation UV tunnel. A nonthermal atmospheric plasma setup assembled in Department of Microbiology lab was used to perform plasma treatments. Samples were analyzed using sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) to estimate the change in protein concentration and enzyme linked immuno sorbent assays (ELISA) to observe the change in IgE binding. A one-way analysis of variance was conducted to evaluate the relationship between treatment time and percent IgE binding at 95% confidence level. Further investigation was conducted with nuclear magnetic resonance (NMR) spectroscopy on treated casein to assess any change in the structure of protein. SDS-PAGE results for ultrasound and plasma treatments didn't show any change in gel band intensities for casein, β-lactoglobulin and α-lactalbumin indicating no significant change in protein concentration. Ci-ELISA analysis showed that there was no significant difference (p>0.05) in IgE binding values for control and treated samples in ultrasound and plasma treatment conditions tested in this study. The intensities of all the three protein bands in SDS-PAGE gel were reduced by UV-C light treatment at 15 min treatment time. In Ci-ELISA, there was a significant difference (p< 0.05) in IgE binding values for control and treated samples and a reduction in allergenicity of proteins (25% reduction for casein and 28% reduction for whey protein fractions) was observed. Further investigations using in vivo clinical trials need to be conducted to confirm this result. NMR results didn't show any noticeable changes in the structures of casein with all three different treatments. In conclusion, UV-C light treatment can reduce the allergenicity of isolated major milk proteins to some extent. High intensity ultrasound and nonthermal atmospheric plasma treatments failed to generate effective results for reducing allergenicity at the conditions tested in this study. Higher intensity and longer treatment conditions might yield better results with ultrasound treatment. Different power and gas flow rates used to generate plasma with direct exposure of proteins might yield better results towards reducing the allergenicity of major milk allergens.

High intensity ultrasound

IgE binding

Milk allergen

Nonthermal plasma

UV-C light

Advanced beamforming techniques in ultrasound imaging and the associated inverse problems / Techniques avancées de formation de voies en imagerie ultrasonore et problèmes inverses associés

Szasz, Teodora

14 October 2016

L'imagerie ultrasonore (US) permet de réaliser des examens médicaux non invasifs avec des méthodes d'acquisition rapides à des coûts modérés. L'imagerie cardiaque, abdominale, fœtale, ou mammaire sont quelques-unes des applications où elle est largement utilisée comme outil de diagnostic. En imagerie US classique, des ondes acoustiques sont transmises à une région d'intérêt du corps humain. Les signaux d'écho rétrodiffusés, sont ensuite formés pour créer des lignes radiofréquences. La formation de voies (FV) joue un rôle clé dans l'obtention des images US, car elle influence la résolution et le contraste de l'image finale. L'objectif de ce travail est de modéliser la formation de voies comme un problème inverse liant les données brutes aux signaux RF. Le modèle de formation de voies proposé ici améliore le contraste et la résolution spatiale des images échographiques par rapport aux techniques de FV existants. Dans un premier temps, nous nous sommes concentrés sur des méthodes de FV en imagerie US. Nous avons brièvement passé en revue les techniques de formation de voies les plus courantes, en commencent par la méthode par retard et somme standard puis en utilisant les techniques de formation de voies adaptatives. Ensuite, nous avons étudié l'utilisation de signaux qui exploitent une représentation parcimonieuse de l'image US dans le cadre de la formation de voies. Les approches proposées détectent les réflecteurs forts du milieu sur la base de critères bayésiens. Nous avons finalement développé une nouvelle façon d'aborder la formation de voies en imagerie US, en la formulant comme un problème inverse linéaire liant les échos réfléchis au signal final. L'intérêt majeur de notre approche est la flexibilité dans le choix des hypothèses statistiques sur le signal avant la formation de voies et sa robustesse dans à un nombre réduit d'émissions. Finalement, nous présentons une nouvelle méthode de formation de voies pour l'imagerie US basée sur l'utilisation de caractéristique statistique des signaux supposée alpha-stable. / Ultrasound (US) allows non-invasive and ultra-high frame rate imaging procedures at reduced costs. Cardiac, abdominal, fetal, and breast imaging are some of the applications where it is extensively used as diagnostic tool. In a classical US scanning process, short acoustic pulses are transmitted through the region-of-interest of the human body. The backscattered echo signals are then beamformed for creating radiofrequency(RF) lines. Beamforming (BF) plays a key role in US image formation, influencing the resolution and the contrast of final image. The objective of this thesis is to model BF as an inverse problem, relating the raw channel data to the signals to be recovered. The proposed BF framework improves the contrast and the spatial resolution of the US images, compared with the existing BF methods. To begin with, we investigated the existing BF methods in medical US imaging. We briefly review the most common BF techniques, starting with the standard delay-and-sum BF method and emerging to the most known adaptive BF techniques, such as minimum variance BF. Afterwards, we investigated the use of sparse priors in creating original two-dimensional beamforming methods for ultrasound imaging. The proposed approaches detect the strong reflectors from the scanned medium based on the well-known Bayesian Information Criteria used in statistical modeling. Furthermore, we propose a new way of addressing the BF in US imaging, by formulating it as a linear inverse problem relating the reflected echoes to the signal to be recovered. Our approach offers flexibility in the choice of statistical assumptions on the signal to be beamformed and it is robust to a reduced number of pulse emissions. At the end of this research, we investigated the use of the non-Gaussianity properties of the RF signals in the BF process, by assuming alpha-stable statistics of US images.

Imagerie ultrasonore

Formation de voies adaptatives

Problèmes inverse

Ultrasound imaging

Adaptive beamforming

Inverse problems

Inverse problems in medical ultrasound images - applications to image deconvolution, segmentation and super-resolution / Problèmes inverses en imagerie ultrasonore - applications déconvolution image, ségmentation et super résolution

Zhao, Ningning

20 October 2016

L'imagerie ultrasonore est une modalité d'acquisition privilégiée en imagerie médicale en raison de son innocuité, sa simplicité d'utilisation et son coût modéré d'utilisation. Néanmoins, la résolution limitée et le faible contraste limitent son utilisation dans certaines d'applications. C'est dans ce contexte que différentes techniques de post-traitement visant à améliorer la qualité de telles images sont proposées dans ce manuscrit. Dans un premier temps, nous proposons d'aborder le problème conjoint de la déconvolution et de la segmentation d'images ultrasonores en exploitant l'interaction entre ces deux problèmes. Le problème, énoncé dans un cadre bayésien, est résolu à l'aide d'un algorithme MCMC en raison de la complexité de la loi a posteriori des paramètres d'intérêt. Dans un second temps, nous proposons une nouvelle méthode rapide de super-résolution fondée sur la résolution analytique d'un problème de minimisation l2-l2. Il convient de remarquer que les deux approches proposées peuvent être appliquées aussi bien à des images ultrasonores qu'à des images naturelles ou constantes par morceaux. Enfin, nous proposons une méthode de déconvolution aveugle basée sur un modèle paramétrique de la réponse impulsionelle de l'instrument ou du noyau de flou. / In the field of medical image analysis, ultrasound is a core imaging modality employed due to its real time and easy-to-use nature, its non-ionizing and low cost characteristics. Ultrasound imaging is used in numerous clinical applications, such as fetus monitoring, diagnosis of cardiac diseases, flow estimation, etc. Classical applications in ultrasound imaging involve tissue characterization, tissue motion estimation or image quality enhancement (contrast, resolution, signal to noise ratio). However, one of the major problems with ultrasound images, is the presence of noise, having the form of a granular pattern, called speckle. The speckle noise in ultrasound images leads to the relative poor image qualities compared with other medical image modalities, which limits the applications of medical ultrasound imaging. In order to better understand and analyze ultrasound images, several device-based techniques have been developed during last 20 years. The object of this PhD thesis is to propose new image processing methods allowing us to improve ultrasound image quality using postprocessing techniques. First, we propose a Bayesian method for joint deconvolution and segmentation of ultrasound images based on their tight relationship. The problem is formulated as an inverse problem that is solved within a Bayesian framework. Due to the intractability of the posterior distribution associated with the proposed Bayesian model, we investigate a Markov chain Monte Carlo (MCMC) technique which generates samples distributed according to the posterior and use these samples to build estimators of the ultrasound image. In a second step, we propose a fast single image super-resolution framework using a new analytical solution to the l2-l2 problems (i.e., $\ell_2$-norm regularized quadratic problems), which is applicable for both medical ultrasound images and piecewise/ natural images. In a third step, blind deconvolution of ultrasound images is studied by considering the following two strategies: i) A Gaussian prior for the PSF is proposed in a Bayesian framework. ii) An alternating optimization method is explored for blind deconvolution of ultrasound.

Segmentation

Super-résolution

Bayesian

Optimisation

Ultrasound images

Deconvolution

Segmentation

Super-resolution

Bayesian methods

Optimization

Avaliação do uso do ultrassom na extração do mosto da uva cabernet sauvignon e na atividade enzimática

Dalagnol, Luíza Merlini Garcia

January 2017

O processamento da uva para produção de suco e vinho engloba diferentes processos tecnológicos, como por exemplo, o tratamento enzimático, onde usualmente são utilizadas preparações de enzimas comerciais, buscando-se aprimorar processos como clarificação e extração. Entretanto, esse é um tratamento que demanda elevado tempo de processamento, sendo relevante a busca por novas tecnologias a fim de apurar o processo. O ultrassom pode ser utilizado como uma alternativa para reduzir o tempo de processamento e acrescer qualidade ao produto, pois além de ser uma técnica sustentável, pode proporcionar benefícios no uso combinado com enzimas, favorecendo as reações em decorrência de seus efeitos. Neste trabalho, o uso em conjunto de tratamento enzimático (ET), ultrassom (US), e agitação mecânica (MS) foi avaliado na extração do mosto da uva Cabernet Sauvignon, a fim de compreender os efeitos das técnicas combinadas. Inicialmente, nove preparados enzimáticos comerciais foram caracterizados segundo suas atividades enzimáticas e aplicados para extração do mosto, avaliando a variação de temperatura (40, 50 e 60 °C), tempo (15 e 30 min), e concentração de enzima (0,01 a 2,0 U.g-1). Os melhores resultados foram obtidos com o preparado Zimopec PX5® nas condições de 1,0 U.g-1 de pectinase a 50 °C por 30 min. A extração do mosto apresentou aumento significativo nos parâmetros de qualidade avaliados (cor, sólidos solúveis totais, rendimento de extração, capacidade antioxidante, antocianinas totais) quando os três métodos de extração (US, MS e ET) foram combinados, principalmente na presença do ultrassom. Tendo em vista o efeito sinérgico obtido entre a aplicação enzimática e o ultrassom na extração do mosto, um novo estudo foi conduzido buscando investigar a influência da sonicação na eficiência catalítica das enzimas pectinase (PE), xilanase (XLN) e celulase (CE). Para isso, as atividades enzimáticas foram avaliadas em diferentes pHs e em amostras de enzima e substratos submetidas a um tratamento prévio de sonicação por tempos determinados (0 – 30 min). Os parâmetros cinéticos e termodinâmicos foram estimados, apresentando um efeito positivo do US na atividade das enzimas. A sonicação prévia do substrato contribuiu significativamente para o aumento da atividade de XLN, enquanto a sonicação prévia da enzima melhorou a atividade da CE e PE. Os resultados apresentaram um aumento na velocidade de hidrólise das enzimas com o uso do US, assim como um aumento da eficiência catalítica (Vmax/Km), mostrando o potencial da aplicação do US para ativação das enzimas. De acordo com os resultados obtidos, pode-se afirmar que o ultrassom proporcionou melhorias na extração do mosto, podendo ser utilizado como uma técnica alternativa de processo, bem como apresentou efeitos benéficos sobre as atividades enzimáticas. / Grape processing for juice and wine production encompasses different technological processes, such as enzymatic treatment, that usually uses commercial enzyme preparations to improve clarification and extraction processes. However, this is a treatment that demands high processing time, being relevant the search for new technologies in order to improve the whole process. Ultrasound (US) can be used as an alternative to reduce the processing time and improve the quality of the product, moreover, it can provide benefits in the combined use with enzymes, favoring the enzymatic reactions. In this work, the combined use of enzymatic treatment (ET), ultrasound (US), and mechanical agitation (MS) was studied in order to understand the effects of the techniques on Cabernet Sauvignon must extraction. Initially, nine commercial enzyme preparations were characterized according to their enzymatic activities and applied to must extraction, evaluating temperature (40, 50 and 60 °C), time (15 and 30 min), and enzyme concentration (0.01 to 2.0 Ug-1). The best results were obtained for the preparation Zimopec PX5® under conditions of 1.0 U.g-1 of pectinase at 50 °C for 30 min. A significant increase on quality parameters (color, °Brix, yield, antioxidant capacity, total anthocyanins) was obtained to extraction combining the three methods (US, MS and ET), mainly when US were applied. Based on these previous results, a new study was conducted to investigate the influence of sonication on the catalytic efficiency of the enzymes pectinase (PE), xylanase (XLN) and cellulase (CE). The enzymatic activities were evaluated at different pH and in samples of enzyme and substrates submitted to a previous treatment of sonication by determined times (0 - 30 min). The kinetic and thermodynamic parameters were estimated, showing a positive effect of the ultrasonic treatment on the enzymatic activity. Previous sonication of the substrate contributed significantly to the increase in XLN activity, whereas the previous sonication of the enzyme improved the activity of CE and PE. This research showed the potential benefits of ultrasound treatment on reaction rate and catalytic efficiency (Vmax/Km) improvement of enzymes, attesting that US can be used to increase the catalytic efficiency of pectinase, xylanase and cellulase enzymes. According to the obtained results, it can be affirmed that ultrasound improved the extraction process, and can be applied as an alternative technique, as well as provided beneficial effects on the enzymatic activity.

Extração enzimática

Atividade enzimática

Mosto de uva

Ultrassom

Enzyme

Extraction

Pectinase

Cellulase

Xylanase

Grape

Ultrasound

Dimensionamento e monitoramento de defeitos em tubo soldado de aço inoxidável superduplex (UNS S327150) pela técnica de ultrassom phased array

Moresco, Mauro

January 2017

A operação segura e eficiente em unidades de produção de petróleo e gás depende do desempenho de seus dispositivos, componentes e estruturas. Dutos rígidos são importantes componentes utilizados na indústria offshore, comumente empregados como flowlines e risers. Durante a vida em serviço destes componentes, eles sofrem tensões axiais cíclicas associadas a sua movimentação, ao processo de extração de petróleo e ao vórtice das marés. O aço inoxidável superduplex surgiu na última década como um material alternativo para ambientes quimicamente agressivos, mas quando catodicamente protegidos contra a corrosão, esses aços são vulneráveis a fragilização por hidrogênio. Este trabalho tem como objetivo, através da técnica de Ensaio Não Destrutivo de ultrassom phased array, monitorar o crescimento de defeitos internos e externos criados intencionalmente próximos à raiz e ao reforço da solda de um tubo de aço superduplex (UNS S32750) de 6´´ submetido a fadiga tração-tração e fragilização induzida por hidrogênio devido à proteção catódica. As inspeções foram realizadas periodicamente com varreduras de 30 a 75° ao longo da circunferência da solda, por um transdutor linear 1-D de 16 elementos e 5MHz acoplado a uma sapata de 36°. Os resultados obtidos foram utilizados para alimentar análises de integridade estrutural, obtenção da curva da/dN x ΔK. / Safe and efficient operation in oil and gas production units depends on the performance of your devices, components and structures. Rigid pipelines are important components in the offshore industry, common used as flowlines and risers. During a life in service of components, they suffer cyclical axial stresses associated with their movement, by the oil extraction process and tidal vortex. Super duplex stainless steel has emerged in the last decade as an alternative material for chemically aggressive environments, but when cathodically protected against corrosion, it is vulnerable to hydrogen embrittlement. This work aims to, through the ultrasonic non-destructive testing by phased array monitor the growth of internal and external defects created intentionally close to the root and reinforcement of the weld of a superduplex steel tube (UNS S32750) with diameter of 6" submitted to tensile-traction fatigue and hydrogen-induced embrittlement due to cathodic protection. The inspections were performed periodically with 30 to 75° scans along the circumference of the weld, by a linear transducer of 1-D, 16-element and 5MHz coupled to a wedge of 36°. The obtained results were used to feed structural integrity analyzes, obtaining the curve of da/dN x ΔK.

Ensaios não-destrutivos

Tubos de aço

Soldagem

Phased array

Ultrasound

Non-destructive testing