Synthesis, Characterization, and Self-Assembly of Gold Nanorods and Nanoprisms

Tran, Kristina L.

29 June 2010

The unique properties of gold nanoparticles make them excellent candidates for applications in electronics, sensing, imaging, and photothermal therapy. Though abundant literature exists for isotropic gold nanoparticles, work on nanoparticles of different shapes has been gaining interest recently. Anisotropic gold nanoparticles, such as nanorods and nanoprisms, have tunable optical properties in the visible and near-infrared regions. Through synthesis and surface modification, the production of various shapes of these gold nanoparticles can be controlled to meet different applications. Two different types of gold nanorods were used in this thesis. The first type was stabilized with cetyltrimethylammonium bromide (CTAB) and had aspect ratios of 3-4 (defined as the nanorod length divided by the diameter). The second type was synthesized using CTAB and benzyldimethylhexadecylammonium chloride (BDAC) in a binary surfactant system which produced aspect ratios greater than 4. The nanorods were characterized with UV-Vis spectroscopy and transmission electron microscopy (TEM). Two types of bowl-shaped macrocyclic compounds called resorcinarenes were used to direct self-assembly of the nanorods. The first type of resorcinarene (R2S) consisted of thiol(SH)-terminated alkyl chains on both rims. The second type (R1S) contained thiol-terminated alkyl chains on only one rim. The monolayer formation of these resorcinarenes on planar gold surfaces was studied and characterized by FTIR spectroscopy. Resorcinarene-mediated assembly of gold nanorods was monitored with UV-Vis spectroscopy, dynamic light scattering (DLS), and TEM. In addition to gold nanorods, gold nanoprisms were synthesized through a kinetically-controlled reduction route in the presence of CTAB. The linking of nanoprisms using resorcinarenes was also explored.

resorcinarenes

macrocycles

anisotropic gold nanoparticles

metal nanoparticles

binary surfactant synthesis

American Studies

Arts and Humanities

Chemical Engineering

Forecasting of isothermal enhanced oil recovery (EOR) and waterflood processes

Mollaei, Alireza

06 February 2012

Oil production from EOR and waterflood processes supplies a considerable amount of the world's oil production. Therefore, the screening and selection of the best EOR process becomes important. Numerous steps are involved in evaluating EOR methods for field applications. Binary screening guides in which reservoirs are selected on the basis of reservoir average rock and fluid properties are consulted for initial determination of applicability. However, quick quantitative comparisons and performance predictions of EOR processes are more complicated and important than binary screening that are the objectives of EOR forecasting. Forecasting (predicting) the performance of EOR processes plays an important role in the study, design and selection of the best method for a particular reservoir or a collection of reservoirs. In EOR forecasting, we look for finding ways to get quick quantitative results of the performance of different EOR processes using analytical model/s before detailed numerical simulations of the reservoirs under study. Although numerical simulation of the reservoirs is widely used, there are significant obstacles that restrict its applicability. Lack of necessary reservoir data and time consuming computations and analyses can be barriers even for history matching and/or predicting EOR/waterflood performance of one reservoir. There are different forecasting (predictive) models for evaluation of different secondary/tertiary recovery methods. However, lack of a general purpose EOR/waterflood forecasting model is unsatisfactory because any differences in results can be caused by differences in the model rather than differences in the processes. As the main objective of this study, we address this deficiency by presenting a novel and robust analytical-base general EOR and waterflood forecasting model/tool (UTF) that does not rely on conventional numerical simulation. The UTF conceptual model is based on the fundamental law of material balance, segregated flow and fractional flux theories and is applied for both history matching and forecasting the EOR/waterflood processes. The forecasting model generates the key results of isothermal EOR and waterflooding processes including variations of average oil saturation, recovery efficiency, volumetric sweep efficiency, oil cut and oil rate with real or dimensionless time. The forecasting model was validated against field data and numerical simulation results for isothermal EOR and waterflooding processes. The forecasting model reproduced well (R2> 0.8) all of the field data and reproduced the simulated data even better. To develop the UTF for forecasting when there is no injection/production history data, we used experimental design and numerical simulation and successfully generated the in-situ correlations (response surfaces) of the forecasting model variables. The forecasting model variables were proven to be well correlated to reservoir/recovery process variables and can be reliably used for forecasting. As an extension to the abilities of the forecasting model, these correlations were used for prediction of volumetric sweep efficiency and missing/dynamic pore volume of EOR and waterflooding processes. / text

EOR

Isothermal

Waterflood

Forecasting

Predictive model

Recovery

Sweep efficiency

Dynamic pore volume

Analytical model

Surfactant

Polymer

Gas

WAG

Mobility control of CO₂ flooding in fractured carbonate reservoirs using faom with CO₂ soluble surfactant

Zhang, Hang

06 November 2012

This work investigates the performance of CO₂ soluble surfactants used for CO₂ foam flooding in fractured carbonate reservoirs. Oil recovery associated with the reduction of CO₂ mobility in fractures is assessed by monitoring oil saturation and pressure drops during injection of CO₂ with aqueous surfactant solution in artificially fractured carbonate cores. Distinct novel CO₂ soluble surfactants are evaluated as well as a conventional surfactant. Water flooding and pure CO₂ injection are conducted as baseline. Characterization of fluids and rock are also reported which include Amott test, oil phase behavior and slim tube test. Transport and thermodynamic properties of surfactant and supercritical CO₂ are used to evaluate the process on a core scale using a commercial reservoir simulator. / text

CO2 foam

CO2 soluble surfactant

Foam in fractured carbonate reservoir

CO2 flooding in carbonate

Enhanced oil recovery

Gas EOR

Imbibition of anionic surfactant solution into oil-wet matrix in fractured reservoirs

Mirzaei Galeh Kalaei, Mohammad

09 October 2013

Water-flooding in water-wet fractured reservoirs can recover significant amounts of oil through capillary driven imbibition. Unfortunately, many of the fractured reservoirs are mixed-wet/oil-wet and water-flooding leads to poor recovery as the capillary forces hinder imbibition. Surfactant injection and immiscible gas injection are two possible processes to improve recovery from fractured oil-wet reservoirs. In both these EOR methods, the gravity is the main driving force for oil recovery. Surfactant has been recommended and shown a great potential to improve oil recovery from oil-wet cores in the laboratory. To scale the results to field applications, the physics controlling the imbibition of surfactant solution and the scaling rules needs to be understood. The standard experiments for testing imbibition of surfactant solution involves an imbibition cell, where the core is placed in the surfactant solution and the recovery is measured versus time. Although these experiments prove the effectiveness of surfactants, little insight into the physics of the problem is achieved. This dissertation provides new core scale and pore scale information on imbibition of anionic surfactant solution into oil-wet porous media. In core scale, surfactant flooding into oil-wet fractured cores is performed and the imbibition of the surfactant solution into the core is monitored using X-ray computerized tomography(CT). The surfactant solution used is a mixture of several different surfactants and a co-solvent tailored to produce ultra-low interfacial tension (IFT) for the specific oil used in the study. From the CT images during surfactant flooding, the average penetration depth and the water saturation versus height and time is calculated. Cores of various sizes are used to better understand the effect of block dimension on imbibition behavior. The experimental results show that the brine injection into fractured oil-wet core only recovers oil present in the fracture; When the surfactant solution is injected, the CT images show the imbibition of surfactant solution into the matrix and increase in oil recovery. The surfactant solution imbibes as a front. The imbibition takes place both from the bottom and the sides of the core. The highest imbibition is observed close to the bottom of the core. The imbibition from the side decreases with height and lowest imbibition is observed close to the top of the core. Experiments with cores of different sizes show that increase in either the length or the diameter of the core causes decrease in the fractional recovery rate (%OOIP). Numerical simulation is also used to determine the physics that controls the imbibition profiles. %The numerical simulations show that the relative permeability curves strongly affect the imbibition profiles and should be well understood to accurately model the process. Both experimental and numerical simulation results imply that the gravity is the main driving force for the imbibition process. The traditional scaling group for gravity dominated imbibition only includes the length of the core to upscale the recovery for cores of different sizes. However based on the measurements and simulation results from this study, a new scaling group is proposed that includes both the diameter and the length of the core. It is shown that the new scaling group scales the recovery curves from this study better than the traditional scaling group. In field scale, the new scaling group predicts that the recovery from fractured oil-wet reservoirs by surfactant injection scales by both the vertical and horizontal fracture spacing. In addition to core scale experiments, capillary tube experiments are also performed. In these experiments, the displacement of oil by anionic surfactant solutions in oil-wet horizontal capillary tubes is studied. The position of the oil-aqueous phase interface is recorded with time. Several experimental parameters including the capillary tube radius and surfactant solution viscosity are varied to study their effect on the interface speed. Two different models are used to predict the oil-aqueous phase interface position with time. In the first model, it is assumed that the IFT is constant and ultra-low throughout the experiments. The second model involves change of wettability and IFT by adsorption of surfactant molecules to the oil-water interface and the solid surface. Comparing the predictions to the experimental results, it is observed that the second model provides a better match, especially for smaller capillary tubes. The model is then used to predict the imbibition rate for very small capillary tubes, which have equivalent permeability close to oil reservoirs. The results show that the oil displacement rate is limited by the rate of diffusion of surfactant molecules to the interface. In addition to surfactant flooding, immiscible gas injection can also improve recovery from fractured oil-wet reservoirs. In this process, the injected gas drains the oil in the matrix by gravity forces. Gravity drainage of oil with gas is an efficient recovery method in strongly water-wet reservoirs and yields very low residual oil saturations. However, many of the oil-producing fractured reservoirs are not strongly water-wet. Thus, predicting the profiles and ultimate recovery for mixed and oil-wet media is essential to design and optimization of improved recovery methods based on three-phase gravity drainage. In this dissertation, we provide the results from two- and three-phase gravity drainage experiments in sand-packed columns with varying wettability. The results show that the residual oil saturation from three-phase gravity drainage increases with increase in the fraction of oil-wet sand. A simple method is proposed for predicting the three-phase equilibrium saturation profiles as a function of wettability. In each case, the three-phase results were compared to the predictions from two-phase results of the same wettability. It is found that the gas/oil and oil/water transition levels can be predicted from pressure continuity arguments and the two-phase data. The predictions of three-phase saturations work well for the water-wet media, but become progressively worse with increasing oil-wet fraction. / text

Enhanced oil recovery

Imbibition

Oil-wet

Surfactant

Low IFT

Wettability

CT scan

Scaling

Capillary tube

Gravity drainage

Decision support for enhanced oil recovery projects

Andonyadis, Panos

14 February 2011

Recently, oil prices and oil demand are rising and are projected to continue to rise over the long term. These trends create great potential for enhanced oil recovery methods that could improve the recovery efficiency of reservoirs all over the world. The greatest challenges for enhanced oil recovery involve the technical uncertainty with design and performance, and the high financial risk. Pilot tests can help mitigate the risk associated with such projects; however, there is a question about the value of information from the tests. Decision support can provide information about the value of an enhanced oil recovery project, which can assist with alleviating financial risk and create more potential opportunities for the technology. The first objective of this study is to create a new simplified method for modeling oil production histories of enhanced oil recovery methods. The method is designed to satisfy three criteria: 1) it allows for quick simulations based on only a few physically meaningful input parameters; 2) it can create almost any potential type of realistic production history that may be realized during a project; and 3) it applies to all nonthermal enhanced oil recovery methods, including surfactant-polymer, alkali-surfactant polymer, and CO₂ floods. The developed method is capable of creating realistic curves with only four unique parameters. The second objective is to evaluate the predictive method against data from pilot and field scale projects. The evaluations demonstrate that the method can fit most realistic production histories as well as provided ranges for the input parameters. A sensitivity analysis is also performed to assist with determining how all of the parameters involved with the predictive method and the economic model influence the forecasted value for a project. The analysis suggests that the price of oil, change in oil saturation, and the size of the reservoir are the most influential parameters. The final objective is to establish a method for a decision analysis that determines the value of information of a pilot for enhanced oil recovery. The analysis uses the predictive method and economic model for determining economic utilities for every potential outcome. It uses a decision-based method to ensure that the non-informative prior probability distributions have an unbiased, consistent, and rational starting point. A simple example demonstrating the process is discussed and it is used to show that a pilot test provides some valuable information when there is minimal prior information. For future work it is recommended that more evaluations are performed, the decision analysis is expanded to include more input parameters, and a rational and logical method is developed for determining likelihood functions from existing information. / text

Enhanced oil recovery

Oil recovery

Surfactant flooding

Polymer flooding

Alkali flooding

Carbonate flooding

CO2 flooding

Geotechnical engineering

The Impact of Surfactant Protein D, Interleukin‑5, and Eosinophilia on Cryptococcosis

Holmer, Stephanie

January 2013

<p><italic>Cryptococcus neoformans</italic> is an opportunistic fungal pathogen that initiates infection following inhalation. As a result, the pulmonary immune response provides a first line of defense against <italic>C. neoformans</italic>. Surfactant protein D (SP-D) is an important regulator of pulmonary immune responses and is typically host protective against bacterial and viral respiratory infections. However, SP-D is not protective against <italic>C. neoformans</italic>. This is evidenced by previous work from our laboratory demonstrating that SP-D-deficient mice infected with a highly virulent <italic>C. neoformans</italic> strain (H99 Stud) have a lower fungal burden and live longer compared to wild-type (WT) control animals. We hypothesized that SP-D alters susceptibility to <italic>C. neoformans</italic> by dysregulating the innate pulmonary immune response following infection. For this reason, inflammatory cells and cytokines were compared in the bronchoalveolar lavage fluid from WT and SP-D<super>-/-</super> mice after <italic>C. neoformans</italic> infection. Post-infection, mice lacking SP-D had reduced eosinophil infiltration and IL-5 in lung lavage fluid. To further explore the interplay of SP-D, eosinophils, and IL-5, mice expressing altered levels of eosinophils and/or IL-5 were used to assess the role these innate immune mediators play during the host response to <italic>C. neoformans</italic>. IL-5 overexpressing mice had increased pulmonary eosinophilia and were more susceptible to <italic>C. neoformans</italic> infection as compared to WT mice. Furthermore, the response to <italic>C. neoformans</italic> infection in SP-D<super>-/-</super> mice could be restored to that of WT mice by increasing IL-5 and eosinophils, via crossing the IL-5 transgene onto the SP-D<super>-/-</super> background. Together, these studies support the conclusion that SP-D increases susceptibility to <italic>C. neoformans</italic> infection by promoting <italic>C. neoformans</italic>-driven pulmonary IL-5 and eosinophil infiltration.</p> / Dissertation

Cellular biology

Immunology

Microbiology

Eosinophils

Host-Pathogen Interactions

Interleukin-5

Microbial Pathogenesis

Pulmonary Immunology

Surfactant Protein D

Assessing the Microbial Consequences of Remediation: Surrogate Microbial Screening and Native Metabolic Signatures in Tc(VII) Contaminated Sediments

Bailey, Kathryn Lafaye

01 January 2012

The chemical and physical processes controlling contaminant fate and transport in the vadose zone limit the options for application of many remedial technologies. Foam delivery technology (FDT) has been developed as a potential solution to overcome these limitations for remediating subsurface and deep vadose zone environments using reactive amendments. Although there are many advantages to utilizing FDT for treatment in the deep vadose zone, little information is available on how the addition of these surfactants and remedial amendments affect the indigenous microbial communities in the deep vadose zone as well as the impact of biological transformations of surfactant-based foams on remediation efforts. The purpose of this study was to develop a rapid method for assessment of microbial communities in contaminated subsurface environments. This research was divided into two phases: (1) assess the toxicity of proposed FDT components on a single bacterial species, Shewanella oneidensis MR-1; and (2) determine the effects of these components on a microbial community from the vadose zone. In Phase I, S. oneidensis MR-1 was exposed to proposed FDT components to assess potential growth inhibition or stimulation caused by these chemicals. S. oneidensis MR-1 cultures were exposed to the surfactants sodium laureth sulfate (SLES), sodium dodecyl sulfate (SDS), cocamidopropyl betaine (CAPB), and NINOL 40-CO, and the remedial amendment, calcium polysulfide (CPS). Results from this phase revealed that the relative acute toxicity order for these compounds was SDS>>CPS>>NINOL40-CO>SLES≥CAPB. High concentrations of SDS were toxic to the growth of S. oneidensis MR-1 but low concentrations were stimulatory. This benchtop system provided a capability to assess adverse microbial-remediation responses and contributed to the development of in situ remedial chemistries before they are deployed in the field. For Phase II, sediments from the BC Cribs and Trenches (BCCT) area of the Hanford Site, WA, were characterized before and after exposure to potential FDT components. First, the phylogenetic and metabolic diversity of sediment from the BCCT was assessed by sequencing the microbial community and measuring the metabolic activity. The sediment was also incubated with various concentrations of SDS, CAPB, and CPS. Phylogenetic analysis detected phylotypes from the Alpha-, Beta-, Delta-, and Gammaproteobacteria, and Actinobacteria. Unlike the S. oneidensis MR-1 studies conducted in Phase I, the surfactants and CPS stimulated the metabolic activity of the native microbial communities. The observed stimulation could be caused by sorption of the chemicals to the sediment particles, or utilization of the surfactants by the microbial communities. These findings emphasize the importance of monitoring microbial activity at remediation sites in order to determine short and long term efficacy of the treatment, compliance with regulatory mandates, and act as an early warning indicator of unintended changes to the subsurface.

bioremediation

calcium polysulfide

community-level physiological profiling

remedial amendment

Shewanella oneidensis MR-1

surfactant

American Studies

Arts and Humanities

Microbiology

Mελέτη συντήρησης πνευμονικού μοσχεύματος χοίρου σε μοντέλο αυτομεταμόσχευσης πνεύμονα με τη χορήγηση επιφανειακού δραστικού παράγοντα

Κωλέτσης, Ευστράτιος Ν.

25 June 2007

Η µεταµόσχευση πνεύµονα είναι µια αποδεκτή θεραπευτική λύση για τους ασθενείς µε πνευµονική νόσο τελικού σταδίου. Η πρώιµη δυσλειτουργία του µοσχεύµατος παραµένει µία από της κύριες αιτίες πρώιµης θνητότητας και νοσηρότητας. Το σύνδροµο ισχαιµίας – επαναιµάτωσης είναι ο υπεύθυνος κύριος παθογενετικός µηχανισµός. Η ακριβής αιτιοπαθολογία του συνδρόµου ισχαιµίας – επαναιµάτωσης δεν έχει πλήρως ερευνηθεί. Η πειραµατικές µεταµοσχεύσεις ως τώρα δεν µπόρεσαν να αποµονώσουν την κλινική εικόνα της βλάβης ισχαιµίας – επαναιµάτωσης, όπως είναι η υποξία, η σοβαρή βλάβη της ενδοθηλιακής διαπερατότητας και το γενικευµένο κυψελιδικό οίδηµα. Η ερευνητική µας οµάδα όπως και πολλές άλλες διεθνώς, χρησιµοποίησε ως τώρα το µοντέλο µεταµόσχευσης ενός πνεύµονα από το ένα ζώο σε άλλο. Ο πρώτος στόχος µας ήταν να δηµιουργήσουµε ένα σταθερό και επαναλήψιµο πειραµατικό πρωτόκολλο που θα µπορούσε να αναπαράγει τις τοπικές και συστηµατικές εκδηλώσεις του συνδρόµου ισχαιµίας- επαναιµάτωσης χωρίς όµως τη συµµετοχή της παθολογίας της απόρριψης, διατηρώντας παράλληλα τους λιγότερους χειρουργικούς χειρισµούς στο µόσχευµα. Είναι γνωστό ότι κατά τις πνευµονικές µεταµοσχεύσεις σε πειραµατικά µοντέλα εµφανίζονται αλλαγές στη σύνθεση και λειτουργικότητα του επιφανειοδραστικού παράγοντα και επιπλέον εξαγγείωση πρωτεϊνών του πλάσµατος στην κυψελίδα µε αποτέλεσµα την επιπρόσθετη επιβάρυνση της λειτουργίας του επιφανειοδραστικού παράγοντα. Οι αλλαγές στον επιφανειοδραστικό παράγοντα κατά τις πνευµονικές µεταµοσχεύσεις έχει προταθεί ότι συµµετέχουν σηµαντικά στην παθοφυσιολογία των βλαβών που σχετίζονται µε τη µεταµόσχευση. Έτσι µπορούµε να υποθέσουµε ότι διαδικασίες που θα µπορούσαν να σταθεροποιήσουν το σύστηµα του επιφανειοδραστικού παράγοντα θα οδηγούσαν πιθανότερα σε βελτίωση της λειτουργίας του µοσχεύµατος. Έχει αποδειχτεί ότι ο εξωγενώς χορηγούµενος επιφανειοδραστικός παράγοντας µιµείται τις επιφανειοδραστικές ιδιότητες του ενδογενούς. Ο δεύτερος στόχος της µελέτης µας ήταν να εξετάσουµε αν η εξωγενής χορήγηση επιφανειοδραστικού παράγοντα θα βελτίωνε τις ιδιότητες 103 του µοσχεύµατος αλλά και ποια επίδραση θα είχε η µη χορήγηση ενός ανοσοδιεγερτικού παράγοντα του επιφανειοδραστικού παράγοντα όπως είναι το SP-A επί του συνδρόµου ισχαιµίας επαναιµάτωσης. Χρησιµοποιήσαµε 14 νεαρούς χοίρους µέσου βάρους 27(±3,5) Kg εφαρµόζοντας ένα µοντέλο αυτοµεταµόσχευσης πνεύµονα in situ. Ο πνεύµονας παρασκευάστηκε και εκπλύθηκε µέσω της πνευµονικής αρτηρίας ορθόδροµα χρησιµοποιώντας διάλυµα U Wisconsin. Οι πνευµονικές φλέβες αποκλείστηκαν µετά τη συµβολή τους επί του αριστερού κόλπου και το υγρό συντήρησης παροχετεύτηκε από αντιστόµειο στον αριστερό κόλπο. Το µόσχευµα παρέµεινε σε θερµοκρασία 4-8 0C για διάστηµα 3 ωρών, διατηρώντας την κεντρική θερµοκρασία ανάµεσα 37 και 38.50 C. Ακολούθησε επαναιµάτωση του µοσχεύµατος. Στην οµάδα ελέγχου (Β) χορηγήθηκε ελεύθερος SP-A επιφανειοδραστικός παράγοντας 1.5 ml/Kg µέσω βρογχοσκοπίου, πριν τη θωρακοτοµή. Τα πειραµατόζωα θυσιάστηκαν 3 ώρες µετά την επαναιµάτωση. Μετά από 3 ώρες από την επαναιµάτωση, (οµάδα Α vs. Β) η PVRI ήταν 447.80 dyne.sec-1cm-5m-2 (±66.8) vs. 249.51(p<.001) ενώ το NO(*p<0.05,**p<0.001), η EPO και η πνευµονική ευενδοτότητα (**p<0.002) διατηρήθηκαν στατιστικά σηµαντικά. Η µέση κυψελιδική επιφάνεια ήταν 5280.84 (4991.1) µm2 vs. 3997,89 (3284.70) µm2(p<0.005). Η ιστολογική µελέτη έδειξε µικρότερη διήθηση µικροφάγων και λεµφοκυττάρων στην οµάδα χορήγησης επιφανειοδραστικού παράγοντα στο τέλος της επαναιµάτωσης. Συµπεράσµατα Το νέο αυτό µοντέλο ετερόπλευρης µεταµόσχευσης πνεύµονα αποδείχθηκε αξιόπιστο και αναπαρήγαγε όλη την παθολογία του συνδρόµου ισχαιµίας επαναιµάτωσης, χωρίς την επίδραση των µηχανισµών απόρριψης. Επιπλέον αποδείχτηκε ότι η προθεραπεία του µοσχεύµατος µε εξωγενή επιφανειοδραστικό παράγοντα µειώνει τη βλάβη ισχαιµίας-επαναιµάτωσης διατηρώντας όχι µόνο την πνευµονική ευενδοτότητα αλλά και το δείκτη πνευµονικών αντιστάσεων. Επιπλέον οι συγκεντρώσεις του NO και η 104 105 δραστηριότητα του EPO διατηρήθηκαν καλύτερα, ενώ και η µορφολογία της κυψελίδας φαίνεται να διατηρείται σηµαντικά καλύτερα. / Lung transplantation is a well accepted treatment for patients with end stage pulmonary disease. Early graft dysfunction remains one of the major causes of early morbidity and mortality, with reperfusion injury (RI) being the most responsible mechanism. The exact pathophysiology of RI in lung transplantation has not been fully evaluated and understood. Experimental transplantation after cold storage has been so far unable to duplicate the complete clinical picture of RI, such as, hypoxia, severe impairment of endothelial permeability, and frank alveolar oedema. We, among others, in our previous experimental work with pigs, had being using a single lung transplantation model. Our first aim has been to create a steady and reproducible experimental protocol that could demonstrate several parameters associated with the mechanisms of reperfusion injury, including impaired gas exchange, elevated pulmonary vascular resistant, local and systemic aspects of the reperfusion syndrome, but without the interference of the pathology concerning acute graft rejection, and with the minimal possible surgical manipulation of the graft. Animal studies have shown that lung transplantation is followed by changes to both synthesis and activity of surfactant. Surfactant alterations have been suggested to contribute significantly to the pathophysiology of transplantation-associated lung injuries. Therefore, procedures that stabilize the pulmonary surfactant system may prove to be crucial for optimal lung preservation. It has been demonstrated that exogenous surfactant mimics the surface-tension-lowering properties of natural lung surfactant. The second purpose of our study was to evaluate whether differences exist in lung preservation after pre-treatment (prior to graft retrieval) of donor lung with surfactant. We postulated that surfactant would lead to an enhanced preservation of the organ. Therefore, we used Surfactant, Beractant which is a natural bovine lung extract containing phospholipids, neutral lipids, fatty acids, and surfactantassociated proteins SP-B and SP-C to which colfosceril palmitate, palmitic acid, and tripalmiting are added in order to standardise the suspension. It should be noted that it does not contain SP-A. Furthermore, we assessed the effect of surfactant pretreatment to lung haemodynamics, respiratory parameters, serum and BALF nitric oxide and EPO levels and the microscopic morphology of the alveolar. Methods: Fourteen young female white pigs, mean weight 27(±3.5) Kg were used in a newly developed autotransplantation model with in-situ cold ischemia. The hilum was dissected free and the pericardium opened. University of Wisconsin solution was used for lung preservation flushed in an antegrade fashion through the left pulmonary artery. Pulmonary veins were clamped proximal to their origin at the left atrium and vent was created just distally to the clamp. The left main bronchus was clamped with the lung left semi-inflated. Interlobar fissure tissue temperature was monitored and maintained at 4-8 0C, while core temperature was kept between 37 and 38.50 C. After 3 hours of cold ischaemia clamps were removed and the lung was reperfused. In the study group (B, n=6) free-SP-A surfactant 1.5 ml/Kg, was administrated into the left main bronchus via flexible bronchoscopy, prior to thoracotomy. Animals were sacrificed after 3 hours of graft reperfusion. Results: At the end of reperfusion, (Control vs. study group) PVRI was 447.80 dyn.sec-1cm-5m-2 (±66.8) vs. 249.51(p<.001) and lung compliance was 14.83 ml/cm H2O (SD 1.78) vs. 18.91 (SD 0.73) (**p<0.002) were adequately preserved. Serum eosinophil peroxidase (EPO) activity persentence change was 18.6 +/- 5.6 vs. 116+/-52 p=0.001. In contrast, EPO activity in BALF was 180 +/- 21 vs 73+/-8, p=0.01. Finally, NO concentration in BALF was 0.75 μM =+/- 0. 06 vs. 0.91 +/- 0.15 p< 0,05 and serum NO were adequately preserved (*p<0.05,**p<0.001). The mean alveoli surface area estimated by computerized morphometry were 5280.84 (4991.1) μm2 vs. 3997,89 (3284.70) μm2(p<0.005). Histology revealed less macrophage and lymphocyte accumulation in the study group at the end of reperfusion. Conclusions: This new model of unilateral lung auto transplantation with a cold storage of the graft, proved to be very reliable in reproducing all aspects of ischemia/reperfusion injury, and we, therefore, propose its use in experimental studies dealing with this yet to be fully clarified clinical entity. Moreover it has demonstrated that pre-treatment of the donor lung with a surfactant agent reduced the ischemia and reperfusion injury by means of maintaining lung compliance and resulting in less respiratory and haemodynamic disturbances. Also, alveoli surface area, alveoli morphology, EPO and NO concentration were better preserved. These data supports the hypothesis that donor lung pretreatment with surfuctant has a beneficial effect on graft properties. Further studies are required before discussing potential benefits in clinical practice.

Πνευμονικό μόσχευμα

617.542 01

Lung transplantation

Surfactant

Static compliance

Nitric oxide

SP-A

Experimental reperfusion injury

Structures and Self-Organization at Liquid Crystal Interfaces: Surface Ordering and Anchoring

Feng, Xunda

15 April 2013

No description available.

530

Physik (PPN621336750)

Gibbs films

surfactant

phase transition

AFM

liquid crystals

wetting

surface ordering and anchoring

semifluorinated alkanes

Molecular Arrangement, Electronic Structure and Transport Properties in Surfactant Gel- and Related Systems Studied by Soft X-ray and Dielectric Spectroscopy

Gråsjö, Johan

January 2013

This thesis concerns studies of aqueous soft matter systems, especially surfactant micelle systems. The aim has been to study the molecular arrangement and electronic structure of the constituents of, as well as transport properties in such a system. The molecular arrangement and electronic structure has been studied by means of X-ray absorption spectroscopy (XAS) and resonant inelastic X-ray spectroscopy (RIXS). The transport properties have been investigated by low-frequency dielectric spectroscopy (LFDS) and small angle X-ray scattering (SAXS) as well as a theoretical modelling. The latter was based on Fick’s laws of the release from binary surfactant system and was validated by experiments. The RIXS and XAS measurements show the electronic structure in bulk water and the influence of the chemical surrounding of the water molecule in bulk water and of the water molecules confined in a micelle lattice. The spectra are highly dependent on the molecular arrangement in such systems. For glycine and sodium polyacrylate RIXS and XAS spectra show features which are unique for carboxyl and carboxylate groups and such measurements can thus be used for fingerprinting. The LFDS and SAXS measurements show a strong correlation between structure in a surfactant/poly-ion system and apparent mobility of surfactants. This conclusion is in line with earlier observations. By the theoretical modelling a predictive model for the surfactant release from a binary surfactant micelle system has been obtained and the importance of different factors for surfactant release has been further clarified.

surfactants

surfactant/poly-ion gel

water

confined water

XAS

RIXS

dielectric spectroscopy

SAXS

pKa

transport

Fick’s law