Dissertationen zum Thema „Pulmonary surfactant“
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Lewis, R. W. „Pulmonary surfactant metabolism“. Thesis, Cardiff University, 1985. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.332108.
Der volle Inhalt der QuelleHockey, Peter Morey. „Pulmonary surfactant and asthma“. Thesis, University of Southampton, 2000. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.274434.
Der volle Inhalt der QuelleNilsson, Kristina. „Solute exchange across the alveolo-capillary barrier“. Lund : Depts. of Clinical Physiology, Malmö University Hospital and Lund University Hospital, Lund University, 1997. http://books.google.com/books?id=A0hrAAAAMAAJ.
Der volle Inhalt der QuelleMo, Young Keun. „Surfactant proteins in extra pulmonary sites /“. [St. Lucia, Qld.], 2005. http://www.library.uq.edu.au/pdfserve.php?image=thesisabs/absthe19083.pdf.
Der volle Inhalt der QuelleSullivan, Lucy Catherine. „The molecular evolution of vertebrate pulmonary surfactant /“. Title page, summary and introduction only, 1996. http://web4.library.adelaide.edu.au/theses/09SB/09sbs949.pdf.
Der volle Inhalt der QuelleWorthman, Lynn-Ann D. „Surfactant protein A (SP-A) affects pulmonary surfactant morphology and biophysical properties“. Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1997. http://www.collectionscanada.ca/obj/s4/f2/dsk2/tape16/PQDD_0014/MQ34241.pdf.
Der volle Inhalt der QuelleWood, Philip. „Control of pulmonary surfactant secretion : an evolutionary perspective /“. Title page, table of contents and abstract only, 1999. http://web4.library.adelaide.edu.au/theses/09PH/09phw878.pdf.
Der volle Inhalt der QuelleMander, Ann. „Pulmonary surfactant and neutrophil function in cystic fibrosis“. Thesis, University of Southampton, 1999. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.310701.
Der volle Inhalt der QuelleMcCarty, Kenneth Dean. „Characterization of pulmonary surfactant apoproteins in the diabetic mouse“. CSUSB ScholarWorks, 1989. https://scholarworks.lib.csusb.edu/etd-project/512.
Der volle Inhalt der QuelleZaltash, Shahparak. „Pulmonary surfactant proteins B and C : molecular organisation and involvement in respiratory disease /“. Stockholm, 2000. http://diss.kib.ki.se/2000/91-628-4571-3/.
Der volle Inhalt der QuelleEspinosa, Frank F. (Frank Francis). „Exogenous surfactant transport through the pulmonary airways : improving surfactant replacement therapy for neonatal respiratory distress syndrome“. Thesis, Massachusetts Institute of Technology, 1996. http://hdl.handle.net/1721.1/10974.
Der volle Inhalt der QuelleJohnston, Sonya D. „Development of the pulmonary surfactant system in non-mammalian amniotes /“. Title page, contents and abstract only, 2001. http://web4.library.adelaide.edu.au/theses/09PH/09phj737.pdf.
Der volle Inhalt der QuelleOcampo, Minette C. „Protein-Lipid Interactions with Pulmonary Surfactant Using Atomic Force Microscopy“. The Ohio State University, 2014. http://rave.ohiolink.edu/etdc/view?acc_num=osu1395050693.
Der volle Inhalt der QuellePatel, Anjana. „Recombinant synthesis of pulmonary surfactant proteins SP-B and SP-C“. Thesis, Aston University, 2018. http://publications.aston.ac.uk/37638/.
Der volle Inhalt der QuelleDodd, Claire Elizabeth. „Impact of Pulmonary Surfactant on Human Macrophage Susceptibility to Mycobacterium tuberculosis“. The Ohio State University, 2017. http://rave.ohiolink.edu/etdc/view?acc_num=osu1491747880967301.
Der volle Inhalt der QuelleVan, Houtte Paul. „Etude expérimentale de l'effet des irradiations et des agents chimiothérapiques sur le poumon et le métabolisme du surfactant“. Doctoral thesis, Universite Libre de Bruxelles, 1985. http://hdl.handle.net/2013/ULB-DIPOT:oai:dipot.ulb.ac.be:2013/241286.
Der volle Inhalt der QuelleCai, Jingfei. „Probing the Membrane Association Mechanisms for Pulmonary Collectins and Mammalian Phospholipase C“. Thesis, Boston College, 2013. http://hdl.handle.net/2345/3872.
Der volle Inhalt der QuelleThesis advisor: Eranthie Weerapana
Peripheral proteins from mammals often exhibit multi-domain structures and require metal ions such as calcium as co-factors. This dissertation investigates two types of such proteins -- pulmonary collectins (surfactant proteins A and D) and phosphatidylinositol-specific phospholipase C (PLC) delta1 -- and their interactions with model membranes. One approach to work around the complexity brought upon by such multi-domain protein structure is to use a truncated construct or an isolated single domain. For pulmonary collectins, homotrimers consisting of the neck domain and the carbohydrate recognition domain were used in a novel NMR assay for better understanding of their lipid-specific interactions with the membranes. For PLC delta1, we were particularly interested in the role of the EF-hand domain. The isolated EF-hand domain of PLC delta1 was first used to characterize its interactions with membranes and identify key residues responsible for such interactions. These key residues in the N terminal lobe of the EF-hand domain, either cationic or hydrophobic, were then found to affect the hydrolysis activity of the full-length enzyme. A common role for this region of the PLC in facilitating proper membrane association was thus proposed
Thesis (PhD) — Boston College, 2013
Submitted to: Boston College. Graduate School of Arts and Sciences
Discipline: Chemistry
Rova, M. (Meri). „The significance of surfactant protein gene polymorphisms in multifactorial infantile pulmonary diseases“. Doctoral thesis, University of Oulu, 2005. http://urn.fi/urn:isbn:9514277481.
Der volle Inhalt der QuelleTiivistelmä Keuhkosurfaktantti on keuhkon sisäpintaa peittävä kalvomainen rasva-proteiinikompleksi, jonka tärkein ominaisuus on pintajännityksen vähentäminen keuhkorakkuloissa. Surfaktantin puutos ennenaikaisesti syntyneillä lapsilla aiheuttaa hengitysvaikeusoireyhtymän, RDS-taudin (respiratory distress syndrome). Alle 30 raskausviikon iässä syntyneistä, useimmiten RDS-taudin saaneista keskosista n. 30 % sairastuu vakavaan krooniseen keuhkotautiin, BPD-tautiin (bronchopulmonary dysplasia). Surfaktanttiproteiineilla SP-A, -B, -C ja -D on osoitettu olevan tärkeä tehtävä surfaktantin toiminnassa ja keuhkon synnynnäisessä immuniteetissa. Tämän tutkimuksen tavoitteena oli selvittää surfaktanttiproteiineissa esiintyvän geneettisen muuntelun määrää ja merkitystä keskosten RDS- ja BPD-taudeissa sekä pienten lasten vakavassa respiratory syncytial -viruksen (RSV) aiheuttamassa keuhkotulehduksessa. Tutkimuksen laajin osa keskittyi tutkimaan keskosten BPD-tautia ja surfaktanttiproteiinien geenien osuutta siinä. Geneettisen muuntelun merkitystä tarkasteltiin populaatiogeneettisin keinoin tapaus-verrokkiasetelmissa ja perheaineistojen avulla. Yhteensä analysoitiin noin tuhannen lapsen ja yli kahdensadan vanhemman DNA-näytteet. Tutkimuksessa havaittiin SP-D-geenissä olevan metioniini11-geenimuodon liittyvän pienten lasten vakavaan RSV-infektioon. Lisäksi saatiin uutta tietoa SP-C-geenin populaatiotason yleisestä muuntelusta ja todettiin SP-C:n asparagiini138 ja asparagiini186 -geenimuotojen yhteys keskosten RDS-taudin esiintymiseen. Merkittävin löydös oli SP-B-geenissä olevan deleetiovariantin kytkeytyminen alle 32-viikkoisina syntyneiden keskosten BPD-tautiin. Geneettisen altistuksen lisäksi BPD-tautiin sairastumiseen vaikuttivat lukuisat keskosuudelle ominaiset seikat, kuten alhainen syntymäpaino, RDS-tauti ja syntymähetkellä todettu hapenpuute. Geneettisen tekijän vaikutus oli voimakkain erittäin pienipainoisilla keskosilla. Tutkimuksen tulokset ovat tuoneet arvokasta lisätietoa surfaktanttiproteiinien geenien osuudesta keskosten RDS- ja BPD-taudeissa sekä pienten lasten vakavassa RSV-infektiossa. Ne auttavat ymmärtämään näiden molekyylibiologisia syntymekanismeja ja voivat ajan mittaan olla edistämässä uusien hoitomuotojen kehittämistä
Sallese, Anthony. „Elucidating the Pathogenesis of Pulmonary Alveolar Proteinosis“. University of Cincinnati / OhioLINK, 2017. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1491813093586635.
Der volle Inhalt der QuelleKazemi, Taskooh Alireza. „Transport of complex fluids in the human pulmonary airway system“. Thesis, Université Paris-Saclay (ComUE), 2019. http://www.theses.fr/2019SACLX077/document.
Der volle Inhalt der QuelleSurfactant Replacement Therapy (SRT), which involves instillation of a liquid-surfactant mixture directly into the lung airway tree, is a major therapeutic treatment in neonatal patients with respiratory distress syndrome (NRDS). This procedure has proved to be remarkably effective in premature newborns, contributing to a five-fold decrease of mortality since the 1980s. Disappointingly, its use in adults for treating acute respiratory distress syndrome (ARDS) experienced initial success followed by failures.In this PhD thesis, we present a mathematical and numerical model for the propagation of a liquid plug into the pulmonary airway system of mammals. To that intent, we first create realistic geometrical models of the tracheobronchial trees of mammals, rat, pig, and human, defined not only by their scaling properties but also by their 3D spatial embedding (i.e., branching and rotation angles), a description necessary for simulating liquid transport. The resulting geometries are compared with the available quantitative morphometric measurements found in the literature.We then introduce the mathematical model describing liquid plug transport. The main feature of this model is to decompose the propagation of liquid plugs in two fundamental elementary steps: (1) liquid deposition onto the airway walls during the propagation of a plug into a single airway, and (2) plug splitting at each bifurcation between two consecutive generations. The equations for the splitting process are derived from momentum conservation considerations, for any type of asymmetric bifurcation and any orientation with respect to gravity. The decomposition of the transport of liquid plugs into these essential steps allows us to compute efficiently and rapidly the propagation of surfactant into the entire airway tree, thus creating a truly biomedical engineering design tool.This mathematical and numerical model is first used to compute surfactant delivery into realistic asymmetric conducting airway trees of rat lung. The roles of dose volume, flow rate, and multiple aliquot deliveries are investigated. We find that our simulations of surfactant delivery in rat lungs are in good agreement with experimental data. In particular, we show that the monopodial architecture of the rat airway trees plays a major role in surfactant delivery, contributing to the poor homogeneity of the end distribution of surfactant. We also observe that increasing the initial dose volume increases in a nonlinear way the amount of surfactant delivered to the acini after losing a portion to coating the involved airways, the coating cost volume. Simulations of delivery in pig lungs exhibit the same general features, but our model demonstrates that SRT is very sensitive to the lung size. Surface tension and gravity effects do not scale similarly, and the end distribution can become highly nonhomogeneous at smaller flow rates or small dose volumes.Finally, in the human lung, our model shows that the failure of SRT in adults could, in fact, have a fluid mechanical origin that is potentially reversible. The coating cost is predicted to increase in adult lungs, enhancing the nonlinearity of the delivery process. This effect can be countered either by instilling the surfactant mixture at a smaller flow rate (but then the distribution is highly nonhomogeneous) or by using a larger dose volume. In addition, our results show that, even if sizes are comparable, the very different geometrical structures of pig and human lungs do not permit a direction translation of experimental results in pigs to humans, and that a reliable mathematical model of the delivery is absolutely crucial if one wants to predict the efficacy of SRT from animal models.In conclusion, this thesis provides a tool for predicting surfactant delivery in animals and humans, for understanding how to build animals models of SRT, and finally for engineering and optimizing patient-specific surfactant delivery in complex situations
Li, Jing. „Processing, stability and interactions of lung surfactant protein C /“. Stockholm, 2005. http://diss.kib.ki.se/2005/91-7140-582-8/.
Der volle Inhalt der QuelleMiller, Natalie J. „The evolution of a physiological system the pulmonary surfactant system in diving mammals /“. Connect to this title online, 2005. http://hdl.handle.net/2440/37717.
Der volle Inhalt der QuelleThesis (Ph.D.)--School of Earth and Environmental Sciences, 2005.
Aydın, Evrim Kaya Hakan. „Gebe koyunlara intraamniyotik surfaktan uygulamasının preterm kuzuların akciğer gelişimi üzerine etkilerinin histopatolojik ve biyokimyasal olarak değerlendirilmesi /“. Isparta : SDÜ Tıp Fakültesi, 2005. http://tez.sdu.edu.tr/Tezler/TT00186.pdf.
Der volle Inhalt der QuelleO'Toole, Stuart John. „The pulmonary surfactant system in congenital diaphragmatic hernia and the influence of fetal surgery on its development“. Thesis, University of Newcastle Upon Tyne, 2000. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.312035.
Der volle Inhalt der QuelleWood, Philip. „Functional significance and control of release of pulmonary surfactant in the lizard lung /“. Title page and abstract only, 1994. http://web4.library.adelaide.edu.au/theses/09SB/09sbw878.pdf.
Der volle Inhalt der QuelleAl-Gawhari, Fatima Jalal. „Development of a non-ionic surfactant vesicles formulation of gemcitabine for pulmonary delivery“. Thesis, University of Strathclyde, 2013. http://oleg.lib.strath.ac.uk:80/R/?func=dbin-jump-full&object_id=22647.
Der volle Inhalt der QuelleCodd, Jonathan Richard. „Torpor associated fluctuations in the pulmonary surfactant system in Gould's wattled bat Chalinolobus Gouldii /“. Title page, contents and abstract only, 2001. http://web4.library.adelaide.edu.au/theses/09SM/09smc669.pdf.
Der volle Inhalt der QuelleHenning, Lisa Novik. „Pulmonary surfactant protein a regulation of macrophage toll-like receptor expression, activity, and trafficking /“. Columbus, Ohio : Ohio State University, 2008. http://rave.ohiolink.edu/etdc/view?acc%5Fnum=osu1211479279.
Der volle Inhalt der QuelleNag, Kaushik. „Association and interactions of pulmonary surfactant lipids and proteins in model membranes at the air-water interface“. Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1996. http://www.collectionscanada.ca/obj/s4/f2/dsk3/ftp04/NQ56665.pdf.
Der volle Inhalt der QuelleBohlin, Kajsa. „Surfactant metabolism in the newborn : the impact of ventilation strategy and lung disease /“. Stockholm : Karolinska institutet, 2005. http://diss.kib.ki.se/2005/91-7140-229-2/.
Der volle Inhalt der QuelleBeresford, Michael William. „The role of pulmonary surfactant proteins and inflammatory cytokines in preterm infants ventilated for respiratory distress receiving natural or synthetic surfactant therapies“. Thesis, University of Liverpool, 2002. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.268903.
Der volle Inhalt der QuelleCarlson, Tracy Karin. „The Effects of Pulmonary Surfactant Protein-D on Innate Immune Cells and Tuberculosis Pathogenesis“. The Ohio State University, 2011. http://rave.ohiolink.edu/etdc/view?acc_num=osu1299708141.
Der volle Inhalt der QuelleKerr, Margaret Heather. „An investigation of the pulmonary surfactant system in children with severe respiratory syncytial virus infection“. Thesis, University of Glasgow, 1998. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.265640.
Der volle Inhalt der QuelleSpitler, Grant. „In vitro dissolution of uranium contaminated soil in simulated lung fluid containing a pulmonary surfactant“. University of Cincinnati / OhioLINK, 2013. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1377871194.
Der volle Inhalt der QuelleLiu, Pamela Siumey. „Resposta imune induzida em camundongos por imunização transcutânea com proteína recombinante LipL32 de leptospira“. Universidade de São Paulo, 2016. http://www.teses.usp.br/teses/disponiveis/87/87131/tde-24082016-100639/.
Der volle Inhalt der QuelleTranscutaneous immunization (TCI) offers an attractive pathway for the development of needle-free vaccination by acting on APCs of the skin, showing potential to replace conventional immunization, in terms of safety and efficacy. In this study we evaluated the immune response by TCI with recombinant protein of leptospira LipL32, a highly conserved protein among pathogenic strains, a potential vaccine candidate. TCI with LipL32 was evaluated in C57BL-6 mice abdominal region and was able to confer systemic response with high levels of antibodies after subimmunizing ID and Tc boosters. The pattern of cytokines in cell cultures from whole blood of immunized groups indicated that the TCI was able to prime the immune system, for both innate and adaptive response. Local treatment of the skin or coadministration with surfactants and PEG did not show an emollient and an adjuvant action. Co-administration of LipL32 with MPL-A influenced the antibody response as well as showed a moderating effect of the pro-inflammatory reaction, redirecting the adaptive response.
Bulek, Anna Marta. „Effect of pulmonary surfactant on innate immune responses in influenza virus infected human airway epithelial cells“. Thesis, Cardiff University, 2008. http://orca.cf.ac.uk/55755/.
Der volle Inhalt der QuelleMaker, Garth Lucas. „Regulation of surfactant production by fetal type II pneumocytes and characterization of fibroblast-pneumocyte factor /“. Access via Murdoch University Digital Theses Project, 2007. http://wwwlib.murdoch.edu.au/adt/browse/view/adt-MU20080430.141113.
Der volle Inhalt der QuelleFrangolias, Despina Daisy. „Candidate genes other than the CFTR gene as possible modifiers of pulmonary disease severity in cystic fibrosis“. Thesis, University of British Columbia, 2008. http://hdl.handle.net/2429/527.
Der volle Inhalt der QuelleMunteanu, Bogdan. „Actions de particules d’usure aéroportées sur les propriétés mécaniques et physicochimiques des «films» de surfactant pulmonaire : Conséquences sur la conception de particules tribo-bio-compatibles“. Thesis, Lyon, INSA, 2015. http://www.theses.fr/2015ISAL0034/document.
Der volle Inhalt der QuelleParadoxically, road safety is assured among others by the production of wear particles! Thus, almost 20 000 tons of brake linings are worn each year in France. 9000 tons are airborne wear particles. Due to their size, chemical composition and morphology these particles will interact with the alveolar wall causing pathologies. In these pathologies the most studied is the inflammatory phase that appear after the particle has passed the first protective barrier which is the pulmonary surfactant film. However, very few studies have examined the direct interaction of airborne wear particles with pulmonary surfactant film. These studies are of fundamental interest because, by its physicochemical properties, the pulmonary surfactant film control the respiratory mechanics, hence the pulmonary capacity. In this context, this thesis analyzes the interaction mechanism of model airborne wear particles on the physicochemical and mechanical properties of the alveolar wall and more particularly of pulmonary surfactant film. For this, an ex vivo model of alveolar wall reproducing the composition of the surfactant, its microstructure and the mechanical stresses during the breathing cycles has been developed. This model and the associated measures allowed to develop a method for identifying significant parameters of the particles that determine their interaction with the pulmonary surfactant film. The results showed that the electronegativity of airborne particles is one of the significant parameters which induces changes at different scales ranging from molecular conformation (nano), microstructure (micro) and mechanical properties (macro) of the alveolar wall, leading to the diminution of the pulmonary capacity. This model and the first results will allow, at short term, to identify other significant parameters which characterize the actions of airborne wear particles on mechanical and physicochemical properties of alveolar walls, allowing to know their effects on lung capacity. Therefore, at longer term, this knowledge will permit to change the materials in contact and their friction conditions to generate wear particles satisfying tribological and biological requirements, so tribo-bio-compatibles
Lindwall, Robert B. I. „Respiratory distress syndrome : aspects of inhaled nitric oxide surfactant and nasal CPAP /“. Stockholm, 2005. http://diss.kib.ki.se/2005/91-7140-297-7/.
Der volle Inhalt der QuelleLangman, Carly. „Thermal influences upon the composition and function of pulmonary surfactant in a heterothermic mammal [sic] (Sminthopsis crassicaudata) /“. Adelaide, 1995. http://web4.library.adelaide.edu.au/theses/09S.B/09s.bl284.pdf.
Der volle Inhalt der QuelleDeb, Roona. „An investigation of the roles of lung surfactant proteins -A and -D in the pulmonary allergic response“. Thesis, University of Oxford, 2006. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.440148.
Der volle Inhalt der QuelleFisher, Carolyn E. „Fibres in vitro : the importance of pulmonary surfactant, tumour necrosis factor alpha, nitric oxide and ferric iron“. Thesis, Edinburgh Napier University, 1999. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.285698.
Der volle Inhalt der QuelleSouza, João Francisco Ventrici de. „Efeito de materiais particulados em sistemas modelos de biomembranas“. Universidade de São Paulo, 2012. http://www.teses.usp.br/teses/disponiveis/59/59138/tde-13042012-144908/.
Der volle Inhalt der QuelleThis work presents some of the properties of mimetic systems of pulmonary surfactants (PS) composed of dipalmitoylphosphatidylcholine (DPPC) and DPPC/cholesterol and their interactions with particulate material (PM) originated from the burning of sugar cane leaves which is known by clinical studies as an injurious agent of the respiratory airways. The PM described in the present work was analyzed by different techniques: Dynamic Light Scattering (DLS), Scanning Electron Microscopy (SEM) with EDS (Energy Dispersive Spectrometry) and Fourier Transformed Infrared Spectroscopy (FTIR). The average values of size and zeta potential were 250 nm and -27 mV, respectively. DPPC and DPPC/cholesterol -A isotherms were studied in the absence and presence of particles and it brought some information about the particle insertion in the monolayers. The DPPC/cholesterol system showed smaller changes in the minimum area per molecule with the increase of PM concentration which indicates the cholesterol acts as an organizer in the monolayer. Dilatational surface rheology data indicated that smaller PM concentrations increase the fluidity of the monolayers while the higher PM concentrations increase their rigidity. Cholesterol enhances the effects provoked by PM. Compressional modulus data obtained from the isotherms showed to be very close to those obtained from the rheological studies performed at higher frequencies. The transferred monolayers, using Langmuir-Blodgett technique, to solid supports were analyzed by Atomic Force Microscopy (AFM) and Fluorescence Lifetime Imaging Microscopy (FLIM) which showed that the particles are deposited together with the film and the DPPC/cholesterol system presents a more homogeneous particle arrangement. FLIM images showed that most likely this arrangement is due to the preference of cholesterol to allocate in regions surround the particles, granting stability to them in the monolayers. The study allowed concluding that PM originate from burned sugar cane leaves has an effect over some features of PS model systems and those properties have the potential to interfere in the perfect performance of these systems in biological environments.
au, G. Maker@murdoch edu, und Garth Lucas Maker. „Regulation of surfactant production by fetal type II pneumocytes and the characterization of fibroblast-pneumocyte factor“. Murdoch University, 2008. http://wwwlib.murdoch.edu.au/adt/browse/view/adt-MU20080430.141113.
Der volle Inhalt der QuelleDico, Awel Seid. „A ²H-NMR study of interactions in model membranes containing pulmonary surfactant proteins SP-B and SP-C“. Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1998. http://www.collectionscanada.ca/obj/s4/f2/dsk2/ftp03/NQ34245.pdf.
Der volle Inhalt der QuelleVäyrynen, O. (Outi). „Proinflammatory cytokines modify the expression of surfactant proteins:study in perinatal rabbit lung“. Doctoral thesis, University of Oulu, 2003. http://urn.fi/urn:isbn:9514270584.
Der volle Inhalt der QuelleTiivistelmä Keuhkosurfaktantin puute aiheuttaa ennenaikaisesti syntyville keskosille vastasyntyneen hengitysvaikeusoireyhtymää eli RDS-tautia (Respiratory Distress Syndrome). Toinen keskosilla esiintyvä keuhkosairaus on krooninen keuhkosairaus eli CLD (Chronic Lung Disease). Glukokortikoideja käytetään hoitona ennenaikaisen synnytyksen uhatessa, koska niiden tiedetään vähentävän RDS-taudin riskiä. Kohdunsisäinen infektio on huomattava ennenaikaisen synnytyksen aiheuttaja. Infektiossa tulehduksen välittäjäaineet, kuten sytokiinit interleukiini-1 (IL-1) ja tuumorinekroositekijä alfa (TNF-α) lisääntyvät lapsivedessä. Infektiosta aiheutunut ennenaikainen synnytys vähentää RDS-taudin ilmaantumista pienille keskosille ja toisaalta lisää kroonisen keuhkosairauden riskiä. Tutkimuksen oli tavoitteena selvittää, miksi RDS ja CLD ilmaantuvat eriävästi infektion vuoksi ennenaikaisesti syntyneille vauvoille. Viljelemällä eri-ikäisten kanin sikiöiden sekä vastasyntyneiden kanin poikasten keuhkon kappaleita tutkittiin tulehduksen välittäjäaineiden sekä anti-inflammatorisen glukokortikoidin (deksametasonin) vaikutusta surfaktantin toiminnalle tarpeellisten surfaktanttiproteiinien (SP) ilmentymiseen. IL-1 lisäsi SP-A:n ja SP-B:n ilmentymistä erittäin epäkypsässä kanin sikiön keuhkossa. Toisaalta IL-1 ja TNF-α vähensivät SP-B:n ja SP-C:n ilmentymistä kypsemmässä sikiön sekä vastasyntyneen kanin keuhkossa. Interferoni-gamma (IFN-γ) ei vaikuttanut surfaktanttiproteiinien ilmentymiseen missään gestaatioiässä, mutta se muunsi muiden sytokiinien surfaktanttivaikutusta. Gram-negatiivisten bakteerien soluseinän tuote, lipopolysakkaridi (LPS) vähensi SP-A:n, SP-B:n ja SP-C:n ilmentymistä kypsässä kanin sikiön ja vastasyntyneen kanin keuhkossa. IL-1:llä ja deksametasonilla oli positiivinen yhteisvaikutus surfaktanttiproteiinien ilmentymiseen. Tämän surfaktanttiproteiineja lisäävän vaikutuksen mekanismiksi havaittiin pääasiallisesti lisääntynyt mRNA:n stabiliteetti. Lisäksi tutkimus antaa lisätietoa kahden transkriptiofaktorin, NF-κB:n (nuclear factor kappa B) ja C/EBPγ:n (C/CAAT enhancer binding protein delta), osuudesta IL-1:n aiheuttamassa SP-A:n ilmentymisen lisääntymisessä. Sytokiinien vaikutukset surfaktanttiproteiinien ilmentymiseen ovat riippuvaisia gestaatioiästä. Tutkimuksen löydökset auttavat ymmärtämään RDS:n ja CLD:n vastakohtaista esiintymismäärää keskosilla, joiden ennenaikainen synnytys on aiheutunut kohdunsisäisestä tulehduksesta. Edelleen tutkimus selittää glukokortikoidien positiivista vaikutusta hengitysvajaukseen johtavassa keuhkotulehduksessa
Smith, Johan. „A comparison of synthetic surfactants : evaluation of a novel surfactant (1,2-dipalmitoyl-sn-phosphatidycholine and trehalose [C12H22O11]) and comparison with other synthetic formulations“. Thesis, Stellenbosch : Stellenbosch University, 2002. http://hdl.handle.net/10019.1/52624.
Der volle Inhalt der QuelleThesis (PhD)--Stellenbosch University, 2002.
ENGLISH ABSTRACT: The aim of this study was to test a synthetic protein-free surfactant preparation, LPM-l, with the same chemical composition as commercially available Exosurf (Glaxo Wellcome), but containing in addition, a sugar, trehalose (TRE). Towards this end, a study was designed to firstly test the hypothesis that the true difference in acute physiological effects between a mixture of oppe, tyloxapol, hexadecanol and trehalose (LPM-l), and Exosurf, (Oppe, tyloxapol and hexadecanol) is zero, in a surfactantdeficient animal model. A second study addressed the physiological effects of oppe, hexadecanol, tyloxapol and trehalose (LPM-l) compared to treatment with trehalose (TRE) or saline, in order to determine (1) the contribution of TRE to the mixture of oppe, hexadecanol and tyloxapol, and (2) to assess the effect of the LPM-l surfactant replacement on the epithelial lining fluid composition by means of analysing bronchoalveolar lavage fluid. Thirdly, the effects of TRE and / or calcium were studied on the surface properties of oppe suspensions, by in vitro analysis using the ring detachment method of Du Nouy The in vivo research comprised of two studies, performed in randomised controlled fashion. In the first study, 24 New Zealand White adult rabbits were randomised into 4 groups, while in the second study, 15 animals were randomised into 3 groups. In the first in vivo study, three synthetic surfactants, LPM-l, Exosurf and LPM-2, and a saline group were tested. LPM-l is a new formulation that consists ofa mixture of Df'PC, TRE, hexadecanol and tyloxapol. LPM-2 is a formulation with a composition equivalent to that of commercially available Exosurf, prepared on site. In both studies animals were subjected to repeated lavage with large volumes of warm saline (25 ml/kg) in order to establish surfactant deficiency and acute lung injury. Five minutes after the last lavage, vehicle, i.e. surfactants LPM-l, Exosurf, or LPM-2, or saline, in the first in vivo study, and LPM-l, TRE or saline in the second in vivo study, was instilled, and the course of the animals followed over the next 3 hours. Ventilator settings were standardized before and after lavage. The effects of surfactant treatment on gas exchange (arterial Pa02, oxygenation index (Ol), arterial-alveolar oxygen (a/A) ratio), percentage calculated shunt, and total dynamic respiratory compliance (CRSdyn), and histopathological changes were compared with changes in saline treated controls. Arterial blood gases in 100% oxygen and CRSdynwere measured before and after lavage, at 15 minute intervals for the first 30 min, then at 60, 90, 120, and 180 min after vehicle instillation. Oxygenation improved to a similar extent after LPM-l and Exosurf instillation, surpassing that of LPM-2 or saline. Overall, intratracheal instillation of both Exosurf and LPM-l, rapidly improved the gas exchange and reduced the intrapulmonary shunt, but did not restore the lung to its pre-lavage condition. From the 2nd in vivo study it was evident that trehalose-only, was inefficient as a lung surfactant, failing to improve oxygenation indices or the calculated percentage shunt, or influencing respiratory compliance. The addition of the sugar, trehalose (TRE), to the on-site 'Exosurf mixture (LPM-2) brought the activity of the resultant LPM-l to the same level as that of commercial Exosurf, but failed to raise the activity above that of Exosurf. These physiological improvements were sustained for up to 3 hours. Saline-treated animals had no improvement in gas exchange despite management with variable PIP (to maintain a tidal volume of -1 0 ml / kg) and constant PEEP of 5 cm H20. In-vitro results, obtained by the Ou Nouy tensiometer, showed higher mean ordinate surface tension values for the OPPC-only and DPPC + TRE mixtures, and the slopes of their respective graphs smaller in magnitude than those of the other formulations, suggesting that these formulations had less surface tension-lowering capability than the other surfactants. At 20°C (20 mg / ml DPPC-surfactants) the mean ordinate values of OPPC and OPPC + TRE, 70.13 and 69.47 dyne / cm, respectively, were not significantly different from each other. The mean ordinate values of LPM-l and the formulation containing OPPC + TRE + tyloxapol + CaCh were lower, but similar, as were the values of LPM-2 (on-site Exosurf) and LPM-2 + CaCho Thus, three internally homogeneous subgroups could be identified which differed significantly, namely: DPPC and DPPC + TRE, LPM-2 and LPM-2 + CaCh, and DPPC + TRE + tyloxapol + CaCh and LPM-l. Similar conclusions apply to the ordinate values of the surfactants at 37°C, and to the mean slope values at 20°C, with the exception that the subgroups, LPM-2 and LPM-2 + CaCh, and LPM-l and OPPC + TRE + tyloxapol + CaCh are not so clearly separated. A similar analysis of mean slope values was performed. Here too a significant difference between substances was found, OPPC alone or in combination with TRE, again being significantly different from the other surfactants. The most prominent light microscopy findings of the lungs of animals included general lymphatic dilatation, congestion and lung polymorphonuclear infiltration, with no difference between study groups. Hyaline membranes were present in all surfactant groups, but significantly more so in the saline treated group. In the first in vivo study, the presence of neutrophils in the lung interstitiwn as well as alveoli, was a common finding in all of the study groups towards the end of the study protocol. A significant increase in the BAL-fluid neutrophil count occurred in all animals, concurrent with a significant decrease in the BAL macrophage count. No significant change occurred in the peripheral neutrophil count during the 3-hour study, suggesting recruitment of neutrophils from storage pools. Treatment with synthetic surfactant (LPM -1) did not have a significant effect on modifying the inflammatory response, since there was no significant difference in the BAL-derived cell counts between the LPM-1 and -saline groups. Epithelial damage was a consistent finding in all groups. The damage was more evident by electron microscopy examination and included hydropic changes, most readily observed in the mitochondria. The airspaces of study subjects showed the presence of oedema fluid. This luminal oedema appeared to be more prominent in the control group and LPM-2 (on site 'Exosurf') group. Organellar debris, probably originating from lysis of epithelial cells, was present, despite treatment with synthetic surfactant. The electron microscopical appearance of the epithelial-lined substance ("hyaline membranes") in the present study showed a marked variability within groups as well as within the same case. The majority of cases showed a mix of membrane types with both granular and fibrillar materials present within the same membrane. In some cases there were layering of the membranes into distinct bands. The instillation of LPM-l resulted in the formation of a slightly different type of epithelial lining fluid after lavage, when compared to the prelavage composition. The most pronounced changes occurred within the fatty acids, whilst the phosphatidylcholine values remained unchanged. Palmitic acid concentrations (C16:0) increased significantly, suggesting enrichment of the epithelial lining fluid after instillation of LPM-l. This increase in C16:0 was concurrent with significant decreases in the percentage C16:1, C18:0, and C18:2. In contrast to previous studies, we describe higher levels for phosphatidyldimethylethanolarnine (PEA). An explanation may be that the lipid identified as PEA, was in fact partly phosphatidylglycerol (PG)-a lipid whose accurate identification was precluded for technical reasons. After surfactant instillation, the PC/SM ratio, a reflection of the lecithin / sphingomyelin (LIS), decreased significantly in the TRE-group between the first and final lavage, but remained statistically unchanged in the animals treated with LPM-l or saline. The change in ratio was mainly accounted for by a decrease in BAL-fluid PC content together with a rise in SM content. A poor correlation existed between the BAL-derived PC/SM ratio and indices reflecting oxygenation status (a/A ratio, Ol), as well as the CRSdynat the time of the final lavage. In conclusion, the primary hypothesis was accepted, LPM-l performed similarly to Exosurf in vivo, improving oxygenation, but not CRSdyn.None was clearly superior to the other. Some questions remain. The reason why LPM-l (LPM-2 + TRE) did not behave in a superior manner, in vivo, to Exosurf, is partly unclear. This finding was somewhat surprising since the chemical composition of Exosurf and LPM-2 did not differ, and the addition of TRE to LPM-2 (on-site Exosurf), did improve the in vivo activity of the resultant LPM-l, above that of LPM-2. A possible explanation for observed differences in performance include methodological issues, i.e. the preparation of the on-site formulations, especially that of LPM-2 (on-site Exosurf), may differ from the way in which true commercial Exosurf is prepared.
AFRIKAANSE OPSOMMING: Die doel van die studie was om 'n sintetiese proteïn vrye surfaktant te ontwikkel en die produk te vergelyk met 'n kunsmatige surfaktant reeds in kliniese gebruik. Die bekende uit die literatuur en die onbekende van die produk wat evalueer sou word, lei op tot die samestelling van die nul hipotese van die PhD naamlik dat geen verskil in longfunksie sou gewys word tussen die toetsproduk en reeds gebruikte kommersiële surfaktant nie. Die hipotese was dat 'n suiker (trehalose), in kombinasie met Dipalmitoiel fosfatidielcholine (DPPC), gaswisseling en longfunksies sal verbeter vir 'n long met 'n lae surfaktant konsentrasie. Vir die studie is jong volwasse wit New Zealand konyne gebruik en is hulle met 'n gestandaardiseerde en menslike manier gebruik in eksperimentele werk. Die diere is onder intraveneuse narkose geplaas en verskillende kardiovaskulêre en pulmonologiese aspekte is gemeet. Die long surfaktant is uitgewas deur middel van fisiologiese soutoplossing wat tot liggaam temperatuur verhit is en daarna is die diere prospektief gerandomiseer tot eksperimentele groepe. Met vooraf bepaalde tydsintervalle is die fisiologiese metings herhaal en was die metings toegespits daarop om longmeganiese funksie en gasoordrag vermoë te evalueer. Lig mikroskopiese en elektron mikroskopiese studies is ook op die longe gedoen en verder is brongoalveolêre vloeistof ook ontleed. Die groepe met ondersoek was: I. oppe, heksadekanol, tyloxapol en trehalose (LPM-I). 2. oppe, heksadekanol, tyloxapol (LPM-2 :. LPM-I sonder trehalose). Hierdie is 'n proteïnvrye surfaktant plaaslik berei ( dieselfde samestelling as Exosurf). 3. Exosurf®. (Kommersiële preperaat reeds in gebruik). Hierdie is 'n proteïnvrye sintetiese surfaktant. 4. Trehalose, 'n non-reduserende disakklaried van glukose. Addisioneel is daar ook in vitro studies gedoen waann die oppervlakte spanmngs aktiwiteite van die verskillende surfaktant oplossings vergelyk is. Die statistiese analise is gedoen in samewerking met Prof. J. Maritz wat 'n unieke metode ontwikkel en gepubliseer het om herhalende veranderlikes op 'n statisties verantwoordbare manier te ontleed. In die eerste van die studies, is LPM-I, Exosurf®, fisiologiese soutoplossing en 'n plaaslik bereide "Exosurf" (LPM-2), met 'n chemiese samestelling identies aan dié van kommersiële Exosurf®, evalueer. In 'n tweede studie is die fisologiese effekte van LPM-I vergelyk met trehalose of fisiologiese soutoplossing om die volgende te ondersoek: 1) Die bydrae van trehalose tot 'n mengsel van oppe, heksadekanol en tyloxapol (LPM-2). 2) Die gevolg van LPM-l surfaktant toediening op die konyn se brongo-alveolêre vloeistof samestelling. 'n Derde, in vitro studie, het die oppervlaktespannings-effekte van trehalose en of kalsiumbyvoegings tot DPPC-oplossings gemeet deur middel van die ring metode van Du Nouy, In die eerste in vivo studie verbeter oksigenasie en persentasie longaftakking tot dieselfde mate na LPM-l en Exosurf® toediening en word die hipotese van die proefskrif bevestig. In die breë gesien, is die tydsprofiele van LPM-l en Exosurf® ten opsigte van oksigenasie en persentasie longaftakking statisties betekenisvol beter en van 'n sneller aard, as die tydsprofiele van dieselfde indekse na die toediening van fisiologiese soutoplossing of LPM-2. Die tydsprofiel van dinamiese longvervormbaarheid, na die toediening van LPM-I of Exosurf®, is dieselfde, maar betekenisvol beter as die vervormbaarheid na toediening van LPM-2 of fisiologiese soutoplossing. Alhoewel die oksigenasie indekse in die geval van LPM-l en Exosurf® betekenisvol verbeter oor die studietydperk, vind volkome herstel tot die basislynwaardes (voor spoeling) nie plaas nie. Bykomend, geen van die surfaktante het na toediening enige noemenswaardige verbetering in longvervormbaarheid tot gevolg gehad nie. Die rede vir die swakker vertoning van LPM-2 en Exosurf is onbekend en sal in opvolg studie ondersoek word. In die tweede in vivo studie is dit duidelik dat trehalose op sy eie, 'n oneffektiewe surfaktant is aangesien die preperaat na toediening geen verbetering teweegbring ten opsigte van oksigenasie indekse, persentasie longaftakking, of long-dinamiese vervormbaarheid nie. Die toevoeging van trehalose tot LPM-2, om LPM-l te lewer, neem wel die aktiwiteit van LPM-l tot dieselfde in vivo vlak as dié van kommersiële Exosurf®, maar slaag nie daarim om 'n hoër fisiologiese in vivo aktiwiteit as dié produk te bereik nie. Die diere wat met fisiologiese soutoplossing behandel is toon geen verbetering in enige fisiologiese parameter nie. Die in vitro resultate wat verkry is deur die Du Nouy tensiometer toon hoër gemiddelde ordinaat oppervlaktespannings waardes vir 'n formule wat slegs uit DPPC bestaan, asook vir 'n mengsel van DPPC + trehalose. Die helling van die grafieke van hierdie oplossings is ook kleiner as die van die ander formulas wat daarop dui dat DPPC op sigself, en DPPC + trehalose, weinig vermoë het om oppervlaktespanning te verminder. Daarteenoor verlaag die volgende oplossings die oppervlaktespanning ten opsigte van gedistilleerde water betekenisvol en wel in In konsentrasie afhanklike manier by beide 21°C en 3rc: LMP-I-, LPM-2-, DPPC + trehalose + tyloxapol + CaCf2-, en LPM-2 + CaCf2. Die prominentste ligmikroskopiese bevindinge van die longe van die diere sluit in: Algemene limfvat dilatasie, stuwing, en long neutrofiel infiltrasie. Betreffende hierdie histologiese bevindinge is daar geen verskille aangetoon tussen die groepe nie. Hialienmembrane was teenwoordig in al die groepe, maar betekenisvol meer in die groep wat fisiologiese soutoplossing ontvang as vervangingsterapie. In die tweede in vivo studie is daar 'n betekenisvolle styging in die neutrofiel- en daling in makrofaagtelling, van die brongoalveolêre vloeistof spoeling in al drie die groep aangetoon. Terselfdertyd vind geen noemenswaardige daling in die perifêre (sistematiese) neutrofieltelling plaas nie. Hierdie bevindinge dui daarop dat die brongoalveolêre selveranderinge toegeskryf kan word aan verwerwing van neutrofiele vanuit 'n longstoringspoel eerder as rekrutering vanuit die sistemiese sirkulatoriese poel. Surfaktant (LPM-l), behandeling het geen betekenisvolle vermindering in long inflammasie teweeggebring nie. Epiteelskade was 'n algemene ligmikroskopiese bevinding in al die groepe. Die samestelling van die brongoalveolêre vloeistof verander na installering van LPM-I. Die prominentste verandering word waargeneem in die vetsuur samestelling terwyl die DPPC waardes onveranderd bly. Die vetsuur, palmitiensuur (palmitic acid), (CI6:0), verhoog betekenisvol na toediening van LPM-l. Daarteenoor verminder die konsentrasie van C16:1, C18:0 en C18:2. In kontras met vorige studies, beskryf die huidige studie hoër konsentrasies van fosfatidieletanolamien, moontlik as gevolg van tegniese verskille in die metingsmetodes. 'n Betekenisvolle verlaging in die fosfatidielcholine:sfingomiëlien (PC/SM) verhouding word waargeneem tussen die eerste en die finale longspoeling van die trehalose-groep, terwyl dit onveranderd bly in die diere wat LPM-1 of fisiologiese soutoplossing ontvang.
Rausch, Felix [Verfasser], Ludger A. [Akademischer Betreuer] Wessjohann und Harald [Akademischer Betreuer] Lanig. „3D modeling of the putative human surfactant proteins SP-G and SP-H and simulations in a pulmonary surfactant model system / Felix Rausch. Betreuer: Ludger A. Wessjohann ; Harald Lanig“. Halle, Saale : Universitäts- und Landesbibliothek Sachsen-Anhalt, 2015. http://d-nb.info/107850511X/34.
Der volle Inhalt der QuelleWAN, HUAJING. „CRITICAL ROLES OF FORKHEAD BOX A2 DURING LUNG DEVELOPMENT“. University of Cincinnati / OhioLINK, 2004. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1091650603.
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