Global ETD Search

101	Organic-inorganic composite materials for specific recognition and optical detection of environmental, food and biomedical analytes / Matériaux composites organiques-inorganiques pour la reconnaissance spécifique et la détection optique des analytes environnementaux, alimentaires et biomédicaux Panagiotopoulou, Maria 09 December 2016 (has links) Cette thèse décrit l'état de l'art des sondes et nanoparticules fluorescents traditionnels utilisés en imagerie de fluorescence ainsi que le développement de nouveaux nanomatériaux à base de polymère à empreinte moléculaire, aussi dénommé ‘anticorps plastique’, pour le ciblage et la bioimagerie. En biologie et en médecine, il y a un besoin constant de diagnostiquer diverses maladies pour leur éventuel traitement et prévention. Une distribution anormale et un taux élévé de glycosylation (e.g. acides hyaluronique et sialique) à la surface ou dans les cellules sont indicateurs d’une infection ou d’un cancer. Généralement, l’imagerie par fluorescence permet de visualiser, localiser et quantifier les biomarqueurs de pathologie mais à l’heure actuelle, il n’existe pas d’outil analytique fiable pour cibler spécifiquement les molécules de glycosylation car les anticorps et les lectines vendus dans le commerce ont une faible affinité et sélectivité vis-à-vis de ces cibles. Dans ce contexte, les polymères à empreintes moléculaires (MIPs) pourraient apporter une solution. Les MIPs sont des récepteurs synthétiques possédant des affinités et sélectivités comparables à ceux des anticorps, mais exhibant une stabilité physique, thermique et chimique bien plus accrue. De plus, leur fabrication est peu coûteuse et ne nécessite pas de tuer des animaux comme pour l’obtention des anticorps biologiques. Dans cette thèse, nous avons optimisé et synthétisé des MIPs biocompatibles pour leur utilisation en bioimagerie afin de détecter et quantifier l’acide hyaluronique et l’acide sialique sur les cellules et les tissus de peau humaine. L’acide glucuronique, une composante de l’acide hyaluronique et l’acide N-acétylneuraminique, l’acide sialique le plus commun, ont été utilisés comme molécules ‘patron’, générant des MIPs très sélectifs envers leur cible en milieu aqueux. Deux types de nanoparticules de MIPs fluorescents ont été synthétisés: (1) en incorporant un colorant rhodamine polymérisable dans la solution de pré-polymérisation et (2) en encapsulant des boîtes quantiques InP/ZnS générant ainsi des MIPs de type cœur-coquille. Pour cela, nous avons adopté une stratégie innovante qui consiste à synthétiser les coquilles de MIPs directement autour des boîtes quantiques en utilisant l’énergie de l’onde fluorescente émise par l’excitation des points quantiques, pour initier la polymérisation. Un protocole d'immunocoloration standard a ensuite été optimisé afin d’imager des kératinocytes humains fixés et vivants ainsi que des tissus de peau, par microscopie à épifluorescence et confocale. Les résultats étaient similaires à ceux obtenus par la méthode de référence utilisant une protéine biotinylée reconnaissant l'acide hyaluronique. L'imagerie multiplex en combinant deux MIPs couplés à deux couleurs de boîtes quantiques et l’imagerie des cellules cancéreuses ont également été démontrées. Bien que les MIPs n’étaient pas cytotoxiques aux concentrations utilisées pour la bioimagerie, la toxicité des différentes composantes du MIP pourrait être un frein à leur utilisation dans le domaine biomédical. Afin de rendre ces MIPs plus ‘inoffensifs’, nous avons supprimé l’amorceur de polymérisation, une molécule considérée comme toxique. Les MIPs ont été synthétisés en employant des monomères qui s’auto-initient sous l’effet de l’UV ou de la chaleur. La spécificité et la sélectivité des MIPs obtenus étaient similaires à ceux préparés avec des amorceurs. En conclusion, cette thèse décrit la première utilisation des MIPs comme anticorps synthétique pour la bioimagerie de fluorescence. Ce travail ouvre la voie à de nouvelles applications en détection, diagnostique et thérapie par des MIPs. / This thesis describes the state of the art in nanomaterials-based targeted bioimaging and introduces molecularly imprinted polymers, also termed ‘plastic antibodies’ as novel biorecognition agents for labeling and imaging of cells and tissues. In fundamental biology and medical diagnostics, there is a constant need to localize and quantify specific molecular targets. Abnormal glycosylation levels or distributions of hyaluronan or sialic acids on cells are indicators of infection or malignancy. In general, bioimaging with fluorescent probes enables the localization and qualitative or quantitative determination of these pathological biomarkers. However, no reliable tools for the recognition of glycosylation sites on proteins exist, because the commercially available antibodies or lectins have poor affinity and selectivity for these targets. In this context, tailor-made molecularly imprinted polymers (MIPs) are promising synthetic receptor materials since they present a series of advantages over their natural counterparts such as the ease and low cost of preparation and their physical and chemical stability. Thus, MIPs could provide a robust and specific imaging tool for revealing the location/distribution, time of appearance and structure of glycosylation sites on/in cells, which would lead to a better insight of the tremendously diverse biological processes in which these molecules are involved. Herein, we describe the synthesis of water-compatible MIPs for the molecular imaging of hyaluronan and sialylation sites on cells and tissues. Since molecular imprinting of entire biomacromolecules like oligosaccharides is challenging, we opted for what is commonly called the ‘epitope approach’, which was inspired by nature. The monosaccharides, glucuronic acid and N-acetylneuraminic acid were imprinted, and the resulting MIPs were able to bind these molecules when present and accessible on the terminal unit of hyaluronan and sialylation sites. Fluorescent MIPs were synthesized as rhodamine-labeled nanoparticles and as MIP-coated InP/ZnS core-shell quantum dot (QD) particles. For the coating of the QDs, a novel versatile solubilization and functionalization strategy was proposed, which consists of creating polymer shells directly on QDs by photopolymerization using the particles as individual internal light sources. A standard immunostaining protocol was then successfully adapted for the application of the fluorescently labeled MIPs to image fixed and living human keratinocytes and skin tissues, by epifluorescence and confocal fluorescence microscopy. The results were comparable to those obtained with a reference method where staining was done with a biotinylated hyaluronic acid binding protein. Multiplexed and cancer cell imaging were also performed, demonstrating the potential of molecularly imprinted polymers as a versatile biolabeling and bioimaging tool. Although the MIPs were not cytotoxic at the concentrations used for bioimaging, in order to render them generally applicable in biomedicine, where toxicity of the polymerization precursors is a matter of concern, we suppressed the initiator, a toxic chemical. Initiator-free MIPs were thus synthesized by using monomers that can self-initiate under UV irradiation or heat. The specificity and selectivity of the obtained MIPs were as good as the ones prepared with initiators. In conclusion, we have demonstrated for the first time the great potential of MIPs as synthetic antibody mimics for bioimaging. The possibility to associate other functionalities such as QDs and additionally attach drugs to the same material appears rather straightforward due to the synthetic polymeric nature of MIPs, which paves the way to new potential applications in theranostics. Bioimagerie Anticorps plastique Boîte quantique Monomère auto-initiant Imagerie par fluorescence Nanomatériaux Bioimaging Multiplexing Glycosylation Hyaluronan Sialic acid Molecularly imprinted polymer (MIP) Plastic antibody Quantum dot Initiator-free polymerization Self-initiated monomer
102	Zhodnocení termomechanického chování perspektivních jaderných paliv při havárii s vnosem reaktivity / Assessment of the thermomechanical behaviour of perspective nuclear fuel for reactivity insertion accidents Halabuk, Dávid January 2016 (has links) The objective of this master’s thesis is to simulate thermo-mechanical behaviour of nuclear fuel in a pressurized water reactor during a reactivity initiated accident. An important part of this work is focused on examination of processes which occur during such accident and on creation of a detailed overview of material properties of nuclear fuel and fuel cladding which are necessary for simulations that closely reflect reality. Simulations in this thesis examine cases of fresh or irradiated nuclear fuel for two types of fuel cladding, Zircaloy-4, a material that is currently used in nuclear reactors, and ceramic matrix composite material made of SiC. The thesis also presents comparison of results with a corresponding international benchmark and an assessment of the influence of selected input parameters on obtained results.
103	An evaluation of the effectiveness of the nurse-initiated- and managed antiretroviral treatment (NIMART) programme, Waterberg District, Limpopo Province Mbedzi Melton Mashudu 29 January 2016 (has links) Department of Public Health / MPH Nurse initiated Managed Antiretroviral treatment Programme 616.97920968253 Nurses -- South Africa -- Limpopo AIDS (Disease) -- Prevention AIDS(Disease) -- South Africa -- Limpopo
104	Challenges confronting professional nurses implementing the nurse-initiated and managed antiretroviral treatment programme in Vhembe District, South Africa Rasalanavho, Rambani Norman January 2016 (has links) MPH / Department of Public Health / Antiretroviral treatment (ART) roll-out presents new opportunities and challenges for nurse-initiated-andmanaged antiretroviral treatment (NIMART) trained nurses in the primary health care (PHC) facilities. Nurses have had central role in the management of the human immunodeficiency virus (HIV) since the disease was first reported. The purpose of this study was to explore and describe the challenges confronting professional nurses implementing the NIMART programme in PHC facilities under Thulamela B Municipality, Vhembe District. This study used a qualitative approach in which the interview was used as a data collection technique. The target population comprised professional nurses who were trained in NIMART and who were implementing the programme. Probability sampling, in particular its sub-type, the simple random sampling technique, was used to select fifteen PHC facilities within the sub-District. The non-probability purposive sampling technique was used to select the NIMART-trained professional nurses in Thulamela B sub-District. The sample size was determined by data saturation. Data were collected from the participants through semi-structured interviews, observations and field notes to assist in transcription. A digital recorder was used to log individual responses during the interview sessions. Data from the digital recordings were transcribed verbatim. Results were analysed and interpreted thematically. This study establsihed that nurses were facing several challenges such as shortages of infrastructure and medication, lack of support from management and non-NIMART-trained nurses and discrimination. The NIMART programme was poorly supported in terms of nurse training as nurses indicated that they faced problems in performing tasks such as obtaining blood from children. Doctors were also reported to not fully supporting the NIMART programme. NIMART-trained nurses were optimistic with the implementation of the programme dispite the challenges they faced. To overcome some of the challenges faced at workplaces, nurses devised mechanisms such as allocating different times for collecting tablets and review, and group education for those consulting. It was also established that nurses provided support to each other. Nurses were reported to be using their own transport to collect drugs from the local pharmacy store. Recommendations that emanated from the discussion of the findings and the conclusions of this study are likely to have implications and applications for supporting and advancing the NIMART programme. challenges Primary health facilities Professional nurses 616.97920968257 AIDS (Disease) -- Prevention
105	Surface-initiated Polymerization and Janus Membrane Synthesis from Graphene and Poly(dopamine) Hafner, Daniel 17 May 2021 (has links) In dieser Arbeit wurden verschiedene Materialien durch das Pfropfen von Polymerbürsten auf Poly(dopamin) (PDA) und Graphen (G) synthetisiert. Ein besonderes Augenmerk wurde dabei auf sog. strain-engineering von Graphen und Synthese von Janus-Membranen gelegt. Die Kombination aus PDA-Oberflächenchemie und oberflächeninitiierter Cu(0)-vermittelter kontrolliert radikalischer Polymerisation (SI-CuCRP) wurde als robuste und vielseitige Methode zur Synthese von Polymerbürsten etabliert. Dabei können Schichtdicken von einigen hundert Nanometern innerhalb 1 h erreicht werden. Die Zugänglichkeit der Endgruppen bleibt erhalten, was die Synthese von Pentablockcopolymerbürsten ermöglicht. Dies stellt die bis dato höchste Blockzahl für oberflächengebundenes Copolymer dar. Zudem erlaubt die SI-CuCRP eine einfache und hocheffiziente Synthese von Polymerbürsten mit definierten Gradienten und Strukturen sowie die Funktionalisierung von natürlichen Membranen. Im zweiten Teil der Arbeit wurde diese Methode zur Funktionalisierung von Graphen mit Polymerbürsten angewendet. Aufgrund des hohen sterischen Drucks innerhalb der Bürsten, sollte die resultierende chemisch-mechanische Beanspruchung zu einer Deformation des Graphens und einem straintronic-Effekt führen. Die Bewertung und Quantifizierung der chemisch-mechanisch induzierten Belastung ist jedoch problematisch. Vermutlich führt die induzierte mechanische Spannung zum Bruch bzw. Reißen der Graphenschicht, wenn die Pfropfungsdichte und Schichtdicke der Polymerbürsten zunimmt. Diese Annahme wird durch neueste Literatur gestützt. Dennoch wurde eine ganze Reihe von Polymermodifikationen auf Graphen erhalten, um (gerichtete) Faltenbildung verschiedener Größenordnungen zu erzielen. Im Zusammenhang der Materialsynthese wurden sowohl aus PDA als auch aus Graphen Janus-Membranen, sog. Janus polymer carpets, hergestellt. Hierzu wurde entweder sequentieller Transfer freistehender Polymerteppiche oder einseitige, sequentielle Polymerisation auf Graphen genutzt. Auf diesem Weg wurden Janus-Membranen hergestellt, die hydrophob/hydrophil, nicht-sensitiv/T sensitiv oder nicht sensitiv/pH sensitiv sind oder eine Polymerbürsten/Flaschenbürsten-Architektur besitzen. Diese kann allerdings Reihe auf einfache Weise erweitert werden. Alle hergestellten Janus polymer carpets weisen typischerweise eine Größe von ca. 1 cm² auf. Unter Berücksichtigung ihrer Gesamtdicken, die im Bereich von max. einigen hundert Nanometern liegen, betragen die Aspektverhältnisse zwischen 10000 und 100000. In Kombination mit der strukturellen Vielfalt von Polymerbürsten bieten die vorgestellten Methoden einen einzigartigen Weg zu einer ganzen Palette neuartiger 2D-Materialien mit einstellbaren Eigenschaften. Das hervorragende Faltverhalten von strukturierten Janus polymer carpets macht sie besonders interessant für gerichteten Transport und Bewegung oder kontrollierte Verformung. info:eu-repo/classification/ddc/540 ddc:540
106	Prodrogues Polymères Dégradables par Polymérisation Radicalaire par Ouverture de Cycle Contrôlée par les Nitroxydes / Degradable Polymer Prodrugs by Nitroxide-Mediated Radical Ring-Opening Polymerization Guegain, Elise 28 November 2017 (has links) La copolymérisation radicalaire par ouverture de cycle contrôlée par les nitroxydes entre les esters méthacryliques et les acétals de cétène cycliques a permis de synthétiser des copolymères vinyliques bien contrôlés et dégradables contenant des fonctions esters le long de la chaine polymère. Plus précisément, des copolymérisations entre le 2-méthylène-4-phenyl-1,3-dioxolane (MPDL) et l’oligo(éthylène glycol) méthyl éther méthacrylate (OEGMA) ou le méthacrylate de méthyle (MMA) ont été amorcées par une alkoxyamine basée sur le nitroxyde SG1. Des copolymères de type P(OEGMA-co-MPDL) et P(MMA-co-MPDL) ont été obtenus et dégradés hydrolytiquement en conditions accélérées ou physiologiques. Leurs cinétiques de dégradation furent également comparées à celles de polyesters traditionnels (e.g., PLGA, PLA and PCL) où il a été montré que la dégradation des copolymères de P(OEGMA-co-MPDL) pouvait être ajustée par la stœchiométrie initiale en monomères et qu’elle se situait entre celles du PLA et du PCL. En revanche, les copolymères de P(MMA-co-MPDL), plus hydrophobes, ont présenté une hydrolyse très lente, bien inférieure à celle du PCL. Dans un deuxième temps, une nouvelle famille de prodrogues polymères dégradable a été synthétisé par copolymérisation radicalaire par ouverture de cycle contrôlée par les nitroxydes entre le MPDL et l’OEGMA ou le MMA, à partir d’un amorceur couplé à un principe actif (méthode du principe actif amorceur). Pour ce faire, la Gemcitabine, un principe actif anticancéreux, a été couplé à une alcoxyamine à base SG1 qui fut ensuite utilisée pour amorcer la réaction de copolymérisation. Les copolymères ainsi obtenus ont montré des propriétés de libération de la Gem et des activités cytotoxiques sur différentes lignées cellulaires en relation avec la nature de l’ester méthacrylique utilisé, la nature de la liaison entre la Gem et le copolymère ainsi que le taux de MPDL dans le copolymère. Cette étude nous a permis d’extraire des relations de type structure-activité importantes pour des développements futurs. / Nitroxide-mediated radical ring-opening copolymerization of methacrylic esters and cyclic ketene acetals was investigated and enabled the synthesis of well-defined degradable vinyl copolymers containing ester groups along the main chain, whose amount was readily adjusted by changing the initial comonomer feed. More specifically, the copolymerizations of 2-methylene-4-phenyl-1,3-dioxolane (MPDL) and either oligo(ethylene glycol) methyl ether methacrylate (OEGMA) or methyl methacrylate (MMA) were initiated by an alkoxyamine initiator based on the SG1 nitroxide. It led to a library of P(OEGMA-co-MPDL) and P(MMA-co-MPDL) materials that were hydrolytically degraded under both accelerated and physiological conditions. Their hydrolytic degradation kinetics were also benchmarked against traditional polyesters (e.g., PLGA, PLA and PCL) where P(OEGMA-co-MPDL) copolymers showed tunable degradation rates as function of the MPDL content, being in between those of PLA and PCL. Conversely, the more hydrophobic P(MMA-co-MPDL) copolymers exhibited much slower hydrolysis than that of PCL. In a second step, a new class of degradable polymer prodrugs was developed by nitroxide-mediated radical ring-opening copolymerization of MPDL with OEGMA or MMA, from a drug-bearing initiator (‘drug-initiated’ method). To do so, Gemcitabine, an anticancer drug, was derivatized with a SG1-based alkoxyamine to initiate the copolymerization reaction. The resulting degradable polymer prodrugs exhibited interesting characteristics in terms of drug release and in vitro cytotoxicity, depending on the nature of the methacrylic ester used, the nature of the linker between the drug and the polymer and the MPDL content. This study enabled us to extract important structure-activity relationships of great importance for further development. Acétals de cétène cyclique Dégradabilité Prodrogue Méthode du principe actif amorceur Nitroxide-Mediated polymerization Radical ring-Opening polymerization Cyclic ketene acetals Degradability Prodrug Drug-Initiated method
107	Modeling of solution and surface–initiated atom transfer radical polymerization Mastan, Erlita 01 December 2015 (has links) Controlled radical polymerization (CRP) can be viewed as the middle ground between living anionic polymerization (LAP) and conventional free radical polymerization (FRP). It combines the precise control over polymer structure offered by LAP, under a tolerant reaction condition similar to FRP. One of the most studied CRP is atom transfer radical polymerization (ATRP), with over 10,000 papers published since its introduction in 1995. Despite the numerous studies, knowledge on its fundamental mechanism is still lacking, as evident from the lack of expression for full MWD and polydispersity that account for termination reaction. Since termination is unavoidable in ATRP, the existing expressions give inaccurate predictions as dead chains accumulate. In this study, we derived expressions for full MWD at low conversion and for polydispersity. These expressions allow us to quantify and gain better understanding on the contribution of termination. In addition, the resulting polydispersity expression shows better agreement than the existing equation when correlated with experiment data. In addition to the aforementioned questions, there are also controversies regarding the kinetics of surface-initiated ATRP, with researchers divided into two schools of theories. We evaluated the validity of these theories by comparing their predictions to experimental trends. Both theories were found to be inadequate in explaining all the experimental observations, thus triggering an investigation of the graft density. Graft density is an important determining property for polymer brushes, yet little is known about what affects its final value. Through simulations, we investigated the effect of experiment factors on the grafting density. A decrease in the amount of deactivator is found to decrease the grafting density, which could be explained by an increase in the number of monomers added per activation cycle. This knowledge allows us to explain the conflicting experiment observations regarding the growth trends of polymer layers reported in the literatures. / Thesis / Doctor of Philosophy (PhD) / Polymer materials are used almost everywhere in our daily life from clothing to water bottle. This wide range of applications owes to the nearly infinite possible properties that polymer can possess. Different polymerization processes to synthesize polymers have their own weaknesses and strengths. Herein we investigated the fundamental mechanism of one of the currently most attractive polymerization systems, atom transfer radical polymerization (ATRP). This process allows the synthesis of polymers with precisely tailored chain microstructures, making it possible to create polymer with sophisticated properties. Using modeling approaches, we derived explicit expressions for determining chain properties, allowing detailed investigation of how various factors affect these properties. Through these investigations, we obtained better understanding on the mechanism of ATRP in solution and on surface. This knowledge is crucial in providing insight and guiding experimental designs for better control over the material properties. Kinetic modeling Monte Carlo simulation Bond-fluctuation method Surface-initiated polymerization SI-ATRP Graft polymerization Molecular weight distribution Chain length distribution Polydispersity index Dispersity Radical termination Controlled radical polymerization
108	Thermo-responsive microcarriers based on poly(N-isopropylacrylamide) Zhang, J.N., Cui, Z.F., Field, R., Moloney, M.G., Rimmer, Stephen, Ye, H. 2015 April 1917 (has links) No / Microcarrier cell culture systems provide an attractive alternative to the conventional monolayer cell culture for cell amplification, due to their high surface area-to-volume ratio. Unlike enzymatic methods for removing cells from microcarriers after cell culture, which can lead to irreversible damage of the cells, microcarriers which release cells by temperature adjustment have been developed. This was achieved by grafting a temperature-responsive polymer, poly(N-isopropylacrylamide) (PNIPAAm), on the microcarrier surface. This review comprehensively presents various methods to prepare such thermo-responsive microcarriers based on PNIPAAm. These methods include the grafting-to technique, grafting-from technique, grafting-through technique, along with methods leading to PNIPAAm hydrogel beads, seeded polymerization, and non-covalent adsorption. The methods for controlling PNIPAAm grafting density, molecular weight and molecular architecture are also outlined. Further, the efficiency of cell attachment, proliferation and thermally-induced detachment of such thermo-responsive microcarriers is introduced and compared. (C) 2015 Elsevier Ltd. All rights reserved. Thermo-responsive microcarrier Poly(n-isopropylaciylamide) Cell culture Polymerisation Transfer radical polymerization Surface-initiated atrp Membrane emulsification technique Polystyrene latex-particles Thermally reversible hydrogel Core-shell microcapsules Narrow size distribution Modulated skin layers Embryonic stem-cells Cross-flow membrane
109	Witchcraft in the religion of the Hlubi of Qumbu: focusing on the issues of sickness and healing in the society Osei, Mensah-Aborampah 30 November 2003 (has links) This research sought to investigate the impact of a belief in witchcraft as an explanation for all the ills in the Hlubi community and South African societies in general - which becomes a good tool for inadequate governments. Our approach in this study has been interdisciplinary and the utilization of comparative analysis and a combination of phenomenological and qualitative research models. Economic problems create social tensions and are manifested in various ways, including witchcraft craze. The Hlubi scenario found parallels in Europe and America. Witchcraft and ancestors are considered to be the main causes of diseases but nature and ecological or environmental dangers are other factors. Pragmatic and obvious response to such phobias is seen in the protective and preventive devices provided by isangoma, amaqhira, amaxhwere, inyanga and faith healers. It is hypothesized that as long as all existential needs exist in Hlubi society witchcraft will continue to be with us, perhaps forever. / Religious Studies & Arabic / DLITT ET PHIL (REL STUD) World Religions Agents of Indigenous Healthcare Misfortunes or Mundane Mishaps Poverty Supernatural Beliefs and Practices Hlubi Traditional Healers Religion Health Healing Familiars Illness Medicine Divination African Cosmology Ancestors Sorcery Wicca Witchcraft 299.61330968758 Witchcraft--South Africa--Qumbu Hlubi (African people--Religion
110	The appropriation of African traditional healing by the Zionist Churches: a challenge to the mission churches in Gaborone ”Botswana” Matsepe, Shale Solomon 30 November 2004 (has links) The Zionist type of churches under the African Independent Churches have proven to be a force to be reckoned with against the more organized ecclesiastical movements (in particular the Mission Churches). This can be seen in their emphasis around matters related to culture and its methods of healing. As s result this led to the migration of people from the mission churches to these churches and threatened their existence in Botswana. The mission churches have been experiencing the decline in their membership to the Zionist churches because of the lack of openness to the cultural and the value systems of Batswana in Botswana. Mission churches were left with an option of doing introspection and finally acknowledging their failures to contextualise their theology and Christianity among the people they serving. Mission churches ended up opening their doors to the needs of their members. / Christian Spirituality, Church History and Missiology / M.Th. (Church History) African Initiated Churches Zionist Churches Appropriation African traditional healing African Traditional Religion Healing ministry Prophecy Methods of healing Mission Churches Euro-American missionaries Multiplication of Churches African approach to healing Ancestors Natural places Divination bones Paradigm shift in Theology 234.131096883

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