Global ETD Search

1	Human conjunctival mucins Ellingham, Roger Bruce January 2000 (has links) No description available. 612 Eyes; Tears; MUC gene; Oligosaccharides
2	Effects of Inositol-6-Phosphate (Phytate) on Mucin 3 of the Gastrointestinal Tract Lawson, Jesse 01 May 2015 (has links) Mucins are heavily glycosylated epithelial proteins. Under or overexpression of mucins may lead to several different types of dysfunctions. Mucins are under investigation as possible diagnostic markers for malignancies and other disease. This study examined the over/under expression of Mucin-3 in the presence of IP6. Three groups of six mice were fed varying levels of phytate (inositol 6-phosphate, IP6) for six days before being subjected to carbon dioxide asphyxiation. Sections of the duodenum, jejunum, ileum, stomach, and colon were collected, lysed, and the tissue proteins were prepared and analyzed by Western Blot to determine Mucin-3 expression. The hypothesis was that the presence of phytate in the digestive tract would modulate the expression of Mucin 3. Results showed that on average, Mucin 3 expression in untreated tissue was higher in areas of the duodenum and jejunum and lower in the ileum and stomach. Presence of IP6 decreased expression of Mucin 3 in the stomach by one percent in the 1g/kg phytate group while increasing in the 2g/kg phytate group by one percent. The expression of Mucin 3 in the duodenum increased fifty-five and thirty-nine percent in the 1g/kg and 2g/kg phytate groups, respectively. Jejunum Mucin 3 expression was increased by ninety percent in both 1g/kg and 2g/kg phytate groups. The ileum 0g/kg and 2g/kg phytate groups had the same expression of Mucin 3, but the 1g/kg group had a thirty-six percent decrease. Mucin 3 Muc-3 Inositol-6-Phosphate IP6 Gastrointestinal Tract Mucin Medicine and Health Sciences
3	Entwicklung und Charakterisierung eines humanen oralen Plattenepithelkarzinomäquivalentes / Development and characterisation of a human oral squamous cell carcinoma equivalent Mineif, Anna Teresa January 2019 (has links) (PDF) Trotz hochmoderner Technologien und ausgefeilter therapeutischer und rekonstruktiver chirurgischer Heilungsmethoden beträgt die 5-Jahres Überlebensrate bei der Diagnose PECA der Mundhöhle im Durchschnitt auch im Jahre 2017 nur 55 % und die Heilungsmethoden haben sich in den letzten drei Jahrzehnten kaum verbessert. Umso wichtiger ist es deshalb, die Forschung voranzutreiben und ein aussagekräftiges Tumormodell zu etablieren, das bei der Entwicklung neuer Therapieansätze schnell und sicher gute Ergebnisse liefert. In dieser Studie soll mit Hilfe des Tissue Engineering (TE) ein in gesunder Mundschleimhaut (MSH) integriertes 3D-Tumormodell generiert werden, welches bestmöglich die Analyse pathologischer Mechanismen im Tumorzentrum, sowie im Randbereich von gesundem und erkranktem Gewebe, und auch die Analyse der Auswirkungen neuartiger Chemotherapeutika auf gesunde und maligne Zellen in direkter Nachbarschaft ermöglicht – ohne Tierversuche. In der Konsequenz könnte ein erheblicher Fortschritt mit höheren Erfolgsaussichten der Therapieansätze erzielt werden. Es wird ein Tumormodell generiert, in dem auf Basis eines gesunden MSH-Modells Tumorzellen eingebracht werden, um - genauso, wie die Tumorentstehung in vivo von statten gehen würde – Tumorentstehung und Tumorwachstum in der Umgebung von gesunder MSH analysieren zu können. Das Modell basiert dabei auf einer Matrix aus dezellularisierter, porciner, small-intestinal-submucosa (SIS/MUC), die mit primären Fibroblasten, primären Keratinozyten und Tumorzellen der Tumorzelllinie FaDu besiedelt wird. Eine Besonderheit der FaDu-Zellen ist die vorangegangene Transduktion mit dem Lentivirus RFP – um die eingewanderten Zellen von gesunden Zellen unterscheiden zu können. Der Vorgang der Transduktion war gelungen und es konnte eine Fluoreszenz der noch in Zellkulturschalen kultivierten Zellen erzielt werden. Allerdings waren die fluoreszierenden Zellen in den fixierten Schnitten nicht mehr nachweisbar. Zur Generierung eines Tumormodelles wurden auf Basis eines OMÄ drei unterschiedliche Applikationsformen zur Integration von Tumorzellen getestet. Die Integration von Tumorzellen fand in Form von Spots, Sphäroiden oder Tumorzellgemischen (prim. Keratinozyten/FaDu-Zellen) in zuvor kultivierte gesunde OMÄ statt. Dabei sollte das Applizieren von Spots oder Sphäroiden das Tumorzellwachstum auch in der Umgebung von gesundem Gewebe initiieren. Dies würde die Möglichkeit schaffen, auch in vitro, gesundes neben pathologischem Gewebe und den Übergang dazu genau analysieren zu können. Es sollen sowohl die optimale Konzentration der Tumorzellen, welche für die Entstehung von Tumoren nötig ist, als auch die geeignetste Applikationsmethode eruiert werden, um optimale Tumormodelle zuverlässig reproduzierbar ansetzen zu können. Die Modelle wurden histologisch und immunhistochemisch analysiert und die Ergebnisse mit ermittelten TEER-Werte in Korrelation gesetzt. In dieser Arbeit konnte mit der Applikation von Spots oder Sphäroiden kein suffizientes Tumorwachstum in Umgebung von gesunder MSH erzielt werden. Die Zellen lagen ohne Reaktion des angrenzenden Stratum corneums auf der zu stark ausgeprägten Hornschicht der OMÄ auf und es war keine Einwanderung in das darunterliegende Gewebe möglich. Allerdings ist es gelungen, durch Applikation eines Zellgemisches variierender Mischungsverhältnisse von primären Keratinozyten und Tumorzellen der Zelllinie FaDu ein 3D-Tumorwachstum unterschiedlicher Malignitätsstufen zu initiieren. Je kleiner das Mischungsverhältnis und je höher in der Konsequenz die Anzahl der FaDu-Tumorzellen, desto ausgeprägter waren die morphologischen Anzeichen einer Tumorbildung. Abhängig vom Mischungsverhältnis war dabei die Ausprägung des Tumors. Auch wenn dadurch keine Kombination von gesundem und pathologischem Gewebe in einem Modell mehr imitiert werden konnte, so konnten zumindest nach histologischen und immunhistochemischen Untersuchungen eindeutige pathologische, maligne Tumormodelle generiert werden. Die Tumormodelle zeigten durchgehend Zell- und Kernpleomorphismen, atypische und vermehrte suprabasale Mitosen, eine Störung der normalen Gewebearchitektur, die Ausbildung von Interzellularbrücken, Einzelzelldyskeratosen und Verhornungsknospen, sowie Stellen der Durchbrechung der Basalmembran und Invasion von Tumorzellen in die darunterliegende Lamina propria. All das sind eindeutige Kennzeichen malignen Wachstums Auch die Ergebnisse der TEER-Wert Messung stimmten mit den morphologischen Entwicklungen der Modelle überein. So stiegen die TEER-Werte der Kontrollmodelle konsequent an, was für eine deutliche Entwicklung von kontinuierlichem Gewebe spricht und im Gegensatz dazu fielen die TEER-Werte im zeitlichen Verlauf der Tumormodelle, bei denen die Basalmembran und somit die Kontinuität des Gewebes durchbrochen wurde rapide ab, bzw. lagen im konstant niedrigen Bereich. Der Erfolg der Etablierung dieses zuverlässig rekonstruierbaren 3D, in vitro generierten Tumormodells, das der in vivo Situation eines Plattenepithelkarzinoms sehr nahekommt, bietet der Wissenschaft eine sehr gute Möglichkeit, weitere Studien zum Tumorwachstum durchzuführen. Außerdem kann die Weiterentwicklung und Verbesserung vielversprechender, neuartiger chemotherapeutischer und radiologischer Therapieverfahren erheblich voran¬getrieben und dadurch die Heilungschancen mit geringeren Nebenwirkungen für den Patienten verbessert und eine erhöhte Lebensqualität erzielt werden. / Despite state-of-the-art technologies and sophisticated therapeutic and reconstructive surgical methods, the average 5-year survival rate of patients diagnosed with oral squamous cell carcinoma (OSCC) is still only 55% in 2017. Healing methods have barely improved over the last three decades. Therefore, it is important to establish a meaningful tumour model that delivers fast and reliable results in the development of new therapeutic approaches. In this study, Tissue Engineering is used to generate a three-dimensional tumour model integrated into healthy oral mucosa. This enables an ideal analysis of pathological mechanisms in the tumour center, as well as in the margins of healthy and diseased tissue. It also allows the analysis of the effects of novel chemotherapeutic agents on healthy and malignant cells in proximity - without animal testing. Consequently, a considerable progress could be achieved with a higher chance of success of therapeutic approaches. A tumour model, based on a healthy oral mucosa equivalent (OME), is generated in which tumour cells are integrated in order to be able to analyse tumourigenesis and tumour growth in the environment of healthy oral mucosa just as the tumour development would take place in vivo. For this primary fibroblasts, primary keratinocytes and tumour cells were cultured on a matrix of decellularized, porcine, small intestinal submucosa (SIS/MUC). For this FaDu cells were transduced with the lentivirus RFP to be able to distinguish the immigrated cells from healthy cells. The transduction was successful. It was possible to achieve a fluorescence of the cells still cultivated in cell culture dishes. However, the fluorescent cells could no longer be detected in the fixed tissue sections. For the tumour model three different forms of application of the tumour cells on the OMEs have been tested. The application of cell-spots, spheroids or cell mixtures of primary keratinocytes and FaDu tumour cells in previously cultivated OME. The application of spots or spheroids should initiate tumour cell growth even in the environment of healthy tissue. This would enable the in vitro analysation of the area of healthy and pathological tissue in one model. Therefore, the optimal concentration of tumour cells, which is necessary for the tumour development, and the most suitable application method are to be determined to be able to apply a suitable reproducible tumour model. The models were analysed histologically and immunohistochemically, and the results were correlated with determined TEER values. In this work, the application of spots or spheroids did not achieve tumour growth in the environment of healthy oral mucosa. The cells were not responsive to the adjacent stratum corneum on the highly pronounced horn layer of the OME and no migration into the underlying tissue was possible. However, by applying a cell mixture of varying mixing ratios of primary keratinocytes and tumour cells of the FaDu cell line, it has been possible to initiate 3D tumour growth of different malignant stages. The smaller the mixing ratio and the higher the number of FaDu tumour cells, the more pronounced have been the morphological signs of tumour formation. Even if it was no longer possible to mimic a combination of healthy and pathological tissue in a model, clear pathological, malignant tumour models could be generated at least after histological and immunohistochemical investigations. The tumour models consistently showed cellular- and nuclearpleomorphisms, atypical and increased suprabasal mitoses, disruption of normal tissue architecture, the formation of intercellular bridges, single cell dyskeratosis and cornification buds, as well as sites of disruption of the basement membrane and invasion of tumour cells into the underlying lamina propria. All these are clear signs of malignant growth. The results of the TEER value measurement were also consistent with the morphological developments of the models. Thus, the TEER values of the control models rose consistently, which indicates a significant development of continuous tissue. In contrast, the TEER values over the course of time of the tumour models, in which the basal membrane and thus the continuity of the tissue was broken, fell rapidly or were in a constantly low range. The success of the establishment of this reliably reconstructable 3D, in vitro generated tumour model, which is very close to the in vivo situation of a squamous cell carcinoma, offers the science a very good opportunity to carry out further studies on tumour growth. In addition, the further development and improvement of promising, novel chemotherapeutic and radiological therapy methods can be considerably advanced, thereby improving the chances of recovery with fewer side effects for the patient and achieving an increased quality of life. orales Plattenepithelkarzinomäquivalent Tissue Engineering SIS/MUC TEER-Wert Tumormodell ddc:616
4	Expression of mucins in normal salivary glands and mucoepidermoid carcinoma of salivary glands Llupi, Matilda, Qoku, Rabije January 2013 (has links) Mucoepidermoid carcinom (MEC) är en malign mucin-producerande tumör som förekommer i både stora och små spottkörtlar. Syftet med denna studie var att undersöka histologiskt uttryck av muciner (MUC1, MUC4, MUC5AC, MUC5B, MUC6) i MEC för att eventuellt hitta en korrelation mellan kvalitativt mucinuttryck och tumörgrad. Tolv låg- och fem höggradiga MEC och nio normala spottkörtlar intill tumörvävnad undersöktes med hjälp av immunohistokemi där proverna utvärderades med avseende på färgningsmönster och positivitet i specifika celltyper. Normala spottkörtelceller uttryckte främst cytoplasmatiskt mucin MUC5B. MUC1 och MUC4 uttrycktes i normala spottkörtelgångsceller i ungefär hälften av proverna medan MUC5AC uttryck var sällsynt i normala spottkörtlar. MEC:ar uttryckte MUC1, MUC4, MUC5AC och MUC5B. Den apikala delen av membranet i de bägarceller som omger cystiska hålrum visade den starkaste färgningen för MUC1 och MUC4. Uttryck av MUC4 i bägarceller minskade med ökad histologisk grad. Bägarcellers uttryck av MUC5B:s i låggradig MEC var mindre intensivt än uttrycket av MUC5AC i samma celler. Högre uttryck av MUC5B jämfört med MUC5AC noterades i höggradiga tumörer. Sammanfattningsvis uttrycker MEC olika mängd av muciner än normala spottkörtlar. MUC5AC:s uttryck i MEC verkar vara en metaplastisk funktion och MUC4 tycks relatera till tumörens differentieringsgrad. Förhållandet mellan MUC5AC och MUC5B uttryck skulle kunna vara ett användbart verktyg vid diagnostisering och prognosutvärdering av MEC. / Mucoepidermoid carcinomas (MECs) are malignant epithelial mucin-producing tumours encountered in both major and minor salivary glands. The aim of this study was to investigate the histological characteristics of the expression of mucins (MUC1, MUC4, MUC5AC, MUC5B, MUC6) in MECs in search for a possible correlation between qualitative mucin expression and tumour grade. Twelve low-grade, five high-grade MECs and nine normal salivary glands adjacent to tumour tissue were investigated for these mucins by immunohistochemistry. The samples were evaluated with respect to staining pattern and positivity of specific cell types. Normal acinar cells mainly expressed the cytoplasmic mucin MUC5B. MUC1 and MUC4 were expressed in normal ductal cells in approximately half of the samples whereas MUC5AC expression was rare in normal salivary glands. MECs expressed MUC1, MUC4, MUC5AC and MUC5B. The apical membrane of mucous cells lining the cystic cavities showed the strongest staining for MUC1 and MUC4. The expression of MUC4 in mucous cells decreased with increasing histological grade. Expression of salivary mucin MUC5B in mucous cells in low-grade MECs was less intense compared to the expression of MUC5AC in the same cells. In high-grade tumours, a higher expression of MUC5B compared to MUC5AC was noted. In conclusion, MECs express different mucin quantity compared to normal salivary glands. MUC5AC expression in salivary tumour tissue seems to be a metaplastic feature and MUC4 appears to be related to tumour differentiation grade. The relationship between MUC5AC and MUC5B expression could be a useful tool in the diagnosis and estimation of prognosis of MECs. Grading immunohistochemistry MUC mucin mucoepidermoid carcinoma salivary gland Medical and Health Sciences Medicin och hälsovetenskap
5	Natural history and prognostic factors in localized prostate cancer Andrén, Ove January 2008 (has links) <p>The natural history of localized prostate cancer is not fully understood. In most patients the tumor will never progress to a lethal disease, while a subset of patients will ultimately die of the disease. Efficient tools to separate indolent from lethal disease is currently lacking which means that many patients will be offered treatment without any benefit, but still be at risk of experiencing treatment related side effects.</p><p>The aims of these studies were to get more insight into the natural history of untreated localized prostate cancer, to assess the prognostic value of established clinical parameters such as Gleason score, nuclear grade and tumor volume and, moreover, some new prognostic markers Ki-67, AMACR and MUC-1. We also aimed to study time trends in the detection of incidental tumors in Sweden.</p><p>Patients with localized disease (n=223) and no initial treatment were followed for 21 years. Most patients had a favorable outcome. However, a subset of patients developed lethal disease even beyond 15 years of follow-up and these patients define the group that may benefit most from treatment with curative intent. Patients with poorly differentiated tumors experienced a 9 time higher risk of dying in prostate cancer.</p><p>The studies on prognostic markers are based on a cohort of patients (n=253) with incidental prostate cancer detected by transurethral resection for presumed benign hyperplasia. All patients were left without initial treatment. Gleason grade, nuclear grade and tumor volume turned all out to be independent prognostic factors. MUC-1, AMACR and Ki-67 also carried prognostic information. However, after adjustment for Gleason grade, nuclear grade and tumor volume only MUC-1 and AMACR remained as statistically significant prognostic factors. When tested for sensitivity and specificity they all failed and, consequently, they seem to be of less value in daily practice for cancelling an individual patient regarding the choice of treatment.</p><p>Time trends in incidental prostate tumors in Sweden were analyzed in a cohort of patients with prostate tumors detected by transurethral resection (TUR-P). Through linkage of the national registration number (NRN) with several registers, e.g. the Swedish Cancer Registry, the National Inpatient registry and the Cause of Death Registry we identified, during the period 1970 through 2003, in total 23288 patients with incidental prostate cancer, who constituted the study group. As comparison group we choose all patients diagnosed with prostate cancer between 1970-2003 excluding those with incidental cancer, in total 112204 patients. Our result confirms earlier findings that there has been a dramatic change over time in incidence of incidental prostate cancers in Sweden, which parallels the introduction of prostate specific antigen. We also found that the cumulative incidence of prostate cancer death is high in the incidental group, opposing earlier findings that incidental tumours are a non-lethal disease.</p> / issn 1642-4063 Prostate Cancer Natural History Ki-67 Survival Prognostic factor Tumor grade TUR-P Incidental Tumor volume MUC-1 AMACR Urology and andrology Urologi och andrologi
6	Natural history and prognostic factors in localized prostate cancer Andrén, Ove January 2008 (has links) The natural history of localized prostate cancer is not fully understood. In most patients the tumor will never progress to a lethal disease, while a subset of patients will ultimately die of the disease. Efficient tools to separate indolent from lethal disease is currently lacking which means that many patients will be offered treatment without any benefit, but still be at risk of experiencing treatment related side effects. The aims of these studies were to get more insight into the natural history of untreated localized prostate cancer, to assess the prognostic value of established clinical parameters such as Gleason score, nuclear grade and tumor volume and, moreover, some new prognostic markers Ki-67, AMACR and MUC-1. We also aimed to study time trends in the detection of incidental tumors in Sweden. Patients with localized disease (n=223) and no initial treatment were followed for 21 years. Most patients had a favorable outcome. However, a subset of patients developed lethal disease even beyond 15 years of follow-up and these patients define the group that may benefit most from treatment with curative intent. Patients with poorly differentiated tumors experienced a 9 time higher risk of dying in prostate cancer. The studies on prognostic markers are based on a cohort of patients (n=253) with incidental prostate cancer detected by transurethral resection for presumed benign hyperplasia. All patients were left without initial treatment. Gleason grade, nuclear grade and tumor volume turned all out to be independent prognostic factors. MUC-1, AMACR and Ki-67 also carried prognostic information. However, after adjustment for Gleason grade, nuclear grade and tumor volume only MUC-1 and AMACR remained as statistically significant prognostic factors. When tested for sensitivity and specificity they all failed and, consequently, they seem to be of less value in daily practice for cancelling an individual patient regarding the choice of treatment. Time trends in incidental prostate tumors in Sweden were analyzed in a cohort of patients with prostate tumors detected by transurethral resection (TUR-P). Through linkage of the national registration number (NRN) with several registers, e.g. the Swedish Cancer Registry, the National Inpatient registry and the Cause of Death Registry we identified, during the period 1970 through 2003, in total 23288 patients with incidental prostate cancer, who constituted the study group. As comparison group we choose all patients diagnosed with prostate cancer between 1970-2003 excluding those with incidental cancer, in total 112204 patients. Our result confirms earlier findings that there has been a dramatic change over time in incidence of incidental prostate cancers in Sweden, which parallels the introduction of prostate specific antigen. We also found that the cumulative incidence of prostate cancer death is high in the incidental group, opposing earlier findings that incidental tumours are a non-lethal disease. Prostate Cancer Natural History Ki-67 Survival Prognostic factor Tumor grade TUR-P Incidental Tumor volume MUC-1 AMACR Urology and andrology Urologi och andrologi Surgery Kirurgi
7	Syntheses and Immunological Evaluation of Zwitterionic Polysaccharide (PS A1) Based Vaccines Nishat, Sharmeen January 2016 (has links) No description available. Chemistry Zwitterionic polysaccharide Vaccine Tn antigen PS A1, T cell Glycopeptide MUC 1 CD8 T cell CD4 T cell Tetrasaccharide Stereoselective synthesis

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