@phdthesis{Awadallah2022,
  author    = {Awadallah, Abdelhaleem Aly Ahmed},
  title     = {The Crew of the Sun Bark in the Amduat},
  doi       = {10.25972/OPUS-28711},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-287115},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2022},
  abstract  = {The Amduat is one of the most important Netherworld Books which was recorded in various kinds of Ancient Egyptian sources since the beginning of the 18th dynasty, especially the walls of the royal tombs. The main theme of the Amduat is the journey of the sun god through the underworld where the solar bark and its crew is the central scene of the journey. The study focuses on finding the reasons of choosing the crew's members who manage the sun bark's journey in the Amduat. It also aims at illustrating the functions and responsibilities of each crew member. Following a historical approach, the study analyzes the Pyramid Texts and Coffin Texts as the most important documents before the New Kingdom, and proceeding to the inscriptions and writings of the monuments which contain portrayals and inscriptions of the Amduat in the New Kingdom. Furthermore, it sheds some light on the solar cycle's main features and primary aspects, and tries to scrutinize the date, meaning, and symbolisms of the Amduat and its indications in the earlier sources.},
  language  = {en}
}
@misc{OPUS4-28981,
  title     = {einBlick - Ausgabe 33 - 19. September 2022},
  series = {einBlick},
  volume    = {33/2022},
  journal   = {einBlick},
  organization    = {Julius-Maximilians-Universit{\"a}t W{\"u}rzburg},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-289819},
  year      = {2022},
  abstract  = {Nachrichten aus der Julius-Maximilians-Universit{\"a}t W{\"u}rzburg},
  subject      = {Universit{\"a}t},
  language  = {de}
}
@misc{OPUS4-27457,
  title     = {einBlick - Ausgabe 21 - 31. Mai 2022},
  series = {einBlick},
  volume    = {21/2022},
  journal   = {einBlick},
  organization    = {Julius-Maximilians-Universit{\"a}t W{\"u}rzburg},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-274576},
  year      = {2022},
  abstract  = {Nachrichten aus der Julius-Maximilians-Universit{\"a}t W{\"u}rzburg},
  subject      = {Universit{\"a}t},
  language  = {de}
}
@phdthesis{Voelckel2022,
  author    = {Voelckel, Markus},
  title     = {Zeitaufgel{\"o}ste Spektroskopie von nanoskaligen Halbleitern und Pyrenderivaten},
  doi       = {10.25972/OPUS-27611},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-276119},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2022},
  abstract  = {Um den jahrtausendealten Weg der Menschheit vom Papyrus {\"u}ber Buchdruck und siliziumbasierte Halbleiter in Richtung noch leistungsf{\"a}higerer Technologien zu gehen und weiterhin Heureka-Momente zu schaffen, bieten Kohlenstoffnanor{\"o}hren ein weites Forschungsfeld. Besonders die halbleitenden Charakteristika von SWNTs sowie die Manipulation dieser durch Dotierung bergen viele M{\"o}glichkeiten f{\"u}r zuk{\"u}nftige Anwendungen in moderner Elektrotechnologie. Der Weg zu einer industriellen Implementierung von SWNTs in neuartigen optoelektronischen Bauteilen ließe sich durch eine Ausweitung des Wissens bez{\"u}glich SWNTs und der dotierungsbasierten Anpassung ihrer Eigenschaften ebnen. Mit dieser Erkenntniserweiterung als Zielsetzung wurden im Rahmen dieser Dissertation halbleitende, einwandige (6,5)-Kohlenstoffnanor{\"o}hren als chiralit{\"a}tsreine, polymerstabilisierte Proben untersucht. Die ultrakurzzeitaufgel{\"o}ste Spektroskopie der SWNTs erfolgte an organischen Suspensionen wie auch D{\"u}nnschichtfilmen, die je mittels eines gewissen Quantums an Gold(III)-chlorid dotiert worden waren. So konnten die ablaufenden Dynamiken auf einer ps-Zeitskala untersucht werden. In Kapitel 4 konnte mittels transienter Absorptionsexperimente an redoxchemisch p-dotierter SWNT-Suspensionen zun{\"a}chst gezeigt werden, dass sich die bei optischer Anregung gebildeten Trionen nicht analog zu Exzitonen diffusiv entlang der Nanor{\"o}hre bewegen, sondern lokalisiert vorliegen. Die l{\"a}ngere trionischen Zerfallsdauer nach X\$_1\$- verglichen mit X\$_1^+\$-resonanter Anregung zeugt außerdem davon, dass das Trion aus dem Exziton gespeist wird. Der Einfluss der Dotierung auf die Zerfallsdynamiken von X\$_1\$ und X\$_1^+\$ wurde an SWNT-D{\"u}nnschichtfilmen untersucht. Das Photobleichsignal des Exzitons verschiebt hypsochrom und zerf{\"a}llt schneller mit zunehmender Ladungstr{\"a}gerdichte durch h{\"o}herer Gold(III)-chloridkonzentrationen. Dies resultiert aus dem verringerten Abstand zwischen den Ladungstr{\"a}gern, welche als nichtstrahlende L{\"o}schstellen fungieren. F{\"u}r das X\$_1^+\$-PB ist ein {\"a}hnliches Verhalten zu beobachten. Dabei wird dieses Signal mit weiter steigender Dotierung von einer der H-Bande zuzuordnenden Photoabsorption {\"u}berlagert. Diese l{\"a}sst sich in einer starken S{\"a}ttigung der Dotierung wie auch einer hohen Bandkantenverschiebung begr{\"u}nden. In Kapitel 5 wurde die Gr{\"o}ße der Exzitonen und Trionen in dotierten SWNT-D{\"u}nnschichtfilmen mittels des Phasenraumf{\"u}llmodells bestimmt. Dabei lag besonderes Augenmerk auf der Kompensation des PB/PA-{\"U}berlapps, dem schnellen Zerfall, einem Ausgleich von Differenzen zwischen Anrege- und Absorptionsspektrum sowie dem Anteil intrinsischer/dotierter Nanorohrsegmente, um korrigierte Gr{\"o}ßen \$\xi_\mathrm{k}\$ zu erhalten. F{\"u}r die Trionengr{\"o}ße wurde zus{\"a}tzlich der {\"U}berlapp der Absorptionsbanden einbezogen, um korrigierte Werte \$\xi_{\mathrm{T,k}}\$ zu bestimmen. \$\xi_\mathrm{k}\$ betr{\"a}gt in der intrinsischen Form 6\$\pm\$2\,nm und bleibt bis zu einer Ladungstr{\"a}gerdichte \$n_{\mathrm{LT}}<0.10\$\,nm\$^{-1}\$ etwa gleich, anschließend ist ein Absinken bis auf etwa 4\,nm bei \$n_{\mathrm{LT}}\approx0.20\$\,nm\$^{-1}\$ zu beobachten. F{\"u}r diesen Trend ist die {\"U}berlagerung von Exziton- und H-Bande verantwortlich, da so der Faktor zur Bestimmung des Anteils intrinsischer Nanorohrsegmente an der SWNT verf{\"a}lscht wird. Die Abweichung der intrinsischen Gr{\"o}ße von den in der Literatur berichteten 13\$\pm\$3\,nm ist m{\"o}glicherweise auf Unterschiede in der Probenpr{\"a}paration zur{\"u}ckzuf{\"u}hren. F{\"u}r die Trionengr{\"o}ße ergibt sich bei steigender Dotierung ein {\"a}hnliches Verhalten: Sie betr{\"a}gt f{\"u}r \$n_{\mathrm{LT}}<0.20\$\,nm\$^{-1}\$ 1.83\$\pm\$0.47\,nm, was in der Gr{\"o}ßenordnung in guter {\"U}bereinstimmung mit der Literatur ist. F{\"u}r h{\"o}here Dotierungen sinkt \$\xi_{\mathrm{T,k}}\$ bis auf 0.92\$\pm\$0.26nm ab. Dies erkl{\"a}rt sich dadurch, dass bei h{\"o}herer \$n_{\mathrm{LT}}\$ die H-Bande das Spektrum dominiert, sodass der Einfluss der Absorptionsbanden{\"u}berlagerung nicht mehr vollst{\"a}ndig durch den entsprechenden Korrekturfaktor kompensiert werden kann. Kapitel 6 besch{\"a}ftigte sich anstelle redoxchemischer Dotierung der nanoskaligen Halbleiter mit der (spektro-)elektrochemischen Untersuchung von Vorl{\"a}ufern molekularer Radikale. SWV-Messungen weisen dabei darauf hin, dass die Pyrene Pyr1-Pyr3 entsprechend der Anzahl ihrer Substituenten bei Reduktion Mono-, Bi- beziehungsweise Tetraradikale bilden. Die strukturelle {\"A}hnlichkeit der Molek{\"u}le {\"a}ußert sich in gleichen Reduktionspotentialen wie auch {\"a}hnlichen potentialabh{\"a}ngigen Absorptionsspektren. W{\"a}hrend nur marginale Unterschiede in den PL-Spektren der neutralen und reduzierten Spezies festgestellt werden konnte, lieferte das zeitkorrelierte Einzelphotonenz{\"a}hlen aufschlussreichere Ergebnisse: So wird die Fluoreszenzlebensdauer stark von der Polarit{\"a}t der Umgegbung beeinflusst - bereits die Zugabe des Leitsalzes f{\"u}hrt hier zu {\"A}nderungen. Die durchschnittliche Fluoreszenzlebensdauer \$\tau_{\mathrm{av}}\$ sinkt außerdem mit Reduktion und Radikalbildung; f{\"u}r h{\"o}here Emissionswellenl{\"a}ngen ist \$\tau_{\mathrm{av}}\$ außerdem h{\"o}her. Insgesamt verdeutlichten die Experimente die gute Abschirmung zwischen Pyrenkern und Naphthalimidsubstituenten der Molek{\"u}le sowie die Sensibilit{\"a}t gegen{\"u}ber dem Medium durch TICT, das Vorhandensein von Bi- und Tetraradikalen kann allerdings nicht vollst{\"a}ndig belegt werden, wof{\"u}r EPR-Messugen notwendig w{\"a}ren.},
  subject      = {Dotierung},
  language  = {de}
}
@misc{OPUS4-28994,
  title     = {BLICK 2021 - Jahrbuch der Julius-Maximilians-Universit{\"a}t W{\"u}rzburg},
  volume    = {2021},
  organization    = {Julius-Maximilians-Universit{\"a}t W{\"u}rzburg},
  issn      = {2192-1431},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-289945},
  year      = {2022},
  abstract  = {Die Entwicklung der Universit{\"a}t W{\"u}rzburg im Jahr 2021.},
  subject      = {Bericht},
  language  = {de}
}
@book{OPUS4-28950,
  title     = {Climate Changes Global Perspectives},
  editor    = {Pfeifer, Lena and Klingler, Molina and Nelson-Teutsch, Hannah},
  publisher = {W{\"u}rzburg University Press},
  address   = {W{\"u}rzburg},
  isbn      = {978-3-95826-194-5},
  issn      = {2939-9912},
  doi       = {10.25972/WUP-978-3-95826-195-2},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-289501},
  publisher      = {W{\"u}rzburg University Press},
  pages     = {195},
  year      = {2022},
  abstract  = {Climate Changes Global Perspectives brings together creative approaches to representing environmental crises in a globalized world, which originated in an eponymous symposium hosted virtually by the University of W{\"u}rzburg in August of 2021. This volume, and the unruly texts that claim space here, are written not only to question and challenge standardized patterns of representation, but also to contribute to undisciplining the genres and practices of traditional academic writing by exploring alternative representational form(at)s. Climate Changes Global Perspectives is the first publication in the Challenges of Modernity series, which seeks to collect and make available projects of engaged scholarship in the humanities.},
  subject      = {Environment},
  language  = {mul}
}
@phdthesis{Vyalkova2022,
  author    = {Vyalkova, Anna},
  title     = {Efficacy of approved Smallpox Vaccines in Human and Canine Cancer Therapy: Adipose - tissue derived Stem Cells (ADSC) take up VACV and serve as a protective vehicle for virus delivery to tumors},
  doi       = {10.25972/OPUS-25345},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-253457},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2022},
  abstract  = {Cancer is one of the major causes of mortality in developed countries. In 2020, there were more than 19.3 million new cases of tumor malignancies worldwide, with more than 10 million deaths. The high rates of cancer cases and mortality necessitate extensive research and the development of novel cancer treatments and antitumor agents. In most cases, conventional treatment strategies for tumor therapy are based on chemotherapeutic treatment, which is supplemented with radiotherapy and/or surgical resection of solid tumors [1]. The use of chemotherapy for the treatment of cancer has significant side effects, the most dangerous of which is toxicity [2] [3]. Modern methods of treating tumors focus on specific drug delivery to the tumor site, actively targeting the tumor cells, as well as the reduction of side effects. One of the most promising current approaches is based on oncolytic viruses. Antitumor properties of viruses were documented at the beginning of the 20th century when some cancer patients recovered after acute viral infections, particularly influenza [4]. Vaccinia virus (VACV) is a member of the Poxviridae family, has natural antitumor properties, and provides a good basis for generating efficient recombinant oncolytic strains. Furthermore, VACV has never been shown to integrate into the host genome [5]. VACV is likely one of the safest and well-studied viruses due to extensive research being done in molecular biology and pathophysiology to investigate its potential as a vaccine for smallpox eradication programs. It has been administered to over 200 million people worldwide. VACV antitumor therapeutic effectiveness has been established in xenograft models with a variety of tumor types for human and canine cancers. Furthermore, recombinant oncolytic VACVs expressing genes encoding light-emitting proteins are a big improvement in a treatment strategy that combines tumor-specific therapies and diagnostics. Oncolytic virus treatments are effective in xenograft cancer models in mice, however, the significant improvements found in mice do not always translate to human cancer patients. These therapies should be tested in dogs with spontaneous cancer not only to offer well translatable information regarding the possible efficiency of viral therapy for human cancers but also to improve the health of our household pets as well. Spontaneous canine tumors are starting to be regarded as an essential model of human cancers that can reproduce the tumor microenvironment and immune response of cancer patients [6]. Just as data obtained in dog experiments can improve cancer therapy for human patients, these findings can also be used to improve treatment protocols in canine patients. Hundreds of studies and dozens of reviews have been published regarding the antitumor effects of various recombinants of VACV, but information on the anticancer features of initial, genetically-unmodified "na{\"i}ve" VACV is still limited. In the first studies, we compared different wild-type, non-modified strains of VACV and tested their oncolytic properties on a panel of various cancer cells derived from different organs. In addition, we also tested a protection system based on the "Trojan horse" concept - using a combination of human Adipose tissue-derived Stem Cells (hADSC) and three different wild-type single plaque purified Vaccinia virus strains: W1, L1, and T1. We showed that all tested human cell lines (FaDu, MDA MB 231, HNT-13, HNT-35, and PC-3) are permissive to L0, W0, T0, L1, W1, and L1 infection. Furthermore, we tested the cytotoxicity of VACV in different cancer cell lines (A549, PC-3, MDA-MB 231, FaDu, HNT-13, HNT-25, and HNT-35). All strains lysed the cells, which was most visible at 96 hpi. We also showed that all tested strains could efficiently infect and multiply in hADSC at a high level. In our in vivo study, we tested the therapeutic efficacy of the wild-type Vaccinia viruses L1, W1, and T1 alone or in combination with hADSC. Wild-type VACV strains were tested for their oncolytic efficiency in human lung adenocarcinoma (A549) in a xenograft model. Treatment of A549 tumors with different doses of L1 and W1 as well as with a L1/ADSC or W1/ADSC combination led to significant tumor regression compared to the PBS control. Additionally, the treatment with L1 and W1 and the combination of L1/ADSC and W1/ADSC was well tolerated by the animals. In the case of the wild-type Tian Tan strain, results were not obtained due to the high cytotoxicity of this strain. Therefore, it should be attenuated for further studies. In the second part of the current study, we investigated the oncolytic effect of C1-opt1, W1 opt1, and L3-opt1 strains based on the wild-type Copenhagen, Wyeth, and Lister vaccines with additional expression of turboFP635. Replication and cytotoxicity assays demonstrated that all 3 viruses were able to infect, replicate in and kill canine tumor cell lines STSA-1 and CT1258 in a virus dose- and time- dependent fashion. Cytotoxicity and replication assays were also performed on cultured canine Adipose-derived Mesenchymal Stem Cells (cAdMSC). The results showed that the cells were lysed much slower than the tumor cells. It suggests that these cells can harbour the virus for a long-term period, allowing the virus to spread into the body and there is enough time to reach the primary tumor or metastases before the cell carrier is destroyed. The viral replication in cAdMSC in our study was lower than in canine cancer cells (STSA-1 and CT1258) at the same MOI. After being studied in cell culture, C1 opt1 and their combination with cAdMSC (C1-opt1/cAdMSC) were used in canine STSA 1 tumor bearing nude mice. We tested the oncolytic effect of the C1-opt1 virus alone and in combination with cAdMSC in the canine STSA-1 xenograft mouse model. Altogether, our findings have shown that both C1-opt1 and cAdMSC/C1-opt1 significantly reduced tumor size or eliminated the tumor. There was no significant difference between C1-opt1 alone and cAdMSC/C1-opt1. The virus particles were mostly found within the tumor after 24 dpi, some amount of virus particles were found in the lungs of mice injected with a combination of cAdMSC/C1-opt1 but not in the group injected with virus alone (cAdMSC might get stuck in the lungs and cause virus propagation there). Taken together, this study provided a proof-of-concept that hADSC/cAdMSC can be used as a carrier system for the "Trojan horse" concept. However, it should be confirmed in another experimental model system, such as canine patients. Moreover, these findings suggest that wild-type, non-modified strains of Vaccinia virus isolates can be considered promising candidates for oncolytic virotherapy, especially in combination with mesenchymal stem cells.},
  subject      = {ADSC},
  language  = {en}
}
@phdthesis{Youssef2022,
  author    = {Youssef, Almoatazbellah},
  title     = {Fabrication of Micro-Engineered Scaffolds for Biomedical Application},
  doi       = {10.25972/OPUS-23545},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-235457},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2022},
  abstract  = {Thermoplastic polymers have a history of decades of safe and effective use in the clinic as implantable medical devices. In recent years additive manufacturing (AM) saw increased clinical interest for the fabrication of customizable and implantable medical devices and training models using the patients' own radiological data. However, approval from the various regulatory bodies remains a significant hurdle. A possible solution is to fabricate the AM scaffolds using materials and techniques with a clinical safety record, e.g. melt processing of polymers. Melt Electrowriting (MEW) is a novel, high resolution AM technique which uses thermoplastic polymers. MEW produces scaffolds with microscale fibers and precise fiber placement, allowing the control of the scaffold microarchitecture. Additionally, MEW can process medical-grade thermoplastic polymers, without the use of solvents paving the way for the production of medical devices for clinical applications. This pathway is investigated in this thesis, where the layout is designed to resemble the journey of a medical device produced via MEW from conception to early in vivo experiments. To do so, first, a brief history of the development of medical implants and the regenerative capability of the human body is given in Chapter 1. In Chapter 2, a review of the use of thermoplastic polymers in medicine, with a focus on poly(ε-caprolactone) (PCL), is illustrated, as this is the polymer used in the rest of the thesis. This review is followed by a comparison of the state of the art, regarding in vivo and clinical experiments, of three polymer melt AM technologies: melt-extrusion, selective laser sintering and MEW. The first two techniques already saw successful translation to the bedside, producing patient-specific, regulatory-approved AM implants. To follow in the footsteps of these two technologies, the MEW device parameters need to be optimized. The MEW process parameters and their interplay are further discussed in Chapter 3 focusing on the importance of a steady mass flow rate of the polymer during printing. MEW reaches a balance between polymer flow, the stabilizing electric field and moving collector to produce reproducible, high-resolution scaffolds. An imbalance creates phenomena like fiber pulsing or arcing which result in defective scaffolds and potential printer damage. Chapter 4 shows the use of X-ray microtomography (µCT) as a non-destructive method to characterize the pore-related features: total porosity and the pore size distribution. MEW scaffolds are three-dimensional (3D) constructs but have long been treated in the literature as two-dimensional (2D) ones and characterized mainly by microscopy, including stereo- and scanning electron microscopy, where pore size was simply reported as the distance between the fibers in a single layer. These methods, together with the trend of producing scaffolds with symmetrical pores in the 0/90° and 0/60/120° laydown patterns, disregarded the lateral connections between pores and the potential of MEW to be used for more complex 3D structures, mimicking the extracellular matrix. Here we characterized scaffolds in the aforementioned symmetrical laydown patterns, along with the more complex 0/45/90/135° and 0/30/60/90/120/150° ones. A 2D pore size estimation was done first using stereomicroscopy, followed by and compared to µCT scanning. The scaffolds with symmetrical laydown patterns resulted in the predominance of one pore size, while those with more complex patterns had a broader distribution, which could be better shown by µCT scans. Moreover, in the symmetrical scaffolds, the size of 3D pores was not able to reach the value of the fiber spacing due to a flattening effect of the scaffold, where the thickness of the scaffold was less than the fiber spacing, further restricting the pore size distribution in such scaffolds. This method could be used for quality assurance of fabricated scaffolds prior to use in in vitro or in vivo experiments and would be important for a clinical translation. Chapter 5 illustrates a proof of principle subcutaneous implantation in vivo experiment. MEW scaffolds were already featured in small animal in vivo experiments, but to date, no analysis of the foreign body reaction (FBR) to such implants was performed. FBR is an immune reaction to implanted foreign materials, including medical devices, aimed at protecting the host from potential adverse effects and can interfere with the function of some medical implants. Medical-grade PCL was used to melt electrowrite scaffolds with 50 and 60 µm fiber spacing for the 0/90° and 0/60/120° laydown patterns, respectively. These implants were implanted subcutaneously in immunocompetent, outbred mice, with appropriate controls, and explanted after 2, 4, 7 and 14 days. A thorough characterization of the scaffolds before implantation was done, followed by a full histopathological analysis of the FBR to the implants after excision. The scaffolds, irrespective of their pore geometry, induced an extensive FBR in the form of accumulation of foreign body giant cells around the fiber walls, in a manner that almost occluded available pore spaces with little to no neovascularization. This reaction was not induced by the material itself, as the same reaction failed to develop in the PCL solid film controls. A discussion of the results was given with special regard to the literature available on flat surgical meshes, as well as other hydrogel-based porous scaffolds with similar pore sizes. Finally, a general summary of the thesis in Chapter 6 recapitulates the most important points with a focus on future directions for MEW.},
  language  = {en}
}