Research

Project Details:
Bisher existieren in der veterinärmedizinischen Lehre keine 3D- gedruckten Simulationsmodelle für Reptilien. Um die klinische Ausbildung der Studierenden zu verbessern soll ein praxisnahes Schildkröten-Simulationsmodell entwickelt und angefertigt werden. Im Rahmen einer Dissertation soll anschließend evaluiert werden, inwieweit das Modell in der praktischen Anwendung von Studierenden im Rahmen von Wahlpflichtkursen an toten Tierkörpern erfolgreich umgesetzt werden kann.

Project Details:
Meerschweinchen werden häufig mit Urinabsatzbeschwerden oder Schmerzen beim Urinabsatz in der tierärztlichen Praxis vorgestellt. Häufig liegen in diesen Fällen bakterielle Infektionen als Ursache vor. Dieses Projekt wertet die mikrobiologischen Untersuchungsergebnisse von Harnuntersuchungen bei Meerschweinchen mit Zystitis aus, welche in den letzten 10 Jahren in der Klinik für Heimtiere, Reptilien und Vögel durchgeführt wurden.

Project Details:
Diese Projekt analysiert Vorstellungsgründe, Symptome, Therapie und den Krankheitsverlauf sowie Spätfolgen von Kaninchen mit einer Enzephalitozoon cuniculi (E.c.)-Infektion. Dazu werden die Untersuchungsergebnisse von Kaninchen mit einem positiven Antikörpertiter gegen E.c. ausgewertet.

Project Details:
Dieses Projekt wertet die Anästhesieprotokolle der Klinik für Heimtiere, Reptilien und Vögel aus. Besonderes Augenmerk liegt hierbei auf der Untersuchung und Ursachenforschung von Narkosezwischenfällen. Außerdem auf der Analyse der verwendeten Medikamente, Narkoseregime und postoperativer Versorgung.

Funding: #

Project Details:
The decline in insect biodiversity with negative consequences for food webs and the loss of ecosystem services is currently dramatic. The causes of the decline in insect diversity are manifold, the qualitative deterioration of their habitats, whether on land or in water, light pollution, habitat loss, competition from invasive species and environmental toxins are just some of the factors. As part of this pilot project, flowering areas and nesting aids for insects are being created on the grounds of the University of Veterinary Medicine Hannover Foundation. The results of a species inventory serve as the basis for targeted measures to improve the habitat. The optimizations, e.g. the creation of flowering areas with regional wildflowers, deadwood areas and insect nesting aids, are only the first steps.
Through these measures to promote key species groups, such as wild bees and butterflies, other groups of organisms can also be promoted through deadweight effects due to the improved structural offer, in order to achieve a sustainable optimization of the entire TiHo site.
Further steps are planned as part of the project, which will be scientifically supported by Bachelor's and Master's theses. The TiHo grounds, which are near-natural in many areas, already provide important habitats for numerous rare animals and plants in the urban environment. These habitats are to be recorded in detail, protected and optimized. Other planned measures include improving the ecological condition of the Bünte pond in the park, creating an interactive insect trail and an exhibition with measures to promote biodiversity in urban areas.

Funding: Verein der Förderer der Wildtierforschung e.V., 5.800 EUR

Project Details:
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Cooperation Partners:

Chadi Touma, Abteilung Verhaltensbiologie, Universität Osnabrück

Funding: QS Fachgesellschaft Geflügel GmbH, 40.000 EUR

Project Details:
The aim of the project is to scientifically evaluate a combination of different approaches in practice and to comprehensively analyze whether the following measures significantly improve animal health and, in particular, reliably prevent enterococcal infections.

Funding: Smithsonian Tropical Research Institute, Panama Secretaria Nacional de Ciencia y Tecnologia, Panama, 18.000 EUR

Project Details:
The evolution of different forms of parental care is an important topic in behavioral ecology, and it involves complex suites of associated parental and offspring traits. For example, some parents provide nourishment or selection and protection of suitable nesting sites for offspring. Understanding how memory guides individuals to locate or return to a reproductive resource is one of the major challenges in studies of animal behavior. During parental care, poison frogs routinely transport their tadpoles from terrestrial clutches to suitable deposition sites, and some individuals return to supply their offspring with nutritive unfertilized eggs. Thus, these frogs rely on spatial memory to exploit resources important for successful reproduction. However, it is unknown how the spatial abilities are related to the parental care traits performed by an individual. The aim of this study is to investigate behavioral spatial strategies and their genetic basis in the strawberry poison-dart frog, Oophaga pumilio. To investigate the spatial strategies in the context of parental care we aim examining ability of females and males to find a goal in a plus maze under experimental conditions. Moreover, we will determine the possible genes involved in spatial learning through gene expression analysis (RNASeq) of the pallium, the brain region known to be involved in spatial learning. Since females perform most parental care duties involving navigation in large home ranges, we expect females to have better spatial abilities than males.

Cooperation Partners:

Dr. Roberto Ibañéz, Ph. D., Smithsonian Tropical Research Institute

Prof. Dr. Klaudia Witte, Universität Siegen

Funding: FAPESP DGHT, 37.713 EUR

Project Details:
The study of the evolutionary processes that originate phenotypic diversity can offer insights into the process of adaptation in natural populations. Coloration patterns variation have intrigued scientists for centuries, and among vertebrates amphibians are one of the most interesting groups, exhibiting a vast variation in coloration, whose function has been mainly associated with UV protection, interspecies communication, and predator avoidance. Despite significant advances made on this topic, the genetic basis of coloration in amphibians is still surprisingly unknown. Herein we propose to deepen in genomic bases of coloration in the genus Brachycephalus, using the aposematic and polymorphic species B. actaeus as model. We are going to use transcriptomic data to identify genes, which are differentially expressed as well as histological sample for gathering information about chromatophore abundance and distribution among colour morphs in this species.

Cooperation Partners:

Prof. Dr. Célio Haddad, UNESP (Brazil)

Dr. Mariana Lyra, New York University, Abu Dhabi

Dr. Andrés Brunetti, Max Plank Institute for Chemical Ecology

Funding: DZIF, BMBF, 115.000 EUR

Project Details:
The main protease 3CLpro is a prominent drug target to control corona virus (CoV) replication and associated disease. The target is structure-enabled, structurally conserved and believed to offer an opportunity for multi-/pan-CoV-inhibitor designs. Pfizer have received an Emergency Use Authorization for their first-generation 3CL inhibitor Paxlovid. This serves the important clinical target validation for Covid-19 but also demands a differentiation strategy for second generation drugs as outlined herein. We will be applying our University of Marburg (UMR) based mouse transduction CoV challenge model, optimized for SARS-CoV-2 variants-of-concern and the dosing of the herein pursued second generation 3CL inhibitors as designed and synthesized by the Lead Discovery Center (LDC). In addition, the frontrunner compound will be tested head-to-head against Paxlovid in the hamster SARS-CoV-2 disease model maintained at University of Veterinary Medicine Hannover. In so doing we contribute to the preclinical proof-of-concept and hopefully the nomination a lead compound of the second generation 3CLpro inhibitors by LDC.

Cooperation Partners:

Prof. Dr. Stephan Becker, Marburg

LDC