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1. Parasite burden in a short-lived chameleon, Furcifer labordi

Author

Falk Eckhardt, Christina Strube, Karina A. Mathes, Frank Mutschmann, Hauke Thiesler, Cornelia Kraus, and Peter M. Kappeler

Subjects
Zoology, QL1-991
Abstract

Life history theory predicts that species with shorter lifespan should show higher investments into growth and reproduction at the expense of immune defenses. Labord's chameleon (Furcifer labordi) is the tetrapod with the shortest known life span. To investigate to which extent immunosenescence influences the die-off of these chameleons when they are only about 6 months old, we examined the gastrointestinal-, blood- and ectoparasite burden in F. labordi in Kirindy Forest (western Madagascar) and compared them with sympatric and longer living F. cf. nicosiai. Moreover, we included data from wild F. labordi that were singly housed under ambient conditions with daily food and water supply. Gastrointestinal parasite prevalence of wild F. labordi increased dramatically during the last 3 months of their lives, which include the reproductive period. Furcifer cf. nicosiai was found to have a belated increase in gastrointestinal parasites compared to F. labordi. In F. cf. nicosiai higher prevalence of blood parasites were found, which probably result from the longer exposure to the arthropod intermediate host. Both species showed infestations with ectoparasites, which peaked in the rainy season but disappeared towards the dry season. Male F. labordi showed a significantly higher prevalence of gastrointestinal - and ectoparasites and higher intensities of coccidians and ectoparasites than females. Males of F. cf. nicosiai exhibited higher prevalence of blood- and ectoparasites, as well as higher intensities in ectoparasites. Caged individuals of both sexes showed delayed senescence, reduced parasite burden and lived longer than their wild conspecifics. Overall, the increase in the prevalence in gastrointestinal - and blood parasites towards the disappearance of the wild population of F. labordi indicates that this species invests comparatively less energy in efficient immune system function, supporting the prediction of life history theory. Keywords: Parasites, Chameleons, Immunosenescence, Aging, Furcifer

Published
2019
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3. Gross anatomy, histology and blood vessel topography of the alimentary canal of the Inland Bearded Dragon (Pogona vitticeps).

Author

Elisabeth Engelke, Christiane Pfarrer, Katharina Radelof, Michael Fehr, and Karina A Mathes

Subjects
Medicine, Science
Abstract

Imaging techniques have proved to be crucial for diagnosis in reptile species. The topography of the internal organs of bearded dragons has been described in recent studies as meeting the small animal practitioners´ demand for knowledge concerning their anatomy. However, the nomenclature in the respective literature is not uniform, which could lead to misunderstandings concerning the respective and/or affected parts of the alimentary canal. Therefore, the aim of this study was to provide clear information on anatomy and histology of the alimentary canal of bearded dragons including supplying blood vessels. For the dissection of the alimentary canal, 11 Inland Bearded Dragons (Pogona vitticeps) were used (five males, six females), which had been euthanised for clinical reasons other than those concerning the digestive tract or had died spontaneously. The supplying arteries were demonstrated by injecting red latex into the aorta, while the intestinal veins were filled with blue latex via the portal vein. Microscopic examination was carried out on specimens of seven additional bearded dragons using routine histologic procedures. Macroscopically, the sections of the alimentary canal from oral to aboral were distinguished into oesophagus, stomach, small intestine, colic ampulla, colic isthmus, rectum and cloaca. Differentiation of the duodenum, jejunum and ileum was only possible when considering the bile duct, the vasculature and the histology of the organ wall. Arteries supplying the oesophagus and the final straight part of the large intestine originated from the aorta in a segmental manner. Between these, three unpaired arteries arose from the aorta. Their branches supplied stomach and intestine excluding its last part. Based on the findings of the present study, a nomenclature for the different parts of the alimentary canal and the supplying blood vessels of bearded dragons is suggested which is well understandable for veterinary practitioners and is based on zoological knowledge of reptiles.

Published
2020
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4. Specific anatomy and radiographic illustration of the digestive tract and transit time of two orally administered contrast media in Inland bearded dragons (Pogona vitticeps).

Author

Karina A Mathes, Katharina Radelof, Elisabeth Engelke, Karl Rohn, Christiane Pfarrer, and Michael Fehr

Subjects
Medicine, Science
Abstract

The aim of this study was to describe the specific gross and radiographic anatomy of the digestive tract of inland bearded dragons (Pogona vitticeps). Eleven bearded dragon cadavers of both sexes (6 females, 5 males) were dissected to examine, measure, and document the specific gross anatomy of the alimentary canal. Measurements collected from the cadavers included snout-vent length, total length of the alimentary canal, and the lengths of the individual sections of the gastrointestinal tract, including the esophagus, stomach, small intestine, ampulla coli, isthmus coli, rectum, and the distance from the coprodeum to the vent opening. Twenty-two healthy adult bearded dragons (13 females, 9 males) maintained under standardized husbandry conditions underwent a physical examination, blood collection, and whole-body dorsoventral and lateral survey radiographs; these animals were used to provide the radiographic images of the complete digestive tract. For the subsequent contrast passage studies, two different contrast media, barium sulfate (BaSO4, Barilux suspension) and an iodinated ionic radiocontrast agent (Sodium meglumine amidotrizoate [SMAT], Gastrografin), were used. Water-diluted Barilux suspension (dose 9 ml/kg) was administered orally to 5 bearded dragons, while Gastrografin (dose 5ml/kg) was administered orally to 21 bearded dragons. Four animals were used for both contrast media studies, but received a break of four weeks in between. Dorsoventral and laterolateral radiographs were collected at 0 (baseline), 15, 30, and 45 minutes and 1, 2, 3, 4, 5, 6, 8, 10, 12, 24, 30, and 36 hours after each contrast medium was administered. Both contrast media were found to illustrate the alimentary tracts in the adult bearded dragons. Transit time was substantially faster with SMAT, and SMAT illustrated the entire gastrointestinal tract within 36 hours; BaSO4 did not fully illustrate the gastrointestinal tract in 36 hours. These results might serve as a guideline for the interpretation of subsequent contrast studies in this lizard species.

Published
2019
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5. Contributors

Author

Sarah Alexander, Kimberly M. Andrews, Frances M. Baines, Stephen Barten, James E. Bogan, Donal M. Boyer, Thomas H. Boyer, Teresa Bradley Bays, Mary B. Brown, Melinda S. Camus, Brendan Carmel, James W. Carpenter, Norin Chai, Leigh Clayton, Jessica R. Comolli, Scott Connelly, John E. Cooper, Margaret E. Cooper, Lara M. Cusack, Daniel Cutler, Andre Daneault, Leticia Mattos de Souza Dantas, Ryan De Voe, Dale F. DeNardo, Geraldine Diethelm, Stephen J. Divers, Andrew M. Durso, Kevin Eatwell, Bruce Ferguson, Shannon T. Ferrell, Kevin T. Fitzgerald, Samuel P. Franklin, Richard S. Funk, Janos Gal, Paul M. Gibbons, Simon Girling, Nicole Gottdenker, Chris Griffin, Craig A. Harms, Tara M. Harrison, J. Jill Heatley, Joanna Hedley, Tom Hellebuyck, Claudia Hochleithner, Shannon P. Holmes, Elizabeth W. Howerth, Craig J-G. Hunt, Charles J. Innis, Robert Johnson, Cathy A. Johnson-Delaney, W. Michael Karlin, Krista A. Keller, Marja J.L. Kik, Michelle Kischinovsky, Eric Klaphake, S. Emi Knafo, Zdenek Knotek, Martin P.C. Lawton, Daniel T. Lewbart, Gregory A. Lewbart, Adolf Maas, Ross A. Machin, John C. Maerz, Christoph Mans, Maud L. Marin, Rachel E. Marschang, An Martel, Albert Martínez-Silvestre, Karina A. Mathes, Joerg Mayer, Stuart McArthur, Colin T. McDermott, Melinda Merck, Jean Meyer, Mark A. Mitchell, Antony S. Moore, Walter Mustin, Koichi Nagata, Giordano Nardini, Javier G. Nevarez, Terry M. Norton, Peter Nowlan, Dorcas P. O'Rourke, Francesco C. Origgi, Jorge Orós, Mariana A. Pardo, Frank Pasmans, Michael Pees, Sean M. Perry, Olivia A. Petritz, Simon R. Platt, Geoffrey W. Pye, Nathalie Rademacher, Paul Raiti, Drury R. Reavill, Leslie Retnam, Jenna Richardson, Sam Rivera, Kelly Rockwell, John V. Rossi, Karen E. Russell, T. Franciscus Scheelings, Lionel Schilliger, Volker Schmidt, Rodney W. Schnellbacher, Juergen Schumacher, Peter W. Scott, Paolo Selleri, Ajay Sharma, Molly Shepard, Shane Simpson, Michelle L. Skurski, Izidora Sladakovic, Kurt K. Sladky, Lora L. Smith, Mauricio Solano, Tolina Tina Son, Scott J. Stahl, Paulo Steagall, Heather D.S. Walden, James F.X. Wellehan, Lori D. Wendland, Cynthia L. West, Brent R. Whitaker, Stacey Leonatti Wilkinson, Elisa Wüst, Jeanette Wyneken, Wilson Yau, Taylor Yaw, and Corry K. Yeuroukis

Published
2019

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