Zoo and Wild Animal Dentistry. Группа авторов

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interest. This led to the formation of the American Veterinary Dental Society in 1976, and to recognition of dentistry as an area of veterinary specialization starting in 1987. The leaders of this group of board‐certified veterinary dentists included several who, like their dental colleagues mentioned above, volunteered their time as consultants to zoos; early examples were: Drs. Chuck Williams (National Zoo, Washington DC), Ben Colmery (Detroit Zoo), Bob Wiggs (Dallas Zoo), Don Ross (Houston).

      A critical step in the development of zoo and wildlife dentistry has been the willingness of these, and later individuals, to share their experience; there have been two Zoo and Wildlife Dentistry conferences, with abstracts of one of these meetings published in the Journal of Veterinary Dentistry.

      As the content of this book will demonstrate, there are very unique challenges associated with zoo and wildlife dentistry; sharing information about successes and failures is critical to minimize the risk of repetition of failure during the learning curve of individual veterinary dentists. This book is designed to provide a strong collective foundation in that regard.

      In 2017, the American Veterinary Dental College recognized the increasing interest in zoo and wildlife dentistry by establishing an AVDC Zoo and Wildlife Dentistry Certificate program. A Delphi process and examination resulted in recognition of 15 founding AVDC‐ZWD Certificate holders. They are: Drs. Kris Bannon, Jan Bellows, David Clarke, Stephen Coles, Edward Eisner, Roberto Fecchio, Nadine Fiani, Barron Hall, Steven Holmstrom, Loic Legendre, Michael Lowder, Clarence Sitzman, Gerhard Steenkamp, Frank Verstraete and Douglas Winter. This process included developing a list of publications on zoo and wildlife dentistry and related topics, which the ZWD Certificate Organizing Committee plans to make available. Though AVDC‐ZWD certificate holder status is limited to veterinarians, a list of human dentists who have contributed significantly to the development of zoo and wildlife dentistry is under consideration for recognition for honorary status in the ZWD Certificate program.

      This chapter is based on a review of some of the classic histories of veterinary medicine, a recent description of veterinary dental history, a personal collection of veterinary antiquaria accumulated over the last 50 years that includes items dating to the seventeenth century, and personal interactions with the pioneers in zoo and wildlife dentistry. There may be some important sources that I have missed. I would appreciate receiving comments on this chapter, and, in particular, details of any sources that I have not included, or corrections of or different interpretations of material that I have included.

       Peter P. Emily

       Lakewood, CO, USA

      The history of teeth mirrors the evolution of the world. As environmental changes occurred, teeth needed to adapt for survival. Except for fossilized contents, teeth were the best clue to the diets that changed dentition over time.

      As teeth became more specialized, the fixation to the jaws by bony attachment evolved. In particular, Pleurodont, Acrodont, Thecodont, and Prothecodont dentition evolved. These forms of attachment still remain to the present day.

      In the long Carboniferous period, adaptation to land evolved among the oldest reptiles, the synapsid Pleosaurs. The Transition from gill‐breathing to lung‐breathing tetrapods took place toward the end of the Devonian period, 200 plus million years BCE. Therapsids bridged the chasm between the reptiles and primitive mammals. Therapsidia had several families that were partially herbivorous and partially carnivorous. Dicynodon had only one single tooth on each side of the maxilla. Some were toothless herbivores. A second subgroup of therapsids was composed of theridonts and cynodonts. They were possibly the first to show mammal‐like heterodontous dentition.

Schematic illustration of the structure of adenosine triphosphate.

      Source: A.S. Romer [1].

      The Pelycosaurs showed the beginnings of a segregation of the dentition into pre‐canine and post‐canine tooth series. Later, advanced synapsids possessed differentiation of tooth form in different regions of their dentition. In the late Triassic period, some forms of reptiles such as Ictidosauria, had mammal‐like teeth, yet belonged to a class of reptiles.

Schematic illustration of glycolysis and alcoholic fermentation pathway.

      Source: A.S. Romer [2].

Schematic illustrations of (a) the structure of nicotinamide adenine dinucleotide in the oxidized form. (b) Equilibrium reaction between the oxidized and reduced forms.

      Figure 2.3 Edaphosaurus (From Romer [1968] [2]).

      Source: Teeth and Dentition in the Different Groups of Vertebrates page 172, as published in Comparative Odontology, by Bernhard Peyer, translated and edited by Rainer Zangerl, with a forward by Alfred S. Romer with permission. University of Chicago Press 1968. Library of Congress Catalog Card number 66‐20578. Previously published in A.S. Romer an L.I. Price's article “Review of the Pelycosauria” in Geological Society of America Special publications, Volume 28. GS of A Special Publications allows “use up to three items (…figures…) from GSL published material without permission or charge

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