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Anatomical Science International
Published in: Anatomical Science International 3/2014

01-06-2014 | Original Article

Morphological variations of the vallate papillae in some mammalian species

Authors: Ashraf A. El Sharaby, Samir A. El-Gendy, Mohamed A. Alsafy, Ahmed G. Nomir, Satoshi Wakisaka

Published in: Anatomical Science International | Issue 3/2014

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Abstract

The morpho-structural characteristics of the vallate papillae of the tongue of rat, dog, donkey and buffalo were investigated by macroscopy and their microstructure by light and scanning electron microscopy (SEM). The numbers of vallate papillae varied among the different species. In rat, a single vallate papilla surrounded by incomplete groove and an annular fold was observed. Taste buds were detected along the entire length of the medial and lateral groove epithelium, but not in the papillary dome. In dog, some papillae lacking the annular pad had irregular ridges and grooves toward the center of the papillary surface, while other papillae had small secondary papillary grooves arising from the center of the papilla. Taste buds were located in the medial and lateral epithelium of both primary and secondary grooves as well as in the dome epithelium. In donkey, two papillae were frequently observed around the midline of the tongue root, and an additional papilla was found occasionally in the middle and associated with secondary papilla. In buffalo, several papillae were relatively small and variable in shape. With SEM, small ridges and grooves were found in the papillae of donkey and buffalo. In both species, taste buds were constantly observed along the medial wall epithelium, but no taste buds were found in the lateral wall. We conclude that the vallate papillae exhibited peculiar characteristics, which are species specific and might have a correlation with the variable feeding habits among these animals.
Literature
Abd-Elnaeim MM, Zayed AE, Leiser R (2002) Morphological characteristics of the tongue and its papillae in the donkey (Equus asinus): a light and scanning electron microscopical study. Ann Anat 184:473–480PubMedCrossRef
AhPin P, Ellis S, Arnott C, Kaufmann MH (1989) Prenatal development and innervation of the circumvallate papilla in the mouse. J Anat 162:33–42PubMedCentralPubMed
Asami Y, Asami T, Kobayashi K (1995) Light microscopic and scanning electron microscopic studies on the lingual papillae and stereo structure of the connective tissue cores in cattle. Shigaku (Odontology) 82:1223–1244
Bargmann W (1981) Histologia y anatomia microscopica humana. Expaxs, Barcelona (Quoted by Chamaro et al. 1986)
Chamorro CA, de Paz P, Sandoval J, Fernandez J (1986) Comparative scanning electron-microscopic study of lingual papillae in two species of domestic mammals (Equus caballus and Bos taurus). 1. Gustatory papillae. Acta Anat 125:83–87PubMedCrossRef
Chamorro CA, Fernandez JG, de Paz P, Pelaez B, Sandoval J (1994) Scanning electron-microscopy of wild boar and pig lingual papillae. Histol Histopathol 9:657–667PubMed
Chou HC, Chien CL, Lu KS (2001) The distribution of PGP9: 5, BDNF and NGF in the vallate papilla of adult and developing mice. Anat Embryol 204:161–169PubMedCrossRef
El-Sharaby A, Ueda K, Wakisaka S (2001) Differentiation of the lingual and palatal gustatory epithelium of the rat as revealed by immunohistochemistry of α-gustducin. Arch Histol Cytol 64:401–409PubMedCrossRef
Emura S, Tamada A, Hayakawa D, Chen H, Shoumura S (2000a) Morphology of the dorsal lingual papillae in the barbary sheep Ammotragus lervia. Okajimas Folia Anat Jpn 77(2–3):39–45PubMedCrossRef
Emura S, Tamada A, Hayakawa D, Chen H, Shoumura S (2000b) Morphology of the dorsal lingual papillae in the bush dog (Speothos venaticus). Okajimas Folia Anat Jpn 77:137–142PubMedCrossRef
Emura S, Okumura T, Chen H (2008) Morphology of the lingual papillae and their connective tissue cores in the Cape Hyrax. Okajimas Folia Anat Jpn 85:29–34PubMedCrossRef
Erdunchaolu E, Takehana K, Yamamoto E, Kobayashi A, Cao G, Baiyin Ueda H, Tangkawattana P (2001) Characteristics of dorsal lingual papillae of the bactrian camel (Camelus bactrianus). Anat Histol Embryol 30:147–151CrossRef
Fahrennbach WH, Knutson DD (1975) Surface adaptation of the vertebrate epidermis to friction. J Invest Dermatol 65:39–44CrossRef
Hard-af-Segerstated C, Hellekant G (1989) The sweet taste in the calf, II. Glossopharyngeal nerve responses to taste stimulation of the tongue. Physiol Behav 45:1043–1047CrossRef
Hosley MA, Oakley B (1987) Postnatal development of the vallate papillae and taste buds in rat. Anat Rec 218:216–222PubMedCrossRef
Inatomi M, Kobayashi K (1999) Comparative morphological studies on the tongue and lingual papillae of the Japanese black bear (Carnivora) and the Mountain goat (Artiodactyla). Shigaku (Odontology) 87:313–328
Iwasaki S (2002) Evolution of the structure and function of the vertebrate tongue. J Anat 20:1–13CrossRef
Iwasaki S, Miyata K, Kobayashi K (1988) Scanning electron microscopic study of the dorsal lingual surface of the squirrel monkey. Acta Anat 132:225–229PubMedCrossRef
Iwasaki S, Yoshizawa H, Kawahara I (1997) Study by scanning electron microscopy of the morphogenesis of three types of lingual papilla in the rat. Anat Rec 247:528–541PubMedCrossRef
Kobayashi K, Miyata K, Takahashi K, Iwasaki S (1988) Developmental and morphological changes in dog lingual papillae and their connective tissue papillae. In: Regeneration and development, Proceedings of the 6th international M. Singer Symposium, Maebashi, Japan, pp 609–618
Kobayashi K, Mitaka K, Asami T, Kitajima K, Takahashi K, Iwasaki S, Sasagawa I (1989a) Three-dimensional structure of the connective tissue core of the lingual papillae in the crab-eating macaque (Macaca fascicularis). Shigaku 77(4):1308–1317PubMed
Kobayashi K, Miyata K, Iwasaki S, Takahashi K (1989b) Three-dimensional structure of the connective tissue papillae of the tongue in Suncus murinus. Jpn J Oral Biol 31(4):363–371CrossRef
Kubota K (1988) Guide book of anatomy—the way to clarification of the mastication system. Nihon-Shika-Hyoron, Tokyo, pp 50–65
Kumar P, Kumar S, Singh S (1998) Tongue papillae in the goat: a scanning electron microscopic study. Anat Histol Embryol 27:355–357PubMedCrossRef
Kurtul I, Atalgin SH (2008) Scanning electron microscopic study on the structure of the lingual papillae of the Saanen goat. Small Rumin Res 80:52–56CrossRef
Miyata K, Iwasaki S, Takahashi K (1990) Three-dimensional structure of the connective tissue papillae of tongue in Suncus murinus. Jpn J Oral Biol 31:363–371
Omran SN (1978) Morphological and histochemical studies on the tongue of camel (Camelus dromedarius). MVS Thesis, Vet Med Baghdad, Iraq
Prakash P, Rao GS (1980) Anatomical and neurohistological studies on the tongue of the Indian buffalo (Bubalus bubalis). Acta Anat 107:373–383PubMedCrossRef
Qayyum MA, Beg ANM (1975) Anatomical and neurohistological observations on the tongue of the Indian goat, Capra aegagrus. Acta Anat 93:554–567PubMedCrossRef
Qayyum MA, Fatani JA, Mohajir AM (1988) Scanning electron microscopic study of the lingual papillae of the one-humped camel Camelus dromedarius. J Anat 160:21–26PubMedCentralPubMed
Scala G, Mirabella N, Corona M, Pelagalli GV (1995) Morphostructural characteristics of the vallate papillae in Bos taurus. Ital J Anat Embryol 100(Suppl 1):359–365PubMed
Sperry DG, Wassersug RT (1976) A proposed function for microridges on epithelial cells. Anat Rec 185:253–258PubMedCrossRef
Tadjalli M, Pazhoomand R (2004) Tongue papillae in lambs: a scanning electron microscopic study. Small Rumin Res 54:157–164CrossRef
Wakisaka S, Daikoku H, Miyawaki Y, Youn SH, Maeda T, Kurisu K (1998) Immunohistochemical observation of growth-associated protein 43 (GAP-43) in the developing circumvallate papilla of the rat. Cell Tissue Res 293:499–507PubMedCrossRef
Metadata
Title
Morphological variations of the vallate papillae in some mammalian species
Authors
Ashraf A. El Sharaby
Samir A. El-Gendy
Mohamed A. Alsafy
Ahmed G. Nomir
Satoshi Wakisaka
Publication date
01-06-2014
Publisher
Springer Japan
Published in
Anatomical Science International / Issue 3/2014
Print ISSN: 1447-6959
Electronic ISSN: 1447-073X
DOI
https://doi.org/10.1007/s12565-013-0215-9

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