Zusammenfassung
Die Entwicklung aller Speicheldrüsen erfolgt aus der ektodermalen Mundbucht durch solide Epithelsprossen der Mundschleimhaut. Die Anlage der Submandibularis findet in der 6. Embryonalwoche statt, die der Parotis in der 7. und die der Sublingualis in der 9. Embryonalwoche. Bis zum Ende des 3. Embryonalmonates haben alle Speicheldrüsen ihren definitiven Platz erreicht. Dabei hat sich die Parotis am weitesten von ihrem oralen Aussprossungspunkt entfernt.
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Literatur
Adi MM, Chisholm DM, Waterhouse JP (1994) Stereological and immunohistochemical study of development of human fetal labial salivary glands and their S-loo protein reactivity. J Oral Pathol Med 23: 36–40
Brown RB, Gailard RA, Turner JA (1953) The significance of aberrant or heterotopic parotid gland tissue in lymph nodes. Am Surg 138: 850–856
Donath K, Dietrich H, Seifert G (1978) Entwicklung und ultrastrukturelle Cytodifferenzierung der Parotis des Menschen. Virchows Arch A Pathol Anat 378: 297–314
Gibson MHL (1983) The prenatal human submandibular gland: A histological, histochemical and ultrastructural study. Anat Anz (Jena) 153: 91–105
Goodman AD, Stern IB (1972) The embryologic and functional development of the labial salivary glands of man. J Dent Res 51: 990–999
Haneke E, Wilhelm G (1984) Altersveränderungen der Lippenspeicheldrüsen–eine morpho-metrische Analyse. Dtsch Z Mund Kiefer Gesichtschir 8: 291–293
Hayashi Y, Takemura T, Hirokawa K (1989) Expression of neuron-specific enolase, Leu-7, and neuropeptides in human fetal salivary gland epithelium. J Histochem Cytochem 37: 1147–1152
Jaup T, Caselitz J (1983) Das Verteilungsmuster von membrangebundenen und intrazytoplasmatischen Substanzen in der fetalen und kindlichen Parotis. Dtsch Z Mund Kiefer Gesichtschir 7: 221–224
Kadoya Y, Yamashina A (1989) Intracellular accumulation of basement membrane components during morphogenesis of rat submandibular gland. J Histochem Cytochem 37: 1387–1392
Kurashima C, Hirokawa K (1986) Age-related increase of focal lymphocytic infiltration in the human submandibular glands. J Oral Pathol 15: 172–178
Kurashima Ch, Utsuyama M, Hayashi Y, Hirokawa K (1994) Epithelial class II MHC antigen normally expressed by submandibular glands of elderly people. Pathobiology 62: 292–297
Lee SK, Lim CY, Chi JG, Yamada K, Hashimura K, Kunikata M, Mori M (1990) Prenatal development of human major salivary glands and immunohistochemical detection of keratins using monoclonal antibodies. Acta Histochem 89: 213–235
Lee SK, Hwang JO, Chi JG, Yamada K, Mori M (1993a) Prenatal development of myoepithelial cell of human submandibular gland observed by immunohistochemistry of smooth muscle actin and rhodamine-phalloidin fluorescence. Pathol Res Pract 189: 332–341
Lee SK, Kim ECh, Chi JG, Hashimura K, Mori M (1993b) Immunohistochemical detection of S-loo, S-1oo alpha, S-ioo beta proteins, glial fibrillary acidic protein, and neuron specific enolase in the prenatal and adult human salivary glands. Pathol Res Pract 189: 1036–1043
Lee SK, Lim CY, Chi JG, Hashimura K, Yamada K, Kunikata M, Mori M (1993c) Immunohisto-chemical study of lymphoid tissue in human fetal salivary gland. J Oral Pathol Med 22: 23–29
Scott J (1987) Structural age changes in salivary glands. Front Oral Physiol 6: 40–62
Scott J, Flower EA, Burns J (1987) A quantitative study of histological changes in the human parotid gland occurring with adult age. J Oral Pathol 16: 505–510
Seifert G, Donath K (1976) Die Morphologie der Speicheldrüsenerkrankungen. Arch Otorhinolaryngol 213: 111–208
Seifert G, Geiler G (1956) Zur Pathologie der kindlichen Kopfspeicheldrüsen. Beitr Pathol Anat 116: 1–38
Syrjänen S (1984) Age-related changes in structure of labial minor salivary glands. Age Ageing 13: 159–165
Waterhouse JP, Chisholm DM, Winter RB, Patel M, Yale RS (1973) Replacement of functional parenchymal cells by fat and connective tissue in human submandibular salivary glands: An age-related change. J Oral Pathol Med 2: 16–27
Wilde PCM de, Baak JPA, Houwelingen JC van, Kater L, Slootweg PJ (1988) Morphometric study of histological changes in sublabial salivary glands due to aging process. J Clin Pathol 39: 406–417
Zimmerman AA, Zeidenstein S (1951) The origin and distribution of the labial and buccal glands in human fetus. J Dent Res 30: 587–598
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© 1996 Springer-Verlag Berlin Heidelberg
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Seifert, G. (1996). Entwicklung der Speicheldrüsen. In: Oralpathologie I. Spezielle pathologische Anatomie, vol 1 / 1. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-61083-7_5
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DOI: https://doi.org/10.1007/978-3-642-61083-7_5
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