1989
DOI: 10.1002/jmor.1052000109
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Coarctation of the stapedial artery: An unusual adaptive response to competing functional demands in the middle ear of some eutherians

Abstract: In primitive eutherians, the stapedial artery is the primary supplier of blood to the nonneural tissues of the head. Beyond a certain body size, the stapedial artery can no longer function as the sole supplier to its original territory because the diameter of its stem is limited by the size of the intercrural foramen of the stapes, which exhibits strong negative allometry. Some eutherians have extended the upper limit that the diameter of the stapedial stem can attain by developing a coarctation (narrowing) at… Show more

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Cited by 16 publications
(5 citation statements)
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“…Calcification of soft tissues within the middle ear cavity could contribute in various ways to the conductive hearing loss of Enpp1 asj/asj mice. The stapedial artery is an embryonic artery that disappears at the early embryo stage in humans but is conserved in mice through adult ages [38]. We observed a thickened stapedial artery wall in Enpp1 asj mutant mice, which is likely due to calcification as has been observed in other soft tissues.…”
Section: Discussionsupporting
confidence: 57%
“…Calcification of soft tissues within the middle ear cavity could contribute in various ways to the conductive hearing loss of Enpp1 asj/asj mice. The stapedial artery is an embryonic artery that disappears at the early embryo stage in humans but is conserved in mice through adult ages [38]. We observed a thickened stapedial artery wall in Enpp1 asj mutant mice, which is likely due to calcification as has been observed in other soft tissues.…”
Section: Discussionsupporting
confidence: 57%
“…Later, these branches anastomose to form a branch of the hyoid artery extending caudally, and the root of mandibular artery disappears. While the stapedial artery is a temporary artery and is said to disappear at the late embryonic stage in humans (Padget, 1948), rabbit (Fuchs, 1905) and porcupine (Struthers, 1930), it persists in the adult mouse (Bugge, 1970; Diamond, 1989), as it does in the rat (Tandler, 1902), hyrax (Lindahl & Lundberg, 1946) and chicken (Hughes, 1934; Hiruma & Hirakow, 1995). In some adult mammals, such as the platypus (Tandler, 1902), tree squirrel (Greene, 1935), hedgehog (Michel & Rothkegel, 1960) and golden hamster (Bugge, 1970), it is said that the stapedial artery persists.…”
Section: Discussionmentioning
confidence: 99%
“…This suggests that the stapes is a convenient gate for the passage of the stapedial artery, minimizing the problem of free arterial blood flow. In 1989, Diamond noticed coarctation in rats and the potential impact of low-frequency vibrations produced by the blood flow on the inner diameter of the stapes (Diamond, 1989). There were no anastomoses connecting the system of the stapedial artery and the internal carotid artery.…”
Section: Discussionmentioning
confidence: 99%