The peculiarities of the masticator muscles in rodents

SPATARU, Constantin; Spataru, Mihaela Claudia; Vulpe, V.; Lazăr, Mircea

doi:10.1590/s0102-09352013000300021

Cited by 6 publications

(7 citation statements)

References 10 publications

(15 reference statements)

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“…The transverse artery of the face is well developed and emits many masseteric branches in correlation with the development of the masseter muscle at this species (Spataru et al, 2013).…”

Section: Resultsmentioning

confidence: 77%

Angioarchitectonics and Distribution of Common Carotid Artery Terminals in Domestic Rabbit

Covașă¹,

Munteanu²

2019

BUASVMCN-VM

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The purpose of these investigations was to describe the distribution particularities of the common carotid artery in domestic rabbit in correlation with the data in the field. Researches were performed on 6 domestic rabbits, 4 males and 2 female, aged 1-3 years. The common carotid artery was injected with gelatine suspension coloured with Chinese India ink, followed by its dissection. The occipital and internal carotid arteries are detached together in four cases, or separately in the rest of them, from the dorso-medial part of the common carotid artery. Facial and lingual arteries are detached separately, not together, both of which having a large diameter. The superficial temporal trunk which is very developed and long has a sinuous traject between parotid gland acini where it forms two loops. Nearby its origin, the transverse artery of the face has a curved path due to propulsion and retropulsion movements of the temporo-mandibular joint.

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“…The transverse artery of the face is well developed and emits many masseteric branches in correlation with the development of the masseter muscle at this species (Spataru et al, 2013).…”

Section: Resultsmentioning

confidence: 77%

Angioarchitectonics and Distribution of Common Carotid Artery Terminals in Domestic Rabbit

Covașă¹,

Munteanu²

2019

BUASVMCN-VM

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“…In humans, Madeira [12], Standring [24], and Khan and Bordoni [13] would claim the mastoid incisure of the temporal bone as being the point of muscle origin. In the domestic ruminants [1,11], equines [1,15,25], crabeating raccoon [16], red squirrel [21], black-eared opossum, moonrat, white-tailed deer, fox squirrel, and brown rat [17], the digastric muscle would pursue its path from its caudal belly, by means of a strong intermediate tendon, to have its continuity rostrally interrupted by the emergence of the rostral belly of the digastric muscle. Peculiarly in equines, the caudal belly would present the occipitomandibular part set laterally and inserted in the caudal edge of the angle of the mandible [1,15,25,26].…”

Section: Discussionmentioning

confidence: 99%

“…Spataru et al [ 21 ] whilst studying the red squirrel ( Sciurus vulgaris ), and Ferreira et al [ 22 ] whilst analyzing the black-capped capuchin ( Cebus apella ), have pointed out that the digastric muscle would originate in the paracondylar process of the occipital bone however, in the first species mentioned the origin would also involve the caudoventral region of the tympanic bulla. Yet, in rabbits, the anatomic region quoted by Muhl and Newton [ 23 ] has been the paramastoid process at the base of skull.…”

Section: Discussionmentioning

confidence: 99%

“…Spataru et al [ 21 ] described that, in the red squirrel, the attachment of the rostral belly of the digastric muscle would take place together with the mylohyoid and geniohyoid muscles upon the merger of the same in the intermandibular space. Yet, in the moonrat, the muscle insertion has been visualized on the ventrolateral surface of the mandible, ventralwise to the lower molars.…”

Section: Discussionmentioning

confidence: 99%

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Comparative study of the digastric and the stylohyoid muscles between wild boars (Sus scrofa scrofa) and domestic swine (Sus scrofa domesticus): revisiting the gross anatomy

Magalhães¹,

Barcelos

Romão

et al. 2021

Anat Cell Biol

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Considering Suidae Familie as a perfect and viable experimental biomedical model for research applied to human medicine, it has been sought to describe the comparative anatomy of the digastric and the stylohyoid muscles between boars and domestic swine. Heads of Sus scrofa scrofa and Sus scrofa domesticus were dissected. The digastric muscle presented only one muscle belly as anatomical component of a tendinous origin in the jugular process of the occipital bone, and muscle insertion in the midventral edge of the caudal two thirds of the body of the mandible. Thus, its function is fundamentally associated with the lowering and the retracting of the mandible which, by the way, can deliver greater muscle power at lesser energy expense. For the stylohyoid muscle, the tendinous origin was in the laterocaudal edge of the dorsal third of the stylohyoid bone. The muscle insertion -primarily, was in the lateral and caudal edges from the mid third portion up to the ventral extremity of the thyrohyoid bone, and secondarily as a laterolateral aponeurotic blade which would unite, in a bilateral manner, an insertion that was common to the sternohyoid, the geniohyoid, and the mylohyoid muscles in a median ventral region. This morphology were similar to the two specimens studied expanding the information available, which were completely unknown for the suidae until the moment.

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“…Pero sí que aparecen diferencias entre las dos especies estudiadas, tanto de tamaño como de forma, presentando S. brasiliensis un cráneo de menor longitud que S. floridanus -algo lógico si se atiende al menor peso corporal y longitud corporal de esta última especie-, y siendo aquel más corto de cara y más ancho de bóveda. Al tratarse de estructuras no especialmente importantes de inserción muscular, ni albergar externamente estructuras funcionales (como podría ser todo lo relacionado con la vista) (Spataru et al, 2013;Watson et al, 2014), y vistos los requerimientos ecológicos similares para ambas especies estudiadas (Castañeda et al, 2015), este estudio sugiere que esta variación de la forma entre especies podría tratarse de un mero cambio derivado de la diferencia . Los hitos situados en la bóveda craneal (9, 10 y 11) fueron los que más diferencias presentaron entre especies.…”

Section: Discussionunclassified

Estudio del cráneo mediante morfometría geométrica en dos especies de <em>Sylvilagus</em> Gray, 1867 (Mammalia: Lagomorpha)

Casanova

2019

GRAELLSIA

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Dentro del género Sylvilagus Gray, 1867 se reconocen, entre otras, las especies Sylvilagus brasiliensis (Linnaeus, 1758) y Sylvilagus floridanus (J.A. Allen, 1890) los estudios morfológicos disponibles de las cuales son muy extensos. Por ello, se realizó un estudio comparativo de la conformación craneal en ambas especies empleando técnicas de morfometría geométrica. Para ello se estudió un total de 31 cráneos de S. brasiliensis y 16 S. floridanus en los que, a partir de las fotografías, se situaron 12 hitos anatómicos en el plano dorsal. No aparecieron diferencias entre sexos pero sí entre especies, tanto en tamaño como en forma, presentando S. brasiliensis un cráneo de menor longitud pero más ancho que S. floridanus. Al tratarse de puntos no especialmente importantes de inserción muscular, ni albergar externamente estructuras funcionales importantes (como podría ser todo lo relacionado con la visión), y en vista de los requerimientos ecológicos similares para ambas especies estudiadas, se interpreta que las diferencias detectadas son debidas a un mero cambio derivado de la diferencia de tamaño entre las dos especies –S. brasiliensis es de menor tamaño que S. floridanus-. Dicho de otro modo: la reducción del tamaño craneal no implicaría una mera versión reducida de la forma (una “reducción harmónica”), sino que exigiría cambios heterotópicos, un rediseño estructural derivado de la reducción en tamaño. Suponemos que estas diferencias regionales en la estructura craneal son más debidas a cambios en los patrones de desarrollo que a una diferencia en las estrategias de vida para ambas especies, a la vista de los requerimientos ecológicos similares entra ambas especies estudiadas.

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The peculiarities of the masticator muscles in rodents

Cited by 6 publications

References 10 publications

Angioarchitectonics and Distribution of Common Carotid Artery Terminals in Domestic Rabbit

Angioarchitectonics and Distribution of Common Carotid Artery Terminals in Domestic Rabbit

Comparative study of the digastric and the stylohyoid muscles between wild boars (Sus scrofa scrofa) and domestic swine (Sus scrofa domesticus): revisiting the gross anatomy

Estudio del cráneo mediante morfometría geométrica en dos especies de <em>Sylvilagus</em> Gray, 1867 (Mammalia: Lagomorpha)

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