Feline Dentistry. Jan Bellows
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Название: Feline Dentistry

Автор: Jan Bellows

Издательство: John Wiley & Sons Limited

Жанр: Биология

Серия:

isbn: 9781119568032

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СКАЧАТЬ called the palatoglossal arches (also known as the anterior pillars of the fauces). The palatoglossus muscle runs in the anterior palatoglossal arch, and the palatopharyngeus muscle runs in the palatopharyngeal arch of the tonsillar fossa. These muscles pull the back of the tongue upward toward the soft palate to seal the oral cavity from the pharynx. The palatine tonsils lie in shallow fossae located approximately 1.5 cm caudal to the palatoglossal folds.

      Oral mucosa covers the surface of the mouth with the exception of the gingiva which is a specialized form of mucoperiosteum. The outer layer of mucosa is composed of variably pigmented nonkeratinized and parakeratinized stratified squamous epithelium. The submucosa is composed of loose connective tissue, salivary glands, blood vessels, muscle fibers, lymphatics, and salivary ducts. The submucosa of the palate is composed of dense collagen.

      Oral mucosa can be categorized based on function and histology:

      1 Masticatory mucosa – keratinized stratified squamous epithelium, found on the dorsum of the tongue, hard palate, and attached gingiva.

      2 Lining mucosa – nonkeratinized stratified squamous epithelium, found almost everywhere else in the oral cavity, including:Buccal mucosa – inside lining of the cheeksLabial mucosa – inside lining of the lipAlveolar mucosa – covering the alveoli extending to the buccal/labial mucosa.

      3 Specialized mucosa – in the regions of the taste buds on lingual papillae on the dorsal surface of the tongue. It contains nerve endings for general sensory and taste perception as well as filiform keratin projections on the hard palate mucosa.

      The muscles of mastication that close the jaws are the temporal, masseter, and medial and lateral pterygoid muscles, all of which are innervated by the mandibular nerve (the only motor branch of the trigeminal nerve). The digastricus muscle opens the mouth. Its rostral belly is innervated by the mandibular branch of the trigeminal nerve, while its caudal belly is innervated by the facial nerve. The body (the rostral two‐thirds) of the tongue is attached ventrally to the midline of the floor of the mouth by the lingual frenulum.

      The tongue has important functions in grooming, eating, drinking, and vocalization. The tongue is composed of both striated intrinsic and extrinsic muscles. The body of the tongue comprises the rostral two‐thirds, the root comprises the caudal one‐third and is attached to the hyoid apparatus. The genioglossus muscle depresses and is the only muscle to protrude the tongue, the hyoglossus and styloglossus both depress and retract the tongue.

Photo depicts tongue papillae.

      The ventral tongue surface contains less cornified mucosa. The lingual frenulum connects the rostral two‐thirds of the tongue to the floor of the mouth within the intermandibular space.

      Sensory input is received from maxillary and mandibular divisions of the trigeminal nerve. The maxillary branch leaves the trigeminal ganglion, then exits the cranial cavity through the foramen rotundum, courses through the alar canal and the pterygopalatine fossa to enter the infraorbital canal. Just before entering the caudal limit of the infraorbital canal, the nerve branches into the major and minor palatine nerves. These nerves innervate the hard and soft palates and the nasopharynx. The palatine nerves are desensitized by the maxillary nerve block.

Photos depict caudal oral cavity.

      After giving off the caudal maxillary alveolar nerve, the maxillary nerve enters the infraorbital canal, where it is called the infraorbital nerve. While the infraorbital nerve is traversing the infraorbital canal, it gives off two more branches that exit ventrally from the canal. The middle maxillary alveolar nerve innervates the premolars and associated buccal gingiva. The rostral maxillary alveolar nerve supplies the canines, incisors, and associated buccal gingiva. The remaining fibers of the infraorbital nerve then exit the rostral extent of the infraorbital canal to innervate the lateral and dorsal cutaneous structures of the rostral maxilla and upper lip. The middle maxillary alveolar, rostral maxillary alveolar, and the infraorbital nerves are anesthetized by the rostral infraorbital nerve block.

      The mandibular division of the trigeminal nerve arises from the trigeminal ganglion, exits the cranium via the foramen ovale, and divides into multiple branches. The divisions include the sensory buccal nerves, lingual nerve, and mandibular (inferior alveolar) nerve. The buccal nerves receive stimuli from the facial musculature, skin and mucosa of the cheek, and buccal gingiva along the caudal mandible.

      The hypoglossal nerve innervates the tongue, the floor of the mouth, the lingual gingiva, and the mandibular salivary gland. The mandibular nerve enters the mandible on the lingual side, via the mandibular foramen. The nerve then courses rostrally within the mandibular canal to innervate the mandibular teeth to the midline. This nerve can be blocked by the mandibular (inferior alveolar) nerve block. Rostral to the third premolar tooth, the mandibular nerve gives off mental nerve branches. These branches exit through the mental foramina (rostral, middle, and caudal) and innervate the cutaneous areas of the chin and lip, and the rostral buccal gingiva and mucosa. These nerves are blocked by use of mental nerve blocks (usually the middle mental foramen is used).

      The СКАЧАТЬ