Equine masticatory organ Part III
... a) the lateral temporomandibular ligament (ligamentum temporo-mandibulare) which strengthens the capsula and is attached to the base of the zygomatic process of the temporal bone, from where the fibres run backwards and downwards and attach to the lateral and posterior surfaces of the mandibular nec ...
... a) the lateral temporomandibular ligament (ligamentum temporo-mandibulare) which strengthens the capsula and is attached to the base of the zygomatic process of the temporal bone, from where the fibres run backwards and downwards and attach to the lateral and posterior surfaces of the mandibular nec ...
buccal
... The buccal nerve is a branch of the mandibular division of the trigeminal nerve that transmits sensory information from the skin of the cheek area and the oral mucosa of the cheek. The buccal nerve is NOT the same as the buccal branches of the facial nerve, which are motor nerves that innervate the ...
... The buccal nerve is a branch of the mandibular division of the trigeminal nerve that transmits sensory information from the skin of the cheek area and the oral mucosa of the cheek. The buccal nerve is NOT the same as the buccal branches of the facial nerve, which are motor nerves that innervate the ...
Extrinsic Muscles
... Origin: the digastric fossa on the internal surface of the mandible Insertion: see posterior belly (intermediate tendon) Action: acting with its posterior belly, this muscle raises the hyoid bone and supports it during swallowing. Innervation: trigeminal nerve (CN V), motor branch, via a branch of t ...
... Origin: the digastric fossa on the internal surface of the mandible Insertion: see posterior belly (intermediate tendon) Action: acting with its posterior belly, this muscle raises the hyoid bone and supports it during swallowing. Innervation: trigeminal nerve (CN V), motor branch, via a branch of t ...
iii - Mosaiced.org
... V2 – between corners of eyes to corners of mouth. Maxillary sinus & upper teeth. V3 – (sensory) mandible & lower ...
... V2 – between corners of eyes to corners of mouth. Maxillary sinus & upper teeth. V3 – (sensory) mandible & lower ...
L1-Nose, Nasal cavity & Paranasal sinuses & Pharynx 2014
... A small depression situated on either side of the laryngeal inlet It is a common site for the lodging of foreign bodies. Branches of internal laryngeal & recurrent laryngeal nerves lie deep to the mucous membrane of the fossa and are vulnerable to injury during removal of a foreign body. ...
... A small depression situated on either side of the laryngeal inlet It is a common site for the lodging of foreign bodies. Branches of internal laryngeal & recurrent laryngeal nerves lie deep to the mucous membrane of the fossa and are vulnerable to injury during removal of a foreign body. ...
Head and Neck Embryology and Anatomy
... to form the frontal sinuses. The orbital part of the frontal bone forms most part of the roof of the orbits. The orbital cavity is a vital anatomical part of the facial skeleton; it contains the eye and important neural and vascular elements and connective tissues. It is formed between the cranial t ...
... to form the frontal sinuses. The orbital part of the frontal bone forms most part of the roof of the orbits. The orbital cavity is a vital anatomical part of the facial skeleton; it contains the eye and important neural and vascular elements and connective tissues. It is formed between the cranial t ...
Assiut university researches Functional Morphological Study of the
... kinesis due to the presence of immovable naso-frontal hinge. However, the quadrate can glide antero-posteriorly and vice versa. While, in the budgerigar, the brain case exhibits a high kinesis due to the presence of movable naso-frontal hinge. 2) The brain case of the budgerigar is characterized by ...
... kinesis due to the presence of immovable naso-frontal hinge. However, the quadrate can glide antero-posteriorly and vice versa. While, in the budgerigar, the brain case exhibits a high kinesis due to the presence of movable naso-frontal hinge. 2) The brain case of the budgerigar is characterized by ...
Anatomy & physiology of larynx
... • Stratified squamous epithelium: Epiglottis (anterior surface + upper half of posterior surface), upper part of aryepiglottic folds & vocal cords • Pseudo-stratified ciliated columnar (respiratory) epithelium: Rest of laryngeal mucous membrane ...
... • Stratified squamous epithelium: Epiglottis (anterior surface + upper half of posterior surface), upper part of aryepiglottic folds & vocal cords • Pseudo-stratified ciliated columnar (respiratory) epithelium: Rest of laryngeal mucous membrane ...
The Mandibular Nerve_c revised HO
... this canal it gives off its mylohyoid branch. The inferior alveolar nerve passes forwards in the mandibular canal, in company with the inferior alveolar artery, and distributes branches to the lower molar and premolar teeth and the adjacent parts of the gingiva. At the level of mental foramen it div ...
... this canal it gives off its mylohyoid branch. The inferior alveolar nerve passes forwards in the mandibular canal, in company with the inferior alveolar artery, and distributes branches to the lower molar and premolar teeth and the adjacent parts of the gingiva. At the level of mental foramen it div ...
Gross Written Midterm Review
... CN XI (spinal accessory) – innervates SCM and trapezius mm.; responsible for gross movement of head and elevation of shoulders ...
... CN XI (spinal accessory) – innervates SCM and trapezius mm.; responsible for gross movement of head and elevation of shoulders ...
Unit 14: Anterior Triangle of the Neck Submandibular region
... but in the neck, they are symmetrically placed at the sides of the trachea and larynx. Near the upper border of the thyroid cartilage of the larynx the common carotid dilates, divides and forms the external and internal carotid arteries. The dilatation is the carotid sinus, which is active in blood ...
... but in the neck, they are symmetrically placed at the sides of the trachea and larynx. Near the upper border of the thyroid cartilage of the larynx the common carotid dilates, divides and forms the external and internal carotid arteries. The dilatation is the carotid sinus, which is active in blood ...
Embryology GastrointesInal System
... 4th Arch Vagus nerve (X): Superior laryngeal branch of vagus (CN X) [External laryng ...
... 4th Arch Vagus nerve (X): Superior laryngeal branch of vagus (CN X) [External laryng ...
File
... 1. the _____ is the place of insertion for the temporalis muscle a. Mastoid processb. condylar process – insertion of lateral pterygoid muscle c. coronoid process – insertion of temporalis muscle d. acromion process – part of shoulder 2. the middle meningeal artery passes through the ___________. a. ...
... 1. the _____ is the place of insertion for the temporalis muscle a. Mastoid processb. condylar process – insertion of lateral pterygoid muscle c. coronoid process – insertion of temporalis muscle d. acromion process – part of shoulder 2. the middle meningeal artery passes through the ___________. a. ...
Neuroscience 1c – Brainstem and Crainial Nerves
... Jugular foramen GSA-sensory from skin posterior to ear and external acoustic meatus, and dura in posterior cranial fossa GVA-sensory from aortic body chemoreceptors and aortic arch baroreceptors, mucous membranes of pharynx, larynx, esophagus, bronchi, lungs, heart, and abdominal viscera of the fore ...
... Jugular foramen GSA-sensory from skin posterior to ear and external acoustic meatus, and dura in posterior cranial fossa GVA-sensory from aortic body chemoreceptors and aortic arch baroreceptors, mucous membranes of pharynx, larynx, esophagus, bronchi, lungs, heart, and abdominal viscera of the fore ...
LoveTomy_quiz_1
... b. The superior salivatory nucleus supplies the submandibular salivary gland. ...
... b. The superior salivatory nucleus supplies the submandibular salivary gland. ...
Chapter 11, Part 1 Muscles of the head and Neck
... • Temporalis extends from temporal lines on parietal and frontal bones to coronoid process of mandible (deep to zygomatic process) • elevates and retracts mandible ...
... • Temporalis extends from temporal lines on parietal and frontal bones to coronoid process of mandible (deep to zygomatic process) • elevates and retracts mandible ...
Cranial Nerve Exam
... o uveal tract glands Trochlear IV Contains Somatic motor only From midbrain To terminal branch: superior oblique Cranial Exit Superior orbial fissure (inferolateral/inferior movement of eye) Cranial Nerve Exam ...
... o uveal tract glands Trochlear IV Contains Somatic motor only From midbrain To terminal branch: superior oblique Cranial Exit Superior orbial fissure (inferolateral/inferior movement of eye) Cranial Nerve Exam ...
branchial anomalies
... Branchial anomalies result from improper development of the branchial apparatus ...
... Branchial anomalies result from improper development of the branchial apparatus ...
Branches of Vagus Nerve
... Nerve to thyrohyoid: also contains C1 fibers and supplies the thyrohyoid muscle. Nerve to geniohyoid: also contains C1 fibers and supplies the geniohyoid muscle. Muscular branches of the tongue: supplies all intrinsic and extrinsic muscles of the tongue except palatoglossus (from pharyngeal plexus). ...
... Nerve to thyrohyoid: also contains C1 fibers and supplies the thyrohyoid muscle. Nerve to geniohyoid: also contains C1 fibers and supplies the geniohyoid muscle. Muscular branches of the tongue: supplies all intrinsic and extrinsic muscles of the tongue except palatoglossus (from pharyngeal plexus). ...
10-5th & 7th N.
... a) Loss of sensation of skin over the nose. b) Loss of lacrimation. c) Loss of sensory supply of upper teeth. d) Loss of general sensations of anterior 2/3 of tongue. ...
... a) Loss of sensation of skin over the nose. b) Loss of lacrimation. c) Loss of sensory supply of upper teeth. d) Loss of general sensations of anterior 2/3 of tongue. ...
Tongue
The tongue is a muscular hydrostat on the floor of the mouth of most vertebrates which manipulates food for mastication. It is the primary organ of taste (gustation), as much of its upper surface is covered in taste buds. The tongue's upper surface is also covered in numerous lingual papillae. It is sensitive and kept moist by saliva, and is richly supplied with nerves and blood vessels. In humans a secondary function of the tongue is phonetic articulation. The tongue also serves as a natural means of cleaning one's teeth. The ability to perceive different tastes is not localised in different parts of the tongue, as is widely believed. This error arose because of misinterpretation of some 19th-century research (see tongue map).