original article
... anterior most point of anterior border of parotid gland (A) was ranged from 34mm to 48mm with a mean of 39.64mm. The distance between the LPL and OBS was ranged from 64mm to 88mm with a mean of 73.94mm. The proportion of LPL –anterior most point of anterior border of parotid gland (A) to LPL-OBS was ...
... anterior most point of anterior border of parotid gland (A) was ranged from 34mm to 48mm with a mean of 39.64mm. The distance between the LPL and OBS was ranged from 64mm to 88mm with a mean of 73.94mm. The proportion of LPL –anterior most point of anterior border of parotid gland (A) to LPL-OBS was ...
PowerPoint Sunusu - Yeditepe University Pharma Anatomy
... unites the bones with a sheet of fibrous tissue either a ligament or a fibrous membrane partially movable The interosseous membrane in the forearm is a sheet of fibrous tissue that joins the radius and ulna in a syndesmosis. ...
... unites the bones with a sheet of fibrous tissue either a ligament or a fibrous membrane partially movable The interosseous membrane in the forearm is a sheet of fibrous tissue that joins the radius and ulna in a syndesmosis. ...
ID_112_Introduction in topographical _English_sem_
... Which nerve pass through the oval foramen Optic nerve Maxillary nerve Mandibular nerve Facial nerve Trochlear nerve. Which anatomical structure pass through the spinous foramen Ethmoidal artery Anterior meningeal artery Middle meningeal artery Posterior meningeal artery Middle cerebral artery Intern ...
... Which nerve pass through the oval foramen Optic nerve Maxillary nerve Mandibular nerve Facial nerve Trochlear nerve. Which anatomical structure pass through the spinous foramen Ethmoidal artery Anterior meningeal artery Middle meningeal artery Posterior meningeal artery Middle cerebral artery Intern ...
5-cervical spines
... Have a facet that face upward & backward. The inferior articular processes: Have a facets that, face downward and forward. The transverse process has 2 tubercles one infront and one behind the foramen transversarium. ...
... Have a facet that face upward & backward. The inferior articular processes: Have a facets that, face downward and forward. The transverse process has 2 tubercles one infront and one behind the foramen transversarium. ...
4-cervical spines2016-12-18 11:175.1 MB
... Have a facet that face upward & backward. The inferior articular processes: Have a facets that, face downward and forward. The transverse process has 2 tubercles one infront and one behind the foramen transversarium. ...
... Have a facet that face upward & backward. The inferior articular processes: Have a facets that, face downward and forward. The transverse process has 2 tubercles one infront and one behind the foramen transversarium. ...
4-cervical spines2016-12-18 11:173.3 MB
... Have a facet that face upward & backward. The inferior articular processes: Have a facets that, face downward and forward. The transverse process has 2 tubercles one infront and one behind the foramen transversarium. ...
... Have a facet that face upward & backward. The inferior articular processes: Have a facets that, face downward and forward. The transverse process has 2 tubercles one infront and one behind the foramen transversarium. ...
On how a larva becomes an adult catfish Van larvale tot adulte katvis
... substantial information concerning the origin of bones, whereas the study of the cranial lateral-line system could give data on the true nature of canal bones. The study of the cranial ontogeny had already been initiated by SURLEMONT (ULg) and co-workers in 1983. Consequently, the purpose of this st ...
... substantial information concerning the origin of bones, whereas the study of the cranial lateral-line system could give data on the true nature of canal bones. The study of the cranial ontogeny had already been initiated by SURLEMONT (ULg) and co-workers in 1983. Consequently, the purpose of this st ...
anatomy_lab8_27_3_2011
... 3-internal carotid artery It’s direct continuation of common carotid artery, starts at upper border of thyroid cartilage, ascend inside carotid sheath, ends at base of skull by entering through carotid canal then passes through foramen lacerum then cavernous sinus then cerebral.. So it is divided in ...
... 3-internal carotid artery It’s direct continuation of common carotid artery, starts at upper border of thyroid cartilage, ascend inside carotid sheath, ends at base of skull by entering through carotid canal then passes through foramen lacerum then cavernous sinus then cerebral.. So it is divided in ...
Section 1 Head and Neck mcqs 1) Regarding the superior orbital
... d) the floor of the anterior cranial fossa is formed from the orbital plate of the parietal bone e) the cribriform plate lies in the midline and is formed from the roof of the sphenoid bone 2) Regarding the bones of the skull: a) the anterior clinoid processes are formed by the lesser wings of the s ...
... d) the floor of the anterior cranial fossa is formed from the orbital plate of the parietal bone e) the cribriform plate lies in the midline and is formed from the roof of the sphenoid bone 2) Regarding the bones of the skull: a) the anterior clinoid processes are formed by the lesser wings of the s ...
Globa Lilian - Anatomia omului
... only forms part of the lateral wall and base of the skull but houses the organs of hearing and equilibrium. It is the product of fusion of several bones (mixed bone), which exist independently in some animals, and therefore consists of three parts: (1) squamous part (pars squamosa); (2) tympanic par ...
... only forms part of the lateral wall and base of the skull but houses the organs of hearing and equilibrium. It is the product of fusion of several bones (mixed bone), which exist independently in some animals, and therefore consists of three parts: (1) squamous part (pars squamosa); (2) tympanic par ...
Microsurgical Anatomy of the Optic Radiation and Related
... emporal lobe surgery has been developed further over the years, particularly as a result of the development of microsurgical techniques, magnetic resonance images, and new brain mapping techniques.1-6 The intrinsic brain structure is composed of myelinized fibers that are collected together in 3 bas ...
... emporal lobe surgery has been developed further over the years, particularly as a result of the development of microsurgical techniques, magnetic resonance images, and new brain mapping techniques.1-6 The intrinsic brain structure is composed of myelinized fibers that are collected together in 3 bas ...
... some of the nerves there when trying to get the PSA. An example of a nerve in the orbit that you could get would be the abducens nerve which is on the lateral aspect of the orbit. e. There are also middle and anterior alveolar nerves and they form a plexus with dental and gingival branches. f. These ...
Internal Jugular Vein
... The internal jugular vein (IJV) begins in the cranial cavity, as a continuation of the sigmoid sinus. The initial part of the IJV is dilated, and is known as the superior bulb. The vein exits the skull via the jugular foramen. In the neck, the internal jugular vein descends lateral to the common car ...
... The internal jugular vein (IJV) begins in the cranial cavity, as a continuation of the sigmoid sinus. The initial part of the IJV is dilated, and is known as the superior bulb. The vein exits the skull via the jugular foramen. In the neck, the internal jugular vein descends lateral to the common car ...
Ministry of the Health of Ukraine
... 3. Anterior (front) and posterior (back) 102. The frontal plane divides the body into the following parts: 1. Anterior (front) and posterior (back) 2. Right (dexter) and left (sinister) 3. Superior (upper, cranial) and inferior (lower, caudal) 103. The horizontal plane divides the body into the foll ...
... 3. Anterior (front) and posterior (back) 102. The frontal plane divides the body into the following parts: 1. Anterior (front) and posterior (back) 2. Right (dexter) and left (sinister) 3. Superior (upper, cranial) and inferior (lower, caudal) 103. The horizontal plane divides the body into the foll ...
Functional Anatomy and TM Pathology
... Anatomy of the temporomandibular joint The TMJ is the most complex joint in the body. It provides for hinging movement in one plane (a ginglymoid joint), and at the same time provides for sliding movements (an arthrodial joint). Therefore, it is technically a ginglymoar-throdial joint. The TMJ is cl ...
... Anatomy of the temporomandibular joint The TMJ is the most complex joint in the body. It provides for hinging movement in one plane (a ginglymoid joint), and at the same time provides for sliding movements (an arthrodial joint). Therefore, it is technically a ginglymoar-throdial joint. The TMJ is cl ...
ANATOMIC REPORT
... Furthermore, most of the limitations of the transoraltransclival procedure may potentially be reduced by the use of an endoscopic approach. Crockard and Sen (6) suggested a clival opening of 2 by 3 cm for dealing with intradural lesions; in this study, the opening was limited to 20 mm in length and ...
... Furthermore, most of the limitations of the transoraltransclival procedure may potentially be reduced by the use of an endoscopic approach. Crockard and Sen (6) suggested a clival opening of 2 by 3 cm for dealing with intradural lesions; in this study, the opening was limited to 20 mm in length and ...
1. The entry of bacteria through which space could lead to an
... is a small pyramidal space inferior to the apex of the orbit. It lies between the pterygoid process of the sphenoid bone posteriorly and the posterior aspect of the maxilla anteriorly. It contains the terminal part of the maxillary artery, the maxillary nerve, and the pterygopalatine ganglion. The i ...
... is a small pyramidal space inferior to the apex of the orbit. It lies between the pterygoid process of the sphenoid bone posteriorly and the posterior aspect of the maxilla anteriorly. It contains the terminal part of the maxillary artery, the maxillary nerve, and the pterygopalatine ganglion. The i ...
Wayne F Larrabee, Douglas Kibblewhite: Chapter 6: Otoplasty.
... more so anteriorly than on the posterior surface. With increasing age, the cartilage becomes stiffer and less pliable, and the overlying skin becomes less tightly attached. The helix is a gently curved incomplete oval, broader at its root or spine at the external auditory canal and thinning as it c ...
... more so anteriorly than on the posterior surface. With increasing age, the cartilage becomes stiffer and less pliable, and the overlying skin becomes less tightly attached. The helix is a gently curved incomplete oval, broader at its root or spine at the external auditory canal and thinning as it c ...
Sonographic Evaluation of Neck Vasculature. Common Carotid, ICA
... The internal carotid artery supplies the brain, the eye, the forehead, and part of the nose. It enters the cranial cavity via the carotid canal in the temporal bone. It gives off no branches within the neck region. The internal carotid artery supplies perfusion to the anterior and middle portion of ...
... The internal carotid artery supplies the brain, the eye, the forehead, and part of the nose. It enters the cranial cavity via the carotid canal in the temporal bone. It gives off no branches within the neck region. The internal carotid artery supplies perfusion to the anterior and middle portion of ...
4. ijbtr - finite element analysis of injuries in shoulder1
... Motions of tackling or pitching put great force on the shoulder. The shoulder becomes unstable when its muscles and ligaments are stretched beyond their normal limits. The shoulder separation happens due to tear of ligaments holding the clavicle to the roof of shoulder. Consequently, the clavicle is ...
... Motions of tackling or pitching put great force on the shoulder. The shoulder becomes unstable when its muscles and ligaments are stretched beyond their normal limits. The shoulder separation happens due to tear of ligaments holding the clavicle to the roof of shoulder. Consequently, the clavicle is ...
Techniques for Preservation of the Frontotemporal Branch of Facial
... Fig. 1 Interfascial dissection presented in a stepwise fashion: right frontotemporal region. (A) Skin incision used for the right orbitozygomatic approach. The incision starts at the zygomatic arch, just in front of the tragus, continues to the superior temporal line, curves just behind the hairline ...
... Fig. 1 Interfascial dissection presented in a stepwise fashion: right frontotemporal region. (A) Skin incision used for the right orbitozygomatic approach. The incision starts at the zygomatic arch, just in front of the tragus, continues to the superior temporal line, curves just behind the hairline ...
Respiratory system *Function of the respiratory system: The nose has:
... The large dorsal, middle and ventral nasal conchae: are project from the lateral wall of the nasal cavity are located in the middle portion of it, while the smaller and more numerous ethmoidal conchae are in the caudal portion of it. The caudal parts of the dorsal and middle nasal conchae are part f ...
... The large dorsal, middle and ventral nasal conchae: are project from the lateral wall of the nasal cavity are located in the middle portion of it, while the smaller and more numerous ethmoidal conchae are in the caudal portion of it. The caudal parts of the dorsal and middle nasal conchae are part f ...
External cortical landmarks and measurements for the temporal horn
... are located medial to the temporal horn in the middle incisural space.[1] The anatomy of the roof and lateral wall is important for superior and lateral surgical approaches to the temporal horn. [8] The roof of the anterior one-third of the temporal horn is mainly formed by the amygdala and the late ...
... are located medial to the temporal horn in the middle incisural space.[1] The anatomy of the roof and lateral wall is important for superior and lateral surgical approaches to the temporal horn. [8] The roof of the anterior one-third of the temporal horn is mainly formed by the amygdala and the late ...
Skull
This article incorporates text in the public domain from the 20th edition of Gray's Anatomy (1918)The skull is a bony structure in the head of most vertebrates (in particular, craniates) that supports the structures of the face and forms a protective cavity for the brain. The skull is composed of two parts: the cranium and the mandible. The skull forms the anterior most portion of the skeleton and is a product of encephalization, housing the brain, many sensory structures (eyes, ears, nasal cavity), and the feeding system. Functions of the skull include protection of the brain, fixing the distance between the eyes to allow stereoscopic vision, and fixing the position of the ears to help the brain use auditory cues to judge direction and distance of sounds. In some animals, the skull also has a defensive function (e.g. horned ungulates); the frontal bone is where horns are mounted. The English word ""skull"" is probably derived from Old Norse ""skalli"" meaning bald, while the Latin word cranium comes from the Greek root κρανίον (kranion).The skull is made of a number of fused flat bones.