Facial Bone Radiographic Anatomy and
... Help build an online radiology directory at www.xraylinks.com ...
... Help build an online radiology directory at www.xraylinks.com ...
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... Formed by union of inferior sagittal sinus with the great cerebral vein Runs inferoposteriorly along the line of attachment of the falx cerebri, to the tentorium cerebri, where it joins the confluence of sinuses ...
... Formed by union of inferior sagittal sinus with the great cerebral vein Runs inferoposteriorly along the line of attachment of the falx cerebri, to the tentorium cerebri, where it joins the confluence of sinuses ...
ON UNUSUAL THEROPODS FROM THE UPPER CRETACEOUS
... of which are located two openings for the otic nerve, through the anterior of which passes the vestibular, and posteriorly the cochlear nerve. Directly anteriorly and somewhat above it is located the opening for the facial nerve. Posteriorly from the otic capsule, the endocranial cavity remains equa ...
... of which are located two openings for the otic nerve, through the anterior of which passes the vestibular, and posteriorly the cochlear nerve. Directly anteriorly and somewhat above it is located the opening for the facial nerve. Posteriorly from the otic capsule, the endocranial cavity remains equa ...
zoology - Evolutionary Morphology of Vertebrates
... In the South American catfish family Loricariidae, the opercle has been decoupled from the lower jaw, and has also lost its function in expiration. While many loricariid species have a small and slightly mobile opercle with reduced opercular musculature, within the hypostomine subfamily a novel operc ...
... In the South American catfish family Loricariidae, the opercle has been decoupled from the lower jaw, and has also lost its function in expiration. While many loricariid species have a small and slightly mobile opercle with reduced opercular musculature, within the hypostomine subfamily a novel operc ...
Chapter 7 and 9 PowerPoint
... Bone Surface Markings • Surface features-- rough area, groove, openings, process • Specific functions – passageway for blood vessels and nerves – joint formation – muscle attachment & contraction / vary with physical stress ...
... Bone Surface Markings • Surface features-- rough area, groove, openings, process • Specific functions – passageway for blood vessels and nerves – joint formation – muscle attachment & contraction / vary with physical stress ...
There are 32 bones found in the lower limb: •hip bone (1) •femur (1
... • The hip is formed by a pair of hip bones (os coxae, or coxal) • Together with the sacrum and the coccyx, these bones form the bony pelvis ...
... • The hip is formed by a pair of hip bones (os coxae, or coxal) • Together with the sacrum and the coccyx, these bones form the bony pelvis ...
Skeletal & Endocrine Systems
... human skeletal system. Joints are very important because they make the hard and rigid skeleton allow different types of movements at different locations. If the skeleton were without joints, no movement would have taken place and the significance of human body; no more than a stone.” -Human skeleton ...
... human skeletal system. Joints are very important because they make the hard and rigid skeleton allow different types of movements at different locations. If the skeleton were without joints, no movement would have taken place and the significance of human body; no more than a stone.” -Human skeleton ...
Contributions to the Cranial Osteology of the Fishes. No. IV
... being at the pterotic process. On the cranial aspect there are two conical pits; these communicate at their apex through the short horizontal bony canal. Together ,vith that canal the pits lodge the horizontal semicircular canal. The pterotic process ends in a spur which stands out down and backward ...
... being at the pterotic process. On the cranial aspect there are two conical pits; these communicate at their apex through the short horizontal bony canal. Together ,vith that canal the pits lodge the horizontal semicircular canal. The pterotic process ends in a spur which stands out down and backward ...
Lab session 7
... Spine - a large process on the posterior of the scapula that ends laterally as the acromion Acromion - the flattened lateral portion of the spine of the scapula Coracoid process - a protruding projection on the anterior surface just inferior to the lateral aspect of the clavicle Glenoid cavity - sha ...
... Spine - a large process on the posterior of the scapula that ends laterally as the acromion Acromion - the flattened lateral portion of the spine of the scapula Coracoid process - a protruding projection on the anterior surface just inferior to the lateral aspect of the clavicle Glenoid cavity - sha ...
Foundations of Structural Kinesiology
... Grow rapidly into structures shaped similar to the bones which they will eventually become Growth continues and gradually undergoes significant change to develop into long bone Longitudinal growth continues as long as epiphyseal plates are open Shortly after adolescence, plates disappear & close Mos ...
... Grow rapidly into structures shaped similar to the bones which they will eventually become Growth continues and gradually undergoes significant change to develop into long bone Longitudinal growth continues as long as epiphyseal plates are open Shortly after adolescence, plates disappear & close Mos ...
R. Barsbold KINETICISM AND PECULIARITIES IN THE MAXILLARY
... posteriorly by the prootic. Apparently cranial nerves III and IV exited through the lateral edge of this zone, which was bounded by the medial edge of the ventral surface of the laterosphenoid. The orbitosphenoid is contiguous with part of the bottom of the anterior region of the cerebral cranium in ...
... posteriorly by the prootic. Apparently cranial nerves III and IV exited through the lateral edge of this zone, which was bounded by the medial edge of the ventral surface of the laterosphenoid. The orbitosphenoid is contiguous with part of the bottom of the anterior region of the cerebral cranium in ...
doc
... posteriorly by the prootic. Apparently cranial nerves III and IV exited through the lateral edge of this zone, which was bounded by the medial edge of the ventral surface of the laterosphenoid. The orbitosphenoid is contiguous with part of the bottom of the anterior region of the cerebral cranium in ...
... posteriorly by the prootic. Apparently cranial nerves III and IV exited through the lateral edge of this zone, which was bounded by the medial edge of the ventral surface of the laterosphenoid. The orbitosphenoid is contiguous with part of the bottom of the anterior region of the cerebral cranium in ...
Chapter 7 Skeletal System
... Appendicular Skeleton • Comprised of 2 parts – Pectoral girdle and upper extremity • Shoulders and arms ...
... Appendicular Skeleton • Comprised of 2 parts – Pectoral girdle and upper extremity • Shoulders and arms ...
Bones - Reading Community Schools
... Appendicular Skeleton • Comprised of 2 parts – Pectoral girdle and upper extremity • Shoulders and arms ...
... Appendicular Skeleton • Comprised of 2 parts – Pectoral girdle and upper extremity • Shoulders and arms ...
CLAVICLE (collar bone)
... The head is flatter on top and the malleolus is pointy at the tip, and the malleolus has its smooth facet more on the side of the bone, instead of on the top. How to tell R from L fibula: Place the smooth facet of the lateral malleolus on a paper and trace just the malleolus. Notice one side is roun ...
... The head is flatter on top and the malleolus is pointy at the tip, and the malleolus has its smooth facet more on the side of the bone, instead of on the top. How to tell R from L fibula: Place the smooth facet of the lateral malleolus on a paper and trace just the malleolus. Notice one side is roun ...
EZMP1640 Arterial and Veneo Arterial and
... The internal carotid arteries (ICAs) can be traced from the point where they enter the petrous portion of the temporal bone via the carotid canal and travel medially and anteriorly to emerge on the superior margin of the foramen lacerum. lacerum. It is here that each ICA lies within the cavernous si ...
... The internal carotid arteries (ICAs) can be traced from the point where they enter the petrous portion of the temporal bone via the carotid canal and travel medially and anteriorly to emerge on the superior margin of the foramen lacerum. lacerum. It is here that each ICA lies within the cavernous si ...
Anatomy Outline Test #3
... 3 pairs of sensory capsules o otic capsules: develop around otic vesicles o nasal capsulesethmoid bone (nasal cavity) o optic capsules eye Calvaria forms by intramembranous ossification- dermal or membranous bones (temporal, maxillary, zygomatic bones) ...
... 3 pairs of sensory capsules o otic capsules: develop around otic vesicles o nasal capsulesethmoid bone (nasal cavity) o optic capsules eye Calvaria forms by intramembranous ossification- dermal or membranous bones (temporal, maxillary, zygomatic bones) ...
Anatomy 2
... 23. A boy suffers a fracture to the mandibula distally to the mental foramen. He is most likely to complain about: a. Loss of feeling in the lower lip. b. Loss of feeling in the upper lip. c. Difficulty in moving the lips. d. Loss of taste and feeling in the frontal 2/3 of the tongue. e. Will not co ...
... 23. A boy suffers a fracture to the mandibula distally to the mental foramen. He is most likely to complain about: a. Loss of feeling in the lower lip. b. Loss of feeling in the upper lip. c. Difficulty in moving the lips. d. Loss of taste and feeling in the frontal 2/3 of the tongue. e. Will not co ...
Head VIVA`s - WordPress.com
... - Through stylomastoid foramen, near the origin of digastric - Gives of the posterior auricular branch - Divides into superior and inferior divisions - Before entering the posteromedial surface of the parotid gland - Within which it forms the parotid plexus (pes anserinus) divides into 5 branches Wh ...
... - Through stylomastoid foramen, near the origin of digastric - Gives of the posterior auricular branch - Divides into superior and inferior divisions - Before entering the posteromedial surface of the parotid gland - Within which it forms the parotid plexus (pes anserinus) divides into 5 branches Wh ...
with figures
... defining the rear border of the wide parietal fenestra. Laterally, each parietal shows topographic relief in the form of a semicircular, bony rim. The frontals define the anterior limit of the parietal fenestra and extend laterally to border the orbit. The prefrontals are robust: they bound the regi ...
... defining the rear border of the wide parietal fenestra. Laterally, each parietal shows topographic relief in the form of a semicircular, bony rim. The frontals define the anterior limit of the parietal fenestra and extend laterally to border the orbit. The prefrontals are robust: they bound the regi ...
Osteology
... and the area is considered to be prenatally developed. Bony development of the maxilla may not be completed until as long as 2 years after full skeletal height is achieved (Rocabado & Iglarsh 1991). The function of the TMJs is closely related to that of the cervical spine and can be influenced by po ...
... and the area is considered to be prenatally developed. Bony development of the maxilla may not be completed until as long as 2 years after full skeletal height is achieved (Rocabado & Iglarsh 1991). The function of the TMJs is closely related to that of the cervical spine and can be influenced by po ...
The Nasal Cavity
... nose's end. The flap stayed attached to the forehead until the blood vessels in the nose fed the skin newly attached to it. He’s all put back together now and you wouldn’t know that his head had been rubix cubed so recently. He’s back to his good looking self with just a teeny fading scar to show fo ...
... nose's end. The flap stayed attached to the forehead until the blood vessels in the nose fed the skin newly attached to it. He’s all put back together now and you wouldn’t know that his head had been rubix cubed so recently. He’s back to his good looking self with just a teeny fading scar to show fo ...
Row proximal tarsal bones: Talus, Calcaneus
... The following projections can be made with the limb supported: lateromedial, dorsoplantar, dorsolateral-plantaromedial plantarolateral-dorsomedial oblique and oblique (simpler than plantarolateral dorsomedial oblique). Is detailed in the art for each show slight differences. In the end we get the vi ...
... The following projections can be made with the limb supported: lateromedial, dorsoplantar, dorsolateral-plantaromedial plantarolateral-dorsomedial oblique and oblique (simpler than plantarolateral dorsomedial oblique). Is detailed in the art for each show slight differences. In the end we get the vi ...
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.