![6. Body Wall and Coelomic Cavity.](http://s1.studyres.com/store/data/001238252_1-3fa047e470026e7b4a2fe839fa8bb5b2-300x300.png)
6. Body Wall and Coelomic Cavity.
... Fig. 3 recapitulates the divisions of the mesoderm and the formation of the neural tube. In these figures, some details have been simplified or omitted. You will notice that the ectoderm and endoderm are continuous with layers outside the body of the embryo proper. We can afford to ignore these deta ...
... Fig. 3 recapitulates the divisions of the mesoderm and the formation of the neural tube. In these figures, some details have been simplified or omitted. You will notice that the ectoderm and endoderm are continuous with layers outside the body of the embryo proper. We can afford to ignore these deta ...
Lecture 14: The Spinal Cord
... 2. Sensory information is delivered to the CNS via AFFERENT pathways. A. Stretch receptors in the quadriceps muscle group are activated by the WHACK B. The receptors cause SS neurons to FIRE a message that travels toward the CNS C. The axons of SS neurons travel TOGETHER, in a NERVE. D. The cel ...
... 2. Sensory information is delivered to the CNS via AFFERENT pathways. A. Stretch receptors in the quadriceps muscle group are activated by the WHACK B. The receptors cause SS neurons to FIRE a message that travels toward the CNS C. The axons of SS neurons travel TOGETHER, in a NERVE. D. The cel ...
Lec. 6 - Blood Vesse..
... [The vertebral aa join to form the basilar a. whose branches anastomose with those of ICA to form the arterial circle of Willis whose branches supply the brain] ...
... [The vertebral aa join to form the basilar a. whose branches anastomose with those of ICA to form the arterial circle of Willis whose branches supply the brain] ...
31-Aorta& IVC
... It is formed by the union of the common iliac artery at the level of the 5th lumbar vertebra. So, it conveys most of the blood from the body below the diaphragm and drains into the right atrium of the heart. It ascends on the right side of the aorta. It pierces the central tendon of the diaphragm at ...
... It is formed by the union of the common iliac artery at the level of the 5th lumbar vertebra. So, it conveys most of the blood from the body below the diaphragm and drains into the right atrium of the heart. It ascends on the right side of the aorta. It pierces the central tendon of the diaphragm at ...
2.1.3.2.2 Hip bone - SUST Repository
... transversarium, which transmits the vertebral arteries and veins on each side.C7, the vertebra prominence, has a long, non-bifid spine, and no anterior tubercle on its transverse process. Its foramen transversarium is often small; it only transmits small tributaries of the vertebral vein – the arter ...
... transversarium, which transmits the vertebral arteries and veins on each side.C7, the vertebra prominence, has a long, non-bifid spine, and no anterior tubercle on its transverse process. Its foramen transversarium is often small; it only transmits small tributaries of the vertebral vein – the arter ...
Anatomy of Spinal Cord
... • Spinal cord – Truly the pathway between body and mind – Conducts impulses to and from the brain – Carries out spinal reflexes ...
... • Spinal cord – Truly the pathway between body and mind – Conducts impulses to and from the brain – Carries out spinal reflexes ...
PPT
... mandible, participates in forming the temporomandibul ar joint; and 2-the neck of mandible, which bears a shallow depression (the pterygoid fovea) on its anterior surface for attachment of the lateral pterygoid muscle. ...
... mandible, participates in forming the temporomandibul ar joint; and 2-the neck of mandible, which bears a shallow depression (the pterygoid fovea) on its anterior surface for attachment of the lateral pterygoid muscle. ...
The ramus of mandible is quadrangular in shape and has medial
... mandible, participates in forming the temporomandibul ar joint; and 2-the neck of mandible, which bears a shallow depression (the pterygoid fovea) on its anterior surface for attachment of the lateral pterygoid muscle. ...
... mandible, participates in forming the temporomandibul ar joint; and 2-the neck of mandible, which bears a shallow depression (the pterygoid fovea) on its anterior surface for attachment of the lateral pterygoid muscle. ...
Medial pterygoid
... Origin: medial surface of the lateral plate of the pterygoid process and the pyramidal process of the palatine bone Insertion: medial surface of the ramus of mandible inferior to mandibular foramen The medial pterygoid is innervated by the nerve to medial pterygoid from the mandibular nerve [V3]. Th ...
... Origin: medial surface of the lateral plate of the pterygoid process and the pyramidal process of the palatine bone Insertion: medial surface of the ramus of mandible inferior to mandibular foramen The medial pterygoid is innervated by the nerve to medial pterygoid from the mandibular nerve [V3]. Th ...
Slide 1
... Origin: medial surface of the lateral plate of the pterygoid process and the pyramidal process of the palatine bone Insertion: medial surface of the ramus of mandible inferior to mandibular foramen The medial pterygoid is innervated by the nerve to medial pterygoid from the mandibular nerve [V3]. Th ...
... Origin: medial surface of the lateral plate of the pterygoid process and the pyramidal process of the palatine bone Insertion: medial surface of the ramus of mandible inferior to mandibular foramen The medial pterygoid is innervated by the nerve to medial pterygoid from the mandibular nerve [V3]. Th ...
The ramus of mandible is quadrangular in shape and has medial
... mandible, participates in forming the temporomandibul ar joint; and 2-the neck of mandible, which bears a shallow depression (the pterygoid fovea) on its anterior surface for attachment of the lateral pterygoid muscle. ...
... mandible, participates in forming the temporomandibul ar joint; and 2-the neck of mandible, which bears a shallow depression (the pterygoid fovea) on its anterior surface for attachment of the lateral pterygoid muscle. ...
lateral - Personal
... • Talus transfers most of the weight from the tibia to the calcaneus • Other tarsal bones: cuboid, navicular, and the medial, intermediate, and lateral cuneiforms ...
... • Talus transfers most of the weight from the tibia to the calcaneus • Other tarsal bones: cuboid, navicular, and the medial, intermediate, and lateral cuneiforms ...
The frontal bone:-
... membrane called the maxillary air sinus. The maxillary surface are:1. The anterior surface of the body formed the facial skeleton below the infraorbital margin. A little below the middle of this margin is the infra-orbital foramen through which the infraorbital nerve and artery reach face. The media ...
... membrane called the maxillary air sinus. The maxillary surface are:1. The anterior surface of the body formed the facial skeleton below the infraorbital margin. A little below the middle of this margin is the infra-orbital foramen through which the infraorbital nerve and artery reach face. The media ...
Feely`s Abridged Osteopathic Dictionary
... -IIlium, somatic dysfunction of:anterior (forward) innominate (iliac) rotation: a somatic dysfunction in which the anterior superior iliac spine (ASIS) is anterior and inferior to the contralateral landmark; the ilium moves more freely in an anterior inferior direction, and is restricted in posterio ...
... -IIlium, somatic dysfunction of:anterior (forward) innominate (iliac) rotation: a somatic dysfunction in which the anterior superior iliac spine (ASIS) is anterior and inferior to the contralateral landmark; the ilium moves more freely in an anterior inferior direction, and is restricted in posterio ...
1. What is gluteal region?
... L2 + L3 gives rise to the lateral femoral cutaneous L2 + L3 + L4 give rise to the femoral and obturator nerves L4 + L5 give rise to the lumbosacral trunk which joins sacral nerves to form the sacral plexus. ...
... L2 + L3 gives rise to the lateral femoral cutaneous L2 + L3 + L4 give rise to the femoral and obturator nerves L4 + L5 give rise to the lumbosacral trunk which joins sacral nerves to form the sacral plexus. ...
Lecture 3 – Treatment and Evaluation of the Pelvis ADductors à
... Hiatus- failure of closure of the 5th sacral vertebral lamina Ganglion Impar- where right and left sympathetic chains join is on the anterior surface of the coccyx Osteology/Articulations ...
... Hiatus- failure of closure of the 5th sacral vertebral lamina Ganglion Impar- where right and left sympathetic chains join is on the anterior surface of the coccyx Osteology/Articulations ...
Outline
... number varies in some individuals. A larger number of bones appear to be present at birth, but the total number decreases with growth and maturity as some separate bones fuse. Bones differ in size, shape, weight, and even composition, and this diversity is directly related to the skeleton’s many fun ...
... number varies in some individuals. A larger number of bones appear to be present at birth, but the total number decreases with growth and maturity as some separate bones fuse. Bones differ in size, shape, weight, and even composition, and this diversity is directly related to the skeleton’s many fun ...
thoracic wall - Yeditepe University Dentistry Anatomy
... The thorax includes the primary organs of the respiratory and cardiovascular systems. The majority of the thoracic cavity is occupied by the lungs, which provide for the exchange of oxygen and carbon dioxide between the air and blood. Most of the remainder of the thoracic cavity is occupied by the h ...
... The thorax includes the primary organs of the respiratory and cardiovascular systems. The majority of the thoracic cavity is occupied by the lungs, which provide for the exchange of oxygen and carbon dioxide between the air and blood. Most of the remainder of the thoracic cavity is occupied by the h ...
Bones, cartilage, joints, dislocations and fractures
... 1. Articulation of 2+ bones 2. Articular surfaces covered by hyaline cartilage 3. Surrounded by a capsule a. Superficial fibrous layer (strong) b. Deep synovial membrane ( synovial fluid) 4. Contain a joint cavity (filled with SF absorbing shock, nourishing and lubricating joint) 5. Supported by fi ...
... 1. Articulation of 2+ bones 2. Articular surfaces covered by hyaline cartilage 3. Surrounded by a capsule a. Superficial fibrous layer (strong) b. Deep synovial membrane ( synovial fluid) 4. Contain a joint cavity (filled with SF absorbing shock, nourishing and lubricating joint) 5. Supported by fi ...
Flouro Images of Lumbar Spine Injections
... Lumbar Facet Injection A lumbar facet injection would be done in a similar fashion as a MBB, however the target is the facet joint (between the ear of the lower “scotty dog” and the front foot of the upper “scotty dog”). ...
... Lumbar Facet Injection A lumbar facet injection would be done in a similar fashion as a MBB, however the target is the facet joint (between the ear of the lower “scotty dog” and the front foot of the upper “scotty dog”). ...
Understanding the Fascial planes of head and Neck
... • Forms superficial border of the submandibular space and splits to form the capsule of the gland • Attaches to the inferior border of mandible – Anteriorly-blends with the periosteum of facial bones and is under the muscles of facial expressions • Covers the anterior/posterior belly of digastricus ...
... • Forms superficial border of the submandibular space and splits to form the capsule of the gland • Attaches to the inferior border of mandible – Anteriorly-blends with the periosteum of facial bones and is under the muscles of facial expressions • Covers the anterior/posterior belly of digastricus ...
The middle cranial fossa is separated from the posterior cranial
... the squamous parts of the temporal bones, the greater wings of the sphenoid, and the parietal bones. The floor of each lateral part of the middle cranial fossa is formed by the greater wing of the sphenoid and the squamous and petrous parts of the temporal bone. ...
... the squamous parts of the temporal bones, the greater wings of the sphenoid, and the parietal bones. The floor of each lateral part of the middle cranial fossa is formed by the greater wing of the sphenoid and the squamous and petrous parts of the temporal bone. ...
ppt
... the squamous parts of the temporal bones, the greater wings of the sphenoid, and the parietal bones. The floor of each lateral part of the middle cranial fossa is formed by the greater wing of the sphenoid and the squamous and petrous parts of the temporal bone. ...
... the squamous parts of the temporal bones, the greater wings of the sphenoid, and the parietal bones. The floor of each lateral part of the middle cranial fossa is formed by the greater wing of the sphenoid and the squamous and petrous parts of the temporal bone. ...
ANATOMY OSPE2017-02-28 08:406.6 MB
... • Apex, anterior border and posterior border: correspond nearly to the lines of pleura but are slightly away from the median plane. • Inferior margin : as the pleura but more horizontally and finally reaching to the 10th thoracic spine. ...
... • Apex, anterior border and posterior border: correspond nearly to the lines of pleura but are slightly away from the median plane. • Inferior margin : as the pleura but more horizontally and finally reaching to the 10th thoracic spine. ...
The middle cranial fossa is separated from the posterior cranial
... the squamous parts of the temporal bones, the greater wings of the sphenoid, and the parietal bones. The floor of each lateral part of the middle cranial fossa is formed by the greater wing of the sphenoid and the squamous and petrous parts of the temporal bone. ...
... the squamous parts of the temporal bones, the greater wings of the sphenoid, and the parietal bones. The floor of each lateral part of the middle cranial fossa is formed by the greater wing of the sphenoid and the squamous and petrous parts of the temporal bone. ...
Vertebra
![](https://commons.wikimedia.org/wiki/Special:FilePath/Vertebra_Superior_View.jpg?width=300)
In the vertebrate spinal column, each vertebra is an irregular bone with a complex structure composed of bone and some hyaline cartilage, the proportions of which vary according to the segment of the backbone and the species of vertebrate animal.The basic configuration of a vertebra varies; the large part is the body, and the central part is the centrum. The upper and lower surfaces of the vertebra body give attachment to the intervertebral discs. The posterior part of a vertebra forms a vertebral arch, in eleven parts, consisting of two pedicles, two laminae, and seven processes. The laminae give attachment to the ligamenta flava. There are vertebral notches formed from the shape of the pedicles, which form the intervertebral foramina when the vertebrae articulate. These foramina are the entry and exit conducts for the spinal nerves. The body of the vertebra and the vertebral arch form the vertebral foramen, the larger, central opening that accommodates the spinal canal, which encloses and protects the spinal cord.Vertebrae articulate with each other to give strength and flexibility to the spinal column, and the shape at their back and front aspects determines the range of movement. Structurally, vertebrae are essentially alike across the vertebrate species, with the greatest difference seen between an aquatic animal and other vertebrate animals. As such, vertebrates take their name from the vertebrae that compose the vertebral column.