07. General osteology
... • The 8 cranial bones include; 2 parietal, 2 temporal frontal, occipital, sphenoid, ethmoid • Cranium is self- bracing allowing the bones to be ...
... • The 8 cranial bones include; 2 parietal, 2 temporal frontal, occipital, sphenoid, ethmoid • Cranium is self- bracing allowing the bones to be ...
Axial Skeleton
... Each vertebrae is given a name according to its location There are 24 single vertebral bones separated by intervertebral discs Seven cervical vertebrae are in the neck Twelve thoracic vertebrae are in the chest region Five lumbar vertebrae are associated with the lower back Nine vertebra ...
... Each vertebrae is given a name according to its location There are 24 single vertebral bones separated by intervertebral discs Seven cervical vertebrae are in the neck Twelve thoracic vertebrae are in the chest region Five lumbar vertebrae are associated with the lower back Nine vertebra ...
Cervical spine 7-16
... Line 1: anterior borders of vertebral bodies Line 2: posterior borders of vertebral bodies Line 3: spinolaminar line: junction of lamina at the spinous processes These three lines help to assess for several types of pathologies that can be found on this view such as spondylolisthesis or burs ...
... Line 1: anterior borders of vertebral bodies Line 2: posterior borders of vertebral bodies Line 3: spinolaminar line: junction of lamina at the spinous processes These three lines help to assess for several types of pathologies that can be found on this view such as spondylolisthesis or burs ...
BIO 201 Practical 1 Sp09
... resemblance to crow’s beak; (coracoid process of the scapula) coronal plane – perpendicular to sagittal plane and divides the body into anterior and posterior portions; (coronal suture) Corono – crown; (coronoid process of the mandible, coronoid process of the ulna) cribri- sieve, strainer; (cribrif ...
... resemblance to crow’s beak; (coracoid process of the scapula) coronal plane – perpendicular to sagittal plane and divides the body into anterior and posterior portions; (coronal suture) Corono – crown; (coronoid process of the mandible, coronoid process of the ulna) cribri- sieve, strainer; (cribrif ...
New The Human Skeleton
... • Shorter than the ulna • Extends from the elbow to the wrist and crosses over the ulna when hand is turned over at the wrist • Head is thick and disk-like; articulates with the capitulum of the humerus and radial notch of the ulna • Radial tuberosity – process just below the head; attachment for th ...
... • Shorter than the ulna • Extends from the elbow to the wrist and crosses over the ulna when hand is turned over at the wrist • Head is thick and disk-like; articulates with the capitulum of the humerus and radial notch of the ulna • Radial tuberosity – process just below the head; attachment for th ...
Foundations Palpation Lab #1
... Dr. stands on either side of the patient Using the technique “windshield wiper down”, find the PSIS’s. Palpate medially (between the PSIS’s) to the S2 tubercle Using your superior hand, palpate in a cephalad direction (headward) to the 1st “interspinous space” (between the sacrum and L5) = T ...
... Dr. stands on either side of the patient Using the technique “windshield wiper down”, find the PSIS’s. Palpate medially (between the PSIS’s) to the S2 tubercle Using your superior hand, palpate in a cephalad direction (headward) to the 1st “interspinous space” (between the sacrum and L5) = T ...
unit 4. dissection: vertebral column and spinal cord
... 1. Clean the lamina (the area between the transverse process and the spine) on both sides. You are retracting the deep back muscles from the level of C3 to the middle part of the sacrum. Save a few dorsal rami of the thoracic nerves, so that they may later be traced to the main trunk of the nerves f ...
... 1. Clean the lamina (the area between the transverse process and the spine) on both sides. You are retracting the deep back muscles from the level of C3 to the middle part of the sacrum. Save a few dorsal rami of the thoracic nerves, so that they may later be traced to the main trunk of the nerves f ...
Neuraxial Blockade Anatomy and Landmarks
... Knowledge of anatomy for neuraxial blockade is essential! ...
... Knowledge of anatomy for neuraxial blockade is essential! ...
File
... anastomoses with radicular arteries spinal arteries are branches of the: – vertebral and ascending cervical arteries in the neck – posterior intercostals arteries in the thoracic region – subcostal and lumbar arteries in the abdomen – iliolumbar and lateral and medial sacral arteries in the pelvis ...
... anastomoses with radicular arteries spinal arteries are branches of the: – vertebral and ascending cervical arteries in the neck – posterior intercostals arteries in the thoracic region – subcostal and lumbar arteries in the abdomen – iliolumbar and lateral and medial sacral arteries in the pelvis ...
Neuraxial Blockade Anatomy and Landmarks
... Knowledge of anatomy for neuraxial blockade is essential! ...
... Knowledge of anatomy for neuraxial blockade is essential! ...
C H A P T E R
... 3. The parietal, temporal, and sphenoid bones, and the first cervical vertebra (the atlas) articulate with the occipital bone. 4. The seven bones that form the orbit are the frontal and sphenoid bones that form the roof of the orbit; the maxilla and palatine bones that form the floor of the orbit; t ...
... 3. The parietal, temporal, and sphenoid bones, and the first cervical vertebra (the atlas) articulate with the occipital bone. 4. The seven bones that form the orbit are the frontal and sphenoid bones that form the roof of the orbit; the maxilla and palatine bones that form the floor of the orbit; t ...
C H A P T E R
... 3. The parietal, temporal, and sphenoid bones, and the first cervical vertebra (the atlas) articulate with the occipital bone. 4. The seven bones that form the orbit are the frontal and sphenoid bones that form the roof of the orbit; the maxilla and palatine bones that form the floor of the orbit; t ...
... 3. The parietal, temporal, and sphenoid bones, and the first cervical vertebra (the atlas) articulate with the occipital bone. 4. The seven bones that form the orbit are the frontal and sphenoid bones that form the roof of the orbit; the maxilla and palatine bones that form the floor of the orbit; t ...
The Axial Skeleton
... – There are 24 single vertebral bones separated by intervertebral discs • Seven cervical vertebrae are in the neck • Twelve thoracic vertebrae are in the chest region • Five lumbar vertebrae are associated with the lower back ...
... – There are 24 single vertebral bones separated by intervertebral discs • Seven cervical vertebrae are in the neck • Twelve thoracic vertebrae are in the chest region • Five lumbar vertebrae are associated with the lower back ...
Anatomical Orientation
... Use directional terminology to describe these relationships: 15. Abdomen is _____________ to thorax. 16. The human neck is _____________ to the head. 17. The cat head is _____________ to the neck. 18. The mouth is _____________ to the ears. 19. The skeletal muscle is _____________ to hair. 20. The f ...
... Use directional terminology to describe these relationships: 15. Abdomen is _____________ to thorax. 16. The human neck is _____________ to the head. 17. The cat head is _____________ to the neck. 18. The mouth is _____________ to the ears. 19. The skeletal muscle is _____________ to hair. 20. The f ...
A primary spine stabilizer
... the skull to the sacrum. It connects the front (anterior) of the vertebral body to the front of the annulus fibrosis. ...
... the skull to the sacrum. It connects the front (anterior) of the vertebral body to the front of the annulus fibrosis. ...
D2-1 UNIT 2. DISSECTION: SUPERFICIAL MUSCLES OF THE
... process of all 12 thoracic vertebrae. Its fibers converge laterally to a V-shaped insertion on the posterior border of the lateral third of the clavicle, the medial border of the acromion and the upper border of the scapular spine. 5. Clean the latissimus dorsi (N. plate 174, 177; G. plate 4.31). In ...
... process of all 12 thoracic vertebrae. Its fibers converge laterally to a V-shaped insertion on the posterior border of the lateral third of the clavicle, the medial border of the acromion and the upper border of the scapular spine. 5. Clean the latissimus dorsi (N. plate 174, 177; G. plate 4.31). In ...
The Suboccipital Region
... muscle arises from the spine of the axis and passes upward and laterally to attach to the transverse process of the atlas. This muscle forms the lower lateral border of the suboccipital triangle. Action: turns the face towards the same side. ...
... muscle arises from the spine of the axis and passes upward and laterally to attach to the transverse process of the atlas. This muscle forms the lower lateral border of the suboccipital triangle. Action: turns the face towards the same side. ...
Lecture 1 - Evaluation and Treatment of Lumbar Somatic Dysfunction
... Lumbar facet orientation is relatively aligned in the sagittal plane. Thoracics align in coronal plane (ribs limit thoracic motion) ...
... Lumbar facet orientation is relatively aligned in the sagittal plane. Thoracics align in coronal plane (ribs limit thoracic motion) ...
Axial Skeleton - adeleallison [licensed for non
... – Articulates with occipital bone – Allows for nodding head “yes” • 2nd cervical vertebra is the axis – Articulates with atlas – Allows for shaking the head “no” ...
... – Articulates with occipital bone – Allows for nodding head “yes” • 2nd cervical vertebra is the axis – Articulates with atlas – Allows for shaking the head “no” ...
biomechanics of spine
... 7 cervical, 12 thoracic, 5 lumbar, 5 sacral and 4 coccygeal) Ø Typical vertebra consists of cylindrical body and a dorsal arch Ø Dorsal arch consists of pedicle, lamina, pars interarticularis and spinous process. Ø 2 primary curvatures- thoracic and ...
... 7 cervical, 12 thoracic, 5 lumbar, 5 sacral and 4 coccygeal) Ø Typical vertebra consists of cylindrical body and a dorsal arch Ø Dorsal arch consists of pedicle, lamina, pars interarticularis and spinous process. Ø 2 primary curvatures- thoracic and ...
Vertebra
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.