Temporal Bone Landmarks cont..
... • The next vertebra in the adult vertebral column. • A triangular shaped bone formed from the fusion of 5 bones. This starts around age 16 and is usually completed by age 30. • Auricular surfaces: large, ear-shaped roughened surfaces found on the lateral aspect of the sacrum. – This articulates with ...
... • The next vertebra in the adult vertebral column. • A triangular shaped bone formed from the fusion of 5 bones. This starts around age 16 and is usually completed by age 30. • Auricular surfaces: large, ear-shaped roughened surfaces found on the lateral aspect of the sacrum. – This articulates with ...
Temporal Bone Landmarks cont..
... • The next vertebra in the adult vertebral column. • A triangular shaped bone formed from the fusion of 5 bones. This starts around age 16 and is usually completed by age 30. • Auricular surfaces: large, ear-shaped roughened surfaces found on the lateral aspect of the sacrum. – This articulates with ...
... • The next vertebra in the adult vertebral column. • A triangular shaped bone formed from the fusion of 5 bones. This starts around age 16 and is usually completed by age 30. • Auricular surfaces: large, ear-shaped roughened surfaces found on the lateral aspect of the sacrum. – This articulates with ...
Chapter Outline
... • Sole of foot does not normally rest flat on the ground • 3 springy arches absorb stress of walking – medial longitudinal arch extends from heel to hallux – lateral longitudinal arch extends from heel to little toe – transverse arch extends across the middle of the foot ...
... • Sole of foot does not normally rest flat on the ground • 3 springy arches absorb stress of walking – medial longitudinal arch extends from heel to hallux – lateral longitudinal arch extends from heel to little toe – transverse arch extends across the middle of the foot ...
Slide 1 - KSUMSC
... parts continuous with each other: Cranial cavity: space inside skull, contains brain Spinal cavity: space inside vertebral column, contains spinal cord ...
... parts continuous with each other: Cranial cavity: space inside skull, contains brain Spinal cavity: space inside vertebral column, contains spinal cord ...
8-12 Temporal Bone Lateral wall and part of floor of cranial cavity
... • Greater and lesser trochanters for muscle attachment • Posterior ridge called linea aspera • Medial and lateral condyles and epicondyles found distally • Patella = triangular ...
... • Greater and lesser trochanters for muscle attachment • Posterior ridge called linea aspera • Medial and lateral condyles and epicondyles found distally • Patella = triangular ...
Appendicular Skeleton (con`t)
... – movement skeletal muscles (tendons) – storage fat (internal cavities); Ca 2+ ; blood & bones, hormones; P – blood cell formation = hematopoiesis ...
... – movement skeletal muscles (tendons) – storage fat (internal cavities); Ca 2+ ; blood & bones, hormones; P – blood cell formation = hematopoiesis ...
No Slide Title
... • Greater and lesser trochanters for muscle attachment • Posterior ridge called linea aspera • Medial and lateral condyles and epicondyles found distally • Patella = triangular ...
... • Greater and lesser trochanters for muscle attachment • Posterior ridge called linea aspera • Medial and lateral condyles and epicondyles found distally • Patella = triangular ...
Chapter 8
... • Greater and lesser trochanters for muscle attachment • Posterior ridge called linea aspera • Medial and lateral condyles and epicondyles found distally • Patella = triangular ...
... • Greater and lesser trochanters for muscle attachment • Posterior ridge called linea aspera • Medial and lateral condyles and epicondyles found distally • Patella = triangular ...
Document
... • Greater and lesser trochanters for muscle attachment • Posterior ridge called linea aspera • Medial and lateral condyles and epicondyles found distally • Patella = triangular ...
... • Greater and lesser trochanters for muscle attachment • Posterior ridge called linea aspera • Medial and lateral condyles and epicondyles found distally • Patella = triangular ...
Chapter 8
... • Greater and lesser trochanters for muscle attachment • Posterior ridge called linea aspera • Medial and lateral condyles and epicondyles found distally • Patella = triangular ...
... • Greater and lesser trochanters for muscle attachment • Posterior ridge called linea aspera • Medial and lateral condyles and epicondyles found distally • Patella = triangular ...
2014 Quiz IIA Answers
... The synovial membrane is continuous with the fibrous layer of the periosteum The type of movement in a synovial joint is determined by the shape of the articulating bone ends Bursa and tendon sheets are fluid-filled sacs found in synovial joints Hyaline cartilage covering the opposing bone ends abso ...
... The synovial membrane is continuous with the fibrous layer of the periosteum The type of movement in a synovial joint is determined by the shape of the articulating bone ends Bursa and tendon sheets are fluid-filled sacs found in synovial joints Hyaline cartilage covering the opposing bone ends abso ...
ch 5 day 6
... the acromioclavicular joint. The coracoid process points over the top of the shoulder and anchors some of the muscles of the arm. Just medial to the coracoid process is the large suprascapular notch. The scapula has three borders–superior, medial (vertebral), and lateral (axillary). It also has thre ...
... the acromioclavicular joint. The coracoid process points over the top of the shoulder and anchors some of the muscles of the arm. Just medial to the coracoid process is the large suprascapular notch. The scapula has three borders–superior, medial (vertebral), and lateral (axillary). It also has thre ...
2 bones - Yeditepe University Pharma Anatomy
... The vertebrae reach maximum size immediately superior to the sacrum, which transfers the weight to the pelvic girdle at the sacroiliac joints. ...
... The vertebrae reach maximum size immediately superior to the sacrum, which transfers the weight to the pelvic girdle at the sacroiliac joints. ...
Presentazione di PowerPoint
... If the sphenoid is the most difficult cranial bone to describe and invision, the Ethmoid is the second most difficult. It has a number of features and projections, but unlike the sphenoid it cannot be seen from various views of the skull. Like the sphenoid, it is a single bone that runs through the ...
... If the sphenoid is the most difficult cranial bone to describe and invision, the Ethmoid is the second most difficult. It has a number of features and projections, but unlike the sphenoid it cannot be seen from various views of the skull. Like the sphenoid, it is a single bone that runs through the ...
The SKELETAL System
... Generally thin and flat Compact bone on anterior and posterior surfaces with spongy bone in the middle Provides protection to organs Large surface area for muscle attachment Examples: cranial bones, sternum, scapula, ribs ...
... Generally thin and flat Compact bone on anterior and posterior surfaces with spongy bone in the middle Provides protection to organs Large surface area for muscle attachment Examples: cranial bones, sternum, scapula, ribs ...
The Appendicular Skeleton
... pass from the pelvis posteriorly into the thigh. 3. Pubis or pubic bone Most anterior part of the coxa. Fusion of the rami of the pubis anteriorly & the ischium posteriorly forms a bar of bone enclosing the obturator foramen, an opening through which blood vessels & nerves pass into the anterior ...
... pass from the pelvis posteriorly into the thigh. 3. Pubis or pubic bone Most anterior part of the coxa. Fusion of the rami of the pubis anteriorly & the ischium posteriorly forms a bar of bone enclosing the obturator foramen, an opening through which blood vessels & nerves pass into the anterior ...
The Skeletal System: Bones and Joints
... Each long bone consists of a shaft, called the (1) , and a(n) (2) at each end of the bone. A long bone that is still growing has a(n) (3) , composed of cartilage, between each epiphysis and the diaphysis. When bone growth stops, the epiphyseal plate is replaced by bone, and is called the (4) . The l ...
... Each long bone consists of a shaft, called the (1) , and a(n) (2) at each end of the bone. A long bone that is still growing has a(n) (3) , composed of cartilage, between each epiphysis and the diaphysis. When bone growth stops, the epiphyseal plate is replaced by bone, and is called the (4) . The l ...
chapter 8-joints
... 1. Sutures-joints that join the bones of the skull. 2. Gomphoses-joint in which a peg is held in a socket by a piece of fibrous connective tissue. An example is a tooth held in its socket by the periodontal ligament. 3. Synchondroses-hyaline cartilage serves as the connecting tissue in these joints. ...
... 1. Sutures-joints that join the bones of the skull. 2. Gomphoses-joint in which a peg is held in a socket by a piece of fibrous connective tissue. An example is a tooth held in its socket by the periodontal ligament. 3. Synchondroses-hyaline cartilage serves as the connecting tissue in these joints. ...
Chapter 5
... Structure of Short, Irregular, and Flat Bones • Thin plates of periosteum-covered compact bone on the outside with endosteum-covered spongy bone on the inside • Have _ • Contain bone marrow between the trabeculae ...
... Structure of Short, Irregular, and Flat Bones • Thin plates of periosteum-covered compact bone on the outside with endosteum-covered spongy bone on the inside • Have _ • Contain bone marrow between the trabeculae ...
File
... interaction of these systems allow human movement • Bones form a rigid skeletal framework with numerous joints that can be moved as a result of the forces produced by the attaching muscles • As the muscles pull against the bones, the bones act as levers. ...
... interaction of these systems allow human movement • Bones form a rigid skeletal framework with numerous joints that can be moved as a result of the forces produced by the attaching muscles • As the muscles pull against the bones, the bones act as levers. ...
appendicular skeleton - CSB | SJU Employees Personal Web Sites
... to allow unrestricted movement of the humerus --good for mobility, but poor stability. A. CLAVICLE -slender, double curved, long-bone -articulates medially with the manubrium and laterally with the acromion process of the scapula -functions: attachment point for muscles of upper body; holds the scap ...
... to allow unrestricted movement of the humerus --good for mobility, but poor stability. A. CLAVICLE -slender, double curved, long-bone -articulates medially with the manubrium and laterally with the acromion process of the scapula -functions: attachment point for muscles of upper body; holds the scap ...
Development AND GROWTH of The MAXILLA
... As a result of this pattren of bone deposition, a bony trough is formed (infraorbital groove) where the infraorbital nerves lies. The inner and outer edges of this groove grow up, meet and fuse forming a canal that encloses the nerve & open anteriorly at the infraorbital foramen downward: To form ...
... As a result of this pattren of bone deposition, a bony trough is formed (infraorbital groove) where the infraorbital nerves lies. The inner and outer edges of this groove grow up, meet and fuse forming a canal that encloses the nerve & open anteriorly at the infraorbital foramen downward: To form ...
Bone
A bone is a rigid organ that constitutes part of the vertebral skeleton. Bones support and protect the various organs of the body, produce red and white blood cells, store minerals and also enable mobility. Bone tissue is a type of dense connective tissue. Bones come in a variety of shapes and sizes and have a complex internal and external structure. They are lightweight yet strong and hard, and serve multiple functions. Mineralized osseous tissue or bone tissue, is of two types – cortical and cancellous and gives it rigidity and a coral-like three-dimensional internal structure. Other types of tissue found in bones include marrow, endosteum, periosteum, nerves, blood vessels and cartilage.Bone is an active tissue composed of different cells. Osteoblasts are involved in the creation and mineralisation of bone; osteocytes and osteoclasts are involved in the reabsorption of bone tissue. The mineralised matrix of bone tissue has an organic component mainly of collagen and an inorganic component of bone mineral made up of various salts.In the human body at birth, there are over 270 bones, but many of these fuse together during development, leaving a total of 206 separate bones in the adult, not counting numerous small sesamoid bones. The largest bone in the body is the thigh-bone (femur) and the smallest is the stapes in the middle ear.