GENERAL MSK

Question 1

What is cartilage?

Answer 1

Cartilage is an AVASCULAR form of CONNECTIVE TISSUE. It is composed of COLLAGEN AND ELASTIC FIBRES embedded in a gel-like MATRIX, containing localised CELLS in cavities

Cartilage is enveloped in PERICHONDRIUM which is a type of connective tissue

Question 2

What is perichondrium?

Answer 2

It is a layer of dense, irregular CONNECTIVE TISSUE that envelopes cartilage.

Question 3

What are the complications associated with cartilage being avascular?

Answer 3

Because cartilage is avascular, all nutrients need to DIFFUSE through the matrix to reach chondrocytes (cartilage cells)
This contributes to WEAKED DEGENERATIVE PROPERTIES of cartilage and thus they have very slow healing

Question 4

What are the functions of cartilage?

Answer 4

• support and protection of soft tissues
• provide a gliding surface at articulations (joints)
• basis for some joints
• provide a model for the FORMATION OF BONES (precursor)

Question 5

What is a chondroblast?

Answer 5

Chondroblasts are cartilage cells located between the perichondrium and gel matrix, whose role is to MAKE CARTILAGE by secreting cartilaginous matrix. In doing this, the matrix surrounds and isolates chondroblasts, embedding them in the cartilage

Question 6

What is a chondrocyte?

Answer 6

When a chondroblast becomes embedded in the cartilage, it is called a chondrocyte and their role is to maintain cartilage. Chondrocytes are found in lacunae which are spaces in the matrix

Question 7

appositional growth of cartilage

Answer 7

growth in diameter

chondroblasts secrete new matrix at the periphery of cartilage

Question 8

What is interstitial growth of cartilage?

Answer 8

growth in length

through mitosis

two daughter cells occupy one lacuna (they do not like this)

they secrete new matrix in order to separate

Question 9

What are the different types of cartilage?

Answer 9

hyaline cartilage

elastic cartilage

fibrocartilage

Question 10

What is hyaline cartilage?

Answer 10

Hyaline cartilage covers bony articular surfaces (joints)

most common in the body

matrix contains a moderate amount of collagen fibres - not visible

Question 11

what is articular hyaline cartilage?

Answer 11

• hyaline cartilage found at bone ends
• the key thing to note is that it does not contain perichondrium
• this is ensure smooth gliding of joints of which perichondrium is too rough. Furthermore, perichondrium would be broken down and wasted if located at joints
• this is why cartilage wears down over time leading to joint problems

Question 12

What is elastic cartilage?

Answer 12

Elastic cartilage contains bundles of elastic fibres arranged in irregular patterns, providing flexibility

• highly flexible
• least abundant in the body
• the branhed, irregular fibres allow for the cartilage to be very mobile and to experience force from multiple directions
• found in the external ear, auditory tube and parts of the larynx

Question 13

what is fibrocartilage?

Answer 13

fibrocartilage is tough, containing thick, regular patterns of collagen fibre

• prevents stretching and compression
• acts as a shock absorber
• lacks perichondrium (don’t want damage)
• found in the intervertebral disk (weight), public symphysis (prevents stretching and healing during child birth) and found in the meniscus (knee)

Question 14

what type of cartilage is this?

Answer 14

hyaline cartilage

Question 15

what type of cartilage is this?

Answer 15

elastic cartilage

Question 16

what type of cartilage is this?

Answer 16

fibrocartilage

Question 17

What are the functions of bone?

Answer 17

• support and protection of soft tissue
• movement (muscle does not push or pull, it only shortens. Therefore when a muscle is anchored on two bones, it will cause movement)
• hormonal component - regulate blood sugar, kidney function, suppress appetite
• hemopoiesis - blood cell production
• maintaining homeostasis

Question 18

What is the difference between red and yellow bone marrow?

Answer 18

yellow bone marrow contains adipose tissue and can act as a source of energy

• in adults, much of red bone marrow degenerates into yellow bone marrow

red bone marrow is where hematopoiesis - the production of blood cells (red blood cells, white blood cells and platelets are all produced in red bone marrow)

• in children, red bone marrow is found in spongy bone throughout the body
• in adults, red bone marrow is found in spongy bone of some bones

during trauma events, the body has the ability to convert yellow bone marrow to red bone marrow to assist in replenishing red blood cell’s lost

Question 19

How do bones assist in maintaining homeostasis?

Answer 19

storage of mineral and energy reserves

• more than 90% of body’s calcium and phosphate reserves are found in bone
• phosphate is needed for ATP
• calcium needed for blood clotting, movement, nerve impulse transmission
• lipids are stored in yellow bone marrow
• the body will go to bones to retrieve this minerals if it is deficient in the body (this is why those who are anorexic are at much greater risk of osteoperosis)

Question 20

What are osteoblasts?

Answer 20

The osteoblast is the bone cell responsible for forming new bone and is found in the growing portions of bone including the periosteum and endosteum

• they produce osteoid (protein matrix)

Question 21

what are osteocytes?

Answer 21

As the secreted matrix surrounding the osteoblast calcifies, the osteoblast becomes trapped within it and becomes an osteocyte

• osteocytes maintain bone including the mineral concentration
• each osteocyte is located in a space called a lacunae
• osteocytes can communicate with each other and recieve nutrients via canaliculi which are channels within the bone matrix

Question 22

What are osteoclasts?

Answer 22

Bone is dynamic, meaning that new bone tissue is constantly formed and old, injured or unecessary bone is dissolved for repair or for calcium release

• osteoclasts are responsible for the destruction or resorption of bone
• helps with remodelling of bone during growth, remodelling and repair

Question 23

What is compact/cortical bone?

Answer 23

Compact bone is the denser, stronger of the two types of bone tissue. It can be found in the outer layers and offers protection and support. Compact bone is dense so that it can withstand compressive forces

Question 24

What is spongy/trabecular/cancellous bone?

Answer 24

Spongy bone is the inner structure of bone and is honeycombed and lightweight. It houses bone marrow and is directed to stress lines

spongy bone has open spaces and supports the shift in weight distribution

Question 25

identify the proximal epiphysis

Answer 25

Question 26

identify the distal epiphysis

Answer 26

Question 27

identify the diaphysis

Answer 27

Question 28

identify the metaphysis

Answer 28

Question 29

identify the periosteum

Answer 29

Question 30

identify the endosteum

Answer 30

Question 31

identify the medullary cavity

Answer 31

Question 32

identify the spongy bone

Answer 32

Question 33

identify compact bone

Answer 33

Question 34

examples of long bones

Answer 34

• femur
• tibia
• humerus

Question 35

examples of flat bones

Answer 35

• sternum
• ribs
• scapula
• cranial bones

Question 36

example of short bones

Answer 36

• carpals
• tarsals

Question 37

examples of irregular bones

Answer 37

• vertebrae
• facial bones

Question 38

examples of sesamoid bones

Answer 38

• patella

Question 39

intramembranous bone formation

Answer 39

• from within a membrane
• bone forms directly within a membrane arranged in sheet-like layers
• includes flat bones of the skull, some facial bones, mandible, etc.

frontelles are areas in the skull where bones have not yet fused at birth

Question 40

endochondral bone formation

Answer 40

• from within cartilage
• precursors develop into cartiliginous model which then becomes bone
• includes all other bones of the body

Question 41

gomphosis joint

Answer 41

• immobile - synarthrosis
• binds teeth to their socket
• small amounts of dense, fibrous connective tissue

Question 42

suture

Answer 42

• immobile - synarthrosis
• fibrous joint found between the bones of the skull

Question 43

syndesmosis

Answer 43

• amphiarthrosis - slightly moveable
• large amounts of connective tissue (ligaments)
• found in the upper ankle

Question 44

synchondrosis

Answer 44

• cartiliginous bridge between two bones
• immobile - synarthrosis
• between the first pair of ribs and sternum (manubrium)

Question 45

symphysis

Answer 45

• slightly mobile - amphiarthrosis
• fibrocartilage - stretching and compression
• found in the intervertebral discs and pubic symphysis

Question 46

synovial

Answer 46

• diarthrosis - wide range of motion
• typically located at the ends of long bones
• e.g., hip joint or shoulder joint

Question 47

what movements do pivot joints allow?

Answer 47

• rotational movement
• e.g., atlanto/axial joint, proximal radioulnar joint

Question 48

what movements do hinge joints allow?

Answer 48

• flexion
• extension

e.g., knee, elbow, ankle joint

Question 49

what movements do condyloid joints allow?

Answer 49

• flexion
• extension
• abduction
• adduction
• circumduction

e.g., knuckle joints of fingers, radiocarpal of wrist, toes

Question 50

what movements do saddle joints allow?

Answer 50

• flexion
• extension
• abduction
• adduction
• circumduction

e.g., thumb

Question 51

what movements do plane joints allow?

Answer 51

• inversion
• eversion
• flexion
• extension
• lateral flexion

e.g., tarsals/carpals, articulations between vertebrae

Question 52

what movements do ball and socket joints allow?

Answer 52

• flexion
• extension
• adduction
• abduction
• circumduction
• medial/lateral rotation

e.g., shoulder and hip