Joints

Question 1

What does hyaline cartilage do?

Answer 1

Provides low friction surfaces (elastic springy surface)

Question 2

What does fibrocartilage do?

Answer 2

Provides resilient support

Question 3

What do ligaments do?

Answer 3

Tie bones together

Question 4

What do tendons do?

Answer 4

Tie muscles to bones

Question 5

What does fascia do?

Answer 5

Wraps around to hold things in place

Question 6

What does fat do?

Answer 6

Provides padding and reduces weight (think of floating on water– lighter packing material then tissue– as you go further down the limb weight becomes more important. Marrow of the bones- as animal gets older- bone marrow becomes fatty. Haematopoietic marrow is only retained in areas that don’t move as much- every time you move something it takes energy).

Question 7

What are bones made of? (very basically)

Answer 7

Collagen stiffened with mineral

Question 8

Aponeurosis

Answer 8

Sheet of fascia

Question 9

What is cartilage made of?

Answer 9

Collagen filled with glycoproteins that hold water. When they come under load, it pushes the water out. If you hold a joint tight together for a length of time, it squeezes the water out into the joint sheath (joins the synovial fluid) and the cartilage becomes stiff and it is more likely to tear the collagen. (Think about sitting on your foot and it feels stiff).

Question 10

What are ligaments and tendons made of?

Answer 10

Collagen +/- elastin aligned into ropes (collagen is springy so it can take a lot of stretching and recoil, store elastic energy, prevent sudden loads coming onto the skeleton. Bones don’t like being pulled, they are okay with being compressed.)

Question 11

What are muscles made of?

Answer 11

Collagen bags of cells filled with contractile proteins. You can tell how they go into a bone because you can find the fossa, for example.

Question 12

What is fascia made of?

Answer 12

Collagen not otherwise named (e.g. sheets wrapping limbs)

Question 13

What is fat made of?

Answer 13

Collagen (fascia) + adipocytes stuffed with triglycerides

Question 14

Why does the scapula have a serrated face?

Answer 14

Serrated because there are bits of bone and collagen- where you are left with collagen from the serratus ventralis was going directly into the bone.

Question 15

What type of loads do muscles put on bone?

Answer 15

Compressive. NOT direct TENSILE loads. They SPREAD the load**** important concept

Question 16

If you want to stabilize a joint that is sloppy, you put a support bandage, what is the analogous to?

Answer 16

Fascia

Question 17

How do each part of the anatomy in locomotion act together?

Answer 17

Muscles provide movement, joint allow movement, posture of the body, length, position and stiffness in ligaments in tendons determine how the movement is directed. Elasticity within ligaments and tendons, along with connections between them– smooths movements and helps balance. e.g. wobbly on a bike- cerebellum has to learn a new control system.

Question 18

Just having the Elastic recoil in ligaments and tendons does what?

Answer 18

Slows down the speed of the muscle effect on the bones. It makes the much more efficient BUT it slows them down fractionally. Ligaments evenly toned- uneven tension on ligaments causes inappropriate joint loading.

Question 19

Muscles role in movement– ligaments and tendons play a part

Answer 19

Muscles contract and pull against ligaments. Tension surface- even a slight bump could crack the bone EXCEPT that there is an antagonistic muscle group. SO ONE SIDE RELAXES. A gradual change from one to the other. Ligaments also counteract muscle pull to provide posture. Large tendons counteracting forces- which reduces the requirement for muscle. * Muscles held contracted give a static posture and lead to generalized stiffening/ increased damage risk. * Muscles that balance ligament pull in an elasticm anner give a dynamic, efficient, posture.

Question 20

Ligaments

Answer 20

Ligaments can only be stretched If never stretched- they passively contract become stiffer and maybe less strong. If continuously stretched- they lengthen and may become sloppy and cease to provide support. If used within an active balanced system- they will be elastic and strong and supportive.

Question 21

Which posture is assisted by ligaments?

Answer 21

The second picture.

Balancing ligament tone allows spinal muscles to strengthen evenly. Unbalanced ligament tone means that certain muscles are overused and movement through the joints are no longer optimal. Joints then become painful and/or damaged which restricts joint movement and causes more imbalance in the system.

** horses exercised regularly and on varying terrain

Question 22

What happens with uneven tension on ligaments?

Answer 22

Causes inappropriate joint loading

Question 23

Where are fibrous joints found?

Answer 23

Skull sutures. Difficult to tell where the separations are. Do not have large movement. Fractions of mm. of movement- important in denistry.

Question 24

Where are cartilagenous joints- where are they found? what are they made of?

Answer 24

Fibrocartilaginous between them. Ring of fibrous tissue either side- at the surface where bones meet. In the middle- globular mass- a remnant of the motor cord (nucleus palposes)– when there is undue pressure and the fibrous tissue (collagen) around the edge tears- it can produde up and put pressure ont the spinal cord.

****Found at the vertebrae (intervertebral discs)- symphyses (pubic and mandible), costochondral/sternal (inbetween sternum and ribs and lumbs on ribs)

(e.g. fused pubic symphyses- important in a female that is going to be breeding. Can fuse in either mandible or pubis)

Question 27

Synovial joint- where?

Answer 27

Most limb joints. Wonderful place for bugs to grow- nice and warm with nutrition and protected to some extent from the immune system.

**synovial capsule keeps hyaline cartilage hydrated and provides nutrition to hyaline cartilage (it has no blood supply)- blood supply from bones??

Question 28

Muscular joints- found?

Answer 28

E.g. pectoral girdle to trunk

Question 29

Which joints have intrinsic support?

Answer 29

Fibrous and cartilaginous joints. When they heal end up with scar tissue.

Question 30

Naming of joints

Answer 30

Proximal bone then distal bone. e.g. metacarpophalangeal joint between metacarpus and first phalanx

Question 31

How is movement constrained in synovial hinge joints that flex and extend?

Answer 31

Contrained by shape of the bone surfaces at the joint, and/or ligaments that surround the joint and/or tendons that cross the joint.

Question 32

What is tricky about flexion and extension in forelimb vs. hindlimb?

Answer 32

Hand and foot flex and extend in different ways

Question 33

Answer 33

Stifle needs more ligaments.

Question 34

what is the largest of the sesamoids?

Answer 34

Patella

Question 35

Where does flexion mainly occur along the spine?

where does axial rotation occur?

lateral bending along the spine?

Answer 35

Neck and lumbosarcal joints

Axial rotation- top of the head (tilted neck)

Lateral bending in neck and some in rib cage

Question 36

Atlanto axial joint movement in a quadruped

Answer 36

rotational, flexion, extension- one ear down or the toher.

Question 37

Why would you want a ligament to snap into straight?

Answer 37

So it is stable when you land on it.

Question 38

How many fibrocartilaginous plates are found in how many joints in the body? What are they called?

Answer 38

Femur or temporal bone

Tibia or mandible

*Only 4 joints in the body with a fibrocartilaginous plate in the center

left and right stifle (medial and lateral menisci), left and right temporalmandibular joints (single meniscus)

** Periosteum gets thicker- goes around to make a joint sheath

Lining the joint sheath is the synovial membrane

Question 39

Synovial membrane

Answer 39

Thin layer of membrane that produces synovium lines the inside of the joint sheath up to the edge of the cartilage.

It is sensitive and secretory. Over the collagen NOT over the cartilage. Secretes synovial fluid.

Question 40

in the elbow joint, what constrains movement mostly? What breaks in the elbow joint if breakage occurs?

Answer 40

• Bone constrains movement.
• Anconeal and two coronoid processes fracture.

Question 41

What gets into trouble in the stifle if breakdown occurs?

Answer 41

Ligaments tying the bones together.

Question 42

Two joints at the stifle?

Answer 42

Femoropatellar and Femoraltibial

Question 43

What are the stabilizing and supporting structures in the stifle?

Answer 43

Menisci, sesamoids, and ligaments and tendons

Question 44

Where do sesamoids occur?

Answer 44

Where a tendon crosses a joint in such a way that it would be pulled against the bone ends

Only sesamoids if they are actually bone, if they are still fibrocartilage plaque (enlargement of the tendon as it crosses the surface)

** patellar

Question 45

Where do menisci occur?

Answer 45

A pair of menisci in each femorotibial joint and a single meniscus in each temporomandibular joint

You can tell in an X-ray based on the space

Question 46

What is a bursa?

Answer 46

Bursa is the same as a synovial membrane between fibrocartilaginous plaque (or scutum) and a bone

Question 47

Where do fibrocartilagenous plaques occur?

Answer 47

Where compression is not as focussed. e.g. biceps tendon at the bicipital bursa; proximal, middle and distal scutums in the equine digit.

Scutum- synonymous with fibrocartilaginous plaque.

Question 48

What are these?

Answer 48

Superficial Deep Digital flexor tendon

and Deep Digital Flexor Tendon

Question 49

Ligaments that are extracapsular?

Answer 49

Joint capsule thickenings e.g. collateral ligaments, other supporting ligaments, e.g. sesamoidean ligaments.

Question 50

Ligaments that are intracapsular?

Answer 50

Cruciate ligaments of stifle joint

Meniscal ligaments.

Question 51

Fascial thickening example

Answer 51

Annular ligaments (retinaculi)

Question 52

Ligaments that span many joints examples

Answer 52

Nuchal ligament, sacrotuberous ligament, interosseous ligaments

Question 53

What are these? What do they do? What joints do not have them?

Answer 53

Ligaments of the hindlimb. They confine the limb to flexion and extension- one plane. Hip joint is an ex. of a joint that does not have ligaments because of its much larger range of motion

Question 54

Which one is which?

Answer 54

Medial condyle has the higher point- because cranial cruciate going up to the femur. The caudal attaches more caudally and more laterally onto the tibial plateau.

Solid blue is cranial cruciate ligament

and caudal cruciate ligament is clear

Answer 55

5 large ligaments holding the femur to the tibia

Question 56

What ligaments are these in a horse?

Answer 56

Patellar ligaments have 3 parts

b- is a strong piece of fibrocartilage which helps tether it more

Question 57

Answer 57

Question 58

What ligaments in a horse?

Answer 58

Question 59

Answer 59

Much more directly connected in dogs.

Sacroiliac ligaments.

Question 60

Most limb muscles are what as levers?

Answer 60

3rd order levers. They act on joints (the fulcrum or pivot)

1st is simple lever- push on one end and the weight is on the other.

Wheel barrow is a 2nd order

3rd order- distance/ speed multiplier– attachment site is the “effort” and the joint is the fulcrum. The rest of the limb is the weight.

Question 61

Muscle contraction can be?

What can help determine muscle function?

Answer 61

Isometric or isotonic or a mixture of both

Balanced either side of bones to prevent bending (agonist + antagonist)

Determining muscle function: cross sectional area (power) or the whole muscle; length (range) of whole muscle. Size, relative length, and direction of muscle fibres. Position relative to the skeleton. Points of attachment- form and strength. Other attachments or constraints (ligaments, tendons, fascia, etc.)

** As a muscle gets bigger- the more fasicles- the larger the volume of contractile protein- the more it can pull. ACCORDING TO THE CROSS SECTIONAL AREA

** Distance it can move depends on the alignment of fasicles. V alignment vs. longitudinal alignment. Muscles strength lies in the collagen and alignment of the collagen

Power depends on the cross sectional area and how much contractile protein it has. Distance it can move depends on the alignment of the fibres and their orientation based on the direction. Each muscle fibre can only contract a certain portion, if you angle them, you decrease the distance it can move the muscle but you increase its strength.

Question 62

Where does muscles strength and power, and distance it can move come from?

Answer 62

Muscles strength lies in the collagen and alignment of the collagen

Power depends on the cross sectional area and how much contractile protein it has.

Distance it can move depends on the alignment of the fibres and their orientation based on the direction. Each muscle fibre can only contract a certain portion, if you angle them, you decrease the distance it can move the muscle but you increase its strength.

Question 63

Isometric vs. Isotonic

Answer 63

Isometric- keeps the same position (sitting in a squat position). Muscle does not change length but there is power.

Isontonic- keeping the same tone but moving it through space

** most movements are a combination of both

Question 64

Know three muscle groups in the spine

Question 65

How are muscles aligned? One consideration

Answer 65

Most muscles are aligned to put compressive loads on bones- where they are not aligned this way they are spread out quite a bit so they can put a more compressive load vs. tensile load

Question 66

If you have a sudden movement and a muscle contracts, what happens? What happens if you had a sudden contraction without the other?

Answer 66

Antagonistic muscle relaxes and ligaments counteract muscle pull to help provide posture and large tendons reduce the requirement for muscle (MUSCLE IS HEAVY!). If this didn’t occur you could crack the bone with even a slight bump.