Tendon Structure

Question 1

What is vascularture of a tendon like?

Answer 1

No direct blood supply but not completely a vascular

Question 2

How do tendons get their nutrients

Answer 2

Diffusion from synovial fluid

Question 3

What are the three different blood supplies for tendons/

Answer 3

Osteotendious junction
Vessels surrounding connective tissue
Musculotendious junction

Question 4

What is the innervature of the tendon like?

Answer 4

Branches from muscle belly and the skin
Branches are parallel to tendons axis
Nerves are localised in paratenon, epitenon, endotenon

Question 5

What is the function of a tendon and the one exception

Answer 5

To connect bone to muscle
Transmit muscle force to bone
Help compress force
In lining of abdominal wall there is no muscle but tendons

Question 6

How do tendons passively transfer force from muscle to bone?

Answer 6

Muscle mass is near proximal part of body, so mass of limb is lower
Neurovascular bundles are as short as possible to prevent damage

Question 7

What type of connective tissue are tendons?

Answer 7

Dense connective tissue

Question 8

What are the two different types of tendons

Answer 8

Positional
Elastic

Question 9

What are the uses, examples and structure of positional tendons

Answer 9

Stiffer, less elastic so bones can be pulled back together and support the joint
Example is common digital tendon (helps extend carpus and digits)

Question 10

What are the uses, examples and structure of elastic tendons

Answer 10

Used to absorb shock landings
Mostly in forelimb
Usually on flexor tendons like deep digital flexor tendon and superficial digital flexor tendon

Question 11

What are the uses, examples and structure of elastic tendons

Answer 11

Used to absorb shock landings
Mostly in forelimb
Usually at flexor points like deep digital flexor tendon and superficial digital flexor tendon

Question 12

What is the TIOM (suspensary ligament)

Answer 12

NOT A LIGAMENT BUT A VERY TENDIOUS MUSCLE!
Function is to support fetlock joints and prevent hyper extension

Question 13

What is the weird bit sticking out behind dogs leg?

Answer 13

Common Calcaneon tendon

Question 14

What is the manica flexoria

Answer 14

Links the DDFT and SDFT
SDFT forms a sheath to allow DDFT to run through it

Question 15

Where is the manica flexoria

Answer 15

From foot to a third of the way up the cannon

Question 16

What is a bursae

Answer 16

Bag of synovial fluid
Detached from joint and attached under the tendon to stop it from rubbing on bone

Question 17

What is the function of a tendon sheath?

Answer 17

Layer/ tunnel of synovial membrane around a tunnel
Secretes synovial fluid as lubricant

Question 18

What is the mesotenon?

Answer 18

Two sides of bursae meet and so blood vessels can’t get in

Question 19

Why do sheathed tendons have less chance of healing?

Answer 19

Only internal blood supply is available
Blood supply from mesotenon neurovascular bundle only

Question 20

What is an adhesion?

Answer 20

band of scar tissue that joins two internal body surfaces that are not usually connected

Question 21

What happens is a sheath is torn when healing a tendon

Answer 21

Healing is accelerated
More chances of adhesions
Impacts gliding function

Question 22

Why don’t tendons tend to rupture as much as muscles?

Answer 22

Tensile strength of tendon much higher than that of a muscle

Question 23

What may weaken a tendon?

Answer 23

Chronic injuries and stretching

Question 24

What may happen to a tendon if heavy exercise

Answer 24

Mineralises

Question 25

Why may Cushing syndrome lead to a rupture

Answer 25

High glucocorticoid levels inhibits collagen synthesis

Question 26

What is the composition of tendons like?

Answer 26

65-80% collagen
2% elastin
1-5% proteoglycans
30% water

Question 27

What type of collagen is in tendons?

Answer 27

Type 1

Question 28

How is collagen synthesised

Answer 28

1. A triple helical structure called pro collagen is made inside the fibroblasts
2. Once outside the cell, pro collagen is trimmed to make an insoluble molecule
3. Collagen fibres self assemble outside of cell into fibrils. PG place as bridge fibrils to strengthen them
4. Bundles of fibrils assemble into a collagen fibre

Question 29

What is the epitenon?

Answer 29

The outer covering of a tendon within its sheath. Most important structure in the tendon repair process. Connective tissue and defined tendon unit

Question 30

What is the endotenon?

Answer 30

A loose acellular tissue carrying blood vessels that surrounds small bundles of collagen fibers throughout the tendon

Question 31

What is the paratenon?

Answer 31

The loose connective tissue surrounding the entire tendon, which allows the tendon to slide. Supplies the majority of a tendon’s blood supply.

Question 32

What is the function of Tenocytes?

Answer 32

Sense mechanical loads transmitted by tendons or ligament through their contact with fibres
Can respond by altering composition of the extra cellular matrix

Question 33

What are the two types of tendon insertion

Answer 33

1. Indirect (fibrous)- simple
2. Direct (fibrocartilagneous)- complicated

Question 34

How does indirect insertion work?

Answer 34

Attached to periosteum (membrane around bone)
Bone at insertion point is immature and constantly remodelling
Collagen fibres of tendon/ ligament connect with fibres in bone
Low angle of insertion

Question 35

How does direct insertion work?

Answer 35

Gradation from tendon to fibrocartilage to mineralized fibrocartilage to bone
Collagen fibres carry on into bone at high angle and don’t stop at periosteum

Question 36

What are tenocytes and their functiom

Answer 36

Fibrocytes inside the tendons
Responsible for the crimp of secondary bundles
In contact with each other and pull on collagen fibres

Question 37

What is crimp and why is it Important?

Answer 37

Allows collagen fibres to stretch during compression
Crimped when relaxed
Not crimped when load added
Seen in secondary bundles

Question 38

What gives tendons the following properties?
- ability to stretch
- elasticity
-shock absorbance

Answer 38

• water content and proteoglycans
• springy helical collagen molecules
• crimp

Question 39

What is the importance of cross linking fibres by GAGs

Answer 39

Aligns and lacks the fibres correctly
Allows collagen fibres to slide under each other under load

Question 40

What is a proteoglycans

Answer 40

Several GAGs joined to a core protein
Core proteins are then joined to a hyaluronan spine to create a large complex

Question 41

What is the importance of proteoglycans

Answer 41

Can bind with collagen to create a mesh work
Can bind to water to create gel like properties

Question 42

What is the function of large proteoglycans?

Answer 42

Large swelling potential
Resists compression
Binds Cations and water

Question 43

What is the function of small PG

Answer 43

Tensile strength
Binds growth factors

Question 44

What is cartilage oligometric matrix protein (COMP)

Answer 44

Glycoprotein found in tendons and ligaments
Resists load
Helps form fibrils
Organises collagen network

Question 45

At what % strain does the SDFT rupture

Answer 45

12-21%

Question 46

What changes stiffness/ elasticity of tendon?

Answer 46

Crimp angle of fibrils
Fibril diameter
Composition of extracellular matrix

Question 47

What is TIMP

Answer 47

Enzyme that breaks down collagen cross links

Question 48

How does a tendon transfer energy?

Answer 48

temporarily storing elastic energy, then releasing this energy to do work on the muscle

Question 49

What is exercise induced hyperthermia of a tendon

Answer 49

Elastic energy transferred to heat energy
Causes cell death of fibroblasts

Question 50

What affects elasticity and ultimate tensile force

Answer 50

• Molecular composition and arrangement of tendons.
• Age.
• Exercise (short-term and long-term).
• Loading (speed of exercise, height of jump).
• Training intervals (time for repair and adaptation)

Question 51

When do tendons mature

Answer 51

2 years of age

Question 52

How does exercise affect tendons

Answer 52

Short term —>affects collagen arrangement and water distribution
Long term—> affects COMP, GAG levels, affects cross sectional area