Equine Forelimb

Question 1

What are the characteristics of the equine forelimb, as a highly specialised cursor?

Answer 1

• More proximal muscle distribution
• Long limbs relative to body mass
• Large, high powered hip muscles
• Forelimb braking and hindlimb propulsive
• Well developed supporting ligaments and tendons restricting joint motions
• Reduced digits – no need for manipulation/fine motor control
• Thicker tendons and more elastic storage mechanisms

Question 2

What is passive stay apparatus?

Answer 2

A set of anatomical structures in forelimb and hindlimb that contribute to helping the limb stay relatively columnar and locks into position when the animals are quiet standing. This prevents the animal from having to put in a lot of muscular effort to keep themselves upright.

Question 3

What are the forelimb passive stay apparatus?

Answer 3

• Extra tendinous support to prevent hyperextensions
• Shoulder held stiff
• Body weight directed backward over elbow joint

Question 4

What are the hindlimb passive stay apparatus?

Answer 4

• Extra tendinous support to prevent hyperextension
• Patellar locking mechanism at stifle
• Reciprocal apparatus in distal limb – fibularis (peroneus) longus and superficial digital flexor

Question 5

Link the equine digit to the pentadactyl limb.

Answer 5

Digits have been lost or reduced. Metacarpals 2 and 4 are remnants either side of metacarpal 3.

Question 6

What is the structure of the equine carpus?

Answer 6

Radial, intermediate and ulnar carpal bones
Accessory carpal bone
Carpal bone II, III and IV
Metacarpal II, III and IV

Question 7

Why is the metacarpus and phalanges the most commonly injured region in the horse?

Answer 7

• Large forces transferred through singular bones
• Digit III weight bearing
• Modified P3 for weight bearing

Question 8

What is the clinical relevance of the equine forelimb?

Answer 8

Kicks in the field – nerve damage

Running into stable door frames – shoulder injuries

Question 9

What is the difference between the extrinsic muscles of the proximal forelimb of the dog and horse?

Answer 9

• Very similar to canine, except, only horses contain the subclavius muscle, which acts similarly to the pectorals.
• Omotransversarius except it inserts on the clavicular intersection (and not the scapular spine like in dogs)
• Bracheiocephalicus – forms the border of the jugular groove

Question 10

Where is the subclavius located?

Answer 10

Deep to trapezius, omotransversarius and brachiocephalicus. Once considered part of the pectorals.

Question 11

Where does support at the glenohumeral joint come from in the dog and horse?

Answer 11

Dog - glenohumeral ligaments

Horse - lateral and medial muscles

Question 12

What are the synovial structures of the equine shoulder joint?

Answer 12

Shoulder/scapulohumeral joint is separate from biceps tendon bursa.

Small bursa under infraspinatus tendon on caudal part of greater tubercle.

Question 13

Name the lateral muscles of the equine shoulder.

Answer 13

Supraspinatus
Infraspinatus
Deltoideus - no acromial head in horse

Question 14

Name and state the function of the medial muscles of the equine shoulder.

Answer 14

Subscapularis - medial support
Teres major - flexor
Coracobrachialis - Medial support

Question 15

Describe the innervation of the equine shoulder muscles.

Answer 15

Same as in the dog:

• Flexors – axillary nerve
• Extensors – musculocutaneous nerve
• Lateral – suprascapular nerve
• Medial – subscapular nerve

Question 16

Distinguish the canine and equine elbow joints.

Answer 16

• Trochlear notch is made up of ulnar and the radius in front.
• Horse has a little bit of a trochlear notch but most of the weight of the horse is going down through the radius.
• Less likely in horses that there will be an issue therefore between the radius and ulnar and the humerus rotating through the notch, as in dogs.

Question 17

Name the supporting structures in the equine elbow.

Answer 17

• Radial head bears most weight
• Humeroulnar articulation much smaller
• Collateral ligaments are very strong and palpable
• Annular ligament is poorly developed
• Joint capsule is a single compartment

Question 18

What are the muscles at the elbow?

Answer 18

Triceps brachii - has 3 heads in equine: long, lateral and medial.

Tensor fascia antebarchii - thin sheet of muscle and pulls fascia of the antebrachia used to pull things tight.

Question 19

Describe the location of the equine biceps brachii.

Answer 19

• Starts at supraglenoid tubercle, crossing over the shoulder joint and heading down to cross the elbow joint and insert on the radius.
• At proximal end, it moulds over the bicipital groove either side of the intermediate tubercle.

Question 20

What is the function of the biceps brachii?

Answer 20

Prevents glenohumeral joint flexing:

• Internal tendon runs the length of the muscle and resists shoulder flexion when standing
• Detaches a branch called the lacertus fibrosus, which blends with epimysium of the extensor carpi radialis. This limits carpal flexion when weight bearing and prevents buckling over of carpus when standing.

Question 21

Name the elbow extensor muscles and their innervation.

Answer 21

Radial nerve

• Triceps brachii – only 3 heads and no accessory
• Anconeus
• Tensor fascia antebrachia

Question 22

Name the elbow flexors and their innervation.

Answer 22

Musculocutaneous nerve

• Biceps brachii
• Brachialis

Question 23

What is the clinical relevance of teh equine distal forelimb?

Answer 23

• The distal limb of the horse is a common site of injury: tendinopathies, fractures, wounds and infections, laminitis
• Racehorses – radial carpal fractures in hyperextension
• Nerve blocks
• Diagnostic imaging

Question 24

Describe 3 different types of metacarpal III bone fractures.

Answer 24

• Metacarpal distal condylar fractures are quite common. Fatigue fracture aetiology. Occurs in mostly training and racing horses.
• Medial and lateral condyles are different sizes and shapes. Lateral is narrower and thus more susceptible to injury.
• Articular fractures are more serious and affect joint function.

Question 25

Describe carpal bone fragments.

Answer 25

Fatigue fractures and osteochondritis dissecans. Can affect antebrachiocarpal intercarpal joint.

Question 26

What are the carpus support structures?

Answer 26

• Flexor carpi ulnaris and ulnaris lateralis tendons, which insert on accessory carpal
• Collateral ligament on either side
• Distal accessory carpal ligaments, which prevent dislocation
• Palmar fibrocartilage/ligament, which also prevent carpal bones dislocating

Question 27

Name the carpal joint pouches and their ranges of motion?

Answer 27

Total range of motion = 135˚
Antebrachiocarpal = 90˚
Intercarpal = 45˚
Carpometacarpal = 0˚

Question 28

What is the carpal joint access?

Answer 28

Flexed carpus open the dorsal aspect of the joint and makes needle insertion much easier.

Question 29

Describe metcarpophalangeal joint.

Answer 29

• A hinge joint
• Keel on distal metacarpal III fits into groove on proximal phalanx I. this limits movement to flex and extend. Strong collaterals ligaments.
• Joint capsule – palmer pouch extends proximally between sesamoids and distal metacarpal III

Question 30

Name the sesamoid ligaments.

Answer 30

Interosseus/suspensory ligament
Collateral sesamoidean ligament
Oblique sesamoidean ligament
Straight sesamoidean ligament
Palmar ligaments of the pastern

Question 31

Give the location of the collateral sesamoidean ligaments.

Answer 31

From each sesamoid to the distal end of metacarpal III

Question 32

Give the location of the oblique sesamoidean ligament.

Answer 32

Lateral sides of the sesamoids

Question 33

Give the location of the straight sesamoidean ligament.

Answer 33

From most distal portion of the sesamoids to the proximal ends

Question 34

Give the location of the palmar ligaments of the pastern.

Answer 34

Go across the pastern joint

Question 35

Name the deep sesamoidean ligaments.

Answer 35

• Intersesamoidean ligaments and fibrocartilage
• Cruciate sesamoidean
• (as well as oblique sesamoidean)

Question 36

Describe the structure of the proximal interphalangeal joint.

Answer 36

• Similar structure to the metacarpophalangeal joint
• Strong collateral ligaments
• No large palmar pouch in joint capsule
• Palmar support from superficial deep flexor tendon, straight sesamoidean and palmar ligaments of the pastern

Question 37

Describe the characteristics of carpal and digital extensors.

Answer 37

• All have origin on lateral humeral epicondyle. Some have additional origins and the extensor carpi obliquus is an exception, with origin on the radius only.
• No muscle tissue distal to the carpus, only tendons
• Secured by extensor retinaculum
• All innervated by radial nerve

Question 38

Name the carpal and digital extensors.

Answer 38

From cranial to caudal:

Extensor carpi radialis
Common digital extensor
Lateral digital extensor
Ulnaris lateralis

Question 39

What is the extensor carpi obliquus?

Answer 39

• Loops over the extensor carpi radialis tendon
• Minor carpal extensor
• Analogous to abductor pollicus longus in the dog

Question 40

What is the extensor reticulum?

Answer 40

• Dorsal carpus
• Restrains all extensor tendons

Question 41

What are the sites of carpal joint access?

Answer 41

Medial to the extensor carpi radialis tendon and lateral to the extensor carpi obliquus tendon.

Question 42

What are the characteristics of carpal/digital flexors?

Answer 42

• All have origin on medial hmeral epicondyle. Some have additional origins on the ulna and radius, for example.
• All pass medial to the accessory carpal bone
• All innervated by median/ulnar nerves

Question 43

Name the carpal/digital flexors from superficial to deeper.

Answer 43

Flexor carpi ulnaris
Flexor carpi radialis
Superficial digital flexor
Deep digital flexor

Question 44

What is the function of check ligaments?

Answer 44

Prevent hyperextension

Question 45

What are the functions of the superficial and deep digital flexors?

Answer 45

Superficial digital flexor prevents carpus hyperextending at the metacarpophalangeal joint and proximal interphalangeal joint.

Deep digital flexor supports and prevents hyperextension at metacarpophalangeal joint, proximal interphalangeal joint and interphalangeal joint.

Question 46

Describe the arrangements of the superficial and deep digital flexor tendons.

Answer 46

• Superficial deep flexor tendon forms a sheath around the DDFT at the level of the proximal sesamoids.
• Splits at middle of PI so SDF attaches to distal tubercles of PI and fibrocartilage of PII.

Question 47

Define tendon bursae/sheaths.

Answer 47

Synovial structures forms as separations within fascia around tendons under regions of pressure.

• Can be on 1 side of tendon
• Can encircle most of tendon with mesotendon attachment and include multiple separate tendons.

Question 48

Describe carpal tendon sheaths.

Answer 48

• Most major structures over the carpus have tendon sheaths
• Carpal flexor sheath is largest and encompasses the DDFT and SDFT.
• This is well protected in palmar carpal tunnel and surrounds both tendons, extends from to proximal to joint to just distal.

Question 49

What is the function of tendon sheaths?

Answer 49

Tendon sheaths and bursae make the equine distal limb quite complex because they are pockets where infection can set in and trails infection can track along.

Question 50

Describe digital flexor tendon sheaths.

Answer 50

• Extends from just proximal t metacarpophalangeal joint to just proximal to the navicular bone
• Separate to metacarpophalangeal and proximal interphalangeal synovial compartments

Question 51

Describe the location of the interosseous ligament.

Answer 51

• Runs along the caudal border, along the palmar border of the limb
• Runs form up near carpus down onto the proximal sesamoid bones

Question 52

Describe the structure of the interosseous ligament.

Answer 52

Thick and highly tendinous. Extensor branches of the interosseous loop round medially and laterally around the digit. These interact with the common digital extensor and lateral digital extensor tendons and fuses on the dorsal surface.

Question 53

What is the function of the interosseous ligament?

Answer 53

• Palmar support
• Important to passive stay apparatus
• Suspensory desmitis common in working horses
• Ultrasound and joint blocks diagnostic

Question 54

What is the clinical relevance of the equine foot?

Answer 54

Very common site of clinical problems, such as laminitis, penetrating injuries and solar abscesses.

Question 55

What are the anatomical and lay terms for structures of the distal equine forelimb?

Answer 55

• Metacarpal III, proximal sesamoids = cannon bone
• Metacarpophalangeal joint = fetlock
• Phalanx I = long pastern
• Proximal interphalangeal joint = pastern joint
• Phalanx II – short pastern
• Distal interphalangeal joint = coffin joint
• Distal sesamoid = navicular bone
• Phalanx III = coffin bone

Question 56

Describe the ungual/hoof cartilages.

Answer 56

Inside the hoof:
- Lateral extensions to the caudal tips of P3
- Elastic to allow expansion of heel bulbs with locomotion
- Can become ossified with age or if overworked, causing a lack for elasticity and causing lameness.

Question 57

Describe the structure of the interphalangeal joint.

Answer 57

• Joint itself I completely encased in the hoof wall
• Joint capsule protrudes dorsally and palmarly. Can access at this point for joint injections, most common dorsally.
• Has lower range of motion than the metacarpophalangeal and proximal interphalangeal joints.
• No sagittal ridge in joint surfaces
• Dorsal surface of navicular forms palmar aspect of joint

Question 58

How is the distal interphalangeal joint supported?

Answer 58

• Supported by the common digital extensor in the forelimb
• Supported by the long digital extensor in the hindlimb dorsally
• Palmar and plantar support from the deep digital flexor tendon and navicular bone
• Collateral ligaments laterally and medially

Question 59

What is the navicular bone and bursa?

Answer 59

• Distal sesamoid bone at distal interphalangeal joint
• Navicular bursa between bone and fatty heel pad
• Not continuous with the distal interphalangeal joint but important in foot lameness

Question 60

Describe the position, structure and function of the subcutis/fatty digital pad?

Answer 60

• Connects the dermis to P3, tendons and hoof cartilages
• Thickened to form coronary cushion and digital cushion via increased collagen and elastin fibres
• Acts as a pump to move blood from the toe while walking
• Compression and relaxation helps to pump blood back up the limb and from the foot during walking.

Question 61

What structure are affected by penetrating wound, for example, the common presentation of a street nail?

Answer 61

Deep structures to be concerned about:

• Navicular bone/bursa
• Deep digital flexor tendon sheath
• Coffin joint
• Digital cushion

Question 62

How is the skin of the hoof modified and why?

Answer 62

• Solid structure of heavily keratinised epidermis over less stiff modified dermis.
• Protects underlying soft tissues.
• Dermal layer held to soft tissues via lots of interdigitating laminae.
• Wall bears majority of the weight and force is transmitted between the hoof wall and P3 via the laminae.

Question 63

Describe how the foal hoof grows?

Answer 63

• Deciduous hoof capsule in utero protects the mother’s organs
• Young foals lean back on their heel s
• Foal hoof growth is fast and a cease in the hoof wall denotes the change in mechanical circumstances after birth
• Hoof grows faster proximally – distal hoof horn has been compressed by repeated loading

Question 64

Name the layers of the hoof wall.

Answer 64

1. Stratum externum
2. Stratum medium
3. Stratum internum – white line

Question 65

What is the peripole?

Answer 65

Soft rubbery horn that grows over the top of the coronary band. Forms a thin outer layer of hoof and is thicker over heel bulbs.

Question 66

Describe the position of the stratum externum.

Answer 66

Produced over the perioplic dermis, just proximal to the coronary dermis.

Question 67

Describe the stratum medium.

Answer 67

• Usually pigmented
• Consists of horn tubules embedded within intertubular horn
• Stratum medium slides over the dermis and is worn away by ground contact

Question 68

Describe the stratum internum.

Answer 68

• Non pigments laminar horn
• 600 primary keratinised lamellae, each with 150 secondary lamellae

Question 69

Explain the link between interdigitation and laminitis.

Answer 69

• Strong bond
• Constantly forming and reforming
• Can be compromised allowing the pedal bone to rotate
• Laminitis – inflammation of dermis of hoof, causing breakdown of digital lamellae and causing pain and rotation and sinking of P3

Question 70

Describe the blood supply to the laminae.

Answer 70

• Medial digital artery and vein
• Dorsal branch of digital artery and vein
• Ventral branch of digital artery and vein
• Palmar digital arteries anastomose within P3

Question 71

Describe the neurovasculature of the equine forelimb.

Answer 71

Subclavian artery > axillary artery > suprascapular and subscapular branches of the axillary artery

Axillary artery > brachial artery > median artery > median and lateral palmar and digital artery branches

Veins are mostly satellite except cephalic vein.

Question 72

Describe sensory innervation of the equine forelimb.

Answer 72

Axillary – lateral shoulder region

Musculocutaneous – medial antebrachium

Radial – lateral antebrachium

Median/ulnar nerves – caudal antebrachium

Question 73

Where is radial sensory innervation in the equine limb?

Answer 73

Radial sensory innervation does not go past the carpus in horses: only median/ulnar nerves supply past the carpus.

Question 74

What are the median and ulnar nerves?

Answer 74

Main sensory input from the median and ulnar also contributes. In order to desensitise the distal limb, both must be blocked.

Question 75

What are the medial and lateral palmar nerves?

Answer 75

Medial and lateral palmar nerves from the median nerve, between sensory ligaments and flexor tendons

Question 76

What are the medial and lateral metacarpal nerves?

Answer 76

Medial and lateral palmar metacarpal nerves from lateral palmer nerve and palmar branch of ulnar nerve. Deeper, they descend on axial surface of splint bones.

Question 77

What are the median and lateral palmar digital nerves?

Answer 77

Medial and lateral palmar digital nerves from medial and lateral palmar. Run with palmar digital vessels. Dorsal branches from nerve around level of fetlock supply the dorsal 1/3 of foot.

Question 78

What can nerve blocks be used for?

Answer 78

Nerve blocks can be performed in a series to test for site of pain.

Question 79

Describe nerve blocking the palmar digit.

Answer 79

• Blocks navicular bone and palmer first 2 thirds of the foot
• Injection sites for the medial and lateral digital nerves are just above the heel bulbs, where the neurovascular bundles can be palpated.

Question 80

Describe nerve blocking the abaxial sesamoid.

Answer 80

• Blocks whole foot and most of pastern, but dorsal pastern may remain sensitive.
• Includes dorsal rami supplying dorsal foot and pastern.
• Injection sites for the medial and lateral digital nerves are abaxial to the sesamoids where the neurovascular bundles can be palpated.

Question 81

Describe the low 4 point metacarpal block.

Answer 81

• Medial and lateral palmar nerves are medial and lateral to flexor tendons
• Medial and lateral palmar metacarpal nerve can be palpated at the end of the metacarpal II and IV
• Blocks whole fetlock joint and distal to it, except perhaps the dorsal pouch of fetlock joint

Question 82

What are the injection sites for a high 4 point metacarpal block?

Answer 82

Palmar metacarpal nerves can be palpated at proximal splint bones and injected axial to these.

Medial and lateral palmar nerves can be injected medial and lateral to the SDFT and DDFT.

Blocks everything distal to injection sites.

Question 83

What landmark of the scapula is present in dogs but not horses?

Answer 83

The acromion process – the horse does not have an acromial head of the deltoideus muscle.

Question 84

What limits the ability for the antebrachium to pronate and supinate in horses?

Answer 84

The radius and ulna are fused to each other and cannot move independently.

Question 85

What nerves supplies the carpal and digital extensors?

Answer 85

Radial nerve supplies the carpal and digital extensors.

Question 86

If the navicular bursa has been penetrated and infected, is the distal interphalangeal joint likely to be affected too?

Answer 86

No. the navicular burse and distal interphalangeal joint do not communicate, so infections between these spaces are spread only when the separation is disrupted by trauma or inflammation.

Question 87

With equine laminitis, which layer of the hoof wall becomes inflamed initially? What happens to the distal phalanx in chronic laminitis?

Answer 87

Lamellar dermis. The tip rotates palmarally within the foot.

Question 88

Which if any joint compartments communicate in the equine carpus?

Answer 88

Intercarpal and carpometacarpal joint compartments.