Difference between revisions of "Musculoskeletal anatomy quiz"
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choice3="Biceps femoris muscle" | choice3="Biceps femoris muscle" | ||
correctchoice="4" | correctchoice="4" | ||
− | feedback4="'''Correct!''' The peroneous tertius muscle ensures that flexion of the stifle is accompanied by flexion of the hock. Whilst the superficial digital flexor and gastrocnemius muscles ensure that when the stifle is in extension the hock is also in extension. These structures receive their name from the reciprocating action of when the femur moves cranially the distal limb swings caudally and vice versa. This apparatus also ensures that when the patella is locked the hock is also immobilised. [[ | + | feedback4="'''Correct!''' The peroneous tertius muscle ensures that flexion of the stifle is accompanied by flexion of the hock. Whilst the superficial digital flexor and gastrocnemius muscles ensure that when the stifle is in extension the hock is also in extension. These structures receive their name from the reciprocating action of when the femur moves cranially the distal limb swings caudally and vice versa. This apparatus also ensures that when the patella is locked the hock is also immobilised. [[Stay Apparatus - Horse Anatomy#Reciprocal Mechanism|WikiVet Article: equine stay apparatus]]." |
− | feedback5="'''Incorrect.''' The superficial digital flexor and gastrocnemius muscles ensure that when the stifle is in extension the hock is also in extension. Whilst the peroneous tertius muscle ensures that flexion of the stifle is accompanied by flexion of the hock. These structures receive their name from the reciprocating action of when the femur moves cranially the distal limb swings caudally and vice versa. This apparatus also ensures that when the patella is locked the hock is also immobilised. [[ | + | feedback5="'''Incorrect.''' The superficial digital flexor and gastrocnemius muscles ensure that when the stifle is in extension the hock is also in extension. Whilst the peroneous tertius muscle ensures that flexion of the stifle is accompanied by flexion of the hock. These structures receive their name from the reciprocating action of when the femur moves cranially the distal limb swings caudally and vice versa. This apparatus also ensures that when the patella is locked the hock is also immobilised. [[Stay Apparatus - Horse Anatomy#Reciprocal Mechanism|WikiVet Article: equine stay apparatus]]." |
− | feedback1="'''Incorrect.''' The superficial digital flexor and gastrocnemius muscles ensure that when the stifle is in extension the hock is also in extension. Whilst the peroneous tertius muscle ensures that flexion of the stifle is accompanied by flexion of the hock. These structures receive their name from the reciprocating action of when the femur moves cranially the distal limb swings caudally and vice versa. This apparatus also ensures that when the patella is locked the hock is also immobilised. [[ | + | feedback1="'''Incorrect.''' The superficial digital flexor and gastrocnemius muscles ensure that when the stifle is in extension the hock is also in extension. Whilst the peroneous tertius muscle ensures that flexion of the stifle is accompanied by flexion of the hock. These structures receive their name from the reciprocating action of when the femur moves cranially the distal limb swings caudally and vice versa. This apparatus also ensures that when the patella is locked the hock is also immobilised. [[[[Stay Apparatus - Horse Anatomy#Reciprocal Mechanism|WikiVet Article: equine stay apparatus]]." |
− | feedback2="'''Incorrect.''' The deep digital flexor muscle is not part of the reciprocal apparatus. The peroneous tertius muscle ensures that flexion of the stifle is accompanied by flexion of the hock. Whilst the superficial digital flexor and gastrocnemius muscles ensure that when the stifle is in extension the hock is also in extension. These structures receive their name from the reciprocating action of when the femur moves cranially the distal limb swings caudally and vice versa. This apparatus also ensures that when the patella is locked the hock is also immobilised. [[ | + | feedback2="'''Incorrect.''' The deep digital flexor muscle is not part of the reciprocal apparatus. The peroneous tertius muscle ensures that flexion of the stifle is accompanied by flexion of the hock. Whilst the superficial digital flexor and gastrocnemius muscles ensure that when the stifle is in extension the hock is also in extension. These structures receive their name from the reciprocating action of when the femur moves cranially the distal limb swings caudally and vice versa. This apparatus also ensures that when the patella is locked the hock is also immobilised. [[Stay Apparatus - Horse Anatomy#Reciprocal Mechanism|WikiVet Article: equine stay apparatus]]." |
− | feedback3="'''Incorrect.''' The biceps femoris muscle is not part of the reciprocal apparatus. The peroneous tertius muscle ensures that flexion of the stifle is accompanied by flexion of the hock. Whilst the superficial digital flexor and gastrocnemius muscles ensure that when the stifle is in extension the hock is also in extension. These structures receive their name from the reciprocating action of when the femur moves cranially the distal limb swings caudally and vice versa. This apparatus also ensures that when the patella is locked the hock is also immobilised. [[ | + | feedback3="'''Incorrect.''' The biceps femoris muscle is not part of the reciprocal apparatus. The peroneous tertius muscle ensures that flexion of the stifle is accompanied by flexion of the hock. Whilst the superficial digital flexor and gastrocnemius muscles ensure that when the stifle is in extension the hock is also in extension. These structures receive their name from the reciprocating action of when the femur moves cranially the distal limb swings caudally and vice versa. This apparatus also ensures that when the patella is locked the hock is also immobilised. [[Stay Apparatus - Horse Anatomy#Reciprocal Mechanism|WikiVet Article: equine stay apparatus]]." |
image= ""> | image= ""> | ||
</WikiQuiz> | </WikiQuiz> |
Revision as of 20:55, 31 October 2012
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Questions reviewed by: | David Bainbridge, VetMB MA PhD MRCVS |
1 |
What is the joint between the radius, ulna and proximal carpal bones called? |
2 |
On which bone is the lateral styloid process found? |
3 |
Almost all extensor muscles of the carpus and digital joints originate from which point on the humerus? |
4 |
Which tendinous muscle of the equine reciprocal apparatus ensures that flexion of the stifle is accompanied by flexion of the hock? |
5 |
How many carpal bones are there in the horse? |
6 |
Which muscle antagonises the brachiocephalic muscle in the dog? |
7 |
Which two domestic species lack an acromion? |
8 |
Which muscle originates from the acromion? |
9 |
Which muscle utilises the spine of the scapula as a point of attachment? |
10 |
The omotransversarius muscle originates from which bone? |
11 |
Which muscle inserts on the olecranon? |
12 |
Where are the origins of the two heads of the flexor carpi ulnaris muscle? |
13 |
Which bone is the most prominent landmark during palpation of the carpus of carnivores? |
14 |
What does the radius articulate with distally? |