17 - Muscle Function

Question 1

How do we asses muscle function clinically?

Answer 1

Manual muscle testing (structural unit)

Electromyography (EMG) and nerve conduction studies (functional unit)

Question 2

How do we do manual muscle testing? What does this test?

Answer 2

Typically this tests groups of muscles, not an isolated muscle.

• Agonist, antagonist, and syngerists
• Planes of movement
• Types of muscle contraction

Question 3

What do electromyography and nerve conduction studies test?

Answer 3

Detailed evaluation of muscle and nerve function/interaction.

Question 4

What are agonists? What is an example?

Answer 4

“Primary mover”

Responsible for initiation and execution of a specific action at a joint.

Often considered as a functional muscle group: “elbow flexors” - brachalis

Question 5

What are antagonists? What are synergists? Give examples of each for the group elbow flexors.

Answer 5

Antagonists: oppose of reverse the action of a primary mover.

-the triceps is an antagonist of the elbow flexors

Synergists: assist the prime mover in its action - biceps brachii

Question 6

How do agonists and antagonists work together to facilitate joint movement? What is the purpose of this?

Answer 6

Reciprocal inhibition: skeletal muscles typically function in pairs for maximal muscle effifiency, speed, and control.

• agonist increases its tone in preparation for full activation
• antagonist prepares to slow down/stop intended function

The muscle pair needs to coordinate their contractions to avoid injury.

Question 7

Describe the pathway of reciprocal inhibition in neurologically intact patients?

Answer 7

1. Ia afferent enters the sp cd, synapses on the alpha motor neuron, and causes the agonist to contract
2. At the same time, the other branch of the Ia afferent synapses on the Ia inhibitory interneuron which synpase on the alpha motor neuron of the antagonist, preventing contraction of that muscle group

Question 8

Describe the pathway of reciprocal inhibition in neurologically compromised patients?

Answer 8

LAck of reciprocal inhibition (lack of descending inhibition) causes spasticity

Question 9

What are the three planes of movement? Describe each.

Answer 9

Frontal/coronal: divides body into anterior and posterior; abduction and adduction movements occur in this plane

Sagittal: divides body into right and left; flexion and extension occur in this plane

Transverse/horizontal: divides the body into top/bottom; internal and external rotation occurs in this plane.

Question 10

Do the motions for shoulder external rotation, internal rotation, extension, flexion, and posterior reach (internal rotation).

Answer 10

Question 11

Do the motions for external and internal rotation of the hips when they are extended and when they are flexed.

Answer 11

Question 12

Do the motion for heel inversion and eversion. Do the motion for foot supination and promation.

Answer 12

Supination of the foot: inversion, adduction, and plantar flexion.

Pronation of the foot: eversion, abduction, and dorsiflection.

Question 13

You are seeing a 42 yo left handed male with right shoulder pain that started after a fall. His pain is in his lateral shoulder when he reahes above his head. He has some neck pain, but no numbness or tingling. What exams should be performed?

Answer 13

• Range of motion
• Strength
• Reflexes
• Special tests

Question 14

For the mans functional muscle assessment, what are the shoulder abductors (agonists) and shoulder adductors (antagonights)?

Answer 14

Shoulder abductors: deltoid and supraspinatus (first 30 degrees)

Shoulder adductors: Latissimus dorsi, pec major, teres major.

Question 15

How would you use planes of movement to determine the cause of a winged scapula from a shoulder injury?

Answer 15

Planes of movement:

Increased winging with abduction = spinal accessory/trapezius injury

More prominent winging with flexion: long thoracic nerve/serratus anterior injury

Question 16

What are the two different types of contraction?

Answer 16

1. Isotonic: muscle length changes

• Concentric, muscle shortens
• Eccentric: muscle elongates

2. Isometric: muscle length remains the same

Question 17

Which type of muscle contraction is capable of producing the greatest amount of force? Why is this?

Answer 17

Eccentric contractions

• require less metabolic energy
• with max contraction, they can generate much higher tension levels conpared to concentric contractions
• up to 50% higher

Important concent in rehab of tendinopathies because it generates more force and stimulates collagen growth.

Question 18

How would you treat a 20yo runner with achilles tendinopathy?

Answer 18

Eccentric exercises (muscle elongates).

This is becasue the tendon is damaged and you want to stimulate collagen growth factors.

Question 19

How would you treat a 75 yo male with coronary artery disease who just suffered a myocardial infarction?

Answer 19

Avoid isometric exercises (muscle length remains the same) because you don’t want them to increase your blood pressure and increase preload on the heart.

Question 20

What types of diseases will result in an alteration of the normal recorded electrical signals and recruitment patterns? How can these be diagonsed?

Answer 20

Nerve compression, hereditary or acquired diseases, or myopathy.

With EMG and nerve conduction studies.

Question 21

What do EMG and nerve conduction studies test?

Answer 21

EMG: skeletal msucle fibers (mostly type 1, slow twitch)

Nerve conduction studies: motor, sensory, and mixed nerves (standard evaluate Ia large myelinated nerve fibers(

Question 22

What is the functional element of the neuromuscular system? What are the component?

Answer 22

The motor unit

Lower motor neuron (anterior horn cell), axon, NMJ, and muscle fibers.

Question 23

What is an innervation ratio? How does this vary?

Answer 23

of muscle fibers that belong to a single axon (innervated by a single axon)

• Varies between muscles

Low for fine motor - extraocular muscles

High for gross motor - soleus

Question 24

The higher the innervation ratio, the _____ the force generated by that motor unit. What type of muscle fibers does a single motor unit innervate?

Answer 24

Higher innervation ratio = greater force generated

All muscle fibers innervated by one motor unit are of the same muscle fiber.

Question 25

What results from individual axon depolarization? What is the foundation for electromyography?

Answer 25

When an individual axon is depol., an AP propagates down the nerve.

Depolarization of the fibers in a motor unit creates an electrical potential called motor unit action potential (MUAP).

Analysis of MUAPs and assessment of baseline electrical signal at rest serves as the foundation for electromyography.

Question 26

How are motor unit action potentials (MUAPs) generated by conraction of an individual muscle recorded? How can this information be used?

Answer 26

Using a surface or needle electrode.

This info can be used to monitor that muscles activity during a certain action and asses the integrity of that muscle and the nerve ssupplying it.

Question 27

What is the henneman size principle?

Answer 27

Motor untis are recruited from smallest to largest.

Patterns of recruitment indicate neuropathic (reduced) vs myopathic (early) conditions.

Question 28

What are nerve conduction studies? What are two different components that can be studied?

Answer 28

A component of electromyography that assess the integrity of the peripheral nervous system.

• Compound motor APs
• Sensory nerve APs

Question 29

Describe compound muscle action potentials in nerve conduciton studies? What does the amplitude, latency, and duration tell you? What type of nerve does it test?

Answer 29

Amplitude: # of fibers activated

Latency: fastest conducting motor fibers

Duration: synchrony of firing fibers

This is done to test motor nerves.

Question 30

Describe sensory nerve action potentials of nerve conduction studies. How do they differ from compound muscle action potentials?

Answer 30

They measure action potentials of sensory nerves and their wave forms are different from compound muscle action potentials.

Question 31

How can planes of movement be used in muscle testing to help with a diagnosis? Use the example of testing ankle eversion/inversion.

Answer 31

PRedominance of one or the other is abnormal.

Different plave of movement being utilized by pt indicates problem.

Question 32

What is the goal of nerve conduction studies? What is this depicting?

Answer 32

Evaluation of peripheral nerve function

The image shows testing of the median motor (Abductor pollicus brevis) and the median sensory (index finger) nerves.

Question 33

What are the two methods that can be used for electromyography (EMG)?

Answer 33

Surface electrodes and needle electrodes (tests type I fibers)

Question 34

What type of contraction is shown in this image?

Answer 34

Isometric - shows co-contraction of wrist flexors and extensors (ie making a fist)

Question 35

What causes an upper motor neuron syndrome?

Answer 35

A lesion of the upper motor neuron in the CNS: brain or spinal cord

Question 36

What are the positive and negative signs associated with an upper motor neuron syndrome? Describe the associated muscle problem.

Answer 36

Positive signs: hyperrefleia/spacticity - overactivity

Negative signs: weakness - underactivity

No inherent muscle atrophy.

Question 37

Describe the spacticity associated with an UMN syndrome.

Answer 37

Velocity-dependent increase in tonic stretch reflex (muscle tone) - due to loss of descending inhibition

Hyperexcitability of the stretch reflex

Decreased reciprocal inhibition.

Question 38

What are the agonists of wrist flexion?

Answer 38

• Flexor carpi radialis
• Flexor carpi ulnaris
• Flexor digit profundus
• Flexor digit sublimis

Question 39

What are the antagonists of wrist flexion?

Answer 39

• Extensor carpi radialis longus and brevis
• Extensor ulnaris
• Extensor digitorum

Question 40

What are the agonists of hip flexion?

Answer 40

• Iliopsoas
• Rectus femoris
• Add long/brev
• Pectineus
• Gracilis
• Sartorius
• Tansor fasciae latae

Question 41

What are the antagonists of hip flexion?

Answer 41

• Biceps femoris
• Semitendinosis
• Semimembranosis
• Gluteus maximus
• Adductor magnus

Question 42

What is clonus? When is it seen?

Answer 42

A hyperactive stretch reflex with repetitive contract/relax due to lack of reciprocal inhibition.

Seen with UMN syndrome.

Question 43

How can botulinum neurotoxin be used to help muscles?

Answer 43

As intramusclar injections to reduce focal muscle overactivity.

• Produces denervation by pre-synaptically blocking the release of Ach by cleaving SNAP-25 protein.

Question 44

What are some FDA approved uses for using botulinum toxin?

Answer 44

Spasticity, dystonia, migraine headaches, neuropathic pain, hyperhydrosis, sialorrhea (hyper salivation), blepharospasm (tight closure of eyelids), and GU.