Electrical Stimulation

Question 1

What is the ‘Triad’ in EStim?

Answer 1

The patient, the therapist and the machine.

Question 2

What are the roles of biophysical agents?

Answer 2

1. Control pain, oedema, inflammation
2. Facilitate tissue healing
3. Reeducate lost or impaired motor function
4. Control symptoms to facilitate other physiotherapeutic interventions: ROM, Manual Therapy, Muscle Strengthening, Motor Re-education.

Question 3

What are the specific roles of biophysical agents that apply to neurorehabilitation?

Answer 3

1. Control Pain

2. Reeducate lost or impaired motor function

Question 4

What are the Types of Electrical Modalities?

Answer 4

1. Sensory level stimulation:
   - TENS: Transcutaneous electrical nerve stimulation is used for pain control and management.
2. Motor level stimulation:
   -NMES: neuromuscular electrical stimulation: muscle re-education, muscle strengthening.
   (No active contraction)

-FES: functional electrical stimulation: muscle substitution.
(Functional active movement performed during EStim- ideal in neurorehab).

Question 5

What are the Therapeutic effects of ESTIM?

Answer 5

• Decrease or control pain
• Decrease muscle spasms
• Increase force/function
• Electrodiagnosis

Question 6

For what conditions or problems is EStim indicated?

Answer 6

1. Musculoskeletal problems: sports injuries and traumatic/overuse injuries.
2. Neurological Problems:
   - Chronic Pain
   - Muscle weakness or loss of function
   - Muscle re-education
   - Spasticity management
3. Other: Wound Healing and Obstetrics.

Question 7

Review of Electric Currents and Action Potentials:

1) Overview
2) What is the basis for nerve communication?
3) What is the baseline polarization of the cell membrane?

Answer 7

1) Depolarization of a cell membrane creates an AP that get propagated down a muscle or nerve to generate a stimulus for movement or sensation.
2) Movement of ions across the cell membrane via sodium and potassium channels creased at depolarization that initiates an AP.
3) The inside is more negatively charged than the outside by (-60 to -90 mV)

Question 8

What is the sequence of nerve depolarization?

Answer 8

Resting: All channels closed. When an adequate stimulus arrives (such as EStim):
1. Na channels open and Na flows in.

2. RMP reaches +30 mV, K channels open and permeability to Na decreases.
3. Membrane repolarizes and Ap is propagated down the neuron.

Question 9

How can an action potential be propagated down a neuron?

Answer 9

Depolarization in one area of a neuron stimulates propagation down an axon by causing adjacent intracellular potentials to reach threshold and activate Na channels.

Absolute Refractory Period: Time during which another stimulus given to a neuron will not stimulate the neuron.

Relative Refractory Period: Time during which a stronger then normal stimulus is needed to elicit an AP.

-During relative refractory period the nerve can be excited by a graded (increasing) stimulation. This is the mechanism for propagating AP along myelinated nerve fibres.

Question 10

1. How are muscles stimulated by neurons?

2. What is excitation-contraction coupling?

Answer 10

1. Neurons synapse at the muscle and release Ach, which is responsible for depolarization of the muscle membrane by activating Na channels.
2. Neural excitation causes Ach release which elicits AP in muscle. It is the excitation of the muscle (AP) that causes changes in the cell resulting in contraction (coupling of excitation AP to muscular contraction):
   - Muscle AP reaches SR via transverse tubular system.
   - The SR releases Ca2+ which binds to troponin.
   - Troponin binds to tropomyosin.
   - Allowing interaction b/w actin and myosin.

Question 11

What are the steps for: A. Initiation of muscle contraction?
B. Relaxation.

Answer 11

A.

1. Neuron sends impulse releasing ACh.
2. Ca2+ ions are released and actin exposes active sites.
3. Myosin cross bridges attaches to actin and sarcomeres shorten.
4. Muscle shortens and contracts.

B.

• AP stops.
• Ca 2+ pumped back into SR by Ca2+ activated ATPsae.
• Troponin inhibition ceases
• Actin-myosin interaction stops.

Question 12

1. How does the activation phase compare to the contraction-relaxation phase?

What happens when a muscle is:
1. maximally stimulated once?

2. Second neural impulse occurs after muscle has relaxed?
3. Second neural impulse occurs before the muscle has relaxed?
4. Subsequent impulse occurs during the contraction time of the first?

Answer 12

1. Activation=5ms more rapid than the contraction-relaxation phase 100ms.
2. Twitch is produced
3. A second twitch is produced.
4. Partial summation
5. Tetanic contraction

Basically to get a tetanic contraction you have to have temporal summation where a subsequent neural impulse occurs during the activation phase of the first. (see diagram).

20 Hz lots of impulses, 40 Hz tetanic contraction.
W/ increase in frequency there may be a small increase in force, but once tetany has been achieved, this increase is negligible.

Question 13

1. What is rate coding?
2. What sort of relationship is the force-frequency relationship?
3. What frequency is needed for max titanic contraction?
4. What are lower frequencies needed for?
5. What happens with higher frequencies?

Answer 13

1. The frequency of the EStim current selected in order to generate a certain amount of force.
2. Sigmoidal.
3. 30-80 Hz needed for max titanic contraction.
4. Lower frequency required to produce tension under voluntary action b/c you do not want to override the active contraction of the muscle. This frequency depends on the muscle, lower frequency for endurance muscles and higher frequency for faster twitch muscles.
   Soleus 11 Hz vs Biceps 30 Hz
5. Higher rate coding leads to higher fatigue.

Question 14

What types of Estim machines can PTs use?

Answer 14

1. Portable devices (NMES)

2. Multifunctional machines (multi-stim unit (Us, NMES)

Question 15

1. What types of electrodes can be used?

2. Where should the electrodes be placed?

Answer 15

1. Self-adhesive pre-gelled, carbon rubber (add conductive medium), metal electrodes (sponge and water).
2. The farther apart the deeper the current, the closer you get to the nerve. So it depends on what you are trying to stimulate. Muscle: Put them closer together. Never: Farther Apart.

Question 16

What is the relationship between conduction velocity and diameter?

Answer 16

The larger the diameter the faster the conduction velocity.

These are properties used to classify sensory and motor axons into different types.

Question 17

What are the variables influencing sensory level vs motor level stimulation?

Answer 17

1. Threshold of activation of the nerve type

2. Intensity of Stimulating Current

Question 18

What are differences btwn voluntary and involuntary muscle contractions?

Answer 18

1. Order of recruitment: Voluntary is smaller fibres first then larger fibers. Induced everything is activated at once (not graded).
2. Difference in rate coding: frequency of activation of muscle fibres.
3. Induced is not as smooth (tetanic) as voluntary at onset of contraction.
4. Induced causes more fatiguability then voluntary. Ideally use functional stimulation approach to muscle reactivation, allows for the development of motor control.

Question 19

What is different about muscle fiber recruitment in ESTIM?

Why is there this difference?

Answer 19

• Order of recruitment in EStim is opposite to natural recruitment order.
• Large to small diameter when using Estim. (Small to large in natural recruitment)

Larger fibers are recruited first in Estim b/c Larger fiber diameter has lower input resistance and is recruited more easily by external electrical current.

Question 20

1. What is impedance?
2. What has high or low impedance.
3. What are the implications of impedance?

Answer 20

1. Resistance of tissue to the passage of electrical current.
2. Bone and fat=high impedance
   Muscle and nerves=low impedance.
3. If a low impedance tissue is below a high tissue then the electrodes need to be place far apart so the current goes deep enough to reach the low impedance tissue and cause depolarization.

Question 21

1. What is current density?
2. What are the characteristics of current density?
3. How can you alter current density?

Answer 21

1. Volume of current in tissue (amount of current per given area).
2. CD is highest at surface and diminishes in deeper tissue.
3. A) Place electrodes farther apart to increase current density in deeper tissue.
   or
   B) Change the size of the electrode. Active electrode is smaller (greater current density) and dispersive electrode is larger (less current density). Put the smaller electrode where you are trying to target current.

Question 22

1. What is a strength-duration curve?

2. What does the current depend on?

Answer 22

1. A graph showing the amount of current (y-axis) versus the duration of the impulse (x-axis) required to produce an AP.
   - Used to determine the duration of the stimulating pulse used to trigger an AP. (See graph)
2. Type of nerve fiber (pain, motor, sensory

Question 23

What is the:
A. Rheobase
B. Chronaxie

Answer 23

A. Min current needed to produce an AP at a long infinite pulse duration.

B. Min duration that will produce an AP at twice the rheobase.

(see graph

Question 24

What are the types of muscle fibers?

Answer 24

1. Type 1 (Slow oxidative): Fatigue resistant, lowest force production, endurance fibers.
2. Type 2a (Fast Oxidative Glycolytic): some fatigue resistance
3. Type 2B (Fast Oxidative): Least fatigue resistant, highest force production.

Question 25

What are the parameters for EStim

Answer 25

1. Pulse duration: <1ms (usually 100-350 micro seconds set on machine)
2. Stimulation frequency:
   High- Type 2b fibers
   -Low- Type 1 fibers

Or

Waveform shape (rise time, fall time)

Waveform duration (total charge)

Frequency (time between pulses)

Question 26

What is the difference between Direct and Alternating currents?

Answer 26

DC: Continous unidirectional flow of charged particles. (used more tissue healing and sensory level stim)

AC: Continous bidirectional flow of charged particles.

Question 27

What types of waveforms can you have?

Answer 27

Symmetrical

Balanced asymmetrical

Unbalance asymmetric biphasic PC

Question 28

What are the characteristics of a pulse train?

Answer 28

Ramp up time

Ramp down time

Hold time

Duty cycle (time on and off).

Question 29

What are the general precautions for EStim?

Answer 29

• Cardiac disease: do not put close to heart.
• Cognitively impaired or impaired sensation: be aware and pick up on non-verbal cues. Lack sensation or proprioception (check for redness)
• Cancer: Away from site of cancer is Ok. If its an active cancer contraindicate, but if in remission its a precaution.
• Skin irritation or open wounds; neuro pts often have fragile skin so be careful.

Question 30

What are contraindications to Estim?

Answer 30

• Demand cardiac pacemakers or arrhythmias.
• Pacing electrodes over carotid sinus (decrease bp)
• areas of venous or arterial thrombosis or thrombophlebitis: emboli.
• Pregnancy
• Trans-thoracic or trans-cranial application.