06-04: Electricity

Question 0

Electrons

Answer 0

Negatively charged particles

Question 1

Ions

Answer 1

Negatively and positively charged particles

Question 2

Electrical current

Answer 2

Net movement of electrons

Question 3

Ampere

Answer 3

Unit of measure = rate of electric current flow

Question 4

Coulomb

Answer 4

Number of electrons that move

Question 5

Volt

Answer 5

• Electromotive force applied to cause the flow of electrons

- Electrons only move if there is a difference in concentration/charge causing an electrical potential difference

Question 6

Conductance

Answer 6

Ease with which current flows

Question 7

Insulators

Answer 7

Materials that resist current flow

Question 8

Resistance

Answer 8

Electrical impedance

Question 9

Ohm

Answer 9

Opposition to electron flow in a material

Question 10

Watt

Answer 10

Measure of electrical power

Question 11

Cathode

Answer 11

• Negative electrode
• Greater number of electrons
• Attracts positive ions

Question 12

Anode

Answer 12

• Positive electrode
• Attracts negative ions
• Lower number of electrons

Question 13

Direct current (DC)

Answer 13

• Galvanic current
• Uninterrupted, unidirectional flow of electrons towards positive pole
• PTA may change direction of polarity which changes direction of current flow

Question 14

Alternating current (AC)

Answer 14

• Continuous flow
• Bi-directional
• Constantly changing direction
• Reversing of polarity

Question 15

Pulsatile current

Answer 15

• Contains 3 or more pulses grouped together
• May be unidirectional or bidirectional
• Groups interrupted for periods of time.

Question 17

TENS

Answer 17

• Transcutaneous Electric Nerve Stimulation
• Refers to a group of E-Stim modalities
• Sometimes refer to specific type of pain relief E-Stim

Question 18

Electrodes

Answer 18

• Placed on the skin to deliver electricity
• Self-adhesive
• Keep electrodes specific to one pt
• Carbon: Need moist surface or ultrasound gel to adhere to skin

Question 19

Waveform

Answer 19

Graphic picture of an electric current

Question 20

Waveform properties

Answer 20

• Shape
• Direction
• Amplitude
• Duration
• Frequency

Question 21

Wave Shapes

Answer 21

• Sinusoidal
• Square
• Triangle
• Sawtooth
• Biphasic, Monophasic, and Pulsatile may take on any waveform shape

Question 22

Pulse vs. Phase

Answer 22

• Pulse = one waveform
• Phase = part of the wave that rises above or below baseline
• Monophasic = Waveforms with one pulse and one phase in the same direction, DC
• Biphasic = Waveforms with two separate phases during each cycle (current reverses direction once during a cycle; symmetrical or asymmetrical)
• Cycle = One waveform above and below baseline (refers to biphasic)
• Pulse duration = length of time one waveform lasts
• Interpulse interval = Short time between phases with no current flowing (seen in pulsatile current)

Question 23

Biphasic vs. Monophasic

Answer 23

• Monophasic: Causes chemical change if pulse duration is longer than 1 min
• Most machines do not permit adjustment of the duration of current, so no chemical effect unless Rx more than 1 hr
• Don’t usually do elective Rx for more than 30 min.

Question 24

Intensity

Answer 24

• Increasing intensity drives electrical current into deep tissue
• More fibers are stimulated

Question 25

Hi-Volt Stimulators

Answer 25

• Deeper penetration into tissue
• Desirable for stimulating deep muscle tissue
• Usually pre-set pulse duration

Question 26

Lo-Volt Stimulators

Answer 26

• More superficial stimulation

- Usually adjustable pulse duration

Question 27

Characteristics of Pulse

Answer 27

• Phase Duration
• Pulse Amplitude
• Rate of Rise
• Rate of Decay
• Pulse Frequency

Question 28

Phase Duration

Answer 28

• Length of time the pulse lasts (monophasic)

- Length of time current flows in one cycle (biphasic)

Question 29

Pulse Duration

Answer 29

• Length of time current flows in one cycle
• Duration determines quantity of nerve fibers stimulated if intensity the same
• Increase duration = more nerve fibers stimulated (current available for longer period of time)

Question 30

Pulse Amplitude

Answer 30

• Height of the phase, with maximum amplitude being tip of each phase
• Higher the peak, higher the intensity
• Measures in amperes (amps), microamperes or milliamperes (milliamps)
• Same as voltage and current intensity
• Peak amplitude not same as total amount of current administered

Question 31

Rate of Rise

Answer 31

How quickly the pulse reaches max amplitude in each phase

Question 32

Rate of Decay

Answer 32

Time required for the pulse amplitude to return to 0 volts

Question 33

Accomodation

Answer 33

• Current constantly bombards nerve fiber, nerve fiber becomes unexcitable at that intensity (gets used to it, needs more intensity to escalate to level)
• Faster rate of rise, less likely nerve will accommodate = greater ability to excite tissue

Question 34

Pulse Frequency

Answer 34

• Number of pulses or cycles per second
• Each pulse = rise and fall in amplitude
• Frequency increases = amplitude tends to increase and decrease more rapidly (rise and decay)
• Muscle responds to frequencies of less than 50pps with twitch contractions; >50pps, a tetanic contraction occurs (muscle contracts and holds)
• Controls amount of fiber shortening and of recovery

Question 35

Higher Frequency

Answer 35

More muscle contraction

Question 36

Lower Frequency

Answer 36

Less muscle contraction, produces muscle pumping for edema control

Question 37

Tetany

Answer 37

• Rapid, intense and involuntary muscle fiber contractions which can cause spasms or cramping
• Therapeutically used to fatigue muscles, reduce spasm
• Occurs at pulse frequencies >50pps

Question 38

Modulation

Answer 38

Changes made to current amplitude, duration, frequency

Question 39

Continuous current

Answer 39

• Amplitude constant for several seconds/minutes
• Associated with long pulse duration, monophasic (always uniform direction)
• DC
• Ex: iontophoresis, medical galvanism
• If amplitude produces contraction, only occurs when current flow turned on or off

Question 40

Burst modulation

Answer 40

• Pulsatile or AC
• Current on for short duration, then turned off for short time in repetitive cycles
• Pulsatile: Sets of pulses combined into “bursts”; interruptions called “interburst intervals”

Question 41

Beat modulation

Answer 41

• 2 different waveforms with different frequencies delivered through 2 separate electrodes through 2 separate channels - they interfere with each other
• Total of 4 electrodes in criss-cross pattern
• Ex: Interferential treatment

Question 42

Ramping modulation

Answer 42

• Ramp-up and ramp-down intensity
• Current amplitude increases gradually to preset maximum (or ramp down gradually)
• Ramp-up is 1/3 of the on time
• Increases comfort as it modulates “surge” of current

Question 43

Polarity

Answer 43

• AC: Electrodes change polarity with each current cycle
• DC: PTA designates one electrode as positive and one as negative by connecting wirt
• General placement: Active, cathode (-) is distal, Anode (+) is proximal

Question 44

Series Circuit

Answer 44

• One pathway for current to get from one terminal to another (Ex: Christmas lights)
• Loss of voltage as current flows through path

Question 45

Parallel Circuit

Answer 45

• 2 or more paths exist for current to get from one terminal to another
• Current chooses pathway of least resistance
• Voltage is same at beginning as at the end

Question 46

E-Stim process in human body

Answer 46

• E-Stim modalities use combo of series/parallel circuits
• Electrodes on skin stimulate muscle contraction
• Series: Current passes through skin and fat
• Parallel: Current passes through bone, connective tissue, blood, muscle; Can pass through several different pathways to reach muscle

Question 47

Best tissue conductors

Answer 47

• Nerve
• Blood (2nd best)
• Muscle
• Tissues with high water content

Question 48

Best tissue resistors

Answer 48

• Bone
• Skin (2nd best - resists DC more than AC)
• Tendon
• Fat

Question 49

E-Stim Safety

Answer 49

• Generates heat in tissue
• Causes chemical (ion) changes in tissues which can be acidic
• 2 pronged devices are not grounded (use 3-pronged devices)
• If not grounded, or cord is cut, unit can become charged and shock a person
• Do not pull on cord to remove plug
• Use in dry environment because water conducts
• Burns on skin

Question 50

Therapeutic effects of E-Stim

Answer 50

• Relaxation of muscle spasm
• Muscle strengthening
• Improve ROM
• Facilitate wound healing
• Decrease edema
• Eliminate disuse atrophy
• Muscle re-education
• Increase local circulation
• Facilitate bone repair

Question 51

Indications for E-Stim

Answer 51

• Muscle spasm
• Muscle weakness
• Pain management
• Decreased ROM
• Idiopathic scoliosis
• Fracture
• Joint effusion
• Facial neuropathy (including Bell’s Palsy)
• Muscle atrophy
• Open wound/ulcer
• Labor and delivery
• Stress incontinence
• Shoulder subluxation

Question 52

Contraindication for E-Stim

Answer 52

• Cardiac pacemaker
• Cardiac arrhythmia
• Bladder stimulator
• Over carotid sinus
• Seizure disorder
• Phlebitis
• Malignancy
• Over pregnant uterus
• Osteomyelitis

Question 53

Monopolar electrode configuration

Answer 53

• Active (stimulating) electrode over target area
• Dispersive (2nd) electrode placed away from target area (usually larger than active electrode)
• DC
• Wounds, iontophoresis, edema

Question 54

Bipolar electrode configuration

Answer 54

• 2 active electrodes placed over target area (1 channel)
• Electrodes the same size, do not intersect
• Muscle weakness, NM facilitation, spasms, ROM, Russian, NMES
• AC

Question 55

Quadripolar electrode configuration

Answer 55

• 2 electrodes each from 2 separate stimulating circuits (2 channels
• Positioned so individual currents intersect with each other
• Interferential Current (IFC)

Question 56

Small electrodes

Answer 56

• Increase density size
• Increased resistance to electrical current
• Decrease current flow
• Concentrate electrical current
• Pt more susceptible to pain and tissue damage

Question 57

Large electrodes

Answer 57

• Decrease density size
• Decreased resistance to electrical current
• Increase current flow

Question 58

Electrode Placement

Answer 58

• Current density is greatest under the electrode
• Placement close to neural structure provides increased success with least amount of current
• 2 electrodes close together = increase current density superficially
• 2 electrodes spaced apart = increase current density in deeper tissue (nerve, muscle)

Question 59

Electrode Placement - 1 large, 1 small

Answer 59

• Greater current density under smaller electrode; larger electrode spreads current over larger area
• Small electrode concentrates current over motor point; larger electrode disperses over larger area