Modalities

Question 1

Chemical activity in cells and metabolic rate will increase ___ for each ___ rise in temperature.

Answer 1

2-3 times; 10 deg C

Question 2

temperature after which tissue will burn

Answer 2

45-50 deg C

Question 3

use of heat modality (3)

Answer 3

1. increase interstitial fluid and cause mild edema
2. decrease pain
3. in combination with stretch

Question 4

superficial heat (3)

Answer 4

heats tissue within 0.5 cm from the surface

1. hot packs
2. paraffin
3. fluidotherapy

Question 5

moist heat pack

Answer 5

kept in ~160 deg F water
usual multiple layers of towel or cover and towel
needs 30 to reheat when returning to water
check after 5 min
15-20 min
DO NOT LIE ON TOP OFF

Question 6

paraffin (4)

Answer 6

superficial, moist heat most commonly used for distal extremity

1. dip and wrap - elevate hand
2. dip and reimmerse - rarely used
3. paraffin ‘packs’
4. cooled paraffin - used for closed skin grafts

Question 7

fluidotherapy

Answer 7

dry heat
temp and agitation can be controlled
usually 115-117 deg F
allows patient to exercise while heating

Question 8

contraindications/precautions for superficial heat (5)

Answer 8

1. circulatory impairment
2. cancer at site of heat application
3. sensation impairment
4. easy bleeding
5. infection

Question 9

home program options - heat (3)

Answer 9

1. heating pad
2. microwave gel pads
3. rice socks

Question 10

use of cold modality (4)

Answer 10

1. used in acute stages of inflammation
2. reduction of muscle spasms
3. reduction of pain
4. decrease swelling

Question 11

cold modalities (2)

Answer 11

1. cold packs

2. ice massage

Question 12

precautions for cold modalities (2)

Answer 12

1. patients with cold-sensitivity (ex. Raynaud’s)

2. patients with circulatory-compromised areas

Question 13

documentation of temperature modalities (4)

Answer 13

1. thermal agent used
2. duration
3. body area treated
4. position

Question 14

ultrasound

Answer 14

deep heating agent

water-based gel used as a couple

Question 15

uses of ultrasound (6)

Answer 15

1. joint contracture
2. scar tissue
3. tendinitis
4. bursitis
5. muscle spasms
6. pain

Question 16

ultrasound - frequency

Answer 16

of oscillations a molecule undergoes in 1 second
1.0 MHz, 2.0 MHz, 3.0 MHz are used in therapy
frequency determines the depth of penetration

Question 17

ultrasound depth with 1 MHz frequency

Answer 17

2-5 cm

Question 18

ultrasound depth with 3 MHz frequency

Answer 18

up to 2 cm

Question 19

ultrasound tissues (3)

Answer 19

US is absorbed in tissue high in protein (collagen)

1. tendon
2. ligament
3. joint capsule

Question 20

ultrasound wave settings (2)

Answer 20

1. pulsed waves

2. continuous waves

Question 21

pulsed ultrasound

Answer 21

used when the desired effect is non-thermal such as acute soft tissue injuries

Question 22

US - duty cycle

Answer 22

the percentage of time the power is on during one pulse period

Question 23

continuous ultrasound

Answer 23

provides a thermal effect

Question 24

ultrasound - intensity

Answer 24

the rate at which energy is delivered per unit area (strength of the beam)
w/cm^2
joints with superficial skin coverage are usually treated at 1.0 w/cm^2

Question 25

ultrasound - moving technique

Answer 25

speed = ~4 cm/second (slow)

area covered = 2-3x size of the head for every 5 minutes

Question 26

ultrasound - precautions (12)

Answer 26

1. DVT
2. hemorrhagic conditions
3. reproductive organs
4. infections
5. malignancy
6. skin disease
7. active epiphysis
8. over heart, eyes, anterior neck, carotid sinus
9. care over metal
10. impaired circulation/sensation
11. over plastic or cement implants
12. over electronic device

Question 27

uses of electrotherapy modalities (3)

Answer 27

1. pain modulation
2. muscle re-education
3. facilitate tissue healing

Question 28

therapeutic currents - direct (DC)

Answer 28

unidirectional flow of charged particles
used in iontophoresis, wound healing, and stimulation of denervated muscle
electrode should be large enough to cover target area and disperse the current evenly

Question 29

therapeutic currents- alternating (AC)

Answer 29

bidirectional flow of charged particles
IFC (interferential current) for pain modulation
more comfortable than DC
burst-modulated AC is used for muscle strengthening

Question 30

therapeutic currents - pulsed

Answer 30

flow of charged particles, unidirectional or bidirectional, that is delivered in finite periods of time before the next electrical event
used for pain modulation or neuromuscular reeducation

Question 31

electrotherapy parameters (4)

Answer 31

1. amplitude
2. pulse and phase duration
3. frequency
4. current modulators

Question 32

amplitude

Answer 32

intensity

Question 33

pulse duration

Answer 33

the time that elapses from the beginning of the pulse to the end of the pulse

Question 34

phase duration

Answer 34

the time that elapses from the beginning of the phase to the end of the phase

Question 35

electrotherapy - frequency

Answer 35

of pulses (pulsed current), beat (IFC), cycles (AC) that are delivered in 1 second

Question 36

current modulators

Answer 36

ramp-up to gradually increase to peak amplitude or clinical response

Question 37

electrotherapy contraindications (5)

Answer 37

1. pacemakers or other implanted electrical devices
2. over a pregnant uterus
3. over carotid sinus
4. over thoracic region of body
5. within area of DVT

Question 38

electrotherapy precautions (6)

Answer 38

1. pain that is serving as a protective function
2. area of infection, malignancy, PVD
3. excessive adipose tissue may require higher current amplitudes
4. decreased sensation
5. damaged or fragile skin or open skin surface
6. history of electrode reaction

Question 39

NMES - current

Answer 39

pulsed or burst-modulated AC

Question 40

NMES - frequency

Answer 40

between 30-80 pps

Question 41

NMES - current modulators

Answer 41

2 second ramp up

1 second ramp down

Question 42

NMES - amplitude

Answer 42

needs to be set high enough to allow a strong contraction

Question 43

NMES - time on/off

Answer 43

between 1:3 and 1:12 depending on muscle fatigue

Question 44

uses of UE joint mobilization (3)

Answer 44

1. remodel connective tissue to improve joint extensibility/reduce stiffness
2. reduce pain and encourage relaxation
3. bathe the joint with synovial fluid, externally nourishing joint structures

Question 45

joint mobilization contraindications (6)

Answer 45

1. joint replacement arthroplasties
2. any fracture adjacent to the joints which is not clinically healed
3. acute inflammatory or septic arthritis
4. bone disease (i.e. osteomyelitis)
5. bacterial infection
6. malignancy/neoplastic disease

Question 46

joint mobilization precautions (8)

Answer 46

1. RA and OA
2. osteoporosis
3. fracture (acceptable once PROM is indicated)
4. hypermobility
5. inability for patient to relax
6. presence of protective muscle spasm
7. joint effusion/inflammation
8. general debilitation

Question 47

indications for joint mobilizations (4)

Answer 47

1. hypomobility
2. when there is potential for joint limitation
3. whenever PROM is indicated (EXCEPT replacement arthroplasty)
4. to decrease pain

Question 48

osteokinematics

Answer 48

bone movements produced by 2 adjacent bones (flex/ext)

Question 49

arthrokinematics

Answer 49

articular movements produced by 2 adjacent joint surfaces (accessory motions - roll, spin, glide)

Question 50

concave on convex

Answer 50

concave surface glides same direction the bone is moving

Question 51

convex on concave

Answer 51

convex surface glides opposite direction the bone is moving

Question 52

Grade I joint mob

Answer 52

loosening movement is an extremely small traction force

Question 53

Grade II joint mob

Answer 53

tightening movement first takes up the slack in the surrounding tissues and then tightens the tissues

Question 54

Grade III joint mob

Answer 54

stretching movement is applied after the slack has been taken up and all tissues become taut