Intro to HVLA

Question 1

Osteopathic technique employing a rapid, therapeutic force of brief duration that travels a short distance within the anatomic range of a joint and that engages the restrictive barrier to elicit release of restriction

Answer 1

High velocity low amplitude (aka thrust technique)

Question 2

To perform HVLA, physician localizes to _____ barrier, then through the ____ barrier into the _____ barrier

Answer 2

Restrictive; restrictive; elastic

Question 3

____ barrier = end ROM achieved during active motion in the absence of SD

Answer 3

Physiologic barrier

Question 4

____ barrier = end ROM achieved during passive motion in absence of SD

Answer 4

Anatomic

Question 5

_____ barrier = a functional limit that abnormally diminishes the normal physiologic range

Answer 5

Restrictive

Question 6

What type of end feel is targeted for HVLA treatment?

Answer 6

Firm and distinct - typically mechanical type arthrodial dysfunction

[HVLA is particularly effective when there is a distinctive barrier with a firm end feel]

Question 7

What type of end feel is felt with reflex somatic dysfunction?

Answer 7

Rubbery

Question 8

T/F: HVLA is an indirect technique

Answer 8

False - direct

Question 9

Physical exam of ____ and _____ of movement allow examiner to determine and define patient’s restriction of motion

Answer 9

Quality; quantity

Question 10

Neurophysiology of somatic dysfunction:

Local segmental ______ —> focal ______ and swelling —> tightening of ______ and capsular components of arthrodial joint —> reflex ________ of muscles crossing joint —> _____ changes —> somatic dysfunction

Answer 10

Irritation; edema; myofascial; hypertonicity; TART

Question 11

Neurophysiology of HVLA:

Thrust through _______ —> restoration of motion at articulation —> restoration of normal ______ input —> reflex ______ of muscles —> improvement of ____ findings

Answer 11

Restrictive barrier; proprioceptive; relaxation; TART

Question 12

T/F: joint noise is NOT necessary for successful treatment with HVLA

Answer 12

True - must reasses to determine tx success

Question 13

What are some hypotheses as to where joint noise comes from during HVLA tx?

Answer 13

Eventration of gas into synovial fluid with breaking of surface tension

Snapping/releasing of ligamentous adhesions in the joint

Ballooning of joint capsule

Bone itself being pulled out of place and snapping back into neutral position

Question 14

Dysfunctional segments are NOT labeled subluxed, “out of place”, “out of joint”, or dislocated. As osteopaths, we do NOT adjust or “put back into place”

What is the goal of OMT?

Answer 14

Goal is to restore motion loss and restore neutral point back to normal

Question 15

Why is initial positioning crucial for physician and patient prior to performing HVLA?

Answer 15

For physician - frees up cortex to diagnostic input from hands and fingers; physican may consider applying techniques for relaxation such as MFR, soft tissue, or MET prior to HVLA

Patient - allows for muscular relaxation prior to thrust

Question 16

What makes up a vertebral unit?

Answer 16

2 adjacent vertebrae with their associated disc, arthrodial, ligamentous, muscular, vascular, lymphatic and neural components

Question 17

Based on the concept of vertebral units, you would treat an L3 SD as it articulates with _____

Forces will be localized at _____ joints between the two vertebrae

Answer 17

L4

Facet (aka zygopophyseal)

[so always treat segment below]

Question 18

To engage the barrier:

Forces are applied from the top down through the superior vertebra — “______ the dysfunction”

Forcs are applied from the bottom up through the inferior vertebra — “____ the dysfunction”

Other vertebrae of the unit is used as an opposing _____

Answer 18

Through

To

Counterforce

Question 19

Typical vertebrae C2-L5 are assessed and treated in 3 planes of motion, thus HVLA is utilized by ______ restrictive barriers in all three planes

Answer 19

Stacking

Question 20

______ restriction = typically restricted in one major and an associated minor motion

Answer 20

Appendicular

Question 21

In utilizing HVLA for an appendicular restriction, HVLA typically focuses on _____ joint motion restriction

Answer 21

Minor

[so in a flexed SD at the knee, HVLA focuses on posterior tibiofemoral glide SD]

Question 22

Engaging force must be maintained once all RBs are stacked. Forces that do not accumulate at SD dissipate into adjacent structures leading to unwanted _____ effects. If the force is lost thrust must not be performed

Answer 22

Iatrogenic

Question 23

Once barriers are engaged, a short, rapid thrust with sudden acceleration and deceleration is used to correct the SD. Should force be released prior to thrust?

Answer 23

No

Question 24

How are release enhancing mechanisms useful for HVLA?

Answer 24

Exhalation muscle relaxation makes the thrust more effective

In some cases, speed and force may be modified to fit patient’s need. Well engaged dysfunctions may have an audible click prior to thrust, indicating effective treatment

Question 25

Summary of steps for HVLA

Answer 25

1. Correctly dx SD
2. Localize segment
3. Engage the RB in all 3 planes of motion - stacking
4. Release enhancing maneuver (breathing)
5. Mobilizing force - corrective thrust
6. Reassess

Question 26

Dosage for HVLA is completely patient dependent

generally:
The sicker the patient, the _____ the dose

Older patients respond more ____

Most cases discourage thrusting the same segment more than ____ per week

If the same SD keeps recurring, evaluate and address for underlying inciting factor

Answer 26

Lower

Slowly

Once

Question 27

What are the benefits to using HVLA?

Answer 27

Well tolerated and time efficient

Modality of choice for SDs with distinct firm barrier mechanics

Patient typically experiences immediate relief, decreased pain, and increased ROM

Question 28

Safety considerations for HVLA

Answer 28

Accurate diagnosis is crucial

Patient consent and comfort

Don’t thrust if barrier doesn’t feel right

Excessive force can damage tissue

Hypermobility of joints could be exacerbated by HVLA

Question 29

What are 2 absolute contraindications to HVLA due to alar ligament instability?

Answer 29

Rheumatoid arthritis

Down syndrome

Question 30

All absolute contraindications to HVLA

Answer 30

Local metastases
Osseous or ligamentous disruption
Severe osteoporosis
RA
Down syndrome
Osteomyelities in area being treated
Joint replacement in area being treated
Vertebrobasilar insufficiency
Severe herniated disc with radiculopathy

Question 31

Relative contraindications to HVLA

Answer 31

Apprehension by patient
Mild to moderate strain or sprain in tx area
Mild osteopenia or osteoporosis
RA disease other than in spine
Some hypermobile states

Question 32

Osteopathic technique employing a rapid, therapeutic force of brief duration that travels a short distance within the anatomic range of a joint and that engages the restrictive barrier to elicit release of restriction

Answer 32

High velocity low amplitude (aka thrust technique)

Question 33

To perform HVLA, physician localizes to _____ barrier, then through the ____ barrier into the _____ barrier

Answer 33

Restrictive; restrictive; elastic

Question 34

____ barrier = end ROM achieved during active motion in the absence of SD

Answer 34

Physiologic barrier

Question 35

____ barrier = end ROM achieved during passive motion in absence of SD

Answer 35

Anatomic

Question 36

_____ barrier = a functional limit that abnormally diminishes the normal physiologic range

Answer 36

Restrictive

Question 37

What type of end feel is targeted for HVLA treatment?

Answer 37

Firm and distinct - typically mechanical type arthrodial dysfunction

[HVLA is particularly effective when there is a distinctive barrier with a firm end feel]

Question 38

What type of end feel is felt with reflex somatic dysfunction?

Answer 38

Rubbery

Question 39

T/F: HVLA is an indirect technique

Answer 39

False - direct

Question 40

Physical exam of ____ and _____ of movement allow examiner to determine and define patient’s restriction of motion

Answer 40

Quality; quantity

Question 41

Neurophysiology of somatic dysfunction:

Local segmental ______ —> focal ______ and swelling —> tightening of ______ and capsular components of arthrodial joint —> reflex ________ of muscles crossing joint —> _____ changes —> somatic dysfunction

Answer 41

Irritation; edema; myofascial; hypertonicity; TART

Question 42

Neurophysiology of HVLA:

Thrust through _______ —> restoration of motion at articulation —> restoration of normal ______ input —> reflex ______ of muscles —> improvement of ____ findings

Answer 42

Restrictive barrier; proprioceptive; relaxation; TART

Question 43

T/F: joint noise is NOT necessary for successful treatment with HVLA

Answer 43

True - must reasses to determine tx success

Question 44

What are some hypotheses as to where joint noise comes from during HVLA tx?

Answer 44

Eventration of gas into synovial fluid with breaking of surface tension

Snapping/releasing of ligamentous adhesions in the joint

Ballooning of joint capsule

Bone itself being pulled out of place and snapping back into neutral position

Question 45

Dysfunctional segments are NOT labeled subluxed, “out of place”, “out of joint”, or dislocated. As osteopaths, we do NOT adjust or “put back into place”

What is the goal of OMT?

Answer 45

Goal is to restore motion loss and restore neutral point back to normal

Question 46

Why is initial positioning crucial for physician and patient prior to performing HVLA?

Answer 46

For physician - frees up cortex to diagnostic input from hands and fingers; physican may consider applying techniques for relaxation such as MFR, soft tissue, or MET prior to HVLA

Patient - allows for muscular relaxation prior to thrust

Question 47

What makes up a vertebral unit?

Answer 47

2 adjacent vertebrae with their associated disc, arthrodial, ligamentous, muscular, vascular, lymphatic and neural components

Question 48

Based on the concept of vertebral units, you would treat an L3 SD as it articulates with _____

Forces will be localized at _____ joints between the two vertebrae

Answer 48

L4

Facet (aka zygopophyseal)

[so always treat segment below]

Question 49

To engage the barrier:

Forces are applied from the top down through the superior vertebra — “______ the dysfunction”

Forcs are applied from the bottom up through the inferior vertebra — “____ the dysfunction”

Other vertebrae of the unit is used as an opposing _____

Answer 49

Through

To

Counterforce

Question 50

Typical vertebrae C2-L5 are assessed and treated in 3 planes of motion, thus HVLA is utilized by ______ restrictive barriers in all three planes

Answer 50

Stacking

Question 51

______ restriction = typically restricted in one major and an associated minor motion

Answer 51

Appendicular

Question 52

In utilizing HVLA for an appendicular restriction, HVLA typically focuses on _____ joint motion restriction

Answer 52

Minor

[so in a flexed SD at the knee, HVLA focuses on posterior tibiofemoral glide SD]

Question 53

Engaging force must be maintained once all RBs are stacked. Forces that do not accumulate at SD dissipate into adjacent structures leading to unwanted _____ effects. If the force is lost thrust must not be performed

Answer 53

Iatrogenic

Question 54

Once barriers are engaged, a short, rapid thrust with sudden acceleration and deceleration is used to correct the SD. Should force be released prior to thrust?

Answer 54

No

Question 55

How are release enhancing mechanisms useful for HVLA?

Answer 55

Exhalation muscle relaxation makes the thrust more effective

In some cases, speed and force may be modified to fit patient’s need. Well engaged dysfunctions may have an audible click prior to thrust, indicating effective treatment

Question 56

Summary of steps for HVLA

Answer 56

1. Correctly dx SD
2. Localize segment
3. Engage the RB in all 3 planes of motion - stacking
4. Release enhancing maneuver (breathing)
5. Mobilizing force - corrective thrust
6. Reassess

Question 57

Dosage for HVLA is completely patient dependent

generally:
The sicker the patient, the _____ the dose

Older patients respond more ____

Most cases discourage thrusting the same segment more than ____ per week

If the same SD keeps recurring, evaluate and address for underlying inciting factor

Answer 57

Lower

Slowly

Once

Question 58

What are the benefits to using HVLA?

Answer 58

Well tolerated and time efficient

Modality of choice for SDs with distinct firm barrier mechanics

Patient typically experiences immediate relief, decreased pain, and increased ROM

Question 59

Safety considerations for HVLA

Answer 59

Accurate diagnosis is crucial

Patient consent and comfort

Don’t thrust if barrier doesn’t feel right

Excessive force can damage tissue

Hypermobility of joints could be exacerbated by HVLA

Question 60

What are 2 absolute contraindications to HVLA due to alar ligament instability?

Answer 60

Rheumatoid arthritis

Down syndrome

Question 61

All absolute contraindications to HVLA

Answer 61

Local metastases
Osseous or ligamentous disruption
Severe osteoporosis
RA
Down syndrome
Osteomyelities in area being treated
Joint replacement in area being treated
Vertebrobasilar insufficiency
Severe herniated disc with radiculopathy

Question 62

Relative contraindications to HVLA

Answer 62

Apprehension by patient
Mild to moderate strain or sprain in tx area
Mild osteopenia or osteoporosis
RA disease other than in spine
Some hypermobile states