Addressing Joint Mobility Deficits with the use of Joint Mobilization Techniques

Question 1

Manual Therapy

Answer 1

Anything involving hands on the patient

Question 2

What tissues are we talking about

Answer 2

• Synovial membrane
• Synovial fluid
• Hyaline Cartilage
• Joint Capsule (thickening og the synovial lining to provide stability)
• Capsular ligaments
• Blood vessels
• Sensory nerves (mechanoreceptors and pain receptors)
• Central pain processing centers

Both anatomy and nervous tissue affected

Question 3

Conditions associated with JOINT mobility deficits?

Answer 3

ROM limitations both actively and passively that appear to be related to joint limitations that may or may not be associated with:

• Long term immobilization (Fracture)
• “Painful” joint conditions (Ex: Frozen Shoulder)
• Joint (intra-articular) swelling (Post surgery)
• Arthritic changes

Question 4

Examination findings associated with Joint mobiltiy deficits

Answer 4

• Subjective: reports tightness/stiffness and/or referred pain in familiar pattern associated with joint. Pain with initial movement but gets better with more movement. (Ex: After sitting for a while tightens up; tight in morning gets a little better but still limited)
• AROM: loss of motion. Feeling of tightness in joint OR pinching in joint toward the direction of motion (Bend knee, have pain in posterior portion of the knee)
• PROM: AROM loss of motion = PROM loss of motion
• End range overpressure: CAPSULAR end feel with or without pain (Ex: Expected soft tissue approx with bend knee and feel capsular; Shoulder ex rot capsular end feel comes earlier)
• Palpation: MAY have tenderness to joint with or without referral that REPRODUCES patient’s pain
• Motor: MAY have weakness of muscles that cross the joint

Deficits or loss of coordination of muscles that cross a joint

Question 5

Referral Patterns from joints (Cervical and Lumbar Facets)

Answer 5

Question 6

Intervention options for Joint Mob Deficits

Answer 6

Joint mob techniques:
* * NON-Thrust mobilizations
– Arthrokinematic mobilizations
– Osteokinematic mobilizations
* Thrust mobilizations (aka: manipulations)
* Mobilization with movement techniques (may demonstrate but will not be responsible for knowing these yet)

Question 7

Non-Thrust Mobilization definition

Answer 7

Passive joint movement (accessory or physiologic motion) applied at varying points in the ROM and at different amplitudes.

Pressure to humeral head and move it or grab the humerus and move it (Arthrokinematic/accessory motion vs osteokinematic/physiologic motion)

Question 8

Thrust Mobilization Definition

Answer 8

Passive joint movement that includes a high velocity, low amplitude (HVLA) thrust at mid or end range of motion (sometimes referred to as “Manipulation”)

Question 9

Mobilization with movement definition

Answer 9

PT applies passive force tojoint, patient moves whileforce is applied

Ex: PT applies pressure from posterior humerus and ask patient to rotate from internal to external motion.

Question 10

Joint Mobilization are intended to:

Answer 10

Modulate (decrease) pain
Increase ROM
Improve joint mechanics
Decrease mm tone
Restore functional movement
Decrease patients fear of movement

Can tap into all 3: Cognition, Mob, Motor

Question 11

“Mechanisms” of Joint Mobilization

Answer 11

Biomechanical: restore normal arthrokinematics by improving joint capsule extensibility (restore necessary slide and glide to the joint)
Neurophysiological: Modulate and/or decrease pain output by stimulating peripheral and central nervous system (Anytime we put our hands on the patient)
Biopsychosocial: perception that the technique is helpful based onpatient’s own personal belief(Anytime we put our hands on patient; positive or negative)

Question 12

Biomechanical Mechanism

Answer 12

• Based on the concept of restoring the osteokinematic and arthrokinematic motion of the joint and/or improving joint capsule extensibility
• Osteokinematic motion: Physiological motion (flexion, extension, abd, etc); Can control motion
• Arthrokinematic motion: Accessory motion (roll, slide, spin); Cannot control

Need both arthro and osteo to have full ROM

Question 13

Arthrokinematic Concepts CONVEX ON CONCAVE Motion

Direction of the force we apply during the mobilization is based on biomechanical principles

Answer 13

Convex articular surface moving on a fixed concave surface
The gliding motion of the convex joint surface moves in the OPPOSITE direction to the motion of the bone that is moving
Otherwise stated: The osteokinematic motion and the arthrokinematic motion occur in the OPPOSITE direction

To facilitate shoulder abduction, need an inferior glide of the humeral head.

Question 14

Arthrokinematic Concepts (cont.) CONCAVE ON CONVEX Motion

Answer 14

• Concave articular surface moving on a fixed convex surface
• The gliding motion of the concave joint surface moves in the SAME direction to the motion of the bone that is moving
• Otherwise stated: The osteokinematic motion and the arthrokinematic motion occur in the SAME direction

Question 15

Knee Extension

Answer 15

Tibia is stationary, Femur is moving: Arthro goes in a posterior direction, Osteo goes in an anterior direction; PT should push in a posterior direction.

Tibia is moving, Femur is fixed: arthro and osteo is same direction; provide an anterior force

Distal is moving - Open: Prixmal part of joint is moving - closed

Question 16

Direction of force for Mobilization Techniques MAY be dependent on arthrokinematic principles

Answer 16

Where restriction is and what part of joint is moving.

PT Mobilization force is applied in the OPPOSITE direction of the ostekinematic motion

PT Mobilization force is applied in the SAME direction of the ostekinematic motion

Question 17

Use joint play assessment to determine vigor of technique

Normal vs. Hypermobility vs. Hypomobility

Answer 17

All of these depend on the irritability of the patients symptoms
Where they feel the pain when we move the joint
R1: First resistance
R2: End resistance

More vigorious at R2

Question 18

Neurophysiological Mechanism

Answer 18

• Peripheral neurological response
  – Stimulate joint mechanoreceptors
  — gait theory of pain
  — Reduces inflammatory mediators (i.e.: cytokines)
• Central neurological response
  – Decrease activity of pain processing centers in the brain (anterior cingular cortex, amygdala, periaqueductal gray (PAG), rostral ventromedial medulla (RVM))
  – Enhance and sharpen somatosensory cortex and body maps through movement(enhance motor control/quality of movement of the joint)
  – Newer research through functional MRI’s

Change cortical pathway and pain pathway

Changes in the brain with peripheral or spinal joint

Question 19

Neurophysiologic response that results in…

Answer 19

Decrease pain, decrease tone of muscles and increased motion

Question 20

Dorsal area of the ____ and ____ have been shown to selective produce ____ and cause ____ and ____

Answer 20

Dorsal area of the PAG and RVM have been shown to selective produce analgesia and cause sympatho-excitation and the release of endorphins and enkephalins (Decrease the output of pain)

Question 21

Movement associated with joint mobilization helps to sharpen the body image of the somatosensory cortex which becomes distorted/ blurred (“smudged”)with pain and/or immobility

Question 22

Psychosocial Mechanism

Answer 22

• Patient expectation (i.e.: patient BUY IN!) influences effectiveness of treatment (placebo response?)
• Patient senses motion but without the THREAT or anticipation of pain
• Low fear of the mobilization technique: Good outcomes
• High fear on the mobilization technique: Less favorable outcome
• PT’s need to address the fear and “SELL” the treatment

Changes their belief and perception of movement

Question 23

Variable techniques depend on ____ and ____

Answer 23

Variable techniques depending on goal of the TX and irritability of symptoms

Question 24

Grades of Mobilization

Answer 24

Grade 1: Small Oscillations/Beginning Range
Grade 2: Large Oscillations/Beg to Mid
Grade 3: Large Oscillations/Mid to end
Grade 4: Small Oscillations/End range

Question 25

Important considerations for all joint mobilization techniques:

Answer 25

• Consider the arthrokinematics of the joint if necessary (convex on concave OR concave on convex) to consider the appropriate direction of force for arthrokinematic mobilization techniques
• Place patient in appropriate position with proximal segment of the joint stable
• Provide maximal support of the distal segment of the joint
• If performing arthrokinematic motions (glide, rotation, etc)
  o ELBOW must be in line with direction of force
  o Use as much surface contact with the mobilizing hand as possible while still providing the force in the appropriate direction
  o Mobilizing hand must be as close to the joint axis as possible
  o Provide force through the trunk (with UE locked into trunk) as much as possible
• ALWAYS explain to the patient what you are doing and the clinic rationale
• GAIN CONSENT FROM THE PATIENT
• Ask for patient feedback while you are doing the technique
  o Gauge pressure, hand placement, intensity of pain

Question 26

NON-THRUST MOBILIZATION: LOW GRADE MOBILIZATION (I-II)

Answer 26

• Goals: Decrease pain by stimulation of mechanoreceptors and relaxation of tense musculature
• Performed in beginning range or mid range of available joint motion(Beginning to R1)
• High irritability of symptoms (intensity, how much to provoke, and how long to resolve)
• Grade I: Small amplitude oscillatory movement at the beginning of motion
• Grade II: Large amplitude oscillatory movement within mid-range of motion (Beginning to R1)
• Often performed in open pack position of joint

Early in ROM or not engaging the capsular barrier

Open pack: Joint capsule on slack; more joint gliding.

Question 27

NON-THRUST MOBILIZATION: HIGH GRADE MOBILIZATION (III-IV)

Answer 27

• Goal: Stress to joint capsule to achieve greater stimulation of mechanoreceptors and possible soft tissue stretching
• Performed toward end range of available joint motion
• Low irritability of symptoms
• Grade III: Large amplitude oscillatory movement from mid-range to end range (R1 to R2) of motion
• Grade IV: Small amplitude oscillatory movement at to end range of motion (End of R2)
• Progress to closed pack position of joint

Question 28

Open Pack (Loose Pack)

Answer 28

• Any other position other than closed pack
• Decreased joint congruity and joint surface contact
• Ligaments are on slack
• Maximal joint volume
• Minimal joint stability

Question 29

Closed Pack

Answer 29

• Maximal joint congruency
• Ligaments are maximally taught
• Maximal stability of the joint
• Minimized joint volume
• Increased compressive forces of the joint

Don’t use on high irritabiltiy

Question 30

Stages of Irritability and Joint Mobilization Selection

Answer 30

High Irritabiltiy = Low Grades of Mobilization (open pack)
Moderate irritability = Low to High Grades (open to closed pack)
Low Irritability = High Grade (closed pack)

Question 31

THRUST MOBILIZATION

aka Manipulation

Answer 31

• Much more of a neurophysiological response
• Goal: Intended to provide a neurophysiologic response as described earlier
• Not necessarily a continuum from the other grades
• High velocity, low amplitude thrust technique at mid to end range of motion
• May be associated with a “pop”, however, not needed for effectiveness (does not dictate effectiveness in joint to have good outcomes)
• Defined group of patients benefit most from thrust mobilization
• #1 indicator: acuity (acuteness) of symptoms
• #2 indicator: NON-RADIATING symptoms (nociceptive)
• Neurophysiological
  – Reduction in muscle tone, muscle guarding, patient fear, patient guarding, more allowance of motion as a result of central processing in the brain.

Big low amplitude force to joint is best predictor to good outcomes

Don’t have to build up to get to a thrust

Question 32

What terms can you NOT use?

Answer 32

Adjustment and spinal subluxation

PT’s use thrust mobilization to address pain and mobility limitations.

Question 33

Documenting Mobilizations

Answer 33

• Patient position(if appropriate, position of extremity: closed pack or loose pack)
• Thrust vs. non-thrust (if non-thrust: grade?)
• Direction of force
• Body region that the forces is applied to

Position; Grade; Direction; Range of movement

Example: Supine Grade III-IV non-thrust mobilization in anterior to posterior (AP) direction to mid-thoracic spine
OR
Supine Grade III-IV non-thrust AP mob to mid thoracic

Question 34

Contraindications to Thrust Mobilizations - Relative

Relative and Absolute

Answer 34

• Relative: Clinical judgment
• STABLE peripheral neurological signs (Myotomal weakness, sensory def, reflex changes (hyporeflexia)
• Early RA
• Joint laxity
• Early osteoporosis
• Surgery (once healed); Need confirmation from a physician

Question 35

High Velocity, Low amplitude vs High Velocity , High amplitude

Answer 35

High Velocity, Low amplitude is the safest and has the same benefits!

Question 36

Contraindications for Non-Thrust Mobilizations

Answer 36

• Safe
• Don’t do with fracture or joint displacement

Question 37

Contraindications to THRUST mobilization - Absolute

Answer 37

• PROGRESSING neurological signs especially in the spine (getting weaker, more sensory loss)
• Premature stress on surgical repaired structures
• Acute systemic inflammation (not acute pain); Fever, joint redness
• Vascular disease (ex: AAA, DVT); Cervical (Vertebral A.) and lumbar (abdominal A.)
• Advanced osteoporosis
• Advanced RA
• C1-C2 instability of c-spine (for neck)
• Joint infection

Question 38

To help keep the effect of the Thrust

Answer 38

Self ROM, Self Stretching or Active ROM, Active Exercise