Download evaluation and treatment of lateral elbow pain

EVALUATION AND TREATMENT OF LATERAL
ELBOW PAIN
A MOVEMENT IMPAIRMENT BASED APPROACH
Brenda Boucher, PT, PhD, CHT, OCS, FAAOMPT
Pieter Kroon, PT, DPT, OCS, FAAOMPT
Objectives
1. Describe the relationship between movement impairment syndromes
and pain in the lateral elbow.
2. Demonstrate clinical examination skills necessary for treating
patients that present with lateral elbow pain.
3. Demonstrate appropriate intervention strategies based on current
evidence for patients with complaints of pain and/or dysfunction of the
lateral elbow.
4. Select appropriate home exercises that match the objectives
identified in managing patients with lateral elbow pain and dysfunction.
Financial Disclosure
There are no financial disclosures in this presentation
Lateral elbow pain: difficult to treat
• Reticent to treatment
• Seemingly similar complaints do not respond well to the same
treatment
• Regional interdependence: many elbow problems are caused by
movement impairments in wrist and shoulder
• Different structures reproduce similar complaints
Guiding Principles
• Painful conditions of the upper extremity are often a response
to faulty mechanics and overuse.
• Faulty alignment, inadequate muscle length/strength/motor
recruitment, and impaired movement can result in cumulative
stresses that lead to pain and dysfunction.
• This presentation will focus on examining the upper extremity
with emphasis on alignment, tissue status, and movement
patterns to identify factors that contribute to lateral elbow pain.
• Intervention will emphasize manual techniques and specific
exercises to address impairments and correct faulty movement
patterns.
APTA Vision Statement for the
Physical Therapy Profession (beyond 2020)
Transforming society by optimizing movement to improve
the human experience.
The physical therapist will be responsible for evaluating and managing
an individual’s movement system across the lifespan to promote
optimal development; diagnose impairments, activity limitations, and
participation restrictions; and provide interventions targeted at
preventing or ameliorating activity limitations and participation
restrictions.
The movement system is the core of physical therapist practice,
education, and research.
Movement System Impairment
* Faulty
alignment
*Impaired
movement
• Underlying Cause
* Sustained
postures
* Repeated
movements
• Provocative factors
* Cumulative
stress
* Pain &
dysfunction
• End
Result
Faulty Alignment
Repeated Use
Faulty alignment
Repeated use
Example of long-term effects of faulty alignment/movement
Neer’s Staged Classification
• Stage I: Edema & Hemorrhage
< 25, reversible, conservative treatment
• Stage II: Fibrosis & Tendinopathy
25-40, recurrent pain, consider SAD
• Stage III: Bone Spurs & Tendon Rupture
>40, progressive disability, sx repair
Movement System Impairment
* Faulty alignment
*Impaired
movement
Underlying causes . . .
further up, or down the chain
Examination
“When I pick up a a cup
of coffee.”
Patient Body
Diagram &
Subjective
Report
“When I try to open
a jar”
“When I swing a bat
or racquet.”
“When I play sports.”
Dull ache,
Can be
sharp
“When I use hand
tools such as a
hammer or
screwdriver.”
Differential Diagnosis
• ECRB tendonopathy
• Radial nerve ANT
• Radiohumeral joint dysfunction
Impaired Movement Pattern
Extension with Radial Deviation Syndrome
•Dominant ECRB & ECRL
•Dominant thumb & digit extensors
Muscle Imbalance
Imbalance Patterns
Forearm, Wrist & Hand
Strong & Dominant
•ECRL & ECRB
•EPL, EPB, APL
•ED, EDM
Muscle Imbalance
Imbalance Patterns
Forearm, Wrist & Hand
Weak
•ECU
•Lumbricales
•Interossei
Muscle Length
Muscle Length Restrictions
Forearm, Wrist & Digits
Short
•Radial wrist extensors
•Digit extensors (extrinsic)
•Thumb extensors
Joint Accessory Mobility
Joint Mobility
Forearm & Wrist
Hypomobility/Hypermobility
•Radio-ulnar joints (radial head)
•Ulno-triquetral joint
•Scapholuno-radial joint
•1st CMC joint
Example: long-term effects of faulty alignment/movement
Diagnosis Referrals
Radial-dorsal-sided wrist pain:
• Lateral elbow pain
• Radial tunnel syndrome
• Intersection syndrome
• DeQuervain’s syndrome
Ulnar-sided wrist pain:
• TFCC dysfunction
FAULTY ALIGNMENT – IMPAIRED MOVEMENT
Non-weight bearing assessment
Weight bearing assessment
Alignment Assessment
Front View
Clavicle alignment - optimal
•Lateral clavicle approximately 15-20°
higher than medial clavicle
Humerus alignment - optimal
•Cubital fossa oriented anteriorly
•Palmar hand oriented medially
Alignment Assessment
Back View
Scapula alignment - optimal
•
•
•
•
•
Superior angle aligned with T2
Inferior angle aligned with T7
Axillary border vertically aligned
Axillary border 3” lateral to SP
10° anterior tilt relative to thorax
(sagittal plane)
Humerus alignment - optimal
•Olecranon process oriented posteriorly
Alignment Assessment
Side View
Humerus alignment - optimal
•
•
Humeral head positioned anteriorly
</= 30% to acromion
Proximal humerus vertically aligned
with distal humerus
Alignment Assessment
Functional weight-bearing
Scapula, Elbow, Forearm, Wrist, Palm
•Scapula stability loss
•Elbow hyperextension
•Forearm hyperpronation
•Wrist radial compression/ulnar distraction
•Palm arch collapse
Courtesy Brandi Smith-Young, PT
Board Certified Orthopaedic Specialist
Fellow, American Academy Orthopaedic Manual Physical Therapists
Alignment Assessment
Functional weight-bearing
Cervical Spine, Scapula, Humerus,
Wrist, Thumb
•Cervical flexion
•Scapula depression, abduction,
downward rotation
•Humeral anterior glide, medial rotation
•Wrist extension/radial deviation
•Thumb extension
EXAMINATION
Forearm, Wrist, Hand
Special Tests: there are few well designed diagnostic accuracy
studies assessing the elbow for pathology
Resisted Tennis Elbow Test
• Patient seated
• Patient extends the wrist against a
force applied by the examiner
• Positive test is reproduction of
pain along the lateral epicondyle
Reliability
Sensitivity Specificity +LR
-LR
NT
NT
NA
NT
NA
No diagnostic accuracy studies have been performed to determine the sensitivity and specificity of this test
Cook C and Hegedus E. Orthopedic Physical Examination Tests, an Evidence Based Approach 2nd edition Pearson, NJ 2013
Passive Tennis Elbow Test
• Patient seated, elbow placed in
extension
• Examiner passively pronates the
forearm and flexes wrist to
endrange
• Positive test is reproduction of
pain along the lateral epicondyle
Reliability
Sensitivity
Specificity
+LR
-LR
NT
NT
NT
NA
NA
No diagnostic accuracy studies have been performed to determine the sensitivity and specificity of this test
Cook C and Hegedus E. Orthopedic Physical Examination Tests, an Evidence Based Approach 2nd edition Pearson, NJ 2013
Maudsley’s Test
• Examiner resists 3rd digit
extension, stressing the ECRB
• Positive test is reproduction of
pain along the lateral
epicondyle
Reliability
Sensitivity
Specificity
+LR
-LR
NT
NT
NT
NA
NA
No diagnostic accuracy studies have been performed to determine the sensitivity and specificity of this test
Cook C and Hegedus E. Orthopedic Physical Examination Tests, an Evidence Based Approach 2nd edition Pearson, NJ 2013
Physical Examination
Muscle Strength Assessment
Forearm, Wrist & Hand
Weak
•ECU
•Lumbricales
ECU
Lumbricales
Physical Examination
Muscle Length Assessment
Forearm, Wrist & Digits
Short
•Radial wrist extensors
•Extrinsic digit extensors
•Thumb extensors & abductor
ECRB & ECRL
EPL, EPB,
APL
ED, EI, EDM
Physical Examination
Joint Mobility Assessment
Forearm & Wrist
Hypomobility/Hypermobility
•Humeroulnar joint
•Radiohumeral joint
•Ulno-triquetral joint
•Scapholunate-radial joint
•1st CMC joint
Ulnotriquetral jt
Scapholunoradial jt
(flex & ext)
DRUJ
1st CMC jt
PRUJ (radial head
mobility)
Physical Examination
Palpation to Palpation
Tenderness
•ECRB tendon insertion
•ECRL tendon insertion
•Extensor digitorum tendon
insertion
•Radiohumeral joint line
•Radial nerve
Physical Examination
Palpation
ECRL: Place tip of thumb just superior to
lateral epicondyle against anterior aspect
supracondylar ridge
ECRB: Elbow 90 degrees flexion,
forearm supinated. Thumb on edge
lateral epicondyle. Move thumb slightly
medial.
For proximal tendon, flex elbow 45
degrees, fully pronate. In this position the
tendon runs over radial head.
Intervention
Address primary impairments, movement dysfunction and
provide external support as indicated.
Local & Proximal
Manipulations - Local
• Radiohumeral joint
Intervention
Manipulations - Distal
• Ulno-triquitral thrust
• Scapholuno-radial thrust
• 1st CMC
1st CMC
Ulno-triquitral thrust
Scapholuno-radial thrust
Intervention
Manipulations - Proximal
• Upper thoracic
• Cervical-thoracic
T Spine
• Glenohumeral
Mobilization Scapula
GH joint lateral
CT junction
GH joint posterior
Intervention
Small finger
placement
Neutral fist position
NMT - Distal
•Wrist extension strength
training (ECU emphasis)
Avoid excessive activity of:
radial extensors
thumb ext/abd
extensor digiti minimi
Intervention
NMT - Local
•Lumbrical hold
•Lumbrical hold with
movement
Correct
Incorrect
Lumbrical hold with active wrist flexion-extension
Thumb extensors & abductor
Intervention
Lengthen
•Radial wrist extensors
•Extrinsic digit extensors
•Thumb extensors & abductor
Wrist radial extensors & thumb
extensors/abductors
Radial wrist extensors
Hand-heel rock
Intervention
Shoulder NMT
•
•
•
Hand-heel rock
Standing pivot prone
Shoulder-wrist dissociation
Standing pivot prone
Shoulder-wrist dissociation
Thank you!