Conditions and Rehabilitation of Shoulder and Arm DISTAL HUMERUS PDF

Summary

This document details conditions and rehabilitation strategies for shoulder, arm, and distal humerus injuries, including various types of dislocations, fractures, and inflammatory conditions. It covers detailed assessments, treatment approaches, and possible surgical interventions. Specific case examples and questions are included showcasing the type and scope of the document.

Full Transcript

Conditions and Rehabilitation of
the Shoulder, Arm and Distal
Humerus
PRAYER
OBJECTIVES
List down the unique clinical features and treatment approach of
each of the following soft tissue injuries of the shoulder and arm.
Review the clinical presentation of soft tissue injuries, fractures, and
dislocations.
Develop Specific guidelines in the evaluation and rehabilitation of
patients with disorders of shoulder and arm.
PAST BOARDS
According to the APTA Guide for Physical Therapist Practice, the
following are elements of patient management (in order of process
during an initial session)
A. Examination, assessment, impairment, treatment
B. Evaluation, treatment, documentation, assessment
C. Examination, evaluation, diagnosis, prognosis
D. Interview, evaluation, tests and measures, diagnosis
STERNOCLAVICULAR DISLOCATIONS

Anterior Posterior
More common (2⁄3 of all Less common (1⁄3 of all cases)
cases) More painful & severe
Direct trauma to the SC jt. Vascular problems
Medial end of the clavicle Mediastinal structures at risk
becomes more prominent Breathing & swallowing difficulty

MOI: High energy ( MVA, contact Note: SC jt. D/L allots for less
sports) than 1% of all jt. D/L in the body
STERNOCLAVICULAR JOINT DISLOCATIONS

Imaging Mx
plain serendipity radiographic Treatment is generally
views and AP views. observation of atraumatic or
CT studies are generally chronic anterior dislocations.
required to assess for sling, observation
direction of displacement. Closed versus open reduction
Study of choice is indicated for acute
dislocations.
Clavicular Fractures
CLAVICULAR FRACTURES

Mx:
MOI: FOOSH or FOS
Splint (Immob) or FIgure of 8
Bandage:
Non-displaced or has a good
Age: 40 years with Hx of
impingement
(+) rotator cuff tear in the elderly
Clinical Features

Point tenderness in the bicipital
groove
Positive impingement signs if
associated with impingement
syndrome
Sharp pain, audible snap,
ecchymosis, and visible bulge in the
lower arm with tendon rupture
Provocative Tests
Imaging
Non-specific
Treatment
Treatment
Tendonitis
Conservative treatment is appropriate for most patients. – ROM and strengthening
as tolerated.
Modalities
Injection into the tendon sheath. (controversial)

Rupture
Tendon reattachment is not indicated in most patients.
Biceps tenodesis: younger individuals who require heavy lifting may need
reattachment.
Some patients may request reattachment of biceps tendon for cosmetic reasons.
CALCIFIC TENDONITIS OF THE SUPRASPINATUS
TENDON
Calcium deposits (
Hydroxyapatite) most commonly
involving the supraspinatus
tendon.
Idiopathic
SS and Sx:
Sharp pain in the shoulder ROM,
particularly with shoulder
abduction and overhead activities
Imaging
 Treatment
NSAIDS
Steroid Injections
PT ( Thera Ex)
Modalities- Shockwave Therapy
UTZ guided needle lavage- or
Barbotage
Surgical decompression of Ca
Deposits-
Adhesive Capsulitis
Clinical Features
AKA: DIABETIC periarthritis
Idiopathic
Gender: F>M
MC in 40-60 y.o
Capsular Pattern: ER>AB>IR
Causes:
○ Diabetes
○ Immobilization
○ Recent Strain
○ Arthritis
○ Trauma
Imaging
X-RAY AP view, scapular Y and
axillary
Arthrography
Ultrasound:C

LABs: TSH and HgbAIC
 Self- limited disease
Treatment Restoration over 12-14 months
NSAIDs and/or intra- Worse outcomes among diabetics
articular steroid
injections, physical
therapy, heat and/or
cryotherapy

Surgical:
capsular hydrodilatation,
manipulation under
anesthesia, and
arthroscopic lysis of
adhesions
PAST BOARDS
A patient presents to an outpatient clinic with complaints of shoulder
pain. The therapist observes a painful arc between 70 deg and 120
deg of active abduction in the involved shoulder. This finding is most
indicative of what shoulder pathology?
A. Rotator cuff tear
B. Acromioclavicular joint separation
C. Impingement
D. Labrum tear
Scapular Winging
 SCAPULAR WINGING
Medial Winging Lateral Winging
Nerve: Long Thoracic N Nerve: CN XI
Causes: Radical Radical Neck Dissection ( MC)
Mastectomy (Breast Traction Injury
Surgery), chest tube placement Blunt Trauma( deep tissue massage)
ST/ Maneuver: Punch-out Slight SH ABD 65 years old) elderly with osteoporotic bone
two-part surgical neck fractures high-energy trauma
are most common young individuals
concomitant soft tissue and
neurovascular injuries
Classification
Clinical Features

Typically occurs in elderly women with osteoporosis after a fall.
Pain, swelling, and ecchymosis in the upper arm, which is
exacerbated with the slightest motion.
In fracture at the surgical neck, the supraspinatus is the principle
abductor (ie, supraspinatus causes abduction of the proximal
fragment of the humerus).
Loss of sensation is seen if there is neurologic involvement.
Diminished radial pulse
Treatment
Conservative: Rehabilitation; Sling and early ROM ( 6 weeks)
Surgical: ORIF
Complications
Brachial Plexus Injuries
Avascular Necrosis
Arterial Injury ( Uncommon but in older pts- surgical neck)
PAST BOARDS
A patient has been determined to have a developing Type I complex
regional pain syndrome on the left upper extremity. Which of the
following signs and symptoms are observed in Stage 2 of the
condition?
a. Brittle nails
b. Burning, aching, throbbing pain
c. Accelerated hair growth
d. Skin becomes cool, pale, bluish, sweaty
Complex Regional Pain Syndrome
AKA: CAULSALGIA ; RSD Types:
Complex neuropathic pain I- RSD (no nerve involvement)
syndrome characterized by II- Causalgia (c nerve
severe pain & autonomic dysfxn involvement)
that may lead to S/sx: Sensory Changes, Trophic
crippling contractures of the Skin ,Changes, Autonomic
limb Dysfxn, Motor & Pain
Distal Predominance *STAMP
 STAGES OF CRPS TYPE 1
STAGES SYMPTOMS TIME FRAME

ACUTE Pain: Burning, aching,throbbing Within weeks of Injury
& sensitive to Touch; Swelling, Mm spasm,
stiffness, LOM &
LOF, Skin may change from red, warm, dry to cool,
pale,
Sweaty, Hypertrichosis ,accelerated hairgrowth
usually
dark hair in thick patches

DYSTROPHIC Pain severity increasing, inc swelling, mm atrophy, 3-6 months
Skin becomes cool, pale (Cyanotic bluish),
Hyperhidrosis, Nail bed changes (cracked, ridges,
grooves), Bone demineralization

ATROPHIC Osteoporosis, Irreversible tissue > 6months
Damage, Mm atrophy and
Contractures, Skin becomes
thin and shiny, nails are brittle, pain may worsen,
improve or stay the same
 IMAGING
Vascular studies
X-Ray
Bone Scan-
EMG-NCV
Blood test
 Common Sites:
Between the scalenes
-AKA: Scalenus Anticus
Syndrome
Between the coracoid process &
pecs minor
AKA: Hyperabduction Syndrome
Between the clavicle & 1st rib
(MC)
- AKA: Costoclavicular Syndrome
THORACIC OUTLET SYNDROME
S/sx: TREATMENT
Weakness, pulselessness, Conservative:
Paresthesia Analgesics,NSAIDS, Muscle
ST: relaxants, Massage,
CHARAW Hydrotherapy, PT
Costoclavicular Brace Test Behavioral Modification/
Halstead Test avoidance of provocative
Allen’s Test activities
Roos’ Test Improvement -50-90%
Adson’s Test
Surgical
Wright Test
Conditions and Rehabilitation
of the Elbow
LATERAL
EPICONDYLITIS
-Also known as tennis elbow
-Also seen in golfers.
Mechanism of Injury
Activities that require repetitive
wrist extension and/or forearm
supination.
Overuse and poor mechanics
lead to an overload of the
extensor and/or supinator
tendons.
Poor technique with racquet
sports:
Improper technique for
backhand swings – Inappropriate
string tension
Inappropriate grip size
Pathology
Clinical Features
Tenderness just distal to the
lateral epicondyle at the
extensor tendon origin.
Pain and weakness in grip
strength
Imaging
Treatment
Conservative
PRICE
NSAIDS or steroid injection
Physical Therapy
Correction of poor
biomechanics and techniques
Bracing (forearm band), taping
Surgical
ECRB debridement
MEDIAL
EPICONDYLITIS

Also known as golfer’s
elbow or Little Leaguer’s
elbow (children) or pitcher’s
elbow.
Caused by repetitive valgus
stress to the elbow ( late
cocking and acceleration
phase in throwing and
swinging motion (backswing
and downward follow-
through swing just prior to
ball impact) of a golfer
Pathology & Clinical
Features
Inflammation of the common flexor tendon at the
elbow-> tenderness distal to medial epicondyle
Recurrent microtrauma- hypertrophy
Children: Long-term repetitive valgus stress -> medial
epicondylitis, traction apophysitis and medial condyle
apophysitis

Other features: ulnar neuropathy and pain on resisted
wrist flexion and pronation
Imaging
Not needed but may do MSK UTZ
X-Ray- calcification at the medial epicondyle
Treatment
Conservative
Short term: rest, ice, NSAIDs,
immobilization
Long term: activity and modification
of poor throwing mechanics
extremely important
Surgical
pinning
Reserved for an unstable elbow
joint
 A 14-year old girl place excessive valgus stress to the right elbow
during a fall from a bicycle. Her forearm was in supination at the
moment the valgus stress was applied. Which of the following is most
likely involved in this type of injury?
A. Ulnar nerve
B. Extensor carpi radialis
C. Brachioradialis
D. Annular ligament
OLECRANON BURSITIS
Also known as draftsman’s elbow,
student’s elbow, or miner’s elbow.

Mechanism
Repetitive trauma, inflammatory
disorder (gout, pseudogout, RA)
Pathology and Clinical Features
Imaging and Treatment
OLECRANON BURSITIS
Imaging: none needed Treatment: Fluid aspiration and
culture
Conservative: rest, NSAIDs,
elbow padding
PAST BOARDS
A physical therapist is speaking to a group of avid tennis players. The
group asks how to prevent tennis elbow (lateral epicondylitis). Which
of the following is incorrect information?
A. Primarily use the wrist and elbow extensors during a backhand
stroke.
B. Begin the backhand stroke in shoulder adduction and internal
rotation.
C. Use a racket that has has a large grip.
D. Use a light racket.
DISLOCATION OF THE ELBOW
The most common type of
dislocation in children and the
second most common type in
adults (second only to shoulder
dislocation).
Young adults between the ages of
25 and 30 years
account for almost 50% of these
injuries
Mechanism, Symptoms
and Imaging
FOOSH injury
Most common is posterior
dislocation

Sx: inability to bend elbow, pain in
shoulder and wrist

Imaging
Plain AP and lateral radiographs
Treatment
DISTAL BICEPS
TENDONITIS
Overloading of the biceps tendon
commonly due to repetitive elbow
flexion and supination or resisted
elbow extension.
Imaging,
Treatment

None needed but may do
MRI

Tx: Conservative or
Surgical
TRICEPS
TENDONITIS/AVULSION
Clinical Features
Tendonitis: overuse
syndrome secondary to
repetitive triceps
extension.
Avulsion: decelerating
counterforce during active
elbow extension.
Imaging and Treatment
VALGUS EXTENSION OVERLOAD (VEO)
SYNDROME OF THE ELBOW
Common in baseball players
Repetitive valgus forces ( cocking
and acceleration phase)
Common in posteromedial
olecranon
Pathology, Clinical
Features and Imaging

Olecranon osteophytosis and
loose body formation
(+) VEO test

X-Ray APL

Tx: surgical and post op PT
MEDIAL (ULNAR) COLLATERAL LIGAMENT
(MCL) SPRAIN
 Due to A repetitive valgus stress
Pathology: inflammation of the
anterior band of UCL
(+) valgus stress test

Imaging: X-Rays plain and valgus
stress radiographs
 Conservative
Surgical if needed

TREATMENT
LATERAL (RADIAL)
COLLATERAL LIGAMENT
(LCL) SPRAIN

Elbow dislocation from a traumatic
event
Recurrent locking or clicking of the
elbow with extension and supination.
Lateral pain or instability on varus
stress with the elbow flexed 20–30 ̊ if
the RCL is torn.
Special test: varus stress test and
lateral pivot shift test
Imaging: Varus
stress
radiographs
FRACTURE OF THE HUMERAL SHAFT
FRACTURE OF THE HUMERAL SHAFT
Clinical Features
Mechanism severe arm pain
swelling
Direct trauma (eg, MVA) weakness
Fall on outstretched arm deformity - characteristic of a
displaced fracture of the humerus.
(+) radial nerve palsy – if radial
nerve is affected
FRACTURE OF THE HUMERAL SHAFT
Imaging Treatment
AP and lateral x-rays. conservative (ie, splint for 2 weeks
CT Scan intraarticular extension coaptation splint or hanging arm
CTA- if with vascular injury cast).
PT ( ES, exercises, Modalities and
with radial nerve palsy
EMG-NCV- 6 months and after a (+) splint ( volar or dorsal splint if )
year 95% of patients will regain their nerve
function within 6 months.
OT (- ADL retraining, work modification,
therapeutic exercises,nerve gliding
exercises etc)
Surgical: ORIF, IM nailing, External
Fixation
FRACTURE OF THE DISTAL HUMERUS
 AO/OTA Classification of Distal Humerus Fractures
Extra-articular (supracondylar fracture), 80% are extension type;
Type A
epicondyle
Intraarticular- Single column (partial articular-isolated condylar,
Type B
coronal shear, epicondyle with articular extension).
Intraarticular- Both columns fractured and no portion of the
Type C
joint is contiguous with the shaft (complete articular)
Each type further divided by degree and location of fracture
comminution
FRACTURE OF THE DISTAL HUMERUS
Clinical Features
Classification can be complex.
(+) swelling
The most useful way to consider them is displaced (+) ecchymosis
or nondisplaced.
pain at the elbow
A displaced fracture involves one or both condyles, Inability to flex the elbow.
and the joint surface may or may not be involved.
Inspect for an obvious deformity.
Mechanism
Neurovascular compromise. Radial, median,
MOI: low energy falls in elderly; high energy and ulnar nerves all may be affected.
impact in younger population

Complications
– Neurovascular injury
– Nonunion
– Malunion
– Elbow contracture
- Heterotopic ossification
– Poor range of motion
FRACTURE OF THE DISTAL HUMERUS
Imaging Treatment
AP/lateral, Oblique x-rays of the Orthopedic referral.
elbow – Nondisplaced fractures can be
treated by splinting and early
CT- for surgical planning motion.
MRI- not indicated for acute – Displaced fractures—except
cases severely comminuted fractures—
require ORIF ( screws, pinning,
metal plates)
Post Operative: PT and
Ottretament depending on the
problems identified
PAST BOARDS
A physical therapist performs an
examination on a patient diagnosed with
thoracic outlet syndrome. During the
examination, the therapist initiates a
special test as shown in the image. Which
of the following would be considered a
positive finding when performing the
special test?
A. Inability to maintain the test position for
three minutes
B. Subjective report of fatigue in the arms
C. Absence of a radial pulse after one
minute
D. Failure of the hands to regain their
normal color after 30 seconds
References
Braddom
De Lisa
Ortho Bullets
Physiopedia
THANK YOU!!