TESTS
|
POSITION
OF THE ARM
|
STRUCTURES
INVOLVED
|
DESCRIPTION
OF TEST BEING PERFORMED
|
| Apley Scratch Tests |
Abduction and External
Rotation |
Internal Rotators &
Adductors (Stretched) |
Ask the patient to reach
behind his or her head and touch the superior medial
angle of the opposite scapula. |
| |
Adduction and Internal
Rotation |
External Rotators &
Abductors (Stretched) |
Instruct the patient to
reach back and touch the inferior angle of the opposite
scapula . You may also assess adduction and internal
rotation by having the patient reach in front and touch
the opposite acromion process. Check the level of
Thoracic Vertebrae reached. |
| Apprehension Test |
Position the patient supine
in a relaxed position on the examination table. Support
the patient's arm with the shoulder abducted 90 degrees
and the elbow flexed 90 degrees. |
Detects anterior shoulder
subluxation or dislocation. Inferior Glenohumeral
Ligament
|
While supporting the humerus
at the elbow with one hand, grasp the patient's forearm
with your other hand. Gently and gradually externally
rotate the shoulder. If the patient has had a recent
anterior dislocation or subluxation of the glenohumeral
joint, apprehension or discomfort will occur as the
shoulder approaches 90 degrees of external rotation. Be
careful not to cause an actual anterior dislocation when
externally rotating the arm. You may modify this test to
detect more subtle cases of anterior instability by
placing the patient prone on the examination table. Place
one hand on the forearm and the palm of your other hand
on the posterior aspect of the proximal humerus. Abduct
and externally rotate the shoulder 90 degrees as you push
the humeral head anteriorly. When anterior instability is
present, this position accentuates the anterior
subluxation and elicits further apprehension and patient
discomfort. |
| Relocation Test |
With the patient supine,
position the shoulder in 90 degrees abduction and zero
degrees internal rotation. |
Detects chronic anterior
dislocation of the glenohumeral joint. Inferior
Glenohumeral Ligament
|
Keep the elbow flexed 90
degrees. Place one hand on the mid-forearm and your other
hand on the anterior aspect of the proximal humerus.
Externally rotate the shoulder while applying a
posteriorly directed force to the proximal humerus.
Application of posteriorly directed force should prevent
anterior subluxation and reduce the patient's pain and
apprehension. If anterior instability is present,
removing the posteriorly directed force will cause the
patient's apprehension and pain to return. |
| Anterior Instability Test |
Position the patient supine
with the glenohumeral joint slightly over the table edge. |
Detects glenohumeral joint
anterior instability. Inferior Glenohumeral Ligament
|
Grasp the distal humerus at
the elbow and support the arm with the shoulder abducted
90 degrees and externally rotated 60 to 80 degrees. The
elbow should be flexed 90 degrees. Place the thumb of
your other hand in the axilla on the anterior inferior
humeral head with your fingers on the posterior aspect of
the humeral head. While maintaining elbow flexion and
neutral shoulder rotation, apply a posterior force to the
humerus as the fingers of your other hand push the
humeral head anteriorly. Utilize your thumb to appreciate
the amount of anterior translation. Repeat the test as
you increase the amount of glenohumeral abduction. As the
humerus is abducted, you may feel varying amounts of
anterior translation and laxity. If the capsular
structures are intact you should note a firm end point at
the end of each anterior levering maneuver. Also, compare
bilaterally. Lack of a firm end point, patient
apprehension and pain, and excessive anterior levering
may indicate capsular structure injury. |
| Anterior/ Posterior
Translation Test |
The patient sits with arms
relaxed at side. |
Assesses anterior or
posterior glenohumeral laxity. |
Place one hand on the
scapula superior aspect, stabilizing it against the
thorax. Grasp the humeral head with your other hand. Use
your fingers and thumb to push the humeral head
anteriorly and then posteriorly. Note the amount of
translation in both directions as compared to test
application on the uninvolved shoulder. |
| Sulcus Test |
Have the patient stand with
the involved arm hanging relaxed at the side. Ask the
patient to use the unaffected hand to grasp the wrist of
the involved arm. |
Assesses inferior
glenohumeral laxity. |
While the patient applies a
downward directed, distractive force on the involved arm,
you should palpate the space between the humeral head and
the undersurface of the acromion. You may notice an
indention or sulcus on the top of the middle deltoid as
the humeral head subluxes inferiorly. You should also
perform this test on the uninvolved shoulder, comparing
bilaterally |
| Posterior Glenohumeral
Instability Test |
With the patient supine and
relaxed, use one hand to hold the patient's arm in 90
degrees of abduction and 30 to 45 degrees of horizontal
adduction. |
Assesses humeral head
posterior subluxation. |
Place the thumb of your
other hand on the anterior humeral head, using the
fingers to locate the posterior glenohumeral joint. Apply
a posteriorly directed force on the anterior humeral head
while palpating posteriorly for any subluxation. Maintain
the posterior displacement with your thumb, while using
your other arm to slowly, horizontally abduct the arm to
neutral. If the humeral head is actually subluxed, a
sudden reduction may be felt as the arm is horizontally
abducted. To fully appreciate the amount of posterior
subluxation, repeat this maneuver a few times. |
| Inferior Drawer Test Or
Feagin Test |
The patient sits on the
examination table with shoulder abducted 90 degrees,
elbow in full extension and arm resting on your shoulder. |
Assesses humeral head
inferior subluxation. Inferior Glenohumeral Ligament
|
Place both hands along the
proximal humerus over the deltoid and interlock your
fingers. Apply an inferiorly directed force to the
humerus and palpate for inferior movement, which is
indicative of glenohumeral joint inferior instability.
Also, watch for apprehension or discomfort displayed in
the patient's face. You should also perform this test on
the uninvolved shoulder, comparing bilaterally. |
| Rotator Cuff Impingement
Tests (Full Flexion Test) |
Have your patient sit on the
examination table. |
Assess the presence of
rotator cuff inflammation or impingement syndrome. Supraspinatus
Tendon
|
Stand to the side of the
patient's involved shoulder and place one hand on the
posterior aspect of the scapula for stabilization. While
maintaining neutral humeral rotation, use your other hand
to fully flex the humerus to the maximal overhead
position. As the humerus approaches full flexion, observe
the patient's face for any signs of pain or apprehension
indicating rotator cuff impingement. Perform this test on
the uninvolved shoulder and compare bilaterally. |
| Rotator Cuff Impingement
Tests (Flexion-Internal Rotation Test) |
Have your patient sit on the
examination table. |
Assess the presence of
rotator cuff inflammation or impingement syndrome. Supraspinatus
Tendon
|
Stand to the side of the
patient's involved shoulder and grasp the patient's elbow
with one hand and support the arm so that both the elbow
and shoulder are flexed 90 degrees. Place your other hand
on the patient's forearm and maximally, internally rotate
the humerus. This passive movement drives the greater
tuberosity under the coracoacromial arch and impinges the
rotator cuff. This movement will elicit a painful
response if rotator cuff inflammation or impingement
syndrome is present. You should also perform this test on
the uninvolved shoulder and compare bilaterally. |
| Supraspinatus Strength
Test Or The Empty Can Test |
The patient stands with both
arms in 90 degrees of abduction, 30 degrees of horizontal
adduction and full internal rotation. |
Assesses the strength of the
supraspinatus muscle. |
Ask the patient to maintain
this position. Place your hands on the superior aspect of
the elbow and press downward. Compare the patient's
ability to resist your downward pressure with both the
involved and uninvolved shoulders. Decreased ability of
the involved shoulder to resist your downward pressure as
compared to the uninvolved shoulder is indicative of
supraspinatus weakness. This test may also elicit pain,
indicating inflammation and muscle weakness. |
| Internal Rotation
Strength Test |
The patient stands with arm
at the side, the shoulder in 0 degrees of rotation, and
the elbow flexed 90 degrees. |
Assesses the strength of the
subscapularis muscle. |
You should place one hand on
the lateral elbow and your other on the medial aspect of
the distal forearm. Instruct the patient to internally
rotate their shoulder while you provide resistance.
Compare the strength of the involved shoulder with that
of the uninvolved. This test may also cause pain
indicating inflammation and weakness in the internal
rotators. |
| External Rotation
Strength Test |
The patient stands with arm
at the side, shoulder in 0 degrees of rotation, and elbow
flexed 90 degrees. |
Assesses the strength of the
infraspinatus and teres minor muscles |
You should place one hand on
the medial elbow and the other on the lateral aspect of
the distal forearm. Instruct the patient to externally
rotate the shoulder while you provide resistance. It is
important to stabilize the patient's elbow against their
side to prevent them from substituting abduction for
external rotation. Compare the strength of the involved
shoulder with that of the uninvolved shoulder. This test
may also elicit pain indicating inflammation and weakness
in the external rotators. |
| Internal Derangement
(Glenoid Labrum Clunk Test) |
Position the patient supine
with the glenohumeral joint slightly over the edge of the
table. |
Assesses the glenoid
labrum's integrity and stability. |
Place one of your hands on
the elbow supporting the patient's arm with the shoulder
maximally flexed and the elbow relaxed in approximately
60 degrees of flexion. Place the fingers of your other
hand on the posterior aspect of the humeral head. Rotate
the humerus and maneuver it between the end ranges of
glenohumeral abduction and flexion. As you move the
humerus through these extreme ranges of motion, a glenoid
labrum tear, if present, may be trapped or caught. This
trapping of the torn labrum will often cause a grinding
or "clunking" sensation to be felt or heard.
You should also perform this test on the uninvolved
shoulder and compare bilaterally. |
| Acromioclavicular Joint
Stability Test |
The patient sits on the
examination table with arm at the side. |
Assesses integrity of the
acromioclavicular and coracoclavicular ligaments. |
Grasp the proximal forearm
with one hand as you place your other hand on the
mid-clavicle. Attempt to distract the acromion process
from the clavicle by applying a downward force to the arm
directed along the longitudinal axis of the humerus. Your
fingers on the clavicle may be simultaneously used to
palpate and grade the amount of separation at the
acromioclavicular joint. Pain and increased movement
elicited by this procedure as compared to the uninvolved
shoulder may indicate a sprain to the acromioclavicular
and/or coracoclavicular ligaments. |
| Cross Chest Or Horizontal
Adduction Test |
With the patient supine,
grasp the distal humerus with one hand and position it in
90 degrees of abduction |
Assesses acromioclavicular
joint impingement. |
Passively move the humerus
across the chest. As the humerus approaches full
horizontal adduction, question the patient regarding pain
in the acromioclavicular joint. Lightly place the fingers
of your other hand over the acromioclavicular joint to
palpate for crepitus and separation. This procedure
compresses or impinges the acromioclavicular joint and is
painful if internal derangement or instability exist.
Perform this test on the uninvolved shoulder and compare
bilaterally. |
| Sternoclavicular Joint
Integrity Test |
The patient lies supine on
the examination table. |
Assesses the
sternoclavicular and costoclavicular ligaments'
integrity. |
Sit on an examination stool
at the head of the patient to allow visualization of the
joints. Grasp the proximal clavicle between the thumb and
fingers and attempt to move it superiorly and inferiorly. Then
move it anteriorly and posteriorly. Excessive joint play
or laxity with associated pain as compared to the
uninvolved side is indicative of a sternoclavicular
sprain.
|
| Speed’s Test (Biceps
Test)
|
Arm is extended behind and
the forearm supinated with elbow slightly flexed. |
Biceps tendon |
Examiner resists shoulder
forward flexion by the patient while the patient’s
arm is supinated and the elbow is completely extended.
Positive test elicits increased tenderness in the
bicipital groove and indicates bicipital tendinitis. |
| Ludington’s Test |
Arm raised and hands clasped
on top of head |
Long Head of the Biceps
Tendon |
Patient clasps both hands on
top of the head, allowing the interlocking fingers to
support the weight of the upper limbs. This allows
maximum relaxation of biceps tendon. Patient then
alternately contracts and relaxes the biceps muscle.
Examiner palpates the biceps tendon. If positive, tendon
will not be felt and this indicates a rupture. |
| Transverse Humeral
Ligament Test |
Shoulder Abducted and
Medially Rotated |
Transverse Humeral Ligament |
Patient’s shoulder is
abducted and medially rotated. Examiner’s fingers
are then placed along the bicipital groove and
patient’s shoulder is laterally rotated. Feel for
the tendon popping out of its groove. This indicates a
positive test. |
| Drop Arm or Supraspinatus
Test |
90 degrees abduction 30
degrees horizontal adduction and internal rotation
|
Supraspinatus tendon of
rotator cuff |
Have the athlete maintain
this arm position as you press down on the forearm. If
there is involvement of the supreaspinatus tendon, the
arm will drop because of weakness or pain. |
| Yergason Test |
Elbow flexed to 90 degrees Arm
is in neutral
|
Tendon of the long head of
the biceps. Transverse humeral ligament
|
Have the athlete fully flex
the elbow beyond 90 degrees. Grasp the elbow with one
hand and grasp the athlete’s wrist with the other
hand. Instruct the athlete to maintain this position as
you attempt to externally rotate the arm and extend the
elbow. This places stress on the biceps tendon and will
normally produce pain in the bicipital groove. |
| Winging Scapula Test |
90 degrees Flexion/Flex
elbow so that hand touches shoulder in wall push up
position |
Serratus Anterior Muscle |
Have the patient start with
trunk in against the wall and utilize his hands to push
his body away from the wall against examiner applied
manual resistance to the posterior spine. Check scapula
for winging as patient pushes away from the wall. |
| Adson Maneuver |
Neutral Adducted relaxed
position |
Radial Pulse Thoracic
Outlet Syndrome
|
Patient’s head is
rotated to face the tested shoulder. Patient then extends
the head while the examiner laterally rotates and extends
the patient’s shoulder. Examiner locates radial
pulse and the patient is instructed to take a deep breath
and hold it. Disappearance of pulse is indicative of a
positive test. |
| Shoulder Flexion |
Shoulder flexed to 90
degrees with elbow relaxed |
Deltoid muscle Coracobrachialis
muscle
Pectoralis major-upper
|
Patient flexes shoulder to
90 degrees without rotation of horizontal movement.
Stabilize thorax. Resistance is given proximal to the
elbow joint. |
| Shoulder Extension |
Shoulder medially rotated
and adducted |
Latissimus dorsi muscle Teres
major muscle
Pectoralis major-lower
|
Patient is prone, shoulder
medially rotated and adducted (palm up to prevent lateral
rotation). Patient extends shoulder through range of
motion. |
| Shoulder Abduction |
Arm relaxed at side to 90
degrees abduction |
Deltoid muscle Supraspinatus
muscle
|
Patient is sitting, with arm
at side and elbow flexed a few degrees. Patient abducts
shoulder 90 degrees. Resistance is given proximal to
elbow joint. |
| Shoulder Horizontal
Abduction |
Prone, shoulder abducted to
90 degrees |
Deltoid (posterior fibers) Infraspinatus
muscle
Teres minor muscle
|
Patient is prone with
shoulder abducted to 90- degrees with forearm hanging
vertically over edge of table. Patient horizontally
abducts shoulder through range of motion. |
| Shoulder Horizontal
Adduction |
Supine, shoulder abducted to
90 degrees |
Pectoralis major muscle |
Patient is supine and
horizontally adducts shoulder through range of motion.
Resistance is given proximal to elbow joint. |
