Unit 5. Shoulder Anatomy PDF

Summary

This document provides detailed information about the shoulder joint, from introduction to kinematics and muscles. It likely contains anatomical details and explanations of movement mechanics within the shoulder.

Full Transcript

KINESIOLOGY SHOULDER JOINT
 INTRODUCTION

Most mobile and unstable
Wide range of motion

Muscles work as a "team" to produce coordinated action

SCAPULOHUMERAL RITHM

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 INTRODUCTION

Joints in the shoulder complex

First group
scapulohumeral joint (glenohumeral) (GHj)
subdeltoid joint

Second Group
scapulothoracic joint (STj)
acromioclavicular joint (ACj)
sternocostoclavicular joint (ACCj)

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 FIRST GROUP: GLENOHUMERAL J.

Ball and Socket
Incongruous articulation, poor intrinsic stability
Static or primary stabilizers
– joint capsule
– ligamentous complex
– glenoid labrum
Secondary or dynamic stabilizers
– Rotator cuff

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FIRST GROUP: GLENOHUMERAL J

Movements in 3 planes:
– Flexion / Extension
– abduction / adduction
– Internal / external rotation
+ Horizontal abduction / adduction

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FIRST GROUP: SUBDELTOID J.

Anatomical false joint
True Physiological Joint

Important in movement ABD shoulder subacromial bursa avoids
friction

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 SECOND GROUP: SCAPULOTHORACIC J.

Anatomical false joint
True Physiological Joint
2 slip planes are:
– omoserratic space
– Thoracoserratic space

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 SECOND GROUP: SCAPULOTHORACIC J.

Great shoulder width thanks to this joint.
– Protraction and retraction : 15cm
– Elevation and depression: 10-12cm
– Upward and downward rotation: 60º

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 SECOND GROUP: ACROMIOCLAVICULAR J.

Plane joint

Sliding movements. Limited by Coronoid and Trapezoid Ligaments

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SECOND GROUP: STERNOCOSTOCLAVICULAR J.

Saddle Joint
Articular disc divides the cavity
Slide an Roll

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GENERAL OSTEOKINEMATICS

From neutral position of GLENOHUMERAL joint
Implication of ST, AC and SCC

Movement ROM
Flexion 180º
Extension 45º-55º
ABDuction 180º
ADDuction 45º
internal rotation 75º-85º
external rotation 60º-70º

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GLENOHUMERAL KINEMATICS FLEXION-EXTENSION

Fixed point: glenoid twist
No rolling or slide: posterior spining
Anterior translation due to posterior capsular tension

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GLENOHUMERAL KINEMATICS. ABD / ADD

Cranial roll of the head while gliding downwards
Add → opposite direction

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 GLENOHUMERAL KINEMATICS. ABD / ADD

Importance of the supraspinatus action

Without abd slide, the roll compress the humerus against the
coracoacromial arch: subacromial impingement

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 GLENOHUMERAL KINEMATICS. ABD / ADD

ABD FRONTAL PLANE vs SCAPULAR PLANE

Sagittal not natural or functional.
- Front Plane abd.
Difficulty in reaching full ROM due to compression
structures.
- Scapular Plane Abd
No structural compression.
More efficient supraspinatus action

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GLENOHUMERAL KINEMATICS. Internal and External
Rotation

ER: The head rolls posterior and glides anterior
IR in the opposite way
Simultaneous glide and roll allows head to roll over a
smaller surface

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GLENOHUMERAL JOINT ARTHROKINEMATICS: SUMMARY

Convex rule in open kinetic chain

Osteokinematic (OKC) Arthrokinematic (glide)

Flexion Posterior spin
Extension Anterior spin
Abduction Inferior
Aduction Superior
Internal Rotation Posterior
External Rotation Anterior
Horizontal ABD Anterior
Horizontal ADD Posterior

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 AC and SCC KINEMATICS

Only passive movements
All scapular movement = clavicular movement (AC and SCC)
Allow for wider ROM added to glenohumeral motion

For example: shoulder abduction (Total of 180º):
– 60º lateral (upward rotation) of the scapula:
20º Acromioclavicular + 40º Sternoclavicular

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 AC JOINT STABILIZERS
Static.
– Joint capsule: reinforced by capsular ligaments
– Ligaments: Cononoid and Trapezoid ligaments. In addition to
the acromioclavicular that reinforces the joint capsule
– articular disc
Dynamic.
– Deltoid and upper trapezius muscles

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 AC OSTEOKINEMATICS
Upward and downward rotation
Rotations adjustments in the horizontal plane
Rotations adjustments in the sagittal plane

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 SCC JOINT STABILIZERS

Static.
– Fibrous capsule
– Ligaments: anterior and posterior sternoclavicular, the
costoclavicular on each side, and the midline interclavicular.
– Articular disc
Dynamic.
– There are not many muscles around
– Subclavius muscle

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SCC OSTEOKINEMATICS

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 SCC ARTHROKINEMATICS

Elevation-depression: convex rule

Protraction-retraction: concave rule???
?
?

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 SCAPULOTHORACIC JOINT

Larger shoulder amplitude thanks to ST
AC and SCC movement allow for ST motion

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SCAPULOTHORACIC JOINT. Elevation and depression

Elevation
– SCC and AC
– Scapula follows path of clavicle
Opposite for depression

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 SCAPULOTHORACIC JOINT. Protraction and Retraction

Protraction
– Horizontal plane rotations of SCC and AC
– Scapula follows clavicle path

Opposite for retraction

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 SCAPULOTHORACIC JOINT. Rotations

Upward rotation
– Arm raise
– Sum of SCC elevation and AC upward rotation

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 SCAPULOTHORACIC JOINT. Rotations

Downward rotation
– arm comes back
– Sum of SCC depression and downward rotation AC

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 KINETICS

MUSCULAR ACTIONS
– Proximal stabilizers
– Distal mobilizers

Optimal function of the entire shoulder complex is based on
the functional interdependence between the proximal
stabilizers and the distal mobilizers.

Proximal control = effective distal movement

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GLOBAL FLEXION

FIRST Stage. 0-30º/60º. GH
motor muscles:
– anterior deltoids
– Coracobrachialis
– Clavicular pectoralis major

Movement limits.
− Coracohumeral ligament strain

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GLOBAL FLEXION

SECOND Stage. 30º/60º-120º. STj
Upward rotation of the scapula
ACj and SCCj Participation
motor muscles (+ previous):
– serratus major
– upper trapezius
Movement limits:
– latissimus dorsi
– pectoralis major.

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 GLOBAL FLEXION

THIRD Stage. 120º-180º
Shoulder joint lock
Spinal intervention begins

In ipsilateral flexion, it produces contralateral lat. flex.
– Contraction spinal muscles opposite side
In bilateral flexion, it produces lumbar lordosis.
– Bilateral lumbar spinal contraction.

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 EXTENSION

45º-55º

Involved: scapulohumeral and scapulothoracic.
– Scapulohumeral motor muscles.
Post. deltoid, teres major and minor
– Scapulothoracic motor muscles (downward rotation
and adduction)
– Rhomboids
– Middle trapezius
– Latissimus dorsi.

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GLOBAL ABDUCTION

FIRST Stage. 0º-90º.
motor muscles:
– Deltoids, especially the middle
fasciculus and supraspinatus.

– Plane of the scapula (30º of
flexion).

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 GLOBAL ABDUCTION

SECOND Stage. 90º-150º
Upward rotation of Scapula orienting glenoids
Axial rotation AC and SCC
motor muscles
– Serratus and Upper Trapezius
movement limits
– Maximum reached in the scapula and resistance of the
adductor muscles

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GLOBAL ABDUCTION

THIRD Stage. 150º-180º
contralateral tilt of the spine due to contraction of the spinal
muscles of the opposite side
the spinal muscles contract bilaterally, producing a lumbar
hyperlordosis

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GLOBAL ADDUCTION

30º-45º

When arm is in ABD → the ADD is made by eccentric
contraction of ABD muscles.
Motor muscles.
– GHj flex. Pectoralis Major and Anterior Deltoid
– GHj extension. Teres major and minor, Latissimus dorsi
– STj flex. serratus major
– STj extension. rhomboids

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EXTERNAL ROTATION

60º-70º
motor muscles:
– Infraspinatus and teres minor.

The movement of scapular adduction is added by the action of
the Rhomboids and the middle portion of the Trapezius.

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INTERNAL ROTATION

75º-85º

motor muscles:
– Teres major
– Latissimus dorsi
– Subscapularis
– Pectoralis Major

The abduction movement of the scapula is added to the Serratus
Major and Pectoralis Minor action

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MOVEMENT LIMITS

LIGAMENTS
– CORACOHUMERAL LIGAMENT
– GLENOHUMERAL LIGAMENT

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CORACOHUMERAL LIGAMENT

Lesser Tubercle fasciculus → extensión
Greater tubercle fasciculus → flexión
Abduction → relaxes and in adduction→ Tension
External rotation →Tension and internal rotation → relaxation

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 GLENOHUMERAL LIGAMENT

ABD → Tension in lower and middle fascicles
ADD → relaxes the superior fascicle
– If movement is in the plane of the scapula, the tension of the
fascicles of the ligament is delayed and the amplitude of
Abduction in the glenohumeral increases up to 110º
External rotation → tenses all three fascicles and internal
rotation relaxes all
Global relaxation in flexion and tension in extension

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 MUSCULAR ACTIONS

1. MUSCLES OF THE SCAPULOTHORACIC JOINT

2. MUSCLES THAT ELEVATE THE ARM

3. MUSCLES THAT MOVE IN ADD AND EXTEND THE
SHOULDER

4. MUSCLES THAT INTERNALLY AND EXTERNALLY
ROTATE THE SHOULDER

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 MUSCLES OF THE SCAPULOTHORACIC JOINT

ELEVATORS

Upper trapezius
levator scapulae
Rhomboids

ideal posture

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 MUSCLES OF THE SCAPULOTHORACIC JOINT

ST JOINT DEPRESSORS

lower trapezius
latissimus dorsi
Pectoral Minor
subclavius

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MUSCLES OF THE SCAPULOTHORACIC JOINT

ST JOINT DEPRESSORS ?????

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 MUSCLES OF THE SCAPULOTHORACIC JOINT

ST JOINT PROTRACTORS

Serratus major
Rotation axis SCC

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 MUSCLES OF THE SCAPULOTHORACIC JOINT

ST JOINT RETRACTORS
Middle trapezius +
Rhomboids and lower trapezius –
– rowing, climbing
– They are synergists and antagonists.
 MUSCLES OF THE SCAPULOTHORACIC JOINT

ST UPWARD AND DOWNWARD ROTATORS

The muscles that perform these actions are discussed below in the context
of movement of the entire shoulder.

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 MUSCULAR ACTIONS

1. MUSCLES OF THE SCAPULOTHORACIC JOINT

2. MUSCLES THAT ELEVATE THE ARM

3. MUSCLES THAT MOVE IN ADD AND EXTEND THE
SHOULDER

4. MUSCLES THAT INTERNALLY AND EXTERNALLY
ROTATE THE SHOULDER

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 MUSCLES THAT ELEVATE THE ARM

Deltoid

Supraspinatus
GH Muscles
Coracobrachialis

Long head of bíceps

Serratus anterior
ST Muscles
Trapezius

Subscapularis

Supraspinatus
Rotator Cuff Muscles
Infraspinatus

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Teres minor
 GH Muscles

ABD
– Anterior and middle deltoids
– Supraspinatus
Flexión
– Anterior deltoids
– Coracobrachialis
– biceps long head

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 ST Muscles
Serratus anterior
Upper trapezius
– Move the scapula and make a stable point for distal mobilizers

Deltoid and Supraspinatus

Axis, muscle fibers
lever action

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 Rotator Cuff Muscles

FUNCTIONS:

1. Dynamic joint stability regulators
2. Arthrokinematics Controllers

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 Rotator Cuff Muscles

FUNCTIONS:
1. Dynamic joint stability regulators
– Mobile GH = cuff stabilizes
– Anatomical organization makes protective cuff
– Stabilize and center the glenoid head

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 Rotator Cuff Muscles

FUNCTIONS:

2. Arthrokinematics Controllers
– Coaptation force
– Without the force of the supraspinatus, the predominant
action of the deltoids = impingement of the head with the
acromion

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 MUSCULAR ACTIONS

1. MUSCLES OF THE SCAPULOTHORACIC JOINT

2. MUSCLES THAT ELEVATE THE ARM

3. MUSCLES THAT MOVE IN ADD AND EXTEND THE
SHOULDER

4. MUSCLES THAT INTERNALLY AND EXTERNALLY
ROTATE THE SHOULDER

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MUSCLES THAT MOVE IN ADD AND EXTEND THE SHOULDER

Major isometric moment of the shoulder
– agonists.
Latissimus dorsi and sternocostal portion pectoralis major
(major extensors and add of the shoulder)
– Synergist.
Teres major, triceps long head, posterior deltoid, infraspinatus
and teres minor.

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 MUSCLES THAT MOVE IN ADD AND EXTEND THE SHOULDER

Rhomboids stabilize scapula in ADD and GH extension.
Retraction and downward rotation

All rotator cuff is active during this movement.

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 MUSCULAR ACTIONS

1. MUSCLES OF THE SCAPULOTHORACIC JOINT

2. MUSCLES THAT ELEVATE THE ARM

3. MUSCLES THAT MOVE IN ADD AND EXTEND THE
SHOULDER

4. MUSCLES THAT INTERNALLY AND EXTERNALLY
ROTATE THE SHOULDER

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 MUSCLES THAT INTERNALLY AND EXTERNALLY
ROTATE THE SHOULDER

INTERNAL ROTATORS
Subscapularis, anterior deltoid,
pectoralis major, latissimus dorsi,
and teres minor

+IR and – ER
Head Roll and slides over glenoid

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 MUSCLES THAT INTERNALLY AND EXTERNALLY
ROTATE THE SHOULDER

EXTERNAL ROTATORS
infraspinatus, teres minor, and the posterior portion of the
posterior deltoid
Supraspinatus synergist

-ER + IRI

concentric and eccentric

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