October 2006 Newsletter
October Newsletter
Erik Dalton, PhD,
Certified Advanced Rolfer
Greetings from the
Midwest! Hope everyone had a memorable Labor Day and eased into
fall activities…hard to believe the year is passing so quickly! We’re
back hard at work after our brief newsletter break last month. But, then
again, that’s another story….Workshops continued through September where
we were fortunate to relish divergent environments, stimulating seminar
interaction and delightful people in Boca Raton, Reno, and Nashville. My
wife was again disappointed that I didn’t bring her back any Elvis
pajamas but hey, maybe next time….I did look for an Elvis lamp but to no
avail. We’re now preparing to travel to the great city of Atlanta for
the AMTA National Convention. Hopefully, she won’t try to
drag me to all the incredible sites as our Institute’s booth should be
pretty hectic. I’ll be demonstrating new Myoskeletal Techniques
on as many attendees as possible. Love to see you there…stop by and
share greetings, observe bodywork demonstrations or get a little work on
your own body.
Okay, enough about that.
Let’s continue our Myoskeletal Mobilization tour of the upper
extremities...
| Acknowledging
the A/C
The Acromioclavicular or A/C
joint sits on the point of the shoulder lateral to the
sternoclavicular and proximal to the glenohumeral. Like its
brother the sternoclavicular joint discussed in our last
issue, this oft-overlooked bony articulation receives little
respect from most manual therapists…a regrettable omission,
indeed. Both the A/C and S/C joints play vital roles in the
biomechanics of throwing and other upper-limb activities.
A/C joint injuries typically occur from falling directly on
the point of the shoulder. In competitive sporting events a
direct clash of shoulders between players often displaces or
completely subluxes this joint. Some authors believe that
since the A/C is such a small joint, the human shoulder
(under normal circumstances) could actually function
adequately without it. However, long-term A/C restrictions
can have devastating affects on all upper limb functioning.
Since the acromioclavicular
is a planar joint, small movements occur in all three
planes. Arm elevation causes the acromion to glide
superiorly on the distal clavicle. To test movement of this
joint on yourself, simply glide your right index finger
laterally along the superior surface of your left clavicle
beginning at the sternoclavicular joint. Just before you
contact the acromion you should feel a bump or a notch.
Since arm elevation raises the acromion in relation to the
clavicle, left arm abduction should allow your finger to
palpate a “dip” as the acromion rises on the clavicle.
Approximately 20° of motion
occurs at the AC joint during arm abduction with 10°
occurring between 0° and 30° of arm elevation and the last
10° occurring during the last 45° of the normal range (180°)
of arm elevation. At both the AC and SC joints, the clavicle
posteriorly rotates approximately 45° during arm elevation.
This motion is allowed by the planar configuration at the
A/C joint and the fibrocartilaginous articulating disc
between the sternum and proximal clavicle as discussed in
the last “Sternoclavicular” newsletter. |
 |
The most common three
restrictions at the acromioclavicular joint involve limited internal and
external rotation and abduction. To test for restrictions of internal
and external rotation, the client’s elbow is flexed 90 degrees, arm
horizontally abducted 90 degrees, and horizontally adducted 30 degrees.
Adducting the arm 30 degrees close-packs the glenohumeral joint allowing
the therapist to isolate and test only for A/C restrictions.
 |
Assessing
for Internal Rotation Restrictions
To test for limitations in internal rotation the therapist’s
left hand braces medial to the A/C joint, shoulder braces
elbow, and his right hand brings client’s arm to the first
internal rotation barrier. The client attempts external
rotation (pushes up) with a 20% effort to a count of six and
relaxes. The therapist then brings the arm down into more
internal rotation to the next restrictive barrier and
repeats the same procedure until full 90 degrees of internal
rotation is restored. |
 |
Assessing
for External Rotation Restrictions
The therapist’s right hand braces the AC, arm braces the
elbow, and his left hand brings client’s arm to the first
external rotation barrier. Therapist resists clients attempt
to internally rotate (pushing arm down) to a count of six
and relaxes. Client’s arm is then brought up to meet the new
external rotation barrier and procedure is repeated until 90
degrees of external rotation is achieved. The key to success
in this maneuver requires that therapist always maintain the
arm in 30 degrees of horizontal adduction so the
glenohumeral does not come into play. |
 |
Testing Arm
Abduction
Now it is time to test the ability of the arm to abduct in a
smooth 180 degree pain-free arc. In this test, the client’s
right arm rests on therapist’s left shoulder and is brought
into 30 degrees if horizontal abduction. Therapist bends
knees and hands grasp medial to the acromion. As the
therapist slowly straightens his legs while bracing with his
hands, a counter-force is created that brings the client’s
arm to the first abduction restrictive barrier. Client is
asked to press down on therapist’s shoulder to a count of
six and relax. Therapist again straightens legs bringing
client’s arm up to the new restrictive barrier. This
continues until 180 degrees of smooth, pain-free abduction
is attained. |
AC joint restrictions
typically limit end-range elevation and cross-body adduction. Often seen
in long-standing rotator cuff and frozen shoulder dysfunctions,
sternoclavicular and acromioclavicular restrictions are typically the
first joints affected by postural asymmetries (upper crossed syndrome)
in the upper quadrant. As a result, even minor restrictions at these
primary upper extremity joints set off mechanoreceptive muscle/joint
reflex arcs that quickly travel down the kinetic chain producing
sympathetic protective muscle guarding (splinting) in all soft tissues
and associated joints of the shoulder. Pain-spasm-pain cycles are often
difficult to correct until full range of motion is restored to these
commonly overlooked bony articulations.
Note: In all the
‘so-called’ joint mobilization routines presented during our tour
through the upper extremities, please keep in mind that although we are
speaking in terms of bony restrictions, our intent is to release
myofascial adhesions limiting joint movement.
Look forward to November’s
E-newsletter as we embark on an adventure through the most mobile and
arguably the most complex joint of the body. Try and catch this month’s
issue of Massage and Bodywork magazine. Tom Myers and I have a
couple interesting articles on Posture. Remember that many of my past
magazine articles are posted on my website at:
http://erikdalton.com/massagearticles.htm See you soon!
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