Shoulder Girdle & Forearm: Movement & Loading Analysis for Motor Behavior Therapy in Divača, Slovenia

Contact Tina Gerzel: gerzelj.tin1@gmail.com

Language English

Course Description

Shoulder girdle and forearm symptoms can arise from trauma, but frequently it is an insidious, recurrent and an ongoing problem for many people. This is often related to sub-optimal loading on the tissues around the scapula-thoracic, glenohumeral joints and forearm.

The mechanism driving the sub-optimal loading on the tissues may be the:

• Movement Pattern (too much and too little)
• Translation Control of the joint
• Biomechanical Exposures to Loading

There is considerable individual variation in how these present. These loading mechanisms may present in combinations or alone. As well, how the central nervous system tries to control the loading could be too much or too little.

Alteration of muscle activation of the scapula-thoracic muscles can result in the scapula adopting a downwardly rotated resting position and / or a loss of dynamic control of the scapula in functional arm movements. This can cause tissue loading in the shoulder and cervical regions provoking the patient’s pathology.

The glenohumeral joint frequently displays a dysfunctional pattern of excessive anterior translation, which is often combined with other neuromuscular deficits. This translation control deficit can contribute to tissue loading of local tendons and the glenohumeral joint. It is also a common neurodynamic interface. An anterior sitting humeral head also alters normal movement of the forearm and hand. This course involves a detailed assessment of the movement control patterns of the scapula-thoracic, glenohumeral joints and forearm.

Specific motor control retraining strategies will be introduced using a comprehensive and evidence based clinical reasoning process. This involves; specific activation of the appropriate stability muscles to control segmental translation of the glenohumeral joint, scapulothoracic proximal and distal radioulnar joints, the carpus and the hand; the retraining of specific muscles to correct movement pattern control deficits; dynamic control of the scapula in functional movements; and the integration of these training strategies into a wider base of rehabilitation options. This can remove the tissue provocation and promote the normal healing process. Assessing and correcting scapula and glenohumeral movement can significantly improve post operative results as well. Some beneficial taping techniques will also be used.

The exercise progressions are described and strategies for the integration into function are discussed with participant examples and case studies.

Course Objectives:

• Make an accurate movement pattern control diagnosis and relate this to the client’s presentation
• Distinguish shoulder pain between the scapula, glenohumeral joint and cervical spine with a movement pattern control assessment
• Understand the relationship of scapular dysfunction to cervical dysfunction and glenohumeral dysfunction to forearm dysfunction
• Use movement patterns as a clinical reasoning tool to help guide manual therapy and other techniques
• Integrate the treatment of movement patterns and translation control into clinical practice

WHAT WILL YOU GET FROM THIS COURSE THAT YOU MAY NOT ALREADY HAVE?

Grasp Reflex
The grasp primitive reflex is present in about 40% of the population. This contributes to increased muscle tone in the shoulder girdle and upper limb. We will show you how to treat it and how other primitive reflexes and sensory motor deficits are related to ongoing motor control deficits.

Kinetic Medial Rotation Test
The Kinetic Medial Rotation test is a newly validated test of shoulder girdle function (Morrisey, 2005). This test differentiates between scapular and glenohumeral joint problems within the shoulder girdle. This helps give us a diagnosis and also lets us set priorities in rehabilitation.

Upper Trapezius is a Good Guy Muscle

Upper trapezius does not elevate the scapula – it has a local and global stability role for the neck and shoulder girdle. It has a major stability influence on the neck, shoulder and thoracic spine. It has an anticipatory timing pattern and is delayed with pain – similar to Transversus. It also experiences sudden atrophy – similar to Multifidus. It rarely loses extensibility so assessment and retaining needs to be specific. Lower trapezius does not pull the inferior angle of the scapula down and in. There are better ways to train lower trapezius for scapular stability!

Anconeus, Supinator and Pronator Quadratus
These muscles have a translation control role in the forearm.  We have developed specific exercises like multifidus in the lumbar spine.

Wrist and Thumb Stability
Our detailed dissection has identified a mechanism to stabilize the wrist, thumb and individual joints of the fingers.

Myofascial Trigger Point (TTP) Release
MTP release is a useful way in many people to improve aspects of motor behavior (e.g., range of movement). In some people it can be a source of pain. Motor Behavior Therapy can be used to help desensitize MTP’s.

Neurodynamics
Neurodynamic reactivity can significantly affect the way people move. We’ll show how movement can be used to treat neurodynamic reactivity.

Taping
There are some great taping techniques for the shoulder girdle, forearm and neurodynamics!