Polyarticular Chains

Polyarticular ChainTemporomandibular Cervical Chain (TMCC)

Muscles: Temporalis (ant. fiber), Masseter, Medial pterygoid, Rectus capitis posterior major, Obliquus capitis, Rectus capitis anterior, Longus capitis, Longus colli

Brachial Chain (BC)

Muscles: Anterior-Lateral Intercostals, Deltoid-Pectoral, Sibson’s Fascia, Triangularis Sterni, Sternocleidomastoid, Scaleni, Diaphragm

There are two brachial polyarticular muscular chains lying over the anterior pleural and cervical area. These chains influence cervical rotation, shoulder dynamics and apical inspirational expansion. They are composed of muscle that attaches to the costal cartilages and bone of ribs four through seven and xiphoid to the posterior, inferior occipital bone, anterior, inferior mandible and coracoid process of scapula. These two tracks of muscles, one on each side of the sternum, are anterior to the medial/upper mediastinum and upper thoracic cavity. They are composed of the triangular sterni, sternocleidomastoid, scalene, pectoralis minor, intercostals and muscles of the pharynx and anterior neck. They provide the support and anchor for cervical-cranial orientation, rotation and rib position. The right brachial chain muscle is opposed by the right posterior back muscles (PEC), lower trap, serratus anterior, external rib rotators and left internal abdominal obliques. The brachial chain muscle on the left is opposed by the left posterior back muscles (PEC), lower trap, serratus anterior, external rib rotators and right internal abdominal obliques.

Anterior Interior Chain (AIC)

Muscles: Diaphragm, Iliacus, Psoas, TFL, Vastus Lateralis, Biceps Femoris

There are two anterior interior polyarticular muscular chains in the body that have a significant influence on respiration, rotation of the trunk, ribcage, spine and lower extremities. They are composed of muscles that attach to the costal cartilage and bone of rib seven through 12 to the lateral patella, head of the fibula and lateral condyle of the tibia. These two tracts of muscles, one on each side of the interior thoraco-abdominal-pelvic cavity, are composed of the diaphragm and the psoas muscle. With the iliacus, tensor fasciae latae, biceps femoris and vastus lateralis muscles this chain provides the support and anchor for abdominal counter force, trunk rotation and flexion movement.

The Left AIC & Right BC Polyarticular Pattern

Individuals experiencing symptoms at the knee, hip, groin, sacral-iliac joint, back, top of shoulder, between the shoulder blades, neck, face or TMJ will demonstrate inability to fully adduct, extend or flex their legs on one or both sides of their body. They usually have difficulty in rotating their trunk to one or both directions and are not able to fully expand one or both sides of their apical chest wall upon deep inhalation. Cervical rotation, mandibular patterns of movement, shoulder flexion, horizontal abduction and internal rotation limitations on one or both sides will also complement the above findings. Postural asymmetry will be very noticeable with one shoulder lower than the other and continual shift of their body directed to one side through their hips.

The pattern that is most often prevalent involves the left anterior interior chain, right brachial chain and right posterior back muscles (PEC) of the body. The left pelvis is anteriorly tipped and forwardly rotated. This directional, rotational influence on the low back and spine to the right, mandates compulsive compensatory movement in one or more areas of the trunk, upper extremities and cervical-cranial-mandibular muscle. The greatest impact is on rib alignment and position, therefore influencing breathing patterns and ability. Respiratory dysfunctions associated with asthma or daily, occupational or repetitive work positions can also influence pelvic balance and lead to a compensatory pattern of an anteriorly tipped and forwardly rotated pelvis on the left.

Other common, objective findings secondary to compensatory physical attempts to remain balanced over this unlevel pelvis include elevated anterior ribs on the left, lowered, depressed shoulder and chest on the right, posterior rib hump on the right, overdeveloped lower right back muscle, curvature of the spine and asymmetry of the head and face.

This particular pattern of neuromuscular imbalance is enhanced and generated usually at early ages of development in the pre-adolescent and adolescent years. Since the fibers from our diaphragm that attach to the front of low spine and our diaphragm in general is stronger on the right, we all have a tendency to shift and rotate our spine to the right sooner and more often than to the left. The liver also assists this directional pull on the spine and pelvis because it keeps the right larger diaphragm better positioned for respiratory activity. We do not have a liver on the left side. The left diaphragm leaflet is much smaller and does not have the advantage to pull the ribs up and out upon inhalation. There is a tendency to relax the left abdominal wall. Consequently, these abdominal muscles on the left become weak.

This pattern complements our right dominance of extremity use, our daily shifting of weight to the right and overcompensating patterns of activity concerning our pelvic floor. Airflow, for example, will generally move more easily into the left chest wall than into the right because of the rotational influence of the ribs, as previously described. Lack of underlying structural support exists on the right that does not exist on the left due to pericardium position. Rotation of the upper trunk to the left will generate less activity on the neck when in this pattern because of this dynamic, respiratory, structural phenomena. However, rotation of the upper trunk to the right limits air movement into the left chest wall. This created torque on soft tissue, secondary to movement on an imbalanced foundational structure, usually results in chronic muscle overuse, inflammation and pain similar to fibromyalgia.

To read peer reviewed journal articles about PRI click HERE.