Rotator cuff pain.

Rotator cuff injuries are very common, especially in people over 40 years of age. Most problems involvedamage and irritation to the rotator cuff soft tissues(muscles, ligaments, tendons and bursa) rather than the bones, as they move frequently within a tight space.

A rotator cuff injury usually begins as inflammationcaused by some form of small but continuous source of irritation, such as repetitive overhead motions from sporting activities, work tasks or daily chores, which can lead to tendonitis, tendinosis, frozen shoulder, impingement, or bursitis.

If you do not address the cause of the inflammation, a partial or complete tear (rupture) can develop in your rotator cuff due to chronic wear and tear of the tendon. A tear may also result at any age from an acute or single traumatic event, such as a fall onto an outstretched arm.

Shoulder Anatomy

The shoulder has the widest range of motion of any joint in the body. To allow for this incredible range, it is made up of many complex parts which means that it is also injured easily. The shoulder joint can easily slip out of alignment by a few millimeters, become weak due to regular wear and tear, or become completely dislocated during a fall.

The point where the upper bone (humerus) of the arm meets the shoulder (scapula and acromion process) is called the rotator cuff. The rotator cuff is the most vulnerable part of the shoulder and is where most shoulder injuries occur. To better understand what is happening inside your rotator cuff it is helpful to understand the different parts of the shoulder.

What is the Rotator Cuff?

The rotator cuff is a group of 4 tendons and related muscles that form a cuff at the shoulder joint where the humerus meets the scapula.

The rotator cuff muscles are connected individually to a group of flat tendons, which fuse together and surround the front, the back, and the top of the shoulder joint like a cuff on a shirt. The tendons attach the muscles to the bone and allow movement in the shoulder, as well as providing strength to hold the ball in its socket. They are involved in all shoulder motions: when the muscles contract, they pull on the rotator cuff tendon, causing the shoulder to rotate upward, inward, or outward, hence the name rotator cuff.

The rotator cuff ligaments attach bone to bone and provide stability to the shoulder joint bones. Between the bones, muscle and other soft tissue there are several bursae (fluid filled sacs) and synovial fluid (lubricates your joint) that permit smooth gliding wihtin the joint. They also protect the rotator cuff from the bony parts of the shoulder blade.

The Shoulder Joint

Inside the shoulder there are three joints; the glenohumeral joint, the acromioclavicular joint (A/C joint) and the sternoclavicular joint.

The glenohumeral joint is a joint where the greater tubercle (humeral head at the top of the arm bone) meets the shoulder socket of the scapula, called the glenoid cavity or glenoid fossa. Inside the joint, the labrum (a form of cartilage) cushions the humeral head against the glenoid.

The glenohumeral joint in the shoulder is surrounded by the tendons of the rotator cuff. This shoulder joint provides stability while allowing a large range of rotation and movement.

This joint is considered a ball and socket joint however the ‘socket’ is not as deep as similar joints in your body. Instead, the humerus sits against the glenoid cavity similar to how a golf ball sits on a tee. Since the ball does not fit directly inside socket of the glenohumeral joint, it is the labrum, muscles, and tendons that hold the ball of the humerus against the glenoid fossa providing stability between your scapula and your humerus.

Due to this shallow socket and the scapula ‘floating’ above the rib cage (connected to the clavicle by ligaments, muscles and tendons) your shoulder is able to move around freely in several directions. This makes the shoulder the most mobile joint in the body. However, this also makes it the least stable joint and the one most prone to injury.

The acromioclavicular joint (A/C joint) is a gliding joint between the clavicle and the acromion. The acromion is a bony projection that comes off the scapula and forms the point at the outside edge of your shoulder. The acromioclavicular joint allows you to rise your arm over your head. If this joint dislocates it is commonly known as a separated shoulder.

The sternoclavicular joint, where the collar bone meets the sternum (breast bone) is not considered as important for shoulder movement.

Rotator Cuff Tendons and Muscles

The 4 muscles and tendons of the rotator cuff are called the supraspinatus, subscapularis, teres major, and infraspinatus. These tendons and muscles work together to stabilize the glenohumeral joint and move the humerus in the shoulder socket.

Although many people refer to the rotator cuff as a general area in the shoulder, your rotator cuff itself is a group of 4 tendons located at the top of your humerus. These tendons are called the subscapularis tendon, the supraspinatus tendon, the infraspinatus tendon, and the teres minor tendon.

These tendons come together to surround the front, back, and the top of the shoulder socket acting as a ‘cuff’ to connect your humerus to the rotator cuff muscles. When you contract the attached muscles (subscapularis muscle, the supraspinatus muscle, the infraspinatus muscle, and the teres minor muscle), they pull on the tendons causing the shoulder to rotate up or down, back or front, in or out; hence the name ‘rotator’ cuff.

These muscles, along with the teres major and the deltoid, keep the shoulder’s ball and socket joint firmly in place and are responsible for stabilizing the shoulder. These muscles work together as a unit rather than individually.

As a result, rotator cuff injuries usually involve more than one of these muscles or tendons. If any of the 4 main rotator cuff tendons or muscles become injured it will greatly affect the stability of shoulder.

The supraspinatus muscle and tendon assists with raising you arm out to the side.

The supraspinatus is the most frequently torn of all the rotator cuff tendons. It is the uppermost muscle of the rotator cuff and is located at the back of your shoulder blade. It passes beneath the acromion and runs towards the greater tubercle at the top of your humerus joining at the top of the cuff by the supraspinatus tendon. Your supraspinatus muscle primarily helps you to bring your arm directly out to the side(known as abduction) although it assists you with other shoulder motions as well.

The subscapularis muscle and tendon assist with rotating the arm and shoulder toward the body.

The subscapularis is the largest and the strongest of all your rotator cuff muscles. It completely covers the front of the shoulder blade. This muscle is attached to the front of the humerus which allows youto move your upper arm inward toward the center of your body (known as internal rotation).

The infraspinatus muscle is located at the back running from the bottom of the shoulder blade across to the top of the humerus. This muscle works with the teres minor muscle to move your arm outward, away from the center of your body (known as external rotation).

The infraspinatus and teres minor muscles and tendon allow you to rotator your arm away from the body.

The teres minor muscle sits below the infraspinatus and runs at the same angle attaching just below the greater tubercle of your humerus bone. The teres minor alsoassists with the outward rotation of your arm from the center of your body (know as external rotation).

Other main muscles in the shoulder area include:

  • the deltoids
  • the subclavius
  • the trapezius
  • the teres major
  • serratus anterior
  • pectoralis minor
  • sternocleidomastoid
  • levator scapulae
  • rhomboids

Shoulder Bones and Ligaments

The bone structures inside the shoulder that are significant to the rotator cuff include the humerus, the scapula, the acromion process, the clavicle, the greater tubercle, and the glenoid cavity.

The bones and ligaments of the shoulder and rotator cuff are designed to allow an incredible range of motion in the shoulder joint.

The humerus (upper arm bone) runs from your elbow to your shoulder and meets at the rotator cuff with a ball-like end known as thegreater tubercle. This is the ‘ball’ part of the ball and socket joint in your shoulder.

The scapula (shoulder blade) is a triangular shaped bone with 2 bony projections at the top, right at your shoulder cuff. One of these projections is referred to as theacromion and it sits above the humerus. The other is called the coracoid process and it sits in front of the acromion and below the clavicle. Where your humerus meets your scapula there is a very shallow concave ‘socket’ known as the glenoid cavity (also called the glenoid fossa).

Ligaments are soft tissue bands that connect one bone to another. The joints of the shoulder that are primarily responsible for movement are held together by several strong ligaments. They include the coracoclavicular ligaments, the coracoacromial ligaments, the superior transverse scapular ligament, the coracohumeral ligament, the acromioclavicular ligament, and the glenohumeral ligaments.

Bursae in the Shoulder

In your shoulder joint there are 4 main bursae; the subacromial bursa, the subcoracoid bursa, the subscapular bursa, and the subdeltoid bursa.

The 3 main bursae in the shoulder are the subacromial bursa, the subcoracoid bursa, and the subdeltoid bursa. They function as cushions in the shoulder to protect the soft tissue from the acromion and coracoid process.

Bursae (plural for bursa) are fluid filled sacs that act as cushions to help the bones and soft tissue move smoothly within the joint. Your bursae also act as padding to protect your soft tissue from the bony points on the scapula, coracoid, and acromion.

The subacromial bursa is the most susceptible to bursitis in the shoulder. It’s located in the subacromial space, between the acromion and the humeral head (greater tubercle), and is used frequently during shoulder movement to reduce friction. The risk of impingement of this bursa in the subacromial space is high because the area is small.

Rotator Cuff Treatments

Your initial treatment should involve decreasing any swelling, relieving any pain and stress on the rotator cuff, correcting any biomechanical dysfunction, and then restoring strength and mobility to your injured shoulder. It’s also very important to follow any instructions you receive from your physician.

Allowing your shoulder to rest is recommended following injury, however, some careful shoulder movement is required to prevent the joint from freezing and losing range of motion. See your doctor or physical therapist for stretchesthat will not cause further injury to your rotator cuff. Avoid activities that may have caused the injury or irritation and begin cold compressiontreatments as soon as possible.

Scar tissue develops as damaged rotator cuff tissue heals. This can lead to re-injury or other painful conditions if left untreated.

The trick to healing your rotator cuff injury and getting your shoulder back in the best possible condition you can is getting it to heal quickly so there is minimal scar tissue. Even with optimum healing, there is always less elasticity in previously injured rotator cuff tendons, muscles and ligaments. However, if you heal your tissue properly, your chance of re-injury or chronic shoulder conditions later on is much lower than average.

There are healing tools that can help treat your rotator cuff tendon, bursa, or other soft tissue and speed up the healing process so you can get back to a life without pain and risk of further injury. Blood Flow Stimulation Therapy(BFST®) will promote blood flow to heal your tendons faster and more completely than any other methods available.

Although steroid injections may provide temporary relief from the pain of rotator cuff tendinitis, bursitis, and other injury they should generally be avoided as they weaken the tendon and may lead to a rupture. If you do opt for an injection, doctors usually recommend that you do not participate in strenuous activities for several weeks to reduce the risk of a