Test Diagnosis of Torn Bicep Injury, Treatment/Torn Bicep Injury means biceps become permanently contracted or torn, with the elbow bent. Biceps contracture may occur after a severe stroke. It is a pulled biceps results from overstretching and tearing some of the biceps muscle fibers and/or tendons. Pain and sometimes swelling are the usual symptoms. Biceps is a relatively common ailment that typically presents as pain, tenderness, and weakness in the tendon of the long head of the biceps brachii. Though it is often associated with degenerative processes of the rotator cuff and the joint, this is not always the case, thus, the etiology remains considerably unknown. There has been recent interest in elucidating the pathogenesis of tendinopathy, since it can be an agent of chronic pain, and is difficult to manage. The purpose of this article is to critically evaluate relevant published research that reflects the current understanding of pain and how it relates to biceps tendinopathy.
Biceps Brachii Muscles is a large, thick muscle on the ventral portion of the upper arm. The muscle is composed of a short head (caput breve) and a long head (caput longum). The short head originates from the tip of the coracoid process, and the long head originates from the supraglenoid tubercle (tuberculum supraglenoidale) of the glenoid/scapula. Both heads course distally and become a confluent muscle belly before tapering across the anterior aspect of the elbow, eventually inserting on the radial tuberosity and the fascia of the forearm via the bicipital aponeurosis. [rx][rx] The antagonist of the biceps muscle is the triceps brachii muscle.[rx][rx][rx]
Anatomy of Torn Bicep Injury
The LHBT origin, on average, is 9 cm in length.[rx] The tendon is widest at its labral origin, which is primarily posterior about 50% of the time.[rx] In 20% of cases, the origin is directly at the supraglenoid tubercle, and the remaining 30% of the time its origin is seen as a combination of the 2 sites.[rx] The tendon itself is intra-articular yet extra-synovial, and it progressively gets narrower as it passes obliquely from its origin and heads toward the bicipital groove. As it exits the distal bicipital groove in the upper arm, the LHBT joins the short head of the biceps tendon (SHBT) as both transitions into their respective muscle bellies in the central third of the upper arm. After crossing the volar aspect of the elbow, the biceps brachii inserts on the radial tuberosity and medial forearm fascia. The latter occurs via the bicipital aponeurosis.[rx]
The biceps is a two-headed muscle and is one of the chief flexors of the forearm. Here is the left side, seen from the front.
|Origin||Short head: coracoid process of the scapula.
Long head: supraglenoid tubercle
|Insertion||Radial tuberosity and bicipital aponeurosis into deep fascia on medial part of forearm|
|Nerve||Musculocutaneous nerve (C5–C7)|
|Antagonist||Triceps brachii muscle|
|Latin||musculus biceps brachii|
|Anatomical terms of muscle|
|Origin||Long head – supraglenoid tubercle of the scapula
Short head – apex of the coracoid process of the scapula
|Insertion||Radial tuberosity of the radius
Deep fascia of forearm (insertion of the bicipital aponeurosis)
|Innervation||Musculocutaneous nerve (C5- C6)|
|Function||Flexion and supination of the forearm at the elbow joint, weak flexor of the arm at the glenohumeral joint|
|Muscle||Nerve||Spinal nerve root|
|Deltoid (anterior portion)||Axillary||C5 (C6)|
|Biceps brachii||Musculocutaneous||C5, C6|
Causes Of Torn Bicep Injury
- Stroke – Injuries to muscle tear from placing too much force on the muscle, can lead to pain.
- Repetitive stress – Repeating the same shoulder motions, again and again, can stress your trapezius muscles and tendons. Baseball, tennis, rowing, and weightlifting are examples of sports activities that can put you at risk for overuse tears. Many jobs and routine chores can cause overuse of tears, as well.
- Lack of blood supply – As we get older, the blood supply in our trapezius lessens. Without a good blood supply, the body’s natural ability to repair tendon damage is impaired. This can ultimately lead to a tendon tear.
- Bone spurs – As we age, bone spurs (bone overgrowth) often develop on the underside of the acromion bone. When we lift our arms, the spurs rub on the trapezius muscle. This condition is called shoulder impingement, and over time will weaken the tendon and make it more likely to tear.
- Sudden forceful fall down
- Road traffic accident
- Falls – Falling onto an outstretched hand is one of the most common causes of injury.
- Sports injuries – Many Injury occurs during contact sports or sports in which you might fall onto an outstretched hand — such as in-line skating or snowboarding.
- Motor vehicle crashes – Motor vehicle crashes can cause necks of femur fracture to break, sometimes into many pieces, and often require surgical repair.
- Have osteoporosis – a disease that weakens your bones
- Eave low muscle mass or poor muscle strength – or lack agility and have poor balance (these conditions make you more likely to fall)
- Walk or do other activities in the snow or on the ice – or do activities that require a lot of forwarding momenta, such as in-line skating and skiing
- Wave an inadequate intake of calcium or vitamin D
- Football or soccer, especially on artificial turf
- Horseback riding
- In-line skating
- Jumping on a trampoline
Symptoms Of Torn Bicep Injury
Depending on the cause of your shoulder pain you may experience:
- Pain deep in the shoulder joint, in the back or the front of the shoulder and the upper part of the arm. Sometimes the pain in the shoulder can be described as a ‘catching pain’. The location and type of pain is likely to relate to the structure causing the pain
- Reduced movement, and pain when moving your shoulder.
- The weakness of the shoulder/upper arm. Depending on the condition, there may be a sensation of the joint slipping out and back into the joint socket, or the shoulder can become completely dislodged (dislocated)
- Sensations of pins and needles (tingling) and burning pain. This is more likely to be associated with nerves from the neck than the shoulder joint itself.
- Lack of movement after a shoulder dislocation. This is usually due to pain. Complete rotator cuff tears and injury to the axillary nerve both cause weakness in moving the arm away from the body. These problems require close clinical examination.
Symptoms Of Biceps Strain
- Pain in the muscle after impact.
- Pain and difficulty when lifting the arm to the side.
- Tender to touch the muscle.
- Bruising appears.
- There may be some swelling.
Diagnosis of Torn Bicep Injury
While histologic grading of the severity of tendinopathic changes remains separate from the clinical presentation and MRI and/or intra-operative findings, there are some noteworthy pathologic patterns associated with increasing grades of severity of tendinopathy.[rx][rx]
Tenocytes are normal in appearance
Myxoid degenerative material not present
Collagen remains arranged in tight, cohesive bundles
Blood vessels arranged inconspicuously between collagen bundles
Tenocytes are rounded
Myxoid degenerative material present in small amounts between collagen bundles
Collagen remains arranged in discrete bundles, but a slight separation between bundles becomes apparent
Capillary clustering is evident (less than 1 cluster per 10 high-power fields)
Tenocytes are rounded and enlarged
Myxoid degenerative material evident in moderate to large amounts
Collagen bundles lose discrete organization as the separation between individual fibers and bundles increases
Capillary clustering is increased (1 to 2 clusters per 10 high-power fields)
Tenocytes are rounded and enlarged with abundant cytoplasm and lacuna
Myxoid degenerative material abundant
Collagen disorganized, loss of microarchitecture
Capillary clustering is increased (greater than 2 clusters per 10 high-power fields)
Bicipital groove palpation – Direct palpation over the patient’s bicipital groove elicits a painful response in the setting of pathology.
Speed’s test – A positive test consists of pain elicited in the bicipital groove when the patient attempts to forward elevate the shoulder against examiner resistance; the elbow is slightly flexed, and the forearm is supinated.
Uppercut test – The involved shoulder is positioned at neutral, the elbow is flexed to 90 degrees, the forearm is supinated, and the patient makes a fist. The examiner instructs the patient to perform a boxing “uppercut” punch while placing his or her hand over the patient’s fist to resist the upward motion. A positive test is pain or a painful pop over the anterior shoulder near the bicipital groove region.
Ferguson’s test – The arm is stabilized against the patient’s trunk, and the elbow is flexed to 90 degrees with the forearm pronated. The examiner manually resists supination while the patient also externally rotated the arm against resistance. A positive test is noted if the patient reports pain over the bicipital groove and/or subluxation of the LHB tendon.
Dynamic tests for bicipital groove symptoms
The examiner brings the patients shoulder to 90 degrees of abduction and 90 degrees of external rotation. The examiner passively rotates the shoulder at this position in an attempt to elicit the patient-reported audible “popping” or “clicking” sensations. Sometimes passively maneuvering the shoulder from the extension to cross-body plan is helpful in eliciting instability symptoms.
At the 90/90 shoulder abduction/external rotation position, the patient is asked to “throw forward” while the examiner resists this forward motion. A positive test for groove pain must be localized to the anterior aspect of the shoulder to enhance diagnostic sensitivity and specificity.
Other Changes Associated with Tendinopathy
Irrespective of histologic grade of tendinopathy, the surrounding bicipital sheath/synovium demonstrates varying degrees of synovial hypertrophy, hyperplasia, and proliferation
Low-Grade Degenerative Tendinopathy
Total cellularity (cell density, cells/ mm): Minimal increase
Apoptotic index (percent relative to the total number of cells counted): Minimal increase
Moderate Grade Degenerative Tendinopathy
Total cellularity (cell density, cells/ mm): Peak increase
Apoptotic index (percent relative to the total number of cells counted): Moderate increase
Severe Grade Degenerative Tendinopathy
Total cellularity (cell density, cells/ mm): Decreases
Apoptotic index (% relative to the total number of cells counted): Peak increase
Histologic studies have consistently reported that irrespective of patient age, the severity of symptoms, and duration of symptoms, acute inflammatory changes are rarely evident upon histologic specimen analysis.
In 2004, Habermeyer and colleagues identified 4 different subtypes of soft tissue injury groups. These types were similar to those described by Braun and colleagues, also noting 4 different types of soft tissue pulley lesions during shoulder arthroscopy.[rx]
Type I – SGHL lesion, isolated
Type II – SGHL lesion and partial articular-sided supraspinatus tendon tear
Type III – SGHL lesion and deep surface tear of the subscapularis tendon
Type IV – SGHL lesion combined with a partial articular-sided supraspinatus and subscapularis tendon tears
Bennett’s classification system subdivides biceps soft tissue pulley lesions into types I to V.[rx]
Type I – Intra-articular subscapularis injury
Type II – Medial band of CHL incompetent
Type III – Subscapularis and the medial band of the CHL are both compromised; LHBT dislocates intra-articularly, medially
Type IV – A lateral band of CHL along with a leading-edge injury of the subscapularis; Can lead to LHBT dislocation anterior to the subscapularis
Type V – All soft tissue pulley components are disrupted
Walch classified biceps pulley lesions based on the observed LHBT instability pattern.[rx]
Type I – SGHL/CHL injury; Superior LHBT subluxation at the proximal groove entrance; Subscapularis remains intact, preventing frank LHBT dislocation
Type II – At least partial subscapularis injury is seen in association with the onset of pathology; Medial LHBT subluxation or dislocation
Type III – Secondary to proximal humerus fracture; usually a lesser tuberosity fracture that is prone to malunion or nonunion
Ultrasound (US) is highly operator-dependent but is touted as a fast, cost-effective tool for diagnosing LHBT pathology. Characteristic findings include tendon thickening, tenosynovitis, and synovial sheath hypertrophy, and fluid surrounding the tendon in the bicipital groove. The ability to perform a dynamic examination increases the sensitivity and specificity for detecting subtle instability.
Magnetic resonance imaging (MRI) is useful in evaluating the LHBT, bicipital groove, and any fluid or edema that may be indicative of pathology. MRI helps define other associated shoulder pathologies, and in the setting of LHBT instability, particular attention should be given to evaluating for concomitant subscapularis injury.
Many studies have suggested MR arthrography (MRA) as the best imaging modality for the detection of biceps soft tissue pulley lesions. Walch previously described the “pulley sign” on MRA, suggesting a lesion to the soft tissue pulley structures. The “pulley sign” is an extra-articular collection of contrast material anterior to the upper subscapularis muscle. A 2012 study established MRA criteria for diagnosing biceps pulley lesions. The findings on MRA included[rx]:
LHBT displacement relative to subscapularis tendon on oblique sagittal series; Up to 86% sensitive, 98% specific
LHBT tendinopathy on oblique sagittal image series; Up to 93% sensitive, 96% specific
Medial LHBT subluxation on axial image series; Up to 64% sensitive, 100% specific
Discontinuity of the SGHL; Up to 89% sensitive, 83% specific
Treatment Of Torn Bicep Injury
- Rest – Rest, ice and heat are the initial steps to take to rehabilitate your muscles. Resting allows the muscle strain to heal, while ice reduces the inflammation and dulls your pain. Apply ice on a 15-minute on, 15-minute off schedule for the first day for grade 1 strains. Grade 1 strains are injuries that feel tight but do not produce pain or visible swelling of the shoulder area. Continue icing for several days for grade 2 and 3 strains. Strains of this severity will cause pain and hamper your mobility.
- Stretching and Strengthening – Stretching and strengthening your can help you recover from an injury and prevent future strains. Stretching can begin as soon as you are pain-free, and include the barbell stretch. Stand with your arms at your sides. Bring your arms up to shoulder height, keeping your elbows straight and arms out in front of you.
- Massage – Sports massage may be a part of your rehab program. A sports massage, administered by a certified professional, keeps your muscles loose and limber and warms the injured tissues. Grade 1 deltoid injuries may be massaged after the first two days of rest and icing; more severe strains or tears may require up to a week’s healing time before the massage is possible.
- Ultrasound – Grade 3 injuries can benefit from more advanced rehab techniques, including ultrasound and electrical stimulation. These types of treatments must be performed by certified professionals and may include your athletic trainer or physical therapist. Ultrasound treatments send sound waves into the deltoid muscle; electrical stimulation provides the injured tissues a low-grade electrical current. Both of these treatments can reduce pain and inflammation.
In Severe Condition
- Antibiotic – Cefuroxime or Azithromycin, or Flucloxacillin or any other cephalosporin/quinolone antibiotic must be used to prevent infection or clotted blood remove to prevent furthers swelling and edema. Antibiotics and tetanus vaccination may be used if the bone breaks through the skin creating immunization.
- NSAIDs – Prescription-strength drugs that reduce both pain and inflammation. Pain medicines and anti-inflammatory drugs help to relieve pain and stiffness, allowing for increased mobility and exercise. There are many common over-the-counter medicines called non-steroidal anti-inflammatory drugs (NSAIDs). They include and Ketorolac, Aceclofenac, Naproxen, Etoricoxib.
- Corticosteroids – Also known as oral steroids, these medications reduce inflammation.
- Cortisone injections – First-line nonoperative management also includes the use of non-steroidal anti-inflammatory (NSAIDs) medications in conjunction with PT modalities to rapidly reduce pain.
- Muscle Relaxants – These medications provide relief from associated muscle spasms or injury
- Neuropathic Agents – Drugs(pregabalin & gabapentin) that address neuropathic—or nerve-related—pain. This includes burning, numbness, and tingling.
- Opioids – Also known as narcotics, these medications are intense pain relievers that should only be used under a doctor’s careful supervision.
- Topical Medications – These prescription-strength creams, gels, ointments, patches, and sprays help relieve pain and inflammation through the skin.
- Calcium & vitamin D3 – To improve bone health and healing fracture. As a general rule, men and women age 50 and older should consume 1,200 milligrams of calcium a day, and 600 international units of vitamin D a day.
- Glucosamine & Diacerein, Chondroitin sulfate – can be used to tightening the loose tendon, cartilage, ligament, and cartilage, ligament regenerates cartilage or inhabits the further degeneration of cartilage, ligament.
- Dietary supplement -to remove general weakness & healing and improved health.
- Antidepressants – A drug that blocks pain messages from your brain and boosts the effects of endorphins (your body’s natural painkillers).
- Menthol – provides deep penetrating pain relief with a nice cooling sensation
- Vitamin B1, B6, B12– promotes normal nerve function
- Vitamin E – anti-inflammatory, enhances circulation, hydrates the skin
- Aloe vera – anti-inflammatory properties, soothes the skin
- Tea Tree – enhances the penetration of ingredients
- MSM – supports healthy connective tissues, anti-inflammatory
- Ilex Leaf Extract – increases circulation, skin conditioner
- Botulinum toxin injections – to her trapezius muscles, which considerably reduced pain and spasm. This clinical improvement lasted 3 months. Ongoing injections as required are planned.
Physical Therapy Management
Physical therapy has been commonly used for the treatment of tendinopathies: initially focusing on unloading followed by reloading the affected tendon.
- This may start with isometric training if the pain is the primary issue progressing into eccentric training and eventually concentric loading as with other forms of tendon rehab.
- Stretching and strengthening programs are a common component of most therapy programs. Therapists also use other modalities, including ultrasound, iontophoresis, deep transverse friction massage, low-level laser therapy, and hyperthermia; however evidence for these modalities has low quality.
- The physical therapist must consider both the patient’s subjective response to injury and the physiological mechanisms of tissue healing; both are essential in relation to a patient’s return to optimal performance.
As a preface to a discussion of the goals of treatment during injury rehabilitation, two points must be made:
- Healing tissue must not be overstressed and a very slow heavy loading program should be undertaken. During tissue healing, controlled therapeutic stress is necessary to optimize collagen matrix formation, but too much stress can damage new structures and slow the patient’s rehabilitation
- The patient must meet specific objectives to progress from one phase of healing to the next. These objectives may depend on ROM, strength, or activity. It is the responsibility of the physical therapist to establish these guidelines
Exercise therapy should include:
- Restoring a pain-free range of motion – Pain-free range can be achieved with such activities as PROM, Active-Assisted Range of Motion (AAROM), and mobilization via manual therapy
- Proper scapulothoracic rhythm.
- Painful activities such as abduction and overhead activities should be avoided in the early stages of recovery as it can exacerbate symptoms
- Strengthening program consisting of heavy slow loading should begin with an emphasis on the scapular stabilizers, rotator cuff, and biceps tendon
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