Myofascial pain syndrome comprises both acute and chronic pain. The pain experienced in this syndrome is usually dull aching and poorly localized indistinguishable from other causes of somatic and visceral pain. Sensory paresthesias or dysesthesias may accompany myofascial pain occasionally. Sometimes, the pain produced by this condition can be felt at a point away from the actual disease process. It may persist many months or years after the insult was caused, even if the initiating event is resolved. Constricting myofascial taut bands may cause entrapment of nervous component of the myofascial system, leading to further pain and disability. 

Myofascial pain syndrome is diagnosed by the presence of myofascial trigger points and associated pain. Myofascial trigger points are located by palpation of the tender or painful areas of the patient. A trigger point is defined by the presence of a tight band which is palpable within the muscle tissue, which through practice and experience can be palpated easily usually in all types of muscles either a superficial or deep.  Such muscles that contain trigger points are non-uniform having heterogeneous areas consisting of soft, firm, or hard consistency rather than uniform homogeneous consistency. On contraction of the trigger points during daily activity pain is usually experienced by the patient which is exquisite and localized. Sometimes taut bands are not painful to palpation but can alter the normal sequence of muscle activation. The correct method of palpation of the trigger points consists of palpating the muscle perpendicular to the direction of the muscle fibers.[20]

A delphi study conducted in 2017 proposed that at least two of the following criteria must be positive for trigger point diagnosis: presence of a taut band, a hypersensitive spot, and referred pain. The pain referred from a myofascial trigger point causes different sensory sensations that include pain traveling to a distant area, deep pain, dull aching, tingling, or burning pain. [20]

Several diagnostic tools are available to assess the presence of trigger points with individual advantages.[10]

• Ultrasound imaging: Ultrasound is often used to analyze the thickness and consistency of muscle nodules and the sliding of the various tissue layers. Some studies analyzed TPs using ultrasound elastography by doppler variance imaging while inducing vibrations with a handheld vibrator. Myofascial trigger points appear as focal and hypoechoic nodules, with decreased vibration amplitude. (indicates increased stiffness and modified blood supply compared to normal tissue)[21]
• Micro-dialysis: This method is used to measure inflammatory mediators in TPs such as bradykinin, substance P, tumor necrosis factor-alpha, CGRP, interleukin 1 beta, serotonin, interleukin 6 and 8, and norepinephrine.[21]
• Electromyography: This is used to evaluate the electrical activity of active and latent TPs (test is done both at rest and in active motion). Generally, the TPs have increased electromyographic activity with synergistic muscle contraction compared to the normal muscles.[21]
• Infrared thermography: This tool is used to assess skin temperature in TPs areas. At present, it is used as an auxiliary test due to conflicting results.[21]
• Magnetic resonance elastography: At present, there is no consensus on the validity of results obtained from MRE because of its low sensitivity.[21]

Pharmacotherapy

NSAIDs

• Non-steroidal anti-inflammatory drugs are often used by clinicians to symptomatically manage patients with myofascial pain.  These medications are available in both oral and topical formulations, although there is no scientific evidence to validate their use.[22]

Muscle relaxants

• Muscle relaxants (cyclobenzaprine, tizanidine) act on the central nervous system to reduce central pain stimulation. However, there is no scientific evidence in the literature for their use as a treatment for TPs.[22]

Benzodiazepines

• Benzodiazepines such as clonazepam and diazepam have several side effects. (ataxia, cognitive decline, and depression) Although a study showed promising results of benzodiazepines in treating TPs, it was not feasible to follow such a long-term therapeutic trial, because of the side effects of Benzodiazepines.[22]

Antidepressants

• Antidepressant drugs (tricyclic antidepressants, serotonin-norepinephrine reuptake inhibitors, and selective serotonin reuptake inhibitors) are used for relieving myofascial pain in the presence of mood disorders. Several recent studies support the use of amitriptyline in the treatment of myofascial pain. Nortryptyline has also been successful in some studies.[22]

Lidocaine patches

• A transdermal patch of lidocaine has fewer adverse effects than a needle infiltration. One study showed that transdermal patches decreased pain at TPs. Larger studies are lacking at present.[22]

Botox

• Botulinum toxin targets central and peripheral nerve endings. It blocks the release of ACh from the nerve endings and hence decreases muscle spasm at TPs. Studies on the efficacy of botulinum toxin in reducing Myofascial pain is mixed.[22]

Non-pharmacological modalities

Exercise/Physical therapy/Postural regiments

• Active and consistent physical exercise is an effective strategy in the treatment of myofascial pain. It improves the range of motion, the mood, and the pain threshold. One of the exercises prescribed for myofascial pain is stretching exercises which lengthens the myofascial compartments containing the TPs and may prevent the further appearance of other tender areas.[22]
• A repeated load in undesirable positions predispose to muscle injury and may cause microtrauma, increasing the risk of developing myofascial pain. Hence postural rehabilitation is another strategy that can be used for this syndrome. [22]
• All non-pharmacological measures that reduce stress (yoga, meditation, behavioral therapy, and acupuncture) help reduce muscle tone, hence promoting an increase in the pain threshold.

Ultrasound

• Ultrasound functions by applying mechanical and thermal energy to underlying connective tissue, thereby improving circulation, elasticity, and metabolism. Few studies show the usefulness of ultrasound to decrease the pain of active TPs even though the benefits are temporary.[22]

Dry Needling

• Dry needling involves the insertion of a needle directly into the trigger points, which reduces myofascial pain. It is one of the quickest ways to inactivate TPs. The use of dry needling seems promising in some studies with patients diagnosed with myofascial pain. It is thought to act on the cutaneous type A-delta fibers.[22] 

Osteopathic Manipulative Therapy (OMT)

• The osteopathic approach to the treatment of TPs has been observed to be effective, but there are no randomized studies to prove it's efficacy at present.[23][24]

Fibromyalgia could be confused with the presence of myofascial pain; some studies highlight an alteration of the connective tissue with the stem cells that produce adipose tissue. The latter could cause an inflammatory environment and local pain.[25] Fibromyalgia is hardly localized; this is already a good indication of differential diagnosis.

Another syndrome that can be poorly framed with respect to the myofascial syndrome is chronic pelvic pain. The latter is a condition that must be present from 6 months onwards, and not necessarily influenced by movements or the presence of menstruation (in women). It is necessary to understand if there are organic dysfunctions or only the musculature is involved through ultrasound examinations (the easiest way to make a differential diagnosis).[26]

The temporomandibular joint could be involved in myofascial pain but could also be involved in a referred pain pattern. If there are trigger points that do not improve after a manual or pharmacological approach, it could be a symptom of cardiac ischemia.[27]

Throat or neck pain, if unilateral, could be caused by Eagle's Syndrome. Pain should improve with tissue treatment; if this does not happen, the causes must be investigated.[28]

Inflammations of tendons or inflammations of purely connective formations (fasciitis, tendinopathies, and more) have a very specific anatomical area of interest that can be delimited with palpation and do not have more tense areas than other areas of the same tissue.[29]Different causes and pathologies can cause the presence of myofascial pain, where, in some cases, there may be perpetuating factors that have a feed-forward effect on myofascial pain.

There are perpetuating mechanical factors such as:

• Scoliosis
• Limb dysmetria
• Joint hypermobility
• Muscle hypertrophy
• Repetitive microtraumas
• Spondylotic radiculopathy

There are systemic or metabolic perpetuating factors:

• Hypothyroidism
• Iron deficiency
• Vitamin D insufficiency
• Vitamin C deficiency
• Vitamin B12 insufficiency

Psychosocial perpetuating factors:

• Stress
• Anxiety

Other possible perpetuating factors:

• Infectious diseases
• Parasitic diseases (e.g. Lyme disease)
• Rheumatic polymyalgia
• Use of drugs such as statins
• Hyperalgesia
• Allodynia

Myofascial pain syndrome usually resolves with consistent treatment and regular follow-up. However, a majority of patients with this condition suffer from this problem for decades. Long term morbidity is least when a multidisciplinary team consisting of well-trained physicians, nurses, and physiotherapists treat such patients and constantly monitor the response to various therapies employed.

Myofascial pain syndrome can cause a reduction in the quality of life. Long term pain is usually associated with mood disorders (depression and anxiety). It can decrease in the mobility of the patient, decreasing daily activity which further precipitates the condition.

Undesirable effects of drug therapies may occur if the patient does not follow the doctor's instructions carefully. Similarly, if the approach to physical activity does not follow certain rules set by competent personnel, muscle trauma may occur.

Upon identification of the cause of myofascial pain, it is necessary to explain to the patient the relevant pathophysiology and the ways of improving the quality of life. For example, if the patient is anxious at work or during daily activities, they require strategies to relax, perhaps with deep breathing or the learning of other relaxation techniques with the help of a psychologist. If the pain is from a poor diet, it is necessary to teach the patient to consume a more balanced diet. If repetitive movements cause pain, encourage the patient to perform physical activity, including stretching. A sleep disorder may lead to increased muscle tension, resulting in the formation of TPs. In this case, it is necessary to adopt strategies to improve the quality of sleep.

In diagnosing and treating myofascial syndrome, many professionals should interact for the patient's health. The doctor or nurse practitioner make the diagnosis, and based on the etiology, the patient will be directed to specialists, for example, the physiotherapist, the osteopath, the psychologist, and the nutritionist. It will be an interprofessional team that treats the patient because the patient needs physical, psychological, and nutritional support. Pharmacists should be included as part of the team to assure that no drug-drug interactions occur involving pain management. The clinician should not only examine painful areas but all aspects of the patient's health.