Chronic pain


Chronic pain is pain that persists or recurs for longer than 3 months. It is also described as burning, electrical, throbbing, or nauseating pain. This type of pain contrasts with acute pain, which is associated with a specific cause, typically resolves when the cause is treated, and decreases over time. Chronic pain can last for years. Persistent pain often serves no apparent useful purpose.
The most common types of chronic pain include back pain, severe headache, migraine, and facial pain. Chronic pain can lead to severe psychological and physical effects that may persist for a lifetime. Physical complications can include damage to brain neurons, insomnia and sleep deprivation, metabolic disorders, chronic stress, obesity, and heart attack. Mental health consequences may include depression and neurocognitive disorders.
A wide range of treatments are used for chronic pain; drug therapy including opioid and non-opioid drugs, cognitive behavioral therapy and physical therapy are the most common interventions. Medications such as aspirin and ibuprofen are used for mild pain whereas morphine and codeine are prescribed for severe pain. Non-pharmacological treatments, such as behavioral therapy and physiotherapy, are often used as complementary approaches due to their limited effectiveness when used alone. There is currently no definitive cure for chronic pain, and research continues into new management and therapeutic options, such as nerve blocks and radiation therapy.
An average of 8% to 11.2% of people in different countries experience severe chronic pain, with higher incidence in industrialized countries. Epidemiological studies show prevalence in countries varying from 8% to 55.2%. Chronic pain affects more people than diabetes, cancer, and heart disease. According to the estimates of the American Medical Association, the costs related to chronic pain in the US are about US$560-635b.

Classification

In medical classification systems

ICD-11

In ICD-11 chronic pain is classified under MG30. It is described as pain that persists or recurs for longer than 3 months. Contributing factors can be multiple, and can include biological, psychological and social factors.
Subcategories of MG30 are:
Primary chronic pain has subcategories:
Specific pain syndromes can be placed in these categories.

DSM-5

According to the DSM-5 index, a complication is chronic when the resulting complication lasts for a period of more than six months.

IASP

The International Association for the Study of Pain describes pain as chronic if it persists for months or even years, beyond the usual recovery time from an injury or illness. The IASP uses the terms nociceptive, neuropathic and nociplastic.

Other classification approaches

Nociceptive/Neuropathic/Nociplastic

In many cases pain fits into 3 categories;
Chronic pain can be classified by origin area as neuropathic, musculoskeletal, visceral, inflammatory or central sensitisation.

Primary or secondary

Chronic pain syndromes can be divided between primary and secondary. Secondary pain results from another disease.

Etiology

Chronic pain has many pathophysiological and environmental causes and can occur in cases such as neuropathy of the central nervous system, after cerebral hemorrhage, tissue damage such as extensive burns, inflammation, autoimmune disorders such as rheumatoid arthritis, psychological stress such as headache, migraine or abdominal pain and mechanical pain caused by tissue wear and tear such as arthritis. In some cases, chronic pain can be caused by genetic factors which interfere with neuronal differentiation, leading to a permanently lowered threshold for pain.
The pathophysiological etiology of chronic pain remains unclear. Many theories of chronic pain fail to clearly explain why the same pathological conditions do not invariably result in chronic pain. Patients' anatomical predisposition to proximal neural compression may be the answer to this conundrum. Proximal neural lesion at the level of the dorsal root ganglion may drive a by causing postural protection of the painful site and consequent neural compression in the same spinal region. Difficulties in diagnosing proximal neural lesion may account for the theoretical perplexity of chronic pain.

Pathophysiology

The mechanism of continuous activation and transmission of pain messages, leads the body to an activity to relieve pain, this action causes the release of prostaglandin and increase the sensitivity of that part to stimulation; Prostaglandin secretion causes unbearable and chronic pain. Under persistent activation, the transmission of pain signals to the dorsal horn may produce a pain wind-up phenomenon. This triggers changes that lower the threshold for pain signals to be transmitted. In addition, it may cause non-nociceptive nerve fibers to respond to, generate, and transmit pain signals. Researchers believe that the nerve fibers that cause this type of pain are group C nerve fibers; these fibers are not myelinated and cause long-term pain.
These changes in neural structure can be explained by neuroplasticity. When there is chronic pain, the somatotopic arrangement of the body is abnormally changed due to continuous stimulation and can cause allodynia or hyperalgesia. In chronic pain, this process is difficult to reverse or stop once established. EEG of people with chronic pain showed that brain activity and synaptic plasticity change as a result of pain, and specifically, the relative activity of beta wave increases and alpha and theta waves decrease.
Inefficient management of dopamine secretion in the brain can act as a common mechanism between chronic pain, insomnia and major depressive disorder and cause its unpleasant side effects. Astrocytes, microglia and satellite glial cells also lose their effective function in chronic pain. Increasing the activity of microglia, changing microglia networks, and increasing the production of chemokines and cytokines by microglia may exacerbate chronic pain. It has also been observed that astrocytes lose their ability to regulate the excitability of neurons and increase the spontaneous activity of neurons in pain circuits.

Disease associations

Some diseases such as diabetes, shingles, phantom limb pain, hypertension, and stroke play a role in the formation of chronic pain.
Chronic pain is associated with fibromyalgia.

Prognosis and outcomes

Complete, longterm remission of many types of chronic pain is rare. Chronic pain is often difficult to treat.
Chronic pain can significantly reduce individuals' quality of life, productivity, and wages, worsen existing health issues, and provoke the onset of new conditions like major depression, anxiety disorders, and substance use disorders.
Many of the often-used medications for chronic pain carry risks for side effects and complications. For example, chronic use of opioids is associated with decreased life expectancy and increased mortality of patients relative to non-users. Acetaminophen, a frequently used drug in chronic pain management, can cause hepatotoxicity when taken in excess of four grams per day, and even therapeutic doses administered to pain patients with chronic liver disease may cause hepatotoxicity. Long-term risks and side effects of opioids, another class of analgesic, include constipation, drug tolerance and dependence, nausea, indigestion, arrhythmia, endocrine gland disruptions promoting amenorrhea, erectile dysfunction, and gynecomastia, and fatigue. A major public health and clinical concern in and since the 2010s has been opioid overdose, especially in the context of an opioid epidemic in the United States.
As of 2011, drug treatments for chronic non-cancer pain reduced pain by 30%, although effectiveness varied widely by modality, diagnosis, and population studied. This reduction in pain can significantly improve patients' performance and quality of life. However, the general and long-term prognosis of chronic pain shows decreased function and quality of life. Also, this disease causes many complications and increases the possibility of death of patients and suffering from other chronic diseases and obesity. Similarly, patients with chronic pain who require opioids often develop drug tolerance over time, and this increase in the amount of the dose taken to be effective increases the risk of side effects and death.
Mental disorders can amplify pain signals and make symptoms more severe. In addition, comorbid psychiatric disorders, such as major depressive disorder, can significantly delay the diagnosis of pain disorders. Major depressive disorder and generalized anxiety disorder are the most common comorbidities associated with chronic pain. Patients with underlying pain and comorbid mental disorders receive twice as much medication from doctors annually as compared to patients who do not have such co-morbidities. Studies have shown that when coexisting diseases exist along with chronic pain, the treatment and improvement of one of these disorders can be effective in the improvement of the other.
Patients with chronic pain are at higher risk for suicide and suicidal thoughts. Research has shown approximately 20% of people with suicidal thoughts, and between 5 and 14% of patients with chronic pain commit suicide. Of patients who attempted suicide, 53.6% died of gunshot wounds, and 16.2% died of opioid overdose.
Sleep disturbance, and insomnia due to medication and illness symptoms are often experienced by those with chronic pain. These conditions can be difficult to treat due to the high potential of medication interactions, especially when the conditions are treated by different doctors.
Severe chronic pain is associated with increased risk of death over a ten-year period, particularly from heart disease and respiratory disease. Several mechanisms have been proposed for this increase, such as an abnormal stress response in the body's endocrine system. Additionally, chronic stress seems to affect risks to heart and lung health by increasing how quickly plaque can build up on artery walls. However, further research is needed to clarify the relationship between severe chronic pain, stress and cardiovascular health.
People with chronic pain tend to have higher rates of depression and although the exact connection between the comorbidities is unclear, a 2017 study on neuroplasticity found that "injury sensory pathways of body pains have been shown to share the same brain regions involved in mood management." Chronic pain can contribute to decreased physical activity due to fear of making the pain worse. Pain intensity, pain control, and resilience to pain can be influenced by different levels and types of social support that a person with chronic pain receives, and are also influenced by the person's socioeconomic status.
In a study, Mendelian randomization was used to identify causal relationships between chronic pain and certain psychiatric, cardiovascular, and inflammatory conditions that were initially thought to be unrelated to pain. It was found that exposure to depression increases the likelihood of reporting pain, but not the other way around. Exposure to coronary diseases increases the risk of developing chronic pain, and vice versa. An increase in body mass index modestly raises the likelihood of experiencing pain, while high blood HDL levels reduce the probability of suffering from chronic pain. Regarding inflammatory traits, exposure to asthma increases the likelihood of experiencing pain, and vice versa.
Chronic pain of different causes has been characterized as a disease that affects brain structure and function. MRI studies have shown abnormal anatomical and functional connectivity, even during rest involving areas related to the processing of pain. Also, persistent pain has been shown to cause grey matter loss, which is reversible once the pain has resolved.
One approach to predicting a person's experience of chronic pain is the biopsychosocial model, according to which an individual's experience of chronic pain may be affected by a complex mixture of their biology, psychology, and their social environment.
Chronic pain may be an important contributor to suicide.