Opioid overdose


An opioid overdose is toxicity due to excessive consumption of opioids, such as morphine, codeine, heroin, fentanyl, tramadol, Oxycodone, and methadone. This preventable pathology can be fatal if it leads to respiratory depression, a lethal condition that can cause hypoxia from slow and shallow breathing. Other symptoms include small pupils and unconsciousness; however, its onset can depend on the method of ingestion, the dosage and individual risk factors. Although there were over 110,000 deaths in 2017 due to opioids, individuals who survived also faced adverse complications, including permanent brain damage.
Opioid overdoses are diagnosed based on symptoms and examination. Risk factors for opioid overdose include high levels of opioid dependence, use of opioids via injection, high-dose opioid usage, having a mental disorder or having a predisposition for one, and use of opioids in combination with other substances, such as alcohol, benzodiazepines, or cocaine. Dependence on prescription opioids can occur from their use to treat chronic pain in individuals. Additionally, if following a period of detoxification, which allows the tolerance level to fall, the risk of overdose upon return to use is high.
Initial treatment of an overdose involves supporting the person's breathing and providing oxygen to reduce the risk of hypoxia. Naloxone is then recommended to those who cannot reverse the opioid's effects through breathing. Giving naloxone via nasal administration or as an injection into a muscle has shown to be equally effective. Other efforts to prevent deaths from overdose include increasing access to naloxone and treatment for opioid dependence.
Drug use contributes to 500,000 deaths worldwide, with opioid overdose resulting in approximately 115,000 of these deaths in 2018. This is up from 18,000 deaths in 1990. In 2018, approximately 269 million people had engaged in drug usage at least once, 58 million of which used opioids. Drug use disorders have affected around 35.6 million people worldwide in 2018. The WHO estimates that 70% of deaths due to drug use are in relation to opioids, with 30% being due to overdose. It is believed that the opioid epidemic has partly been caused due to assurances that prescription opioids were safe, by the pharmaceutical industry in the 1990s. This led to unwarranted trust and a subsequent heavy reliance on opioids. Though there are treatment interventions which can effectively reduce the risk of overdose in people with opioid dependence, less than 10% of affected individuals receive it.

Signs and symptoms

Opiate overdose symptoms and signs can be referred to as the "opioid toxidrome triad": decreased level of consciousness, pinpoint pupils, and respiratory depression. Other signs and symptoms include seizures and muscle spasms. Sometimes, an opiate overdose can lead to such a decreased level of consciousness that the person will not wake up.
Because of their effect on the part of the brain that regulates breathing, opioids can cause very slow or stopped breathing during overdoses, leading to hypoxia or death if left untreated. Hypoxia is typically caused by respiratory depression. The brain uses oxygen to regulate the homeostasis of the body. In animal studies, it was found that opioids act on specific regions of the central nervous system associated with respiratory regulation, including the medulla and pons. During cerebral hypoxia, the brain lacks sufficient oxygen supply. Prolonged lack of oxygenation from respiratory depression can lead to detrimental damage to the brain and spinal cord and can leave the person unable to walk or function normally, even if treatment with naloxone is given.
Alcohol also causes respiratory depression and, therefore, when taken with opioids, can increase the risk of respiratory depression and death.
In young children, opioid overdose may not be apparent right away. This is due to absorption, distribution, and metabolism differences between young children and adults and the higher amount of opioid ingestion per kilogram of body weight.

Causes

Risk factors for opioid overdose include opioid dependence, injecting opioids, using high doses of opioids, and use together with alcohol, benzodiazepines, or cocaine. The risk is particularly high following detoxification. Dependence on prescription opioids can occur from their use to treat chronic pain. In young children, an overdose is usually due to opioids that are intended for their parents, older siblings, or grandparents. In mothers who take codeine during breastfeeding, opioid overdoses have occurred in their baby. Codeine is, therefore, not recommended for those who are breastfeeding.

Co-ingestion

Opioid overdoses are often associated with benzodiazepines, tranquilisers or alcohol use. Other central nervous system depressants, muscle relaxers, pain relievers, anti-convulsants, anxiolytics, treatment drugs of a psychoactive or epileptic variety or any other such drug with its active function meant to calm or mitigate neuronal signaling can additionally cause a worsened condition with less likelihood of recovery cumulative to each added drug. This includes drugs less immediately classed to a slowing of the metabolism such as with GABAergic like GHB or glutamatergic antagonists like PCP or ketamine.

Risk factors

End organ dysfunction, which may lead to decreased drug clearance, is a risk factor for opioid overdose. Other risk factors for opioid overdose include sleep disordered breathing disorders such as sleep apnea, pulmonary diseases which may reduce ventilation and concomitant use of sedating medications such as benzodiazepines, gabapentinoids, muscle relaxants and other central nervous system depressants. Benzodiazepine use with opioids increases the risk of overdose death by four-fold, whereas concomitant use with gabapentintoids such as gabapentin or pregabalin increases the risk of overdose death by nearly two-fold.
Higher doses of prescription opioids, as well as long-acting formulations, are associated with an increased risk of overdose. In those on long-term opioid treatment for chronic pain, daily morphine equivalents greater than 200 mg were associated with death from opioid related causes in 3.8% of men and 2.2% of women. Opioids are the most common cause for serious accidental poisonings of children in the UK.

Metabolic disorders

s are primarily metabolized in the liver, before being excreted through urine. Opioids are metabolized by phase 1 and/or phase 2 metabolism, which can lead to the activation or inhibition of these drugs. Phase 1 metabolism is the CYP pathway which consists of different cytochrome P450s – a set of enzymes that catalyze hydrolysis, reduction, and oxidation reactions – to create an active metabolite. In contrast, Phase 2 metabolism causes the opioids to undergo conjugation, with little to no interaction with the CYP pathway. The opioids undergo phase 1 and phase 2 metabolism until they are hydrophilic enough to be renally excreted.
Various factors play a role in how an opioid is metabolized. In phase 1 metabolism, the CYP family has several polymorphisms, which can account for the difference in therapeutic responses within each individual. This diversification leads to opioids being modified at varying rates, which can cause the drug to remain in the bloodstream for either a longer or shorter period. Therefore, these polymorphisms control opioid tolerance and facilitate overdose.

Mental health

Evidence suggests that mental health can be a significant facilitator for opioid use disorder. Given that opioids are prescribed for pain management, mental health disorders, such as depression, have been shown to increase use of opioids when treating conditions associated with chronic pain. Evidence has shown that individuals with mood and anxiety disorders have an increased likelihood of being prescribed opioids and continuing usage for lengthy periods of time, consequently increasing likelihood for dependence. As such, affected individuals have almost double the risk of using opioids for pain relief in the long-term. Additionally, mental health challenges associated with trauma, economic depression, social environments conducive to substance use and risk-taking behaviours have been shown to increase opioid misuse. Furthermore, mental health challenges associated with cardiovascular disease, sleep disorders, and HIV can cause opioid dependence and subsequent overdose. Notably, cyclic behaviours can be observed between mental illness and opioid use disorder where individuals with mental health diagnoses engage in opioid use which further perpetuates mental health challenges and increased drug usage.

Mechanism

Opioids bind with neural opioid receptors to provoke analgesic, sedative, and euphoric effects. Opioids function by stimulating specific G-protein coupled receptors distributed throughout the body—including the brain, skin and spinal cord. Three of the major opioid receptors include mu, kappa, delta, and nociception, each playing a role in eliciting the effects associated with opioids. An opioid overdose results from over-activation of these receptors, which can cause permanent brain damage from cerebral hypoxia or neurotoxicity.
Mu receptors have an analgesic effect on the brain, and are found in various parts of the nervous system including the cerebral cortex and thalamus. They can be found in the nucleus accumbens, the pleasure centre of the brain, as well as the amygdala. Kappa receptors, in the hypothalamus, produce a similar analgesic effect. They bind with dynorphins to stimulate anti-reward effects and other negative effects of withdrawal. While mu receptors are the source of addiction, kappa receptors contribute to continued use. They generate dysphoria in response to increasing stress levels via corticotropin-releasing factor. This increases erratic shifts in mood during the withdrawal period and can prompt relapse. Delta receptors, found in the basal ganglia of the limbic system, have been shown to reduce anxiety by binding with enkephalins, although this requires further research. The most recent addition to these receptors are nociception opioid receptors. Although they have been determined to be receptors to certain ligands from opioids, their role is not yet fully understood.
When opioids are ingested, the ligand binds to these constitutively active receptors to reduce neural activity. This is accomplished by inhibiting adenylyl cyclase and cyclic AMP, which are necessary for communication within the central nervous system. There is research indicating that opioids reduce pain by disrupting ion channels and vesicle fusion.
Prolonged exposure to opioids can cause these receptors to become internalized, leading to increased tolerance and increased opioid use.