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Lidocaine, also known as lignocaine and sold under the brand name Xylocaine among others, is a local anesthetic of the amino amide type. It is also used to treat ventricular tachycardia.[7][8] When used for local anaesthesia or in nerve blocks, lidocaine typically begins working within several minutes and lasts for half an hour to three hours.[8][9] Lidocaine mixtures may also be applied directly to the skin or mucous membranes to numb the area.[8] It is often used mixed with a small amount of adrenaline (epinephrine) to prolong its local effects and to decrease bleeding.[8]
If injected intravenously, it may cause cerebral effects such as confusion, changes in vision, numbness, tingling, and vomiting.[7] It can cause low blood pressure and an irregular heart rate.[7] There are concerns that injecting it into a joint can cause problems with the cartilage.[8] It appears to be generally safe for use in pregnancy.[7] A lower dose may be required in those with liver problems.[7] It is generally safe to use in those allergic to tetracaine or benzocaine.[8] Lidocaine is an antiarrhythmic medication of the class Ib type.[7] This means it works by blocking sodium channels and thus decreasing the rate of contractions of the heart.[7] When injected near nerves, the nerves cannot conduct signals to or from the brain.[8]
Lidocaine was discovered in 1946 and went on sale in 1948.[10] It is on the World Health Organization's List of Essential Medicines.[11] It is available as a generic medication.[8][12] In 2021, it was the 267th most commonly prescribed medication in the United States, with more than 1 million prescriptions.[13][14]
Medical uses
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Local numbing agent
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The efficacy profile of lidocaine as a local anaesthetic is characterized by a rapid onset of action and intermediate duration of efficacy. Therefore, lidocaine is suitable for infiltration, block, and surface anaesthesia. Longer-acting substances such as bupivacaine are sometimes given preference for spinal and epidural anaesthesias; lidocaine, though, has the advantage of a rapid onset of action. Adrenaline vasoconstricts arteries, reducing bleeding and also delaying the resorption of lidocaine, almost doubling the duration of anaesthesia.[citation needed]
Lidocaine is one of the most commonly used local anaesthetics in dentistry. It can be administered in multiple ways, most often as a nerve block or infiltration, depending on the type of treatment carried out and the area of the mouth worked on.[15]
For surface anaesthesia, several formulations can be used for endoscopies, before intubations, etc. Lidocaine drops can be used on the eyes for short ophthalmic procedures. There is tentative evidence for topical lidocaine for neuropathic pain and skin graft donor site pain.[16][17] As a local numbing agent, it is used for the treatment of premature ejaculation.[18]
An adhesive transdermal patch containing a 5% concentration of lidocaine in a hydrogel bandage, is approved by the US FDA for reducing nerve pain caused by shingles.[19] The transdermal patch is also used for pain from other causes, such as compressed nerves and persistent nerve pain after some surgeries.
Heart arrhythmia
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Lidocaine is also the most important class-1b antiarrhythmic drug; it is used intravenously for the treatment of ventricular arrhythmias (for acute myocardial infarction, digoxin poisoning, cardioversion, or cardiac catheterization) if amiodarone is not available or contraindicated. Lidocaine should be given for this indication after defibrillation, CPR, and vasopressors have been initiated. A routine preventive dose is no longer recommended after a myocardial infarction as the overall benefit is not convincing.[20]
Epilepsy
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A 2013 review on treatment for neonatal seizures recommended intravenous lidocaine as a second-line treatment, if phenobarbital fails to stop seizures.[21]
Other
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Intravenous lidocaine infusions are also used to treat chronic pain and acute surgical pain as an opiate sparing technique. The quality of evidence for this use is poor so it is difficult to compare it to placebo or an epidural.[22]
Inhaled lidocaine can be used as a cough suppressor acting peripherally to reduce the cough reflex. This application can be implemented as a safety and comfort measure for patients who have to be intubated, as it reduces the incidence of coughing and any tracheal damage it might cause when emerging from anaesthesia.[23]
A 2019 systematic review of the literature found that intraurethral lidocaine reduces pain in men who undergo cystoscopic procedures.[24]
Lidocaine, along with ethanol, ammonia, and acetic acid, may also help in treating jellyfish stings, both numbing the affected area and preventing further nematocyst discharge.[25][26]
For gastritis, drinking a viscous lidocaine formulation may help with the pain.[27]
Adverse effects
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Adverse drug reactions (ADRs) are rare when lidocaine is used as a local anesthetic and is administered correctly. Most ADRs associated with lidocaine for anesthesia relate to administration technique (resulting in systemic exposure) or pharmacological effects of anesthesia, and allergic reactions only rarely occur.[28] Systemic exposure to excessive quantities of lidocaine mainly result in central nervous system (CNS) and cardiovascular effects – CNS effects usually occur at lower blood plasma concentrations and additional cardiovascular effects present at higher concentrations, though cardiovascular collapse may also occur with low concentrations. ADRs by system are:
ADRs associated with the use of intravenous lidocaine are similar to toxic effects from systemic exposure above. These are dose-related and more frequent at high infusion rates (≥3 mg/min). Common ADRs include: headache, dizziness, drowsiness, confusion, visual disturbances, tinnitus, tremor, and/or paraesthesia. Infrequent ADRs associated with the use of lidocaine include: hypotension, bradycardia, arrhythmias, cardiac arrest, muscle twitching, seizures, coma, and/or respiratory depression.[29]
It is generally safe to use lidocaine with vasoconstrictor such as adrenaline, including in regions such as the nose, ears, fingers, and toes.[30] While concerns of tissue death if used in these areas have been raised, evidence does not support these concerns.[30]
The use of lidocaine for spinal anesthesia may lead to an increased risk of transient neurological symptoms, a painful condition that is sometimes experienced immediately after surgery.[31] There is some weak evidence to suggest that the use of alternative anesthetic medications such as prilocaine, procaine, bupivacaine, ropivacaine, or levobupivacaine may decrease the risk of a person developing transient neurological symptoms.[31] Low quality evidence suggests that 2‐chloroprocaine and mepivacaine when used for spinal anesthetic have a similar risk of the person developing transient neurological symptoms as lidocaine.[31]
Interactions
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Any drugs that are also ligands of CYP3A4 and CYP1A2 can potentially increase serum levels and potential for toxicity or decrease serum levels and the efficacy, depending on whether they induce or inhibit the enzymes, respectively. Drugs that may increase the chance of methemoglobinemia should also be considered carefully. Dronedarone and liposomal morphine are both absolutely a contraindication, as they may increase the serum levels, but hundreds of other drugs require monitoring for interaction.[32]
Contraindications
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Absolute contraindications for the use of lidocaine include:
Exercise caution in patients with any of these:
Overdosage
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Overdoses of lidocaine may result from excessive administration by topical or parenteral routes, accidental oral ingestion of topical preparations by children (who are more susceptible to overdose), accidental intravenous (rather than subcutaneous, intrathecal, or paracervical) injection, or from prolonged use of subcutaneous infiltration anesthesia during cosmetic surgery.[citation needed]
Such overdoses have often led to severe toxicity or death in both children and adults (local anesthetic systemic toxicity).[39] Symptoms include central nervous system manifestations such as numbness of the tongue, dizziness, tinnitus, visual disturbances, convulsions, reduced consciousness progressing to coma, as well as respiratory arrest and cardiovascular disturbances.[40] Lidocaine and its two major metabolites may be quantified in blood, plasma, or serum to confirm the diagnosis in potential poisoning victims or to assist forensic investigation in a case of fatal overdose. [citation needed]
Lidocaine is often given intravenously as an antiarrhythmic agent in critical cardiac-care situations.[41] Treatment with intravenous lipid emulsions (used for parenteral feeding) to reverse the effects of local anaesthetic toxicity is becoming more common.[42][43]
Postarthroscopic glenohumeral chondrolysis
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Lidocaine in large amounts may be toxic to cartilage and intra-articular infusions can lead to postarthroscopic glenohumeral chondrolysis.[44]
Pharmacology
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Mechanism of action
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Lidocaine alters signal conduction in neurons by prolonging the inactivation of the fast voltage-gated Na+ channels in the neuronal cell membrane responsible for action potential propagation.[45] With sufficient blockage, the voltage-gated sodium channels will not open and an action potential will not be generated. Careful titration allows for a high degree of selectivity in the blockage of sensory neurons, whereas higher concentrations also affect other types of neurons.[citation needed]
The same principle applies for this drug's actions in the heart. Blocking sodium channels in the conduction system, as well as the muscle cells of the heart, raises the depolarization threshold, making the heart less likely to initiate or conduct early action potentials that may cause an arrhythmia.[46]
Pharmacokinetics
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When used as an injectable it typically begins working within four minutes and lasts for half an hour to three hours.[8][9] Lidocaine is about 95% metabolized (dealkylated) in the liver mainly by CYP3A4 to the pharmacologically active metabolites monoethylglycinexylidide (MEGX) and then subsequently to the inactive glycine xylidide. MEGX has a longer half-life than lidocaine, but also is a less potent sodium channel blocker.[47] The volume of distribution is 1.1 L/kg to 2.1 L/kg, but congestive heart failure can decrease it. About 60% to 80% circulates bound to the protein alpha1 acid glycoprotein. The oral bioavailability is 35% and the topical bioavailability is 3%.
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The elimination half-life of lidocaine is biphasic and around 90 min to 120 min in most patients. This may be prolonged in patients with hepatic impairment (average 343 min) or congestive heart failure (average 136 min).[48] Lidocaine is excreted in the urine (90% as metabolites and 10% as unchanged drug).[49]
Chemistry
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Molecular structure and conformational flexibility
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At the heart of lidocaine's molecular structure lies a lipophilic group featuring a 1,5-dimethylbenzene core, contributing to the molecule's hydrophobic characteristics. In addition to this aromatic unit, lidocaine incorporates an aliphatic section comprising amide, carbonyl, and enyl groups. This multifaceted arrangement endows the molecule with unique properties and a capacity to interact with biological systems.
Lidocaine exhibits a remarkable degree of conformational flexibility, resulting in more than 60 probable conformers.[50] This adaptability arises from the high lability of the amide and ethyl groups within the molecule. These groups can undergo shifts in their positions, leading to significant variations in the overall molecular configuration.
Influence of temperature and pressure on conformational preference
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The dynamic transformation of lidocaine conformers in supercritical carbon dioxide (scCO2) highly depends on external factors such as pressure[50] and temperature.[51] Alterations in these conditions can lead to distinct conformations, impacting the molecule's physicochemical properties. One notable consequence of these variations is the particle size of lidocaine when produced through micronization using scCO2. Changes in the position of the amide group within the molecule can trigger a redistribution of intra- and intermolecular hydrogen bonds, affecting the outcome of the micronization process and the resultant particle size.[52]
History
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Lidocaine, the first amino amide–type local anesthetic (previous were amino esters), was first synthesized under the name 'xylocaine' by Swedish chemist Nils Löfgren in 1943.[53][54][55] His colleague Bengt Lundqvist performed the first injection anesthesia experiments on himself.[53] It was first marketed in 1949.
Society and culture
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Dosage forms
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Lidocaine, usually in the form of its hydrochloride salt, is available in various forms including many topical formulations and solutions for injection or infusion.[56] It is also available as a transdermal patch, which is applied directly to the skin.[citation needed]
Lidocaine hydrochloride 2% epinephrine 1:80,000 solution for injection in a cartridge
Lidocaine hydrochloride 1% solution for injection
Topical lidocaine spray
2% viscous lidocaine
Names
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Lidocaine is the International Nonproprietary Name (INN), British Approved Name (BAN), and Australian Approved Name (AAN),[57] while lignocaine is the former BAN[citation needed] and AAN. Both the old and new names will be displayed on the product label in Australia until at least 2023.[58]
Xylocaine is a brand name, referring to the major synthetic building block 2,6-xylidine. The "ligno" prefix is chosen because "xylo" means wood in Greek while "ligno" means the same in Latin. The "lido" prefix instead refers to the fact that the drug is chemically related to acetanilide.[55]
Recreational use
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As of 2021, lidocaine is not listed by the World Anti-Doping Agency as a substance whose use is banned in sport.[59] It is used as an adjuvant, adulterant, and diluent to street drugs such as cocaine and heroin.[60] It is one of the three common ingredients in site enhancement oil used by bodybuilders.[61]
Adulterant in cocaine
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Lidocaine is often added to cocaine as a diluent.[62][63] Cocaine and lidocaine both numb the gums when applied. This gives the user the impression of high-quality cocaine, when in actuality the user is receiving a diluted product.[64]
Compendial status
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Veterinary use
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It is a component of the veterinary drug Tributame along with embutramide and chloroquine used to carry out euthanasia on horses and dogs.[66][67]
References
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