Approved by the food and drug administration (FDA) in December of 2019, clinicians can use lemborexant to treat insomnia in adults. Additionally, lemborexant has demonstrated to be safe for use in patients with mild obstructive sleep apnea (OSA).[1] There are no other currently approved indications that Lemborxant may be used for, although its use for treating irregular sleep-wake rhythm in patients with Alzheimer disease is currently under investigation.[2]
Lemborexant belongs to a class of drugs called dual receptor orexin antagonists (DORA), most of which are currently under evaluation in clinical trials, except for suvorexant, which was FDA-approved for the treatment of primary insomnia in August of 2014.[3]
The two variants of the orexin molecule (orexin A and orexin B) play an important role in the human sleep-wake cycles. Orexin A acts nonselectively to both the orexin-1 receptor (OX1R) and orexin-2 receptors (OX2R), while Orexin B acts more selectively on OX2R.[4] Produced in the hypothalamus, the orexin peptides are released from some 50,000 to 80,000 orexin-producing neurons in the human brain. Additionally, these orexin producing neurons project to various other neurons, some of which are noradrenergic, serotonergic, dopaminergic, and cholinergic, supporting potential mechanisms of sleep-wake maintenance.[5]
The wakefulness effects of orexins agonizing OX1R and OX2R are widely accepted and consistently supported in animal models. Additionally, the inhibition of both the OX1R and OX2R has demonstrated sedative characteristics in both human and animal models. Unlike most current medications used to treat insomnia, which act on the gamma-aminobutyric acid (GABA) receptor, lemborexant presents a unique mechanism of action.[6][7] Lemborexant is considered a DORA, exerting its sedative effects by reversible competitive binding to, and thus inhibiting, the wakefulness effects of orexin on, OX1R and OX2R, with a stronger affinity to OX2R. The time to peak concentration blood concentration of the drug approximately is 1 to 3 hours.[7]
It has been proposed that taking advantage of this unique mechanism may come with fewer side effects than more commonly prescribed drugs to treat insomnia, such as benzodiazepines. Current medications used to treat insomnia include benzodiazepines and "z-drugs," which act on the GABA receptor, antihistamines that disrupt the wakeful effects of histamine, and trazodone, which exerts its effects on both the serotonergic system and histamine receptors. Benzodiazepines present with a high potential for abuse, and physical and psychological dependence.[8] While still a relatively novel drug, evidence suggests lemborexant may be at least more effective with less potential for dependence than zolpidem, a non-benzodiazepine GABA receptor agonist. Lemborexant effectively reduces sleep latency and maintenance compared to controls. Additionally, lemborexant appears to be more effective at improving sleep maintenance than zolpidem in patients with insomnia.[2][9] Furthermore, there is no evidence of withdrawal symptoms or associations with rebound insomnia upon withdrawal of either 5mg or 10mg lemborexant in both 30 day and 6-month trials.[2]
Normal Dosing Recommendations
Lemborexant is administered orally in doses of either 5 mg or 10 mg immediately before bed. Patients should not use lemborexant if they anticipate waking up before 7 hours after taking the medication, so as not to experience dangerous impairment while awake. The maximum recommended clinical dose of lemborexant should not exceed 10 mg. Additionally, taking this medication with food or before eating may delay its onset of action. Lemborexant is not meant for use in combination with alcoholic beverages. Furthermore, there is no available research on lemborexant in pediatric populations or pregnant or breastfeeding women.
Adverse effects of lemborexant include:
Absolute Contraindication
Narcolepsy is an absolute contraindication of lemborexant.
Drug Interactions or Dosing Modifications
The elimination half-life of lemborexant was 17 hours and 19 hours in 5 mg and 10 mg doses, respectively. Age, body mass index (BMI), race, or sex have no impact on the elimination half-life of the drug. There are no dosage adjustment recommendations in patients with mild, moderate, or severe renal impairment, although patients with severe renal illness may experience excessive somnolence.
Compared to the more popular hypnotic drug zolpidem, lemborexant appears to exhibit far less potential for misuse, and patients who use it do not appear to be at risk for developing dependence or withdrawal symptoms. This characteristic may indicate that lemborexant may be a safer option for patients with a history of addiction or drug abuse. Nonetheless, lemborexant is a Schedule IV-controlled substance with sedative properties and should be used and prescribed with caution. Further research is warranted to investigate the abuse potential for lemborexant. Furthermore, lemborexant should be compared to commonly prescribed GABA agonists other than zolpidem, particularly hypnotic benzodiazepines, as current evidence suggests it may be a safer option.
Clinical evidence to support toxic doses of lemborexant in humans is scarce. In at least one clinical study, 7.5 times of the recommended dose of lemborexant was given to healthy human subjects resulting in dose-dependent increases of somnolence frequency, providing little information regarding toxicity. There is no specific antidote to lemborexant overdose. In the case of a suspected overdose, the protocol of any drug overdose should be followed, with close monitoring from a medical professional.
Managing insomnia with lemborexant requires communication between healthcare providers, including clinicians, pharmacists, nurses, and other healthcare assistants. Patients should be aware of the possible risks of using lemborexant, especially those with pre-existing conditions such as drug abuse disorder or hepatic impairment. While lemborexant appears to be a safe option for treating insomnia in adults, it is a schedule IV-controlled substance and should be treated by patients and healthcare providers as such. Additionally, due to the novelty, and apparent advantages of lemborexant compared to current treatments, further randomized controlled trials are warranted. Lemborexant utilizes a novel mechanism of action, potentially presenting a superior safety profile for adults receiving pharmaceutical treatment for insomnia.[7][10][2] [Level 1]
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[5] | Peyron C,Tighe DK,van den Pol AN,de Lecea L,Heller HC,Sutcliffe JG,Kilduff TS, Neurons containing hypocretin (orexin) project to multiple neuronal systems. The Journal of neuroscience : the official journal of the Society for Neuroscience. 1998 Dec 1; [PubMed PMID: 9822755] |
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[7] | Murphy P,Moline M,Mayleben D,Rosenberg R,Zammit G,Pinner K,Dhadda S,Hong Q,Giorgi L,Satlin A, Lemborexant, A Dual Orexin Receptor Antagonist (DORA) for the Treatment of Insomnia Disorder: Results From a Bayesian, Adaptive, Randomized, Double-Blind, Placebo-Controlled Study. Journal of clinical sleep medicine : JCSM : official publication of the American Academy of Sleep Medicine. 2017 Nov 15; [PubMed PMID: 29065953] |
[8] | Fluyau D,Revadigar N,Manobianco BE, Challenges of the pharmacological management of benzodiazepine withdrawal, dependence, and discontinuation. Therapeutic advances in psychopharmacology. 2018 May; [PubMed PMID: 29713452] |
[9] | Bouchette D,Akhondi H,Quick J, Zolpidem 2020 Jan; [PubMed PMID: 28723037] |
[10] | Rosenberg R,Murphy P,Zammit G,Mayleben D,Kumar D,Dhadda S,Filippov G,LoPresti A,Moline M, Comparison of Lemborexant With Placebo and Zolpidem Tartrate Extended Release for the Treatment of Older Adults With Insomnia Disorder: A Phase 3 Randomized Clinical Trial. JAMA network open. 2019 Dec 2; [PubMed PMID: 31880796] |