Barbiturates


Article Author:
Jeanie Skibiski


Article Editor:
Sara Abdijadid


Editors In Chief:
Melissa Max
Danyae Lee
Manouchkathe Cassagnol


Managing Editors:
Avais Raja
Orawan Chaigasame
Carrie Smith
Abdul Waheed
Khalid Alsayouri
Trevor Nezwek
Radia Jamil
Patrick Le
Anoosh Zafar Gondal
Saad Nazir
William Gossman
Hassam Zulfiqar
Hussain Sajjad
Steve Bhimji
Muhammad Hashmi
John Shell
Matthew Varacallo
Heba Mahdy
Ahmad Malik
Sarosh Vaqar
Mark Pellegrini
James Hughes
Beata Beatty
Beenish Sohail
Nazia Sadiq
Hajira Basit
Phillip Hynes


Updated:
3/18/2019 10:46:43 AM

Indications

Barbiturates are a group of sedative-hypnotic medications used for the treatment of seizure disorder, neonatal withdrawal, insomnia, preoperative anxiety, induction of coma for increased intracranial pressure. They are also useful for inducing anesthesia.

Phenobarbital has extensive use as an antiepileptic drug in the neonatal and pediatric population. It is the most cost-effective drug treatment for epilepsy in adults in low resource countries.[1] Intravenous barbiturates have been used for neurosurgery due to the reduction in cerebral metabolic rate of oxygen consumption.[2] For individuals with severe traumatic brain injury (TBI), high-dose barbiturates may be a consideration but are not indicated for prophylactic administration.[3]  In a review of practice in five European countries, about 20% of patients received barbiturates.[4] In the treatment of refractory status epilepticus, a Cochrane Review found that thiopental was equally effective as propofol for control of seizure activity.[5]

Thiopental was introduced in 1934 for induction of anesthesia for general anesthesia.[6] Thiopental was the predominant IV anesthetic induction agent until its replacement by propofol.[7] Because of its use in lethal injection protocols, the major supplier of thiopental in the US elected to discontinue production in 2011.[8]

Methohexital has demonstrated safety and effectiveness for procedural sedation of short duration for cardioversion,[9] pediatric outpatient surgery,[10] emergency department fracture reduction,[11] and sedation for elective intubation in neonates.[12] Methohexital has preferential use in electroconvulsive therapy due to its longer seizure duration.[2]

Mechanism of Action

Barbiturates are linked to postsynaptic enhancement of GABA, interacting with alpha and beta subunits of the GABA receptor.[13]  Barbiturates increase chloride ion flux which results in GABA-induced post-synaptic inhibition. Phenobarbital and pentobarbital affect the GABA receptors with a dose-dependent response.   At higher micromolar concentrations associated with anesthetic levels, these drugs directly activate chloride channels.[14] Both barbiturates and benzodiazepines interact with GABA receptors, but barbiturates are unique in that they potentiate GABA receptors while increasing chloride ion influx.[15]

Barbiturate classification is according to the duration of their action, IV formulations of thiopental and methohexital are in the ultrashort-acting class.  The short and intermediate-acting have an effect lasting 2 to 6 hours.  This classification includes sleeping pills pentobarbital, secobarbital, amobarbital, and butabarbital.  Long-acting barbiturates have an effect of longer than 6 hours and include barbital and phenobarbital.[16]

Structure-Activity relationships

The German chemist Adolf von Baeyer synthesized barbituric acid (malonylurea)in 1864.[14]  The date of this discovery was December 4, the feast day of Saint Barbara which was the inspiration for the compound’s name.[17]  Barbituric acid was the basis of many other formulations patented by the Bayer company. Barbituric acid had no innate central nervous system activity, due it's lack of lipophilicity. A lipophilic derivative of barbituric acid was developed (barbital,5,5-diethylbarbituric acid) and was successfully used to induce sleep in dogs.[14] Amylobarbitone became the first intravenous anesthetic used in 1928.[17]

The formulation of parenteral dosage forms came with the addition of sodium at the C2 position.[17] Lipophilicity was enhanced by Volviler and Tabern with the addition of a sulfur group while replacing an oxygen atom, creating the thiobarbiturates in 1934.[17]  In 1957 Methohexital was created by Stoelting with the addition of an aliphatic side chain at carbon 5, along with methylation of the nitrogen atom.[15]

The R(+) isomer of many barbiturates produces excitatory effects, while the S(-) isomers produce more depressant effects.[18]

Pharmacokinetics

Ultrashort-acting IV barbiturates

Terminating the effect of a single bolus IV injection of thiopental occurs by redistribution from the central compartment to peripheral compartments and takes about 2 to 4 minutes.[19]  The elimination half-life for thiopental is about 5 hours.[20] Metabolism plays an insignificant role in patient-awakening after a single bolus.[21] In low doses of 5mg/kg boluses, thiopental observes first-order kinetics.  In high-dose or prolonged infusions, non-linear kinetics will occur due to the progressive saturation of enzyme systems.[22] Age-related changes have been demonstrated in pharmacokinetics due to slower intercompartment clearance in the elderly[21], resulting in higher serum concentrations with smaller drug doses.[23]  In children, a shorter elimination half-time occurs due to greater hepatic clearance.[19]

Phenobarbital has frequent use in the pediatric population; half-lives range between 59 to 182 hours.[24] With organ maturation, variations may occur in clearance, so that frequent determinations of drug concentration are necessary.

Administration

When administered as an antiepileptic drug for pediatric patients, phenobarbital may be given as a loading dose IV, followed by IV or enteral administration.[25]

Both methohexital and thiopental may be administered rectally in pediatrics, particularly if the child is unable to a cooperative in IV needle insertion. This method is best suited in procedures of short duration such as radiology or dentistry.[26][27]

When using the IV route of administration in pediatrics wide variation in the required dose has been noted.  Cote recommended a higher dose range for unpremeditated children.[28]

The indication for use typically determines the route of administration for adults. Maintenance therapy for antiepileptic drugs in adults is typically the oral route; other first-line drugs have replaced phenobarbital.[29]

Barbiturates administered for the induction of anesthesia in adults are most commonly given as an IV bolus for a rapid and pleasant loss of consciousness.

Adverse Effects

Drug interactions with oral barbiturates have been a frequent topic of research. Phenobarbital is known to be an inducer of the cytochrome enzyme system, specifically the 1A2, 2B6, 2C9 and 3A4/5 isozymes that will reduce the efficacy of warfarin, steroids, oral contraceptives, psychoactive, immunosuppressants. Phenobarbital will also lower the plasma concentrations other antiepileptic drugs such as lamotrigine, oxcarbazepine, phenytoin, tiagabine, valproate.[30]

For women taking phenobarbital as monotherapy, the drug has correlations with congenital defects in exposed infants.[1]

When given in IV anesthetics, barbiturates will produce a reduction in blood pressure and increase in heart rate. Respiratory depression and apnea may occur.[15]

Thiopental and thiamylal have been shown to release histamine, while methohexital and pentobarbital have minimal histamine release.[31]

Extravasation of thiopental (a vesicant) may cause severe tissue necrosis. If extravasation occurs, treatment measures include hyaluronidase and phentolamine.[32] Case reports of successful treatment also include topical application of eutectic mixture of local anesthetics (EMLA) along with the local injection of lidocaine.[33]

The placental transfer occurs within 1 minute of administration.[15] Neonatal depression may occur if used as an induction agent for cesarean section.

Breastfeeding concerns: Limited data is available.  Concerning the short-acting IV barbiturates; in mothers who received methohexital was found in breastmilk at the highest levels 1 to 2 hours after an IV dose and undetectable 24 to 48 hours after an IV dose.[34]  For thiopental when used for induction of anesthesia for cesarean section, the highest level of thiopental in breast milk was in the first nursing after anesthesia, about .9mg/L[35] Data on the effects of phenobarbital show that there is inter and intrapatient variability of excretion into breastmilk. In a series of breastfeeding infants, for each mg/kg of phenobarbital taken by mothers, the infant’s serum concentration increased by 2 to 5 mg/L.  Several case reports exist of infant sedation occurring in mothers treated with phenobarbital.[36]

Contraindications

Absolute contraindications for any barbiturate include status asthmaticus and acute and intermittent variegate porphyria.[15]

Monitoring

Due to the abuse potential of barbiturates, restricted access started with the passage of the Federal Comprehensive Drug Abuse and Control Act of 1970. Barbiturates classify as Schedule II-IV based on their abuse potential.[37]

Development of Tolerance and Dependence.  

Tolerance is a gradual loss of effectiveness such that the dose has to be increased to maintain the same effect.[16]  This effect is explainable in part from enzyme induction in the liver. Animal models have demonstrated tolerance. 

Withdrawal symptoms may occur: nervousness, tremor, agitation, and hypotension may develop 2 to 8 days after the abrupt discontinuation of barbiturates. Additionally, the patient may develop delirium or grand mal seizures.[16]

Phenobarbital has a narrow therapeutic range of 10 to 30 mg/L, with 80mg/L reported as being fatal.[38] A Cochrane review found no clear evidence of a benefit to routine serum monitoring of drug levels for antiepileptic drugs. Dose titration to control of seizures was found to be effective.[39]

Toxicity

Acute barbiturate toxicity may occur as the result of an intentional or unintentional overdose. Barbiturates have a history of abuse, New York City Health Department data showed 8469 cases of barbiturate poisoning in the period between 1957 through 1963.[40]  Overdosage of phenobarbital symptoms includes CNS depression, respiratory failure, and hemodynamic instability. No antidote exists. Treatment of an overdose includes supportive care, activated charcoal, and urinary alkalinization. Case reports exist of successful treatment of overdosage with hemodialysis.[38]

Enhancing Healthcare Team Outcomes

Barbiturates have historically been a widely prescribed class of drugs both in and out of the hospital. Benzodiazepines have largely replaced them when used for anti-anxiety or insomnia. IV anesthetic uses of barbiturates are minimal for two reasons:

  • After 2011, most major manufacturers no longer produced thiopental or methohexital
  • The preferred routine IV anesthetic induction agent has become propofol due to its availability, rapid onset and offset

Phenobarbital continues to be used as a second-line antiepileptic drug in the US and has frequent use in low-resource countries as a first-line drug due to its low cost. All healthcare workers including nurses who prescribe these agents must be fully aware of the side effects, misuse, drug-drug interactions, and the potential to develop physical dependence. Further, the healthcare worker must know how to resuscitate the patient in case of an overdose.

Barbiturates are controlled substances; thus all DEA prescriptive requirements must be met.


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Barbiturates - Questions

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An elderly patient is taken to the emergency department by family members who are concerned about her drowsiness. She has a history of grand mal seizures and takes an unknown antiepileptic medication. Which of the following antiepileptic medications may cause central nervous system sedation?



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An 8-year old child presents with poorly controlled grand mal seizures. He is currently taking a daily oral dose of phenobarbital. What is the mechanism of action of phenobarbital?



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Barbiturates - References

References

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