Bupivacaine


Article Author:
Fourutan Shafiei


Article Editor:
Javier Lopez


Editors In Chief:
Donald Kushner
Annabelle Dookie


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
Steve Bhimji
John Shell
Matthew Varacallo
Heba Mahdy
Ahmad Malik
Sarosh Vaqar
Mark Pellegrini
James Hughes
Beata Beatty
Nazia Sadiq
Hajira Basit
Phillip Hynes
Tehmina Warsi


Updated:
8/17/2019 3:59:53 PM

Indications

Bupivacaine is a potent local anesthetic with unique characteristics from the amide group of local anesthetics, first discovered in 1957. Local anesthetics are used in regional anesthesia, epidural anesthesia, spinal anesthesia, and local infiltration. Local anesthetics generally block the generation of an action potential in nerve cells by increasing the threshold for electrical excitation. The progression of anesthesia is dependent on factors such as the diameter, degree of myelination, and conduction velocity of nerve fibers. In clinical practice, the order of a loss of nerve function is as follows[1][2]:

  1. Pain
  2. Temperature
  3. Touch
  4. Proprioception
  5. Skeletal muscle tone

Mechanism of Action

All local anesthetics contain three structural components: an aromatic ring, a connecting group which is either an ester (procaine) or an amide (bupivacaine), and an ionizable amine group. All LAs have two chemical properties that determine their activity:

  1. Lipid solubility
  2. Ionization constant (pKa)

Lipid solubility determines potency, duration of action, and plasma-protein binding of local anesthetics. Local anesthetics enter nerve fibers as a neutral free base. Ionized forms and the cationic form blocks conduction by its interaction on the inner surface of the Na+ channel. Moreover, LAs with lower pKa have a more rapid onset of action, meaning more of it exists in an uncharged form, which renders faster diffusion to the cytoplasmic side of the Na+ channel.

Na+ channels are membrane proteins that propagate action potentials in axons, dendrites, and muscle tissue. They initiate and maintain membrane potential in specialized heart and brain cells. Depending on the tissue Na+, channels contain one larger alpha subunit and one or two smaller beta-subunits.

The alpha subunit, the site of ion conduction, and local anesthetic binding have four similar domains, each with six alpha-helical membrane-spanning segments. The external surface of the alpha-subunit is heavily glycosylated, which allows the channel to orient properly within the cytoplasmic membrane. In contrast to local anesthetics, scorpion toxins and tetrodotoxin have binding sites on the extracellular surface of the Na+ channel.

Conduction of nerve impulses is through the generation of an action potential along an axon — local anesthesia results when LAs bind Na+ channel and inhibit the Na+ permeability necessary for the action potential. Local anesthetics selectively inhibit the open form of voltage-gated Na+ channels. Na+ channel blockade results in the decrease or elimination of conduction in vascular smooth muscle, leading to relaxation. In the heart, this leads to decreased pacemaker activity and prolongation of the refractory period. This action is unique to bupivacaine due to its decreased rate of dissociation from blocked sodium channels, which leads to prolongation of the maximal rate of depolarization (Vmax) and potential for ventricular arrhythmias. Also, LAs produce a dose-dependent myocardial depression and interference with Ca2+ signaling within the cardiac muscle because they also bind and inhibit cardiac voltage-gated Ca2+ and K+ channels.

Local anesthetics also bind beta-adrenergic receptors and inhibit epinephrine-stimulated cAMP formation, which can explain the refractoriness of bupivacaine CV toxicity to standard resuscitation guidelines. In the central nervous system (CNS), local anesthetics may cause increased excitability, followed by its depression.

Neuronal tissues have different susceptibility to local anesthetics. Depolarizing currents in nerves move along nodes of Ranvier, and 2-3 nodes must be blocked to impair neuronal conduction completely. Smaller fibers have smaller internodal distance and, therefore, get blocked by local anesthetics more quickly.[3]

Administration

Bupivacaine is offered in three different concentrations: 0.25%, 0.5%, and 0.75%.

Administration is by local infiltration (post-surgical analgesia), peripheral nerve blocks (dental or other minor surgical procedures, orthopedic surgery), spinal anesthesia (injected into the CSF to produce anesthesia for orthopedic surgery, abdominal surgery, or cesarean delivery), epidural anesthesia/analgesia for labor pain, and for caudal block (anesthesia and analgesia below the umbilicus, usually for pediatric surgery).[4]

Adverse Effects

The dose of bupivacaine depends on the procedure, the vascularity of the tissue, the area, the number of segments blocked, the depth or duration of anesthesia needed, and the physical condition of the patient. Bupivacaine may interact with ergot medications used for migraine headaches, blood thinners, antidepressants, or monoamine oxidase inhibitors. Immunologic reactions to local anesthetics are rare. Allergic reactions to preservative-free amide-type local anesthetics are rare and usually not reported. A true anaphylactic response appears more common with ester local anesthetics or preservative/epinephrine-containing local anesthetics often gets misdiagnosed as allergic reactions. Patients may also react to preservatives such as methylparaben, which are included with local anesthetics.  Reports exist of methemoglobinemia in association with benzocaine, as well as lidocaine and prilocaine. O-toluidine, the liver metabolite of prilocaine, is a potent oxidizer of hemoglobin to methemoglobin. At low levels (1% to 3%), methemoglobinemia can be asymptomatic, but higher concentrations (10% to 40%) may accompany cyanosis, cutaneous discoloration (gray), tachypnea, dyspnea, exercise intolerance, fatigue, dizziness, syncope, and weakness.

Some more common adverse effects include nausea, vomiting, chills or shivering, headache, back pain, dizziness, sexual dysfunction, restlessness, anxiety, vertigo, tinnitus, blurry vision, tremors which may precede more severe adverse effects such as convulsions, myoclonic jerks, coma, and cardiovascular collapse.[2]

Contraindications

Contraindications include hypersensitivity to the drug or its components, hypersensitivity to amide anesthetics, infection at the injection site, obstetric paracervical block, obstetric anesthesia using 0.75% concentration, intravenous regional anesthesia, and intra-articular continuous infusion. Use with caution in patients with hypersensitivity to sulfites, liver impairment (the liver clears amides), kidney impairment, impaired cardiac function, heart block, hypovolemia, hypotension, and elderly, debilitated, or acutely ill patients.[5]

Monitoring

Standard monitoring required during the administration of bupivacaine includes

  1. Continuous EKG
  2. SpO2
  3. Blood pressure.

Ask patients to report any numbness around the lips or mouth, metallic taste, ringing in their ears, tremors, and ominous feelings. If the patient reports any of these symptoms, the administration of bupivacaine must stop immediately, and treatment as per guidelines must follow.[2]

Toxicity

Most local anesthetics produce similar signs and symptoms, but the ratio of neurotoxicity to cardiotoxicity may be different, with bupivacaine being the most cardiotoxic. The incidence of toxicity is rare: 1 to 1000 to 1 to 10000. Be concerned for local anesthetic toxicity (LAST) with abnormal cardiovascular or neurological signs and symptoms.

The site at which local anesthetic is administered also increases the chance of toxicity.  IV injection is the most common reason for local anesthetic toxicity, and the toxic dose of bupivacaine is over 3mg/kg.

Most-to-Least toxic sites IV>Intercostal>Caudal>Epidural>Interfascial plane blocks of the abdominal wall (TAP)> Psoas compartment blocks>Sciatic blocks>Cervical plexus block>Brachial plexus block.

Pathophysiology

At therapeutic levels, local anesthetics block voltage-gated Na-channels at alpha subunit inside the channel, preventing Na+ influx, preventing depolarization and action potential generation. At toxic levels, they affect cardiac Na+-channels and neurons in the brain, blocking K+, Ca2+, and NMDA receptors. Local anesthetics also interfere with cellular processes, including oxidative phosphorylation, free fatty acid utilization, and cAMP production. Toxic levels of local anesthetics on the heart lead to conduction irregularities, impaired cardiac contractility, and the loss of vascular tone secondary to extreme vasodilation.

Signs and Symptoms

Neurological

  • Early - perioral tingling, tinnitus, blurry vision, and tongue paresthesias, advances to CNS depression (slurred speech and drowsiness),
  • Late agitation, confusion, AMS, seizures. Depressive phase - coma and respiratory depression.

Cardiovascular

Hypertension and tachycardia: intermediate myocardial depression and hypotension. Terminal - vasodilation, severe hypotension, dysrhythmias, conduction blocks, and asystole.

Hypercarbia

Lowers seizure threshold and increases cerebral blood flow, leading to more local anesthetic into the brain. Acidosis also impairs protein binding of local anesthetic and leads to a more free fraction in plasma, which leads to more local anesthetic delivery to the brain.

Treatment

The first step is to call for help. The treatment basis is on presenting symptoms. Treat seizures with GABA agonists. Treat convulsions with paralytics and airway management. Vasopressors may necessary, although in some animal models they have been shown to promote CNS toxicity but do not hold because of the potential cardiovascular toxicity. Total cardiovascular collapse may receive treatment with CPR plus based on the source with 1.5 to 4 mL/kg bolus of 20% lipid solution followed by 0.25 to 0.5 mL/kg/min infusion for 10 to 60 minutes. For detailed, step-by-step treatment guidelines, please refer to Treatment Guidelines for LAST from the American Society of Regional Anesthesia (ASRA).[2]

Enhancing Healthcare Team Outcomes

Bupivacaine is administered to patients by many healthcare professionals, including the surgeon, anesthesiologist, pain specialist, emergency department physician, and nurse practitioner. However, all healthcare workers who do administer the drug must know its potential side effects and toxicity.

Resuscitative equipment must be in the room at the time of the injection, and surgical nurses must be familiar with the proper use of this equipment in an emergency. The most common reason for a complication is an injection of the drug into the artery or vein, which can result in adverse cardiac and CNS effects.[6][7]

Pharmacists can be involved in preparing the agents and verifying proper dosing and administration, working with the anesthesiologist or nurse anesthetist. They can also assist in cases of toxicity with the needed drugs to address toxic states.

Bupivacaine use requires an interprofessional team approach, including physicians, specialists, specialty-trained nurses, and pharmacists, all collaborating across disciplines to achieve optimal patient results. [Level V]


Interested in Participating?

We are looking for contributors to author, edit, and peer review our vast library of review articles and multiple choice questions. In as little as 2-3 hours you can make a significant contribution to your specialty. In return for a small amount of your time, you will receive free access to all content and you will be published as an author or editor in eBooks, apps, online CME/CE activities, and an online Learning Management System for students, teachers, and program directors that allows access to review materials in over 500 specialties.

Improve Content - Become an Author or Editor

This is an academic project designed to provide inexpensive peer-reviewed Apps, eBooks, and very soon an online CME/CE system to help students identify weaknesses and improve knowledge. We would like you to consider being an author or editor. Please click here to learn more. Thank you for you for your interest, the StatPearls Publishing Editorial Team.

Bupivacaine - Questions

Take a quiz of the questions on this article.

Take Quiz
Which local anesthetic has the longest duration of action?



Click Your Answer Below


Would you like to access teaching points and more information on this topic?

Improve Content - Become an Author or Editor and get free access to the entire database, free eBooks, as well as free CME/CE as it becomes available. If interested, please click on "Sign Up" to register.

Purchase- Want immediate access to questions, answers, and teaching points? They can be purchased above at Apps and eBooks.


Sign Up
At equipotent doses, which of the following local anesthetics has the greatest blocking effect at the atrioventricular node?



Click Your Answer Below


Would you like to access teaching points and more information on this topic?

Improve Content - Become an Author or Editor and get free access to the entire database, free eBooks, as well as free CME/CE as it becomes available. If interested, please click on "Sign Up" to register.

Purchase- Want immediate access to questions, answers, and teaching points? They can be purchased above at Apps and eBooks.


Sign Up
A newborn Gomco circumcision is performed. Bupivacaine is used for the penile block. When would the effect of Bupivacaine wear off?



Click Your Answer Below


Would you like to access teaching points and more information on this topic?

Improve Content - Become an Author or Editor and get free access to the entire database, free eBooks, as well as free CME/CE as it becomes available. If interested, please click on "Sign Up" to register.

Purchase- Want immediate access to questions, answers, and teaching points? They can be purchased above at Apps and eBooks.


Sign Up
Which is false about bupivacaine?



Click Your Answer Below


Would you like to access teaching points and more information on this topic?

Improve Content - Become an Author or Editor and get free access to the entire database, free eBooks, as well as free CME/CE as it becomes available. If interested, please click on "Sign Up" to register.

Purchase- Want immediate access to questions, answers, and teaching points? They can be purchased above at Apps and eBooks.


Sign Up
Which is not a factor influencing blood levels of bupivacaine and other local anesthetic agents?



Click Your Answer Below


Would you like to access teaching points and more information on this topic?

Improve Content - Become an Author or Editor and get free access to the entire database, free eBooks, as well as free CME/CE as it becomes available. If interested, please click on "Sign Up" to register.

Purchase- Want immediate access to questions, answers, and teaching points? They can be purchased above at Apps and eBooks.


Sign Up
Which local anesthetic is thought to have the highest risk of causing cardiac collapse after inadvertent intravascular injection?



Click Your Answer Below


Would you like to access teaching points and more information on this topic?

Improve Content - Become an Author or Editor and get free access to the entire database, free eBooks, as well as free CME/CE as it becomes available. If interested, please click on "Sign Up" to register.

Purchase- Want immediate access to questions, answers, and teaching points? They can be purchased above at Apps and eBooks.


Sign Up
Which of the following local anesthetics belongs to the amide group of local anesthetics?



Click Your Answer Below


Would you like to access teaching points and more information on this topic?

Improve Content - Become an Author or Editor and get free access to the entire database, free eBooks, as well as free CME/CE as it becomes available. If interested, please click on "Sign Up" to register.

Purchase- Want immediate access to questions, answers, and teaching points? They can be purchased above at Apps and eBooks.


Sign Up

Bupivacaine - References

References

[Disputable issues of Malamed's "Handbook of local anesthesia" (2004)]., Petrikas AZh,Ol'khovskaia EB,Medvedev DV,Diubań≠lo MV,, Stomatologiia, 2013     [PubMed]
Shah J,Votta-Velis EG,Borgeat A, New local anesthetics. Best practice     [PubMed]
Wolfe RC,Spillars A, Local Anesthetic Systemic Toxicity: Reviewing Updates From the American Society of Regional Anesthesia and Pain Medicine Practice Advisory. Journal of perianesthesia nursing : official journal of the American Society of PeriAnesthesia Nurses. 2018 Dec     [PubMed]
Li J,Duan R,Zhang Y,Zhao X,Cheng Y,Chen Y,Yuan J,Li H,Zhang J,Chu L,Xia D,Zhao S, Beta-adrenergic activation induces cardiac collapse by aggravating cardiomyocyte contractile dysfunction in bupivacaine intoxication. PloS one. 2018     [PubMed]
Iskander A,Gan TJ, Novel analgesics in ambulatory surgical patients. Current opinion in anaesthesiology. 2018 Dec     [PubMed]
Teunkens A,Vermeulen K,Peters M,Fieuws S,Van de Velde M,Rex S, Bupivacaine infiltration in children for postoperative analgesia after tonsillectomy: A randomised controlled trial. European journal of anaesthesiology. 2019 Mar;     [PubMed]
Hussain N,McCartney CJL,Neal JM,Chippor J,Banfield L,Abdallah FW, Local anaesthetic-induced myotoxicity in regional anaesthesia: a systematic review and empirical analysis. British journal of anaesthesia. 2018 Oct;     [PubMed]

Disclaimer

The intent of StatPearls is to provide practice questions and explanations to assist you in identifying and resolving knowledge deficits. These questions and explanations are not intended to be a source of the knowledge base of all of medicine, nor is it intended to be a board or certification review of Surgery-Podiatry APMLE Part 3. The authors or editors do not warrant the information is complete or accurate. The reader is encouraged to verify each answer and explanation in several references. All drug indications and dosages should be verified before administration.

StatPearls offers the most comprehensive database of free multiple-choice questions with explanations and short review chapters ever developed. This system helps physicians, medical students, dentists, nurses, pharmacists, and allied health professionals identify education deficits and learn new concepts. StatPearls is not a board or certification review system for Surgery-Podiatry APMLE Part 3, it is a learning system that you can use to help improve your knowledge base of medicine for life-long learning. StatPearls will help you identify your weaknesses so that when you are ready to study for a board or certification exam in Surgery-Podiatry APMLE Part 3, you will already be prepared.

Our content is updated continuously through a multi-step peer review process that will help you be prepared and review for a thorough knowledge of Surgery-Podiatry APMLE Part 3. When it is time for the Surgery-Podiatry APMLE Part 3 board and certification exam, you will already be ready. Besides online study quizzes, we also publish our peer-reviewed content in eBooks and mobile Apps. We also offer inexpensive CME/CE, so our content can be used to attain education credits while you study Surgery-Podiatry APMLE Part 3.