LOCAL ANESTHETICS By S Bohlooli Ph D School
LOCAL ANESTHETICS By S. Bohlooli, Ph. D School of Medicine, Ardabil University of Medical Sciences
INTRODUCTION
HISTORY Cocaine, the first local anesthetic introduced into medical practice, was isolated by Niemann in 1860 Procaine was synthesized by Einhorn in 1905 Lidocaine, which is still a widely used local anesthetic, was synthesized in 1943 by Löfgren.
BASIC PHARMACOLOGY OF LOCAL ANESTHETICS
CHEMISTRY: STRUCTURE ESTER Cocaine Tetracaine (Pontocaine) Procaine (Novocain) Benzocaine
CHEMISTRY: STRUCTURE AMIDES Lidocaine (Xylocaine) Bupivacaine; Levobupivacaine Mepivacaine Ropivacaine (Naropin)
CHEMISTRY Local anesthetics are weak bases the p. Ka of most local anesthetics is in the range of 8. 0– 9. 0 Cationic form is the most active form The uncharged form is important for rapid penetration of biologic membranes
PHARMACOKINETICS Local anesthetics are usually administered by injection into dermis and soft tissues around nerves Absorption and distribution are not as important
ABSORPTION Systemic absorption of injected local anesthetic depends on: � Dosage � Site of injection � Drug-tissue binding � Local tissue blood flow � Use of vasoconstrictors (eg, epinephrine) � Physicochemical properties of the drug
DISTRIBUTION, METABOLISM AND EXCRETION The amide local anesthetics are widely distributed after intravenous bolus administration The local anesthetics are converted in the liver (amide type) or in plasma (ester type) to more water -soluble metabolites Decreased hepatic elimination of local anesthetics would be anticipated in patients with reduced hepatic blood flow or hepatic diseases
PHARMACODYNAMICS: MECHANISM OF ACTION
PHARMACODYNAMICS The function of sodium channels can be disrupted in several ways: � batrachotoxin, bind to receptors within the channel and prevent inactivation � tetrodotoxin aconitine, veratridine (TTX) and saxitoxin block sodium channels by binding to channel receptors near the extracellular surface Spinal neurons can be differentiated on the basis of tetrodotoxin effect into: � TTX-sensitive � TTX-resistant neurons
PHARMACODYNAMICS With increasing concentrations of a local anesthetic � The threshold for excitation increases � Impulse conduction slows � The rate of rise of the action potential declines � The action potential amplitude decreases � The ability to generate an action potential is completely abolished These effects result from binding of the local anesthetic to more and more sodium channels
EFFECT OF EXTRA CELLURAR IONS Increase in extracellular calcium partially antagonizes the action of local anesthetics Owing to the calcium-induced increase in the surface potential on the membrane. Increases in extracellular potassium enhancing the effect of local anesthetics. : � Depolarize the membrane potential and favor the inactivated state. �
RELATIVE SIZE AND SUSCEPTIBILITY OF DIFFERENT TYPES OF NERVE FIBERS TO LOCAL ANESTHETICS Fiber Type Function Diameter (m) Myelination Conduction Velocity (m/s) Sensitivity to Block Type A Alpha Proprioception, motor 12– 20 Heavy 70– 120 + Beta Touch, pressure 5– 12 Heavy 30– 70 ++ Gamma Muscle spindles 3– 6 Heavy 15– 30 ++ Delta Pain, temperature 2– 5 Heavy 5– 25 +++ Preganglionic autonomic <3 Light 3– 15 ++++ Type C Dorsal root Pain 0. 4– 1. 2 None 0. 5– 2. 3 ++++ Sympathetic Postganglionic 0. 3– 1. 3 None 0. 7– 2. 3 ++++ Type B
NERVE FIBERS DIFFER SIGNIFICANTLY IN THEIR SUSCEPTIBILITY Effect of Fiber Diameter Effect of Firing Frequency Effect of Fiber Position in the Nerve Bundle Effects on Other Excitable Membranes
CLINICAL PHARMACOLOGY OF LOCAL ANESTHETICS
CLINICAL PHARMACOLOGY Can provide highly effective analgesia in welldefined regions of the body The usual routes of administration � Topical application � Injection in the vicinity of peripheral nerve endings (perineural infiltration) � Injection in the vicinity of major nerve trunks (blocks) � Injection into the epidural or subarachnoid spaces surrounding the spinal cord � Intravenous regional anesthesia (Bier block)
Schematic diagram of the typical sites of injection of local anesthetics in and around the spinal canal
THE CHOICE OF LOCAL ANESTHETIC The choice of local anesthetic is usually based on the duration of action required � Short-acting: Procaine and chloroprocaine � Intermediate lidocaine, mepivacaine, and prilocaine � long-acting duration : : tetracaine, bupivacaine, levobupivacaine, and ropivacaine
SOME TIPS The onset of local anesthesia can be accelerated by the addition of sodium bicarbonate Repeated injections of local anesthetics can result in loss of effectiveness Pregnancy appears to increase susceptibility to local anesthetic toxicity
TOXICITY Central Nervous System Neurotoxicity � Lidociaine Cardiovascular System � Bupivacaine Hematologic Effects � Prilocaine: metabolite o-toluidine Allergic Reactions � The ester-type local anesthetics: p-aminobenzoic acid derivatives
- Slides: 22