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Soli Deo Gloria. Bier Block. Developing Countries Regional Anesthesia Lecture Series Daniel D. Moos CRNA, Ed.D . U.S.A. moosd@charter.net. Lecture 16. Disclaimer.
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Soli Deo Gloria Bier Block Developing Countries Regional Anesthesia Lecture Series Daniel D. Moos CRNA, Ed.D. U.S.A. moosd@charter.net Lecture 16
Disclaimer • Every effort was made to ensure that material and information contained in this presentation are correct and up-to-date. The author can not accept liability/responsibility from errors that may occur from the use of this information. It is up to each clinician to ensure that they provide safe anesthetic care to their patients.
Advantages • Easy to administer • Rapid recovery • Rapid onset • Muscle relaxation
Type of surgery • Open procedures of the hand or lower arm • Closed reductions of the hand or lower arm
Limitation • Time! • Ideal for procedures lasting 40-60 minutes • Maximum time limit is 90 minutes • Tourniquet pain generally starts after 20-30 minutes
Contraindications • Reynaud’s disease • Homozygous sickle cell disease • Crush injuries • Young Children • Must have a reliable/operative tourniquet! If this can not be guaranteed then this technique should not be used due to risk of toxicity!
Mechanism of Action • Not clearly understood. • Local anesthetics, ischemia, asphyxia, hypothermia, and acidosis all may play a role.
Mechanism of Action Adapted from Rosenberg and Heavner, 1985
Equipment • Operative and reliable double toruniquet • Running IV in non-operative arm • Resuscitation equipment • Eschmark bandage
Local Anesthetic Choice • 0.5% lidocaine or 0.5% prilocaine • Dose is 3 mg/kg for either • NEVER USE EPI CONTAINING SOLUTIONS • Complication of prilocaine is methemoglobinemia in doses of > 10 mg/kg • Treat with 1-2 mg/kg of 1% methylene blue given over 5 minutes
Technique • IV catheter in operative arm as distally as possible
Double tourniquet on the operative arm. Technique Proximal Cuff Distal Cuff
Technique • Have patient hold arm up. • Use Eschmark to exsanguinate the arm • Exsanguinate the arm from distal to proximal.
Inflate the proximal tourniquet to 150 mmHg over the patients systolic pressure Proximal Cuff Distal Cuff
Inject your local (0.5% lidocaine or prilocaine in a dose of 3 mg/kg)
Remove IV catheter, hold pressure and have OR staff prep arm. Onset of anesthesia should occur in 5 minutes
When the patient complains of pain you can inflate the distal tourniquet and then deflate the proximal tourniquet 2nd Proximal Cuff 1st Distal Cuff
Minimum time for tourniquet inflation • The tourniquet should be up for at least 25 minutes…releasing it before this may result in toxicity • Releasing the tourniquet in cyclic deflations (10 second intervals) will decrease peak levels of local anesthetic
Complications • Tourniquet discomfort • Rapid return of sensation after tourniquet release and subsequent surgical pain • Toxic reactions from malfunctioning tourniquets or deflating the tourniquet prior to the 25 minute limit
Bier Block Study • 10 patients were enrolled in this prospective study. • The aim was to study the onset, the order of sensory anesthesia, and plasma serum levels of lidocaine were measured at 1,5,10,15,20,25,30,45,60, and 90 minutes after the tourniquet was released. • The tourniquet was elevated for a minimum of 30 minutes prior to release. Simon, Gielen, Vree, Booij. Disposition of lignocaine for intravenous regional anaesthesia during day-case surgery. European Journal of Anaesthesiology. Pp 32-37. 15(1), 2006.
Bier Block Study Results • Mean onset of action for lidocaine was 11.2 minutes (+/- 5.1 minutes). • No fixed sequence of anesthesia (radial, median, and ulnar distributions). • No patient exhibited toxicity. Simon, Gielen, Vree, Booij. Disposition of lignocaine for intravenous regional anaesthesia during day-case surgery. European Journal of Anaesthesiology. Pp 32-37. 15(1), 2006.
Bier Block Study Results • 8 of the 10 patients reached the maximum plasma concentrations of lidocaine 1 minute after tourniquet release. • 2 of the 10 patients had a slow release and peak in concentration of lidocaine. • Delayed release of lidocaine may be explained by a greater degree of absorption into tissue of the arm. Simon, Gielen, Vree, Booij. Disposition of lignocaine for intravenous regional anaesthesia during day-case surgery. European Journal of Anaesthesiology. Pp 32-37. 15(1), 2006.
Local Anesthetic Toxicity • Signs and symptoms may include nausea, vomiting, dizziness, ringing of the ears (tinnitus), funny sensation around the mouth, loss of consciousness, and seizures.
Local Anesthetic Toxicity • Use the A, B, C’s for the management of local anesthetic toxicity. • A= airway. Maintain a patent airway, administer 100% oxygen. • B= breathing. May need to assist the patient with positive pressure ventilation or intubation. • C= circulation. Check for a pulse. If no pulse, initiate CPR. • Seizures. Diazepam in doses of 5 mg, or alternatively sodium pentothal in doses of 50-200 mg will decrease or terminate seizures. • Hypotension. Treat with ephedrine (typically 5 mg) IV, open up intravenous fluids, place the patient in a head down position (Trendelenburg). If hypotension is refractory to ephedrine, treat the patient with epinephrine (5-10 mcg). Repeat and escalate the dose as necessary. • The use of lipids in the treatment of local anesthetic toxicity has shown promise. There are currently no established methods and research continues. For updates please refer to http://lipidrescue.squarespace.com.
References • Burkard J, Lee Olson R., Vacchiano CA. Regional Anesthesia. In Nurse Anesthesia 3rd edition. Nagelhout, JJ & Zaglaniczny KL ed. Pages 977-1030. • Rosenberg, P.H., Heavner, J.E. (1985). Multiple and complementary mechanisms produce analgesia during intravenous regional anesthesia. Anesthesiology, 62, 840-842. • Morgan, G.E., Mikhail, M.S., Murray, M.J. (2006). The practice of anesthesiology. In G.E. Morgan, M.S. Mikhail, M.J. Murray (editors) Clinical Anesthesiology, 4th edition. New York: Lange Medical Books/McGraw-Hill Medical Publishing Division. • Morgan, G.E. & Mikhail, M. (2006). Peripheral nerve blocks. In G.E. Morgan et al Clinical Anesthesiology, 4th edition. New York: Lange Medical Books. • Wedel, D.J. & Horlocker, T.T. Nerve blocks. In Miller’s Anesthesia 6thedtion. Miller, RD ed.Pages 1685-1715. Elsevier, Philadelphia, Penn. 2005. • Wedel, D.J. & Horlocker, T.T. (2008). Peripheral nerve blocks. In D.E. Longnecker et al (eds) Anesthesiology. New York: McGraw-Hill Medical.