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01.09.2006 | Original Paper

Development of an optimal lidocaine infusion strategy for neonatal seizures

verfasst von: Mirte M. Malingré, Linda G. M. Van Rooij, Carin M. A. Rademaker, Mona C. Toet, Tessa F. F. T. Ververs, Charlotte van Kesteren, Linda S. de Vries

Erschienen in: European Journal of Pediatrics | Ausgabe 9/2006

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Abstract

Introduction

Lidocaine is an effective drug for the treatment of neonatal convulsions not responding to traditional anticonvulsant therapy. However, one of the side-effects is a risk of cardiac arrhythmias. The aim of this study was to develop an optimal dosing strategy with minimal risk of cardiac arrhythmias.

Materials and methods

As a first step, we studied 20 neonates during routine treatment of neonatal seizures with lidocaine. All were given a loading dose of 2 mg/kg in 10 min, followed by the continuous infusion of 6 mg/kg per hour for 12 h, 4 mg/kg per hour for 12 h and finally 2 mg/kg per hour for 12 h. Effectiveness, cardiac toxicity and lidocaine plasma concentrations were then determined.

Results

No cardiac arrhythmias were observed, and lidocaine was effective in 76% of the treatments. In most of the treatments (13 out of 20) maximal lidocaine plasma concentrations were >9 mg/L. Plasma levels >9 mg/L have been related to cardiac toxicity when used as an anti-arrhythmic drug in adults. It was of interest that all preterm infants showed high lidocaine plasma levels. Secondly, we developed the optimal dosing regimen, which was defined as an infusion regimen at which maximal lidocaine plasma concentrations are <9 mg/L. Simulations with the developed pharmacokinetic model indicated a reduction in the infusion duration of lidocaine at 6 mg/kg per hour from 12 to 6 h. Thirdly, the new lidocaine dosing regimen was evaluated. Fifteen neonates (16 treatments) were studied. No cardiac arrhythmias were observed, and lidocaine was effective in 78% of the treatments. In most of the treatments (11 out of 16) maximal lidocaine plasma concentrations were <9 mg/L. Again preterm infants showed relatively high lidocaine plasma levels.

Conclusion

A new lidocaine dosing schedule was developed. This new regimen should have a lower risk of cardiac arrhythmias and appears to be as effective in term infants. For preterm infants the optimal regimen needs to be determined.

Beal SL, Boeckman AJ, Sheiner LB (1988–1992)NONMEM: User’s guides, University of California at San Francisco, San Francisco

Benowitz NL, Meister W (1978) Clinical pharmacokinetics of lignocaine. Clin Pharmacokinet 3:177–201PubMedCrossRef

Berger I, Steinberg A, Schlesinger Y, Seelenfreund M, Schimmel MS (2002) Neonatal mydriasis: intravenous lidocaine adverse reaction. J Child Neurol 17:400–401PubMedCrossRef

Blumer J, Strong JM, Atkinson AJ (1973) The convulsant potency of lidocaine and its N-dealkylated metabolites. J Pharmacol Exp Ther 186:31–36PubMed

Burney RG, DiFazio CA, Peach MJ, Petrie KA, Silvester MJ (1974) Anti-arrhythmic effects of lidocaine metabolites. Am Heart J 88:765–769PubMedCrossRef

Campbell TJ, Williams KM (1998) Therapeutic drug monitoring: antiarrhythmic drugs. Br J Clin Pharmacol 46:307–319PubMedCrossRef

DeToledo JC (2000) Lidocaine and seizures. Ther Drug Monit 22:320–322PubMedCrossRef

Ette E, Ludden T (1995) Population pharmacokinetic modeling: the importance of informative graphics. Pharm Res 12: 1845–1855PubMedCrossRef

Ette E (1998) Statistical graphics in pharmacokinetics and pharmacodynamics: a tutorial. Ann Pharmacother 32: 818–828PubMedCrossRef

10.

Gianelly R, von der Groeben JO, Spivack AP, Harrison DC (1967) Effect of lidocaine on ventricular arrhythmias in patients with coronary heart disease. N Engl J Med 277:1215–1219PubMedCrossRef

11.

Hellström-Westas L, Westgren U, Rosén I, Svenningsen NW (1988) Lidocaine for treatment of severe seizures in newborn infants. I. Clinical effects and cerebral electrical activity monitoring. Acta Paediatr Scand 77:79–84PubMedCrossRef

12.

Hellström-Westas L, Svenningsen NW, Westgren U, Rosén I, Lagerstrom PO (1992) Lidocaine for treatment of severe seizures in newborn infants. II. Blood concentrations of lidocaine and metabolites during intravenous infusion. Acta Paediatr 81: 35–39PubMedCrossRef

13.

Howard JJ, Mohsenifar Z, Simons SM (1982) Adult respiratory distress syndrome following administration of lidocaine. Chest 81: 644–645PubMedCrossRef

14.

Jonsson EN, Karlsson MO (1999)Xpose, an S-PLUS based model building aid for population analysis with NONMEM. Comp Meth Prog Biomed 58: 51–64CrossRef

15.

Lie KI, Wellens HJ, van Capelle FJ, Durrer D (1974) Lidocaine in the prevention of primary ventricular fibrillation. A double-blind randomized study of 212 consecutive patients. N Engl J Med 291: 1324–1326PubMedCrossRef

16.

Orlando R, Piccoli P, De Martin S, Padrini R, Floreani M, Palatini P (2004) Cytochrome P450 1A2 is a major determinant of lidocaine metabolism in vivo: effects of liver function. Clin Pharmacol Ther 75: 80–88PubMedCrossRef

17.

Radvanyi-Bouvet MF, Torricelli A, Rey E, Bavoux F, Walti H (1990) Effects of lidocaine on seizures in the neonatal period: some electro-clinical aspects. In: Wasterlain CG, Vert P (eds) Neonatal seizures. Lippincott, Williams and Wilkins, Philadelphia, pp 277–285

18.

Resar LM, Helfaer MA (1998) Recurrent seizures in a neonate after lidocaine administration. J Perinatol 18:193–195PubMed

19.

Rey E, Radvanyi-Bouvet MF, Bodiou C, Richard MO, Torricelli A, Walti H, Olive G (1990) Intravenous lidocaine in the treatment of convulsions in the neonatal period: monitoring plasma levels. Ther Drug Monit 12:316–320PubMedCrossRef

20.

Rothstein P, Dornbusch J, Shaywitz BA (1982) Prolonged seizures associated with the use of viscous lidocaine. J Pediatr 101: 461–463PubMedCrossRef

21.

Van Rooij LG, Toet MC, Rademaker KM, Groenendaal F, de Vries LS (2004) Cardiac arrhythmias in neonates receiving lidocaine as anticonvulsive treatment. Eur J Pediatr 163: 637–641PubMed

Titel: Development of an optimal lidocaine infusion strategy for neonatal seizures
verfasst von: Mirte M. Malingré
Linda G. M. Van Rooij
Carin M. A. Rademaker
Mona C. Toet
Tessa F. F. T. Ververs
Charlotte van Kesteren
Linda S. de Vries
Publikationsdatum: 01.09.2006
Verlag: Springer-Verlag
Erschienen in: European Journal of Pediatrics / Ausgabe 9/2006
Print ISSN: 0340-6199
Elektronische ISSN: 1432-1076
DOI: https://doi.org/10.1007/s00431-006-0136-x

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Development of an optimal lidocaine infusion strategy for neonatal seizures

Abstract

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Materials and methods

Results

Conclusion

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