Abstract
A previously reported method of measuring tricyclic antidepressant concentrations in brain tissue and plasma was used to measure amitriptyline (AMI) in rats following drug administration using different routes, doses, and time intervals. In rats given AMI intraperitoneally (IP), brain concentrations increased during the first 30 min after drug adminstration and then declined. Brain concentrations increased linearly with changes in IP dosage and increased logarithmically with changes in intravenous dosage. No simple relationship existed between brain and plasma concentrations in acutely dosed rats. However, a linear relationship existed between plasma and brain concentrations in chronically treated animals (r=0.96, P<0.001). The brain: plasma drug ratios observed in chronically treated rats corresponded to ratios reported in man. Thus, conclusions drawn from these studies can probably be extrapolated to the clinical situation. Based on our data, the molar concentration of drug achieved on therapeutic doses is 10-5–10-6 M. This information may aid in understanding the clinical relevance of in vitro drug: receptor binding studies which are typically reported in molar concentrations.
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References
Angst J, Brandenberger H, Hermmann B (1967) Suicide mit opipramol (Insidon). Psychopharmacologia 11:174–178
Babulova A, Bareggi S, Bonaccorsi A (1973) Correlation between desipramine levels and (-)-noradrenaline uptake and chronotropic effect in isolated atria of rats. Br J Pharmacol 48:464–474
Bickel MH, Bronchon R, Friolet B, Herrmann B, Stofer A (1967) Clinical and biochemical results of a fatal case of desipramine intoxication. Psychopharmacologia 10:431–436
Bickel MH (1975) Poisoning by tricyclic antidepressant drugs. J Clin Pharmacol 11(2):145–176
Borga O, Azarnoff D, Sjoquist F (1968) Species difference in the plasma protein binding of desipramine. J Pharm Pharmacol 20:571
Kappus H (1976) Irreversible protein binding of 14C-imipramine in rats in vivo. Arch Toxicol 37:75–80
Munksgaard H (1969) Concentrations of amitriptyline and its metabolites in urine, blood and tissue in fatal amitriptyline poisoning. Acta Pharmacol Toxicol 27:129–134
Nelson SW, Mantz ML, Maxwell J (1971) Use of specific gravity in the measurement of cerebral edema. J Appl Physiol 30(2):268–271
Preskorn SH, Hartman B, Irwin G, Hughes C (1982) The role of the central adrenergic system in mediating dibenzazepine (tricyclic antidepressant)-induced alteration in the mammalian blood: brain barrier in vivo. J Pharm Exp Ther (in press)
Preskorn SH, Glotzbach RK (1982) A liquid chromatographic method for quantitating amitriptyline in brain tissue. Psychopharmacologia, in press
Sunshine I, Baumler J (1963) A fatal case of poisoning with amitriptyline. Nature 199:1103–1104
Worm K (1969) Fatal amitriptyline poisoning: determination of the drug in forensic-chemical material. Acta Pharmacol Toxicol 27:439–444
Ziegler V, Co B, Taylor J, Clayton P, Biggs J (1976) Amitriptyline plasma levels and therapeutic response. Clin Pharmacol Ther 19:795–801
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Glotzbach, R.K., Preskorn, S.H. Brain concentrations of tricyclic antidepressants: Single-dose kinetics and relationship to plasma concentrations in chronically dosed rats. Psychopharmacology 78, 25–27 (1982). https://doi.org/10.1007/BF00470582
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DOI: https://doi.org/10.1007/BF00470582