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A comparison of methods for limited-sampling strategy design using data from a phase I trial of the anthrapyrazole DuP-941 (1996)

Jodrell, D. I. ; Murray, Lilian S. ; Hawtof, Jeffrey ; [et al.]

Springer

Cancer chemotherapy and pharmacology 37 (1996), S. 356-362

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ISSN: 1432-0843

Keywords: Key words DuP-941 ; Pharmacokinetics ; Limited-sampling strategy

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The pharmacokinetics of a drug in individual patients can be estimated using plasma samples collected at a limited number of time points. However, different methods for a limited-sampling strategy (LSS) design exist and the optimal method has not yet been defined. Plasma concentration data were available from 27 of 74 courses in a phase I study (dose range, 5–55 mg m-2) of the novel anthrapyrazole DuP-941. Three approaches to LSS development were compared. Firstly, forward stepwise regression (FSR) was used to derive equations to predict the DuP-941 area under the concentration-time curve (AUC) based on plasma concentrations measured at specified times. LSSs were developed using 14 randomly chosen data sets and were validated using the remaining 13 data sets. Secondly, “all subsets” regression (ASR) was used to develop LSSs. A jack-knife technique was also used to allow model development utilising 26 data sets and validation on the 27th data set. Thirdly, an LSS was developed using optimal sampling theory (OST), and the LSS was used in conjuction with a Bayesian algorithm. Selected sampling times for four-point LSSs were 10, 65, 185 and 485 min (FSR) and 10, 45, 200 and 480 min (OST). Ten candidate LSSs were developed using the ASR approach. ASR- and OST/Bayesian-derived four-point LSSs gave more precise (P〈0.05) estimates of AUC [mean absolute percentage of difference (MAD%) ± SD: ASR, 6.4±3.7%; OST/Bayesian, 6.8±4.6%] than did FSR (MAD%=15.1±9.9%). The OST/Bayesian approach is recommended because it allows estimation of all model parameters and is more flexible with regard to sample collection time and design variables.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002800050397

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The pharmacokinetics of the quinazoline antifolate ICID 1694 in mice and rats (1991)

Jodrell, D. I. ; Newell, D. R. ; Gibson, W. ; [et al.]

Springer

Cancer chemotherapy and pharmacology 28 (1991), S. 331-338

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ISSN: 1432-0843

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary N-(5-[N-(3,4-Dihydro-2-methyl-4-oxoquinazolin-6-ylmethyl)-N-methylamino]-2-thenoyl)-l-glutamic acid (ICI D1694) is an analogue of the thymidylate synthase inhibitorN 10-propargyl-5,8-dideazafolic acid (CB3717). CB3717 was found to be an active anticancer agent in early clinical studies, but its use was limited by its relative insolubility at physiological pH. ICI D1694 has been shown to be a more active anticancer agent than CB 3717 in model systems, and it is devoid of the acute renal toxicity associated with the administration of the latter drug to mice. In the present study, the pharmacokinetics of ICI D1694 were studied in both mice and rats using reverse-phase HPLC. In rats, ICI D1694 clearance (CL) conformed to a two-compartment open model and was rapid (CL=10.7 ml min−1 kg−1,t1/2β=30 min). Excretion was mainly biliary (65% of the delivered dose in 4 h vs 12% in urine) in the rat following a 100-mg/kg i.v. bolus. A high degree of protein binding was seen in rat plasma (≥90% over the range of 20–100 μm). In mice, ICI D1694CL=27 ml min−1 kg−1 andt1/2β=30 min following 100 mg/kg i.v., which was significantly faster than CB3717 clearance (CL=6 ml min−1 kg−1,t1/2β=93 min). ICI D1694 was fully bioavailable following i.p. administration (AUC=3.73 mg ml−1 min i.v. 4.03 mg ml−1 min i.p.), but its bioavailability following oral administration appeared to be low (approximately 10%–20%). Tissue distribution and excretion studies in mice suggested that biliary excretion predominated, confirming the results obtained in rats. Following an i.v. dose of 500 mg/kg ICI D1694 in mice, drug was detectable at 24h, suggesting the presence of a third phase of plasma clearance. The initial HPLC assay could not detect this third phase following a dose of 100 mg/kg; hence, a more sensitive assay was developed that includes a solid-phase extraction step. The latter assay was used to define the third phase of ICI D1694 clearance in mice, and preliminary studies demonstrated a terminal half-life of 6.5±2.7 h.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00685685

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