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Cancer Chemotherapy and Pharmacology
Published in: Cancer Chemotherapy and Pharmacology 5/2007

01-04-2007 | Original Article

Pharmacokinetics of low-dose nedaplatin and validation of AUC prediction in patients with non-small-cell lung carcinoma

Authors: Takenori Niioka, Tsukasa Uno, Norio Yasui-Furukori, Takenori Takahata, Mikiko Shimizu, Kazunobu Sugawara, Tomonori Tateishi

Published in: Cancer Chemotherapy and Pharmacology | Issue 5/2007

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Abstract

Purpose

The aim of this study was to determine the pharmacokinetics of low-dose nedaplatin combined with paclitaxel and radiation therapy in patients having non-small-cell lung carcinoma and establish the optimal dosage regimen for low-dose nedaplatin. We also evaluated predictive accuracy of reported formulas to estimate the area under the plasma concentration–time curve (AUC) of low-dose nedaplatin.

Patients and methods

A total of 19 patients were administered a constant intravenous infusion of 20 mg/m2 body surface area (BSA) nedaplatin for an hour, and blood samples were collected at 1, 2, 3, 4, 6, 8, and 19 h after the administration. Plasma concentrations of unbound platinum were measured, and the actual value of platinum AUC (actual AUC) was calculated based on these data. The predicted value of platinum AUC (predicted AUC) was determined by three predictive methods reported in previous studies, consisting of Bayesian method, limited sampling strategies with plasma concentration at a single time point, and simple formula method (SFM) without measured plasma concentration. Three error indices, mean prediction error (ME, measure of bias), mean absolute error (MAE, measure of accuracy), and root mean squared prediction error (RMSE, measure of precision), were obtained from the difference between the actual and the predicted AUC, to compare the accuracy between the three predictive methods.

Results

The AUC showed more than threefold inter-patient variation, and there was a favorable correlation between nedaplatin clearance and creatinine clearance (Ccr) (r = 0.832, P < 0.01). In three error indices, MAE and RMSE showed significant difference between the three AUC predictive methods, and the method of SFM had the most favorable results, in which %ME, %MAE, and %RMSE were 5.5, 10.7, and 15.4, respectively.

Conclusions

The dosage regimen of low-dose nedaplatin should be established based on Ccr rather than on BSA. Since prediction accuracy of SFM, which did not require measured plasma concentration, was most favorable among the three methods evaluated in this study, SFM could be the most practical method to predict AUC of low-dose nedaplatin in a clinical situation judging from its high accuracy in predicting AUC without measured plasma concentration.
Literature
1.
Calvert AH, Newell DR, Gumbrell LA, O’Reilly S, Burnell M, Boxall FE, Siddik ZH, Judson IR, Gore ME, Wiltshaw E (1989) Carboplatin dosage: prospective evaluation of a simple formula based on renal function. J Clin Oncol 7:1748–1756PubMed
2.
Chatelut E, Canal P, Brunner V, Chevreau C, Boneu A, Roche H, Houin G, Bugat R (1995) Prediction of carboplatin clearance from standard morphological and biological patient characteristics. J Natl Cancer Inst 87:573–580PubMedCrossRef
3.
Cockcroft DW, Gault MH (1976) Prediction of creatinine clearance from serum creatinine. Nephron 16:31–41PubMedCrossRef
4.
de Jongh FE, Verweij J, Loos WJ, de Wit R, de Jonge MJ, Planting AS, Nooter K, Stoter G, Sparreboom A (2001) Body-surface area-based dosing does not increase accuracy of predicting cisplatin exposure. J Clin Oncol 19:3733–3739PubMed
5.
Felici A, Verweij J, Sparreboom A (2002) Dosing strategies for anticancer drugs: the good, the bad and body-surface area. Eur J Cancer 38:1677–1684PubMedCrossRef
6.
Furuse K, Fukuoka M, Kurita Y, Ariyoshi Y, Niitani H, Yoneda S, Fujii M, Hasegawa K, Nishiwaki Y, Tamura M, Kimura I, Inoue S, Oshima S, Kusume K, Sugimoto K (1992) A phase II clinical study of cis-diammine glycolato platinum, 254-S, for primary lung cancer (in Japanese). Jpn J Cancer Chemother 19:879–884
7.
Hasegawa Y, Takanashi S, Okudera K, Aoki M, Basaki K, Kondo H, Takahata T, Yasui-Furukori N, Tateishi T, Abe Y, Okumura K (2004) Weekly paclitaxel and nedaplatin with concurrent radiotherapy for locally advanced non-small-cell lung cancer: a phase I/II study. Jpn J Clin Oncol 34:647–653PubMedCrossRef
8.
Ikeuchi I, Daikatsu K, Fujisaka I, Amano T (1990) Determination of platinum in biological materials by graphite furnace atomic absorption spectrometry (written in Japanese, only abstract is given in English). Iyakuhin Kenkyu 21:1082–1087
9.
Ishibashi T, Fukumura K, Yano Y, Oguma T (2005) Optimal sampling and limited sampling strategies for estimation of unbound platinum AUC after nedaplatin infusion. Anticancer Res 25:1283–1289PubMed
10.
Ishibashi T, Yano Y, Oguma T (2005) Determination of optimal dosage for nedaplatin based on pharmacokinetic and toxicodynamic analysis. Anticancer Res 25:1273–1281PubMed
11.
Ishibashi T, Yano Y, Oguma T (2003) Population pharmacokinetics of platinum after nedaplatin administration and model validation in adult patients. Br J Clin Pharmacol 56:205–213PubMedCrossRef
12.
Ishibashi T, Yano Y, Oguma T (2002) A formula for predicting optimal dosage of nedaplatin based on renal function in adult cancer patients. Cancer Chemother Pharmacol 50:230–236PubMedCrossRef
13.
Koenuma M, Kasai H, Uchida N, Takeda Y, Shiratori O, Muraoka Y, Totani T (1995) Antitumor activity of a new platinum complex, nedaplatin (in Japanese). Clin Rep 29:3213–3222
14.
Newell DR, Pearson ADJ, Balmanno K, Price L, Wyllie RA, Keir M, Calvert AH, Lewis IJ, Pinkerton CR, Stevens MCG (1993) Carboplatin pharmacokinetics in children: the development of a pediatric dosing formula. J Clin Oncol 11:2314–2323PubMed
15.
Ota K (1996) Nedaplatin (in Japanese). Jpn J Cancer Chemother 23:379–387
16.
Sasaki Y, Amano T, Morita M, Shinkai T, Eguchi K, Tamura T, Ohe Y, Kojima A, Saijo N (1991) Phase I study and pharmacological analysis of cis-diammine(glycolato)platinum (254-S; NSC 375101D) administered by 5-day continuous intravenous infusion. Cancer Res 51:1472–1477PubMed
17.
Sawyer M, Ratain MJ (2001) Body surface area as a determinant of pharmacokinetics and drug dosing. Invest New Drugs 19:171–177PubMedCrossRef
18.
Sheiner LB, Beal SL (1981) Some suggestions for measuring predictive performance. J Pharmacokinet Biopharm 9:503–512PubMedCrossRef
19.
Spira A, Ettinger DS (2004) Multidisciplinary management of lung cancer. N Engl J Med 22:379–392CrossRef
20.
Weiss RB, Christian MC (1993) New cisplatin analogues in development. Drugs 46:360–377PubMed
Metadata
Title
Pharmacokinetics of low-dose nedaplatin and validation of AUC prediction in patients with non-small-cell lung carcinoma
Authors
Takenori Niioka
Tsukasa Uno
Norio Yasui-Furukori
Takenori Takahata
Mikiko Shimizu
Kazunobu Sugawara
Tomonori Tateishi
Publication date
01-04-2007
Publisher
Springer-Verlag
Published in
Cancer Chemotherapy and Pharmacology / Issue 5/2007
Print ISSN: 0344-5704
Electronic ISSN: 1432-0843
DOI
https://doi.org/10.1007/s00280-006-0298-2

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