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Toxicity, pharmacokinetics, and in vitro hemodialysis clearance of ifosfamide and metabolites in an anephric pediatric patient with Wilms' tumor (1997)

Carlson, L. ; Goren, M. P. ; Bush, D. A. ; [et al.]

Springer

Cancer chemotherapy and pharmacology 41 (1997), S. 140-146

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ISSN: 1432-0843

Keywords: Key words Ifosfamide ; Pharmacokinetics ; Pediatrics ; Hemodialysis ; Wilms' tumor

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Purpose: We evaluated the in vitro hemodialysis ratio and subsequent toxicity and pharmacokinetics of ifosfamide in an anephric patient with Wilms' tumor. Methods: An in vitro model was used to determine the extraction ratio of ifosfamide by dialysis. The toxicity and plasma concentrations of ifosfamide, chloroacetaldehyde, and 4-hydroxyifosfamide were then determined over 24 h after a single 1.6 g/m2 dose of ifosfamide. Plasma concentrations were also measured before and after ten dialysis sessions during four courses of ifosfamide therapy. Results: The in vitro hemodialysis model showed that ifosfamide was cleared with an extraction ratio of 86.7 ± 0.5% and remained constant even at low concentrations of drug. The mean decrease in vivo following hemodialysis for ifosfamide, chloroacetaldehyde, and 4-hydroxyifosfamide were 86.9%, 77.2%, and 36.2%, respectively. The pharmacokinetic parameters for ifosfamide using model-independent methods were calculated: Vd = 0.23 l/kg, t½ = 4.8 h, and ClT = 3.30 l/h per m2. Ifosfamide-associated neurotoxicity was noted within hours of drug administration and improved rapidly following hemodialysis. Conclusions: The results of our study suggest that the pharmacokinetics of parent ifosfamide may not be substantially altered in patients with renal failure. Hemodialysis was shown to remove ifosfamide, chloroacetaldehyde, and 4-hydroxyifosfamide from the blood stream. Hemodialysis was also shown to reverse ifosfamide-related neurotoxicity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002800050720

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Activity of SCH 66336, a tricyclic farnesyltransferase inhibitor, against human tumor colony-forming units (1999)

Petit, T. ; Izbicka, E. ; Lawrence, R. A. ; [et al.]

Springer

Annals of oncology 10 (1999), S. 449-453

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ISSN: 1569-8041

Keywords: human tumor cloning assay ; farnesyltransferase inhibitor ; SCH 66336

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Background: The ras gene product regulates transduction of growth-proliferative signals from the membrane to the nucleus. Mutationally-activated Ras is the oncogene most frequently found in human tumors. In order to perform its function in cell signaling, Ras must be farnesylated on the CAAX motif present on the carboxyl terminus of the ras protein. This reaction is catalysed by farnesyl protein transferase. In the present study, SCH 66336, an orally bioavailable nonpeptide tricyclic farnesyltransferase inhibitor, was tested against a large variety of human tumors to define its preclinical activity profile, utilizing the human tumor cloning assay. Materials and methods: A soft agar cloning assay was used to determine the in vitro effects of SCH 66336 against primary human tumor specimens taken directly from patients. A total of 70 evaluable specimens were exposed to SCH 66336 for 14-day continuous exposure at concentrations ranging from 0.1 to 2.5 µM. In vitro responses were defined as an inhibition ≥50% of human tumor colony forming units at a given concentration. Results: There was a positive relationship between concentration and response to SCH 66336. With the highest concentration (2.5 µM), response was demonstrated in 50% (three of six) of breast tumors, 40% (6 of 15) of ovarian tumors, and 38% (5 of 13) of non-small-cell lung tumor colony forming units. Among the 69 specimens tested at the concentration of 2.5 µM, SCH 66336 had activity in 27% of tumor specimens that were resistant to doxorubicin, 38% of tumor specimens resistant to cisplatin, 33% of tumor specimens resistant to paclitaxel, and 27% of tumor specimens resistant to etoposide. Conclusions: The broad spectrum of soft agar growth inhibition by SCH 66336 in the human tumor cloning assay, and its efficacy at physiologically relevant concentrations in animal models, suggest that SCH 66336 may deserve future clinical trials in patients with ovarian, breast and non-small-cell lung cancer.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1008313232381

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