Application of the CFU-GM Assay to Predict Acute Drug-Induced Neutropenia: An International Blind Trial to Validate a Prediction Model for the Maximum Tolerated Dose (MTD) of Myelosuppressive Xenobiotics

doi:10.1093/toxsci/kfg188

ToxSci Advance Access originally published online on July 25, 2003

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Toxicological Sciences 75, 355-367 (2003)
Copyright © 2003 by the Society of Toxicology

IN VITRO TOXICOLOGY AND ALTERNATIVE TESTING

Application of the CFU-GM Assay to Predict Acute Drug-Induced Neutropenia: An International Blind Trial to Validate a Prediction Model for the Maximum Tolerated Dose (MTD) of Myelosuppressive Xenobiotics

A. Pessina^*^,1, B. Albella, M. Bayo^*, J. Bueren, P. Brantom, S. Casati, C. Croera^*, G. Gagliardi^*, P. Foti^*, R. Parchment^¶, D. Parent-Massin^|, G. Schoeters^||, Y. Sibiril^|, R. Van Den Heuvel^|| and L Gribaldo

^* Institute of Microbiology, Milan, Italy; CIEMAT, Madrid, Spain; BIBRA International, Carshalton, United Kingdom; ECVAM, Institute for Health and Consumer Protection, Joint Research Centre, European Commission, Ispra, Italy; ^¶ Wayne State University, Detroit, Michigan 48202; ^| ESMISAB, Plouzanè, France; and ^|| VITO, Mol, Belgium

ABSTRACT

In a previous study of prevalidation, a standard operating procedure(SOP) for two independent in vitro tests (human and mouse) hadbeen developed, to evaluate the potential hematotoxicity ofxenobiotics from their direct and the adverse effects on granulocyte-macrophages(CFU-GM). A predictive model to calculate the human maximumtolerated dose (MTD) was set up, by adjusting a mouse-derivedMTD for the differential interspecies sensitivity. In this paper,we describe an international blind trial designed to apply thismodel to the clinical neutropenia, by testing 20 drugs, including14 antineoplastics (Cytosar-U, 5-Fluorouracil, Myleran, Thioguanine,Fludarabine, Bleomycin, Methotrexate, Gemcitabine, Carmustine,Etoposide, Teniposide, Cytoxan, Taxol, Adriamycin); two antivirals(Retrovir, Zovirax,); three drugs for other therapeutic indications(Cyclosporin, Thorazine, Indocin); and one pesticide (Lindane).The results confirmed that the SOP developed generates reproducibleIC90 values with both human and murine GM-CFU. For 10 drugs(Adriamycin, Bleomycin, Etoposide, Fludarabine, 5-Fluorouracil,Myleran, Taxol, Teniposide, Thioguanine, and Thorazine), IC90values were found within the range of the actual drug dosestested (defined as the actual IC90). For the other 10 drugs(Carmustine, Cyclosporin, Cytosar-U, Cytoxan, Gemcitabine, Indocin,Lindane, Methotrexate, Retrovir, and Zovirax) extrapolationon the regression curve out of the range of the actual dosestested was required to derive IC90 values (extrapolated IC90).The model correctly predicted the human MTD for 10 drugs outof 10 that had "actual IC90 values" and 7 drugs out of 10 forthose having only an extrapolated IC90. Two of the incorrectpredictions (Gemcitabine and Zovirax) were within 6-fold ofthe correct MTD, instead of the 4-fold range required by themodel, whereas the prediction with Cytosar-U was approximately10-fold in error. A possible explanation for the failure inthe prediction of these three drugs, which are pyrimidine analogs,is discussed. We concluded that our model correctly predictedthe human MTD for 20 drugs out of 23, since the other threedrugs (Topotecan, PZA, and Flavopiridol) were tested in theprevalidation study. The high percentage of predicitivity (87%),as well as the reproducibility of the SOP testing, confirm thatthe model can be considered scientifically validated in thisstudy, suggesting promising applications to other areas of researchin developing validated hematotoxicological in vitro methods.

Key Words: GM-CFU assay; acute neutropenia; maximum tolerated dose; phase I trial; myelotoxicity.

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Toxicological Sciences

IN VITRO TOXICOLOGY AND ALTERNATIVE TESTING

Application of the CFU-GM Assay to Predict Acute Drug-Induced Neutropenia: An International Blind Trial to Validate a Prediction Model for the Maximum Tolerated Dose (MTD) of Myelosuppressive Xenobiotics