BACKGROUND: Cyclophosphamide, which forms the nucleus for virtually all preparative regimens for autologous bone marrow transplantation (ABMT), is an alkylating agent of which cytotoxicity is not directly caused by the parent compound but by its biologically active metabolites. Its nonmyelosuppressive toxicity in the ABMT setting is cardiomyopathy. We attempted to determine any correlation between plasma levels of total cyclophosphamide and the subsequent development of cardiac dysfunction. PATIENTS AND METHODS: Analyses of plasma levels and the derivation of plasma concentration-time curves (area under the curve [AUC]) were performed in 19 women with metastatic breast carcinoma, who received a continuous 96-hour infusion of cyclophosphamide, thiotepa, and carboplatin (CTCb) with ABMT. The assay for total cyclophosphamide measures the inactive parent compound; reliable assays of the active metabolites of cyclophosphamide are not yet available. RESULTS: Six of 19 women developed moderate, but transient, congestive heart failure (CHF) as assessed by clinical and radiologic criteria. These patients had a significantly lower AUC of total cyclophosphamide (median, 2,888 mumol/L/h) than patients who did not develop CHF (median, 6,121 mumol/L/h) (P less than .002). Median duration of tumor response in these patients was also more durable; at least 22 months in patients with lower AUCs versus a median of 5.25 months in those with higher AUCs (P = .008). CONCLUSION: These pharmacokinetic data support the premise that enhancement of cyclophosphamide activation may lead to both greater tumor cytotoxicity and increased but reversible end-organ toxicity. Early analysis of pharmacokinetic data may allow modulation of cyclophosphamide administration in an attempt to enhance therapeutic efficacy.
BACKGROUND:Cyclophosphamide, which forms the nucleus for virtually all preparative regimens for autologous bone marrow transplantation (ABMT), is an alkylating agent of which cytotoxicity is not directly caused by the parent compound but by its biologically active metabolites. Its nonmyelosuppressive toxicity in the ABMT setting is cardiomyopathy. We attempted to determine any correlation between plasma levels of total cyclophosphamide and the subsequent development of cardiac dysfunction. PATIENTS AND METHODS: Analyses of plasma levels and the derivation of plasma concentration-time curves (area under the curve [AUC]) were performed in 19 women with metastatic breast carcinoma, who received a continuous 96-hour infusion of cyclophosphamide, thiotepa, and carboplatin (CTCb) with ABMT. The assay for total cyclophosphamide measures the inactive parent compound; reliable assays of the active metabolites of cyclophosphamide are not yet available. RESULTS: Six of 19 women developed moderate, but transient, congestive heart failure (CHF) as assessed by clinical and radiologic criteria. These patients had a significantly lower AUC of total cyclophosphamide (median, 2,888 mumol/L/h) than patients who did not develop CHF (median, 6,121 mumol/L/h) (P less than .002). Median duration of tumor response in these patients was also more durable; at least 22 months in patients with lower AUCs versus a median of 5.25 months in those with higher AUCs (P = .008). CONCLUSION: These pharmacokinetic data support the premise that enhancement of cyclophosphamide activation may lead to both greater tumorcytotoxicity and increased but reversible end-organ toxicity. Early analysis of pharmacokinetic data may allow modulation of cyclophosphamide administration in an attempt to enhance therapeutic efficacy.
Authors: Fariba Navid; Sharyn D Baker; M Beth McCarville; Clinton F Stewart; Catherine A Billups; Jianrong Wu; Andrew M Davidoff; Sheri L Spunt; Wayne L Furman; Lisa M McGregor; Shuiying Hu; John C Panetta; David Turner; Demba Fofana; Wilburn E Reddick; Wing Leung; Victor M Santana Journal: Clin Cancer Res Date: 2012-11-08 Impact factor: 12.531
Authors: Melanie S Joy; Mary La; Jinzhao Wang; Arlene S Bridges; Yichun Hu; Susan L Hogan; Reginald F Frye; Joyce Blaisdell; Joyce A Goldstein; Mary Anne Dooley; Kim L R Brouwer; Ronald J Falk Journal: Br J Clin Pharmacol Date: 2012-09 Impact factor: 4.335
Authors: T Kerbusch; J de Kraker; H J Keizer; J W van Putten; H J Groen; R L Jansen; J H Schellens; J H Beijnen Journal: Clin Pharmacokinet Date: 2001-01 Impact factor: 6.447
Authors: Carlota Oleaga; Anne Riu; Sandra Rothemund; Andrea Lavado; Christopher W McAleer; Christopher J Long; Keisha Persaud; Narasimhan Sriram Narasimhan; My Tran; Jeffry Roles; Carlos A Carmona-Moran; Trevor Sasserath; Daniel H Elbrecht; Lee Kumanchik; L Richard Bridges; Candace Martin; Mark T Schnepper; Gail Ekman; Max Jackson; Ying I Wang; Reine Note; Jessica Langer; Silvia Teissier; James J Hickman Journal: Biomaterials Date: 2018-08-04 Impact factor: 12.479
Authors: R B Jones; S Matthes; C Dufton; S I Bearman; S M Stemmer; S Meyers; E J Shpall Journal: Breast Cancer Res Treat Date: 1993 Impact factor: 4.872