F. Levi et al., CIRCADIAN CHANGES IN MITOXANTRONE TOXICITY IN MICE - RELATIONSHIP WITH PLASMA PHARMACOKINETICS, International journal of cancer, 59(4), 1994, pp. 543-547
Circadian time dependent differences in clinical toxicity of several a
nti-cancer agents were predicted from murine studies. Mitoxantrone is
an anthracenedion (an anthracycline-related class of compounds) of inc
reased clinical use, which may benefit from selective circadian timing
. In 3 consecutive studies, a total of 428 male B6D2F1 mice aged from
8 to 10 weeks were synchronized by an alternation of 12 hr of light an
d 12 hr of darkness (LD 12:12). They received a single i.v. injection
of mitoxantrone at one of 6 or 4 circadian stages differing by 4 or 6
hr. A dose-response relationship characterized body-weight loss and su
rvival rate. Dose-toxicity relationship further closely depended upon
circadian dosing time. Thus, a dose of 16 mg/kg killed 100% of the mic
e injected at 3 hr after light onset (HALO), and none of them at II or
at 15 HALO (p from chi(2) < 0.001). Body-weight loss varied from 41%
at 3 HALO to 32% at 15 HALO (p from ANOVA < 0.0001). Least hematologic
toxicity and fastest recovery of a normal circulating leukocyte count
corresponded to mitoxantrone injection near the middle of the dark-ac
tivity span, at 16 HALO. Similar findings characterized colonic and sp
lenic lesions. Moreover, mitoxantrone was both distributed and elimina
ted faster after injection at 16 HALO. If such data apply to cancer pa
tients, as was the case for other drugs investigated with this methodo
logy, an afternoon infusion should enable high-dose mitoxantrone to be
well tolerated. (C) 1994 Wiley-Liss, Inc.