Assessment of chronic toxicity and carcinogenicity in an accelerated cancer bioassay in rats of Nifurtimox, an antitrypanosomiasis drug.

The chronic toxicity and carcinogenicity of Nifurtimox (NFX), a 5-nitrofuran derivative used in the treatment of American trypanosomiasis, were studied in male and female Wistar rats in an accelerated cancer bioassay (ACB). The ACB is a mechanistic initiation/promotion chronic toxicity and carcinogenicity bioassay designed to assess potential carcinogenic activity of a test substance in critical organs and tissues of rodents in which human carcinogens are active. The organs studied were liver, lungs, urinary bladder (UB), mammary gland (MG), bone marrow, spleen, kidneys, colon, stomach and any grossly observed lesions. NFX is a genotoxin which has been reported previously to exert a variable degree of carcinogenic activity in rat liver, kidney, UB and MG. The present study was undertaken to assess whether NFX has initiating activity in these four named target sites. In the initiation phase, groups of 20 Wistar rats were given NFX daily in the diet at 0.2% for the first 12 weeks of the study to assess initiating activity, followed by promoters (PROs) for four organs for an additional 24 weeks. NFX was compared to the following known initiators (INs) for each of these four tissues: diethylnitrosamine (DEN) for liver and kidney, N-butyl-N(4-hydroxybutyl)nitrosamine (BBN) for UB and 7,12-dimethylbenz(a)anthracene (DMBA) for MG. PROs included phenobarbital (PB) for liver and kidney, nitrilotriacetic acid (NTA) for UB, and diethylstilbestrol (DES) for MG. NFX was also administered continuously without PROs for 40 weeks. At the end of dosing (40 weeks) and at the end of recovery (52 weeks), animals were sacrificed and subjected to complete gross and histopathological examinations, along with evaluations of body weight gain over time and terminal body weights. Mortality was highest with DEN+PB (group 6) (40%), followed by BBN+NTA (group 7) (15%) and NFX+DES (group 5) and DMBA+DES (group 8) (10% each). The same groups also showed significant reductions in body weight gain over time and terminal body weights at sacrifice. In these groups, the expected preneoplastic, neoplastic and metastatic neoplastic lesions were produced, demonstrating the sensitivity of the model. In groups given NFX+PROs (groups 3-5), either no neoplasms occurred (group 4) or only single neoplasms (groups 3 and 5). In contrast, the PROs all elicited tumors in groups given INs (groups 6-8). Also, NFX given alone for 40 weeks did not produce any chronic toxicity, preneoplastic or neoplastic lesions. Thus, in this study, NFX did not demonstrate chronic toxicity or carcinogenicity. Moreover, in four target sites, i.e., liver, kidney, UB and MG, it exhibited no neoplastic initiating activity manifested by PROs for these four target sites.

Children as a sensitive subgroup and their role in regulatory toxicology: DGPT workshop report.

There is increasing discussion that children might be considered as a specific subgroup in public health regulations which could be more sensitive than the average "adult" human being. Differences between children and adults, with regard to susceptibility towards toxicants, may result from a combination of toxicokinetic, toxicodynamic and exposure factors. Kinetic factors are of importance mainly in the early postnatal period, largely as the result of immature elimination systems, i.e. metabolising enzymes and/or renal function. Specific vulnerability may prevail during several time periods, related to the development and maturation of organs (for example, brain, bone, endocrine system). For some substances, it has been shown that children at a specific age are less sensitive than adults. Specific exposures of toddlers to environmental chemicals may be high due to their moving behaviour and hand-to-mouth activities. Existing scenarios and models for exposure of children should be improved, in particular with respect to different ages. The outcome of model calculations must be verified by human biomonitoring analysis. At present, there is ongoing discussion of toxicological test models suitable to delineate human postnatal development. Experience with infant-orientated test systems is scarce (for example in developmental neurotoxicity). In general, tools for predicting toxicological sensitivity of children must be further improved. Regulators should also be aware that reduction of lifestyle-related toxic exposures such as smoking and drug abuse in children and adolescents is now an increasing public health problem in many countries.

Assessment of chronic toxicity and carcinogenicity in an accelerated cancer bioassay in rats of moxifloxacin, a quinolone antibiotic.

The chronic toxicity and carcinogenicity of Moxifloxacin (MOX), a bacterial gyrase-inhibiting fluoroquinolone antibiotic, were studied in male and female Wistar rats in an accelerated cancer bioassay (ACB). The ACB is a mechanistic initiation/promotion chronic toxicity and carcinogenicity study designed to assess potential carcinogenic activity of a test substance in critical organs in which human carcinogens are active. The organs studied were liver, lungs, urinary bladder, mammary gland, bone marrow, thymus, spleen and stomach. MOX was given daily by intragastric instillation at 500 mg/kg bw/day for the first 13 weeks to produce potential initiation, followed by promoters (PROs) for 24 weeks, or for the last 24 weeks after 13 weeks of exposure to initiators (INs). The INs, administered during the first 13 weeks, were diethylnitrosamine for the liver, N-n-butyl-N-(4-hydroxybutyl)nitrosamine for the urinary bladder, ethylnitrosourea for the hematolymphoreticular system, N-nitrosodimethylamine for lungs, methylnitrosourea for the stomach and 7,12-dimethylbenz(a)-anthracene for the mammary gland. The PROs, administered during the last 24 weeks after MOX, were phenobarbital for the liver, nitrilotriacetic acid for the urinary bladder, azathioprine for the bone marrow, butylated hydroxytoluene for the lung, butylated hydroxyanisole for the forestomach, and diethylstilbestrol for the mammary gland. The INs produced preneoplastic and neoplastic lesions which were not enhanced by MOX, and MOX plus PROs elicited no neoplastic effects, documenting that MOX did not produce either initiation or promotion of neoplasia in any of the target sites, or in any of the other twenty tissues examined.

Acute, subchronic, and chronic toxicity of ecadotril in dogs.

OBJECTIVE: To determine the toxicity of ecadotril in dogs. ANIMALS: 74 healthy 4- to 11-month-old Beagles. PROCEDURE: To determine acute toxicity, ecadotril (2,000 mg/kg of body weight, PO) in a gelatin capsule was administered once to 2 dogs, and dogs were observed for 2 weeks. To determine subchronic and chronic toxicity, ecadotril was administered every day for 3 months (50 mg/kg [n = 8], 100 mg/kg [8], 300 mg/kg [12]) and 12 months (25 mg/kg [n = 8], 50 mg/kg [8], 100 mg/kg [8]), respectively. Dogs in control groups (n = 12 or 8) received an empty gelatin capsule. Physical examinations, CBC, plasma biochemical analyses, and urinalyses were performed before and at various times during each experiment. Dogs were euthanatized at the end of each experiment, and necropsies were performed. RESULTS: Dogs that received 1 dose of 2,000 mg of ecadotril/kg developed nonspecific clinical signs of toxicosis. Dogs that received 300 mg of ecadotril/kg/d for 3 months developed pronounced anemia, bone marrow suppression, and some evidence of liver impairment. There was no evidence of an effect accumulated over time, and reversibility of toxic effects was evident. Dogs that received < or =100 mg of ecadotril/kg/d for 3 or 12 months tolerated treatment without apparent effect. CONCLUSIONS AND CLINICAL RELEVANCE: Degree of acute toxicity of a single high dose of ecadotril in dogs was low. The no-observable adverse effect level of ecadotril following daily oral administration was 100 mg/kg/d; repeated administration of 300 mg/kg/d revealed the hematopoietic system as the primary toxicologic target.

Preclinical safety evaluation of moxifloxacin, a novel fluoroquinolone.

The toxicity of moxifloxacin (BAY 12-8039), a novel fluoroquinolone with a broad spectrum of antibacterial activity, was evaluated in a comprehensive programme of toxicological studies that included single and multiple dose toxicity studies in rats, mice, dogs and monkeys, reproductive system toxicity studies in rats and monkeys and in-vitro and in-vivo mutagenicity assays. Although moxifloxacin is not intended for long-term clinical use, an accelerated bioassay in target organs to assess carcinogenesis was performed in rats. In addition to the routine toxicological programme required for the development of a drug intended for short-term administration, a major part of the preclinical programme for moxifloxacin comprised studies designed specifically to address the safety issues known to be features of fluoroquinolones, i.e. adverse effects on the central nervous and cardiovascular systems, phototoxicity, arthrotoxicity and oculotoxicity. The results of the toxicological investigations confirmed that the safety profile of moxifloxacin is comparable to those of other fluoroquinolones.

Preclinical safety evaluation of cerivastatin, a novel HMG-CoA reductase inhibitor.

Cerivastatin is a new but structurally distinct 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitor ("statin"). It effectively decreases low-density lipoprotein (LDL) cholesterol at 1% of the doses of other currently available statins. The toxicology of cerivastatin was evaluated in a comprehensive program of studies including: (1) single- and multiple-dose toxicity studies in rats, mice, minipigs, dogs, and monkeys; (2) reproductive toxicity studies in rats and rabbits; (3) in vitro and in vivo mutagenicity assays in rats and mice; and (4) carcinogenicity studies in rats and mice. In addition, studies were undertaken to investigate the effects of cerivastatin on lens opacity, testicular tissue, and hemorrhage in dogs. Oral administration of single and multiple doses of cerivastatin over periods ranging from 4 weeks to 24 months was generally well tolerated. Adverse effects were similar to those observed with other statins and primarily involved the liver and muscle tissue. At the high doses used in the toxicologic studies, cerivastatin caused elevations in serum transaminases and creatine phosphokinase levels as well as some degeneration of muscle fibers in rats, mice, dogs, and minipigs. In dogs, the species most sensitive to statins, cerivastatin caused erosions and hemorrhages in the gastrointestinal tract, bleeding in the brain stem with fibroid degeneration of vessel walls in the choroid plexus, and lens opacity. Apart from minor morphologic changes in the testicular tissue of dogs--the only organ for which a comparably low margin of safety was observed--cerivastatin had no significant effects on the male or female reproductive system. Cerivastatin also caused no primary embryotoxic or teratogenic effects. With the exception of cerivastatin-induced effects on the eyes and testicles, administration of mevalonic acid reversed the toxicologic effects of cerivastatin, indicating that the toxic effects were related to its mode of action and not to any intrinsic toxicity of the molecule itself. There was no evidence that cerivastatin had any mutagenic effects and, in contrast to other statins, high doses of cerivastatin did not induce tumors in rats. The main metabolite of cerivastatin was well tolerated systemically in all animals, including dogs. Overall, cerivastatin has a similar toxicologic profile to other statins and is a well-tolerated HMG-CoA reductase inhibitor.

In vitro modulation of hippocampal pyramidal cell response by quinolones: effects of HA 966 and gamma-hydroxybutyric acid.

The influence of quinolones on electrically evoked pyramidal cell activity in the rat hippocampus in vitro was studied by using the slice technique. We hoped to learn more about the possible mechanisms for the development of side effects of different quinolones and to find a possible treatment. As reported earlier (W. Dimpfel, M. Spüler, A. Dalhoff, W. Hofmann, and G. Schlüter, Antimicrob. Agents Chemother. 35:1142-1146, 1991), the amplitude of the population spike increased in the presence of ciprofloxacin, lomefloxacin, or ofloxacin about twofold in comparison with reference values. This increase could be prevented in a concentration-dependent manner by the concomitant presence of 3-amino-1-hydroxy-2-pyrrolidone (HA 966), a compound acting at the so-called glycine site of the N-methyl-D-aspartate (NMDA) receptor, but not in the presence of aminophosphonovaleric acid (APV), which acts at a different recognition site of the NMDA receptor. Another tool, 6,7-dinitroquinoxaline-2,3-dione, an antagonist of the so-called AMPA receptor (named after the binding of L-alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid [AMPA] to this site), could not antagonize the effect induced by the quinolones. Activation of the glycine site of the NMDA receptor induced by the presence of D-serine in the superfusion medium also resulted in a concentration-dependent increase in the population spike amplitude. This response remained unchanged in the presence of ciprofloxacin, whereas lomefloxacin and ofloxacin led to further increases in the amplitude, especially in the presence of higher concentrations of D-serine. These results also point to an involvement of the glycine site of the central NMDA receptor in the development of side effects by different quinolones. A complete attenuation of the quinolone-induced effects was obtained in the presence of 2.5 microM gamma-hydroxybutyric acid (GHB), a physiological neuromodulator which is marketed in some countries of Europe as a sedative. It is therefore concluded that the excitatory adverse effects of quinolones might be treated by the administration of GHB.