Gadobenate dimeglumine and cerebral glucose metabolism. Continuous monitoring of striatal lactate levels in freely moving rats.

PURPOSE: Brain contrast-enhanced MR imaging reflects the leakage of contrast material into the brain tissue due to blood-brain barrier (BBB) disruption. The contact between brain tissue and contrast material requires a high level of neurotolerability of the contrast agent (CA). In the present study, we investigated the neurotolerability of the paramagnetic CA gadobenate dimeglumine, locally applied into the corpus striatum of freely moving rats, by evaluating its potential effects on cerebral glucose metabolism based on lactate levels. MATERIAL AND METHODS: Lactate levels were monitored using a microdialysis technique coupled with an enzyme reaction. A microdialysis probe for extracellular fluid sampling, together with a stainless steel cannula for CA administration, were inserted into the right corpus striatum of rats. Lactate levels were monitored for 2 h after gadobenate dimeglumine administration at 120 nmol/rat, at fixed volume of 1.2 microl. The same volume of artificial cerebrospinal fluid (aCSF) was administered to control rats. RESULTS: Gadobenate dimeglumine did not induce any significant changes in the lactate striatal levels over the 30-min period after administration. Small, but significant, reductions in lactate concentration were found from the 45-min control point after gadobenate dimeglumine administration. Lactate response showed the same pattern in rats given aCSF. CONCLUSION: Gadobenate dimeglumine, intracerebrally administered, did not affect cerebral glucose metabolism in rats as it showed the same behaviour as aCSF on cerebral glucose utilization. The gradual attenuation in the endogenous lactate release observed 45 min after test compound administration is possibly due to a slight reduction in the probe recovery. The present findings confirm the neurotolerability of gadobenate dimeglumine previously shown in behavioural and electrophysiological studies.

Pulmonary alveolar proteinosis: a pediatric case study.

Pulmonary alveolar proteinosis (PAP) is a rare, debilitating, sometimes fatal disease of uncertain etiology and pathophysiology. The medical literature defines the illness and describes current theories related to its pathophysiology. Little nursing literature addresses PAP. This case study describes and discusses nursing interventions utilized in the home management of a young, female adolescent with this illness. A retrospective analysis of the chart reveals investigative treatment involving daily subcutaneous injections of bacterially synthesized, granulocyte-macrophage colony-stimulating factor. Communication and collaboration among health care providers and identification of diverse issues influencing the health of the client resulted in the development of effective nursing interventions. Leininger's Theory of Transcultural Care Diversity and Universality provides a model for interpretation and generalization of nursing interventions. PAP can be managed successfully in the home, but more information on the illness and ethnic and age-specific responses to treatment is needed.

Pharmacokinetics and tissue distribution in animals of gadobenate ion, the magnetic resonance imaging contrast enhancing component of gadobenate dimeglumine 0.5 M solution for injection (MultiHance).

OBJECTIVE: Evaluation of the pharmacokinetic behavior of gadobenate dimeglumine, a new multipurpose parenteral contrast agent for magnetic resonance imaging. METHODS: The pharmacokinetics were evaluated in rats, rabbits, dogs and monkeys after intravenous injections of non-labelled gadobenate dimeglumine and, for biodistribution studies, 153Gd-labelled gadobenate dimeglumine. Assays were performed by high performance liquid chromatography, X-ray fluorescence and gamma spectrometry. The binding of gadobenate ion to animal and human serum albumin was studied by equilibrium dialysis. RESULTS: After intravenous injection gadobenate dimeglumine distributes into plasma and extracellular fluid as well as into the intrahepatocytic space. Gadobenate ion is cleared from plasma by renal and biliary excretion. It does not accumulate in specific tissues, except temporarily in tissues related to its elimination. Gadobenate ion is not metabolized. Its binding to plasma proteins is too weak to be detected by equilibrium dialysis. CONCLUSIONS: Gadobenate dimeglumine combines the properties of an extracellular-fluid agent with those of a hepatobiliary agent. Its complete elimination and biological stability satisfy the requirements for its safe use in humans.

Toxicological safety evaluation of gadobenate dimeglumine 0.5 M solution for injection (MultiHance), a new magnetic resonance imaging contrast medium.

OBJECTIVE: To support the clinical use of gadobenate dimeglumine for injection as an intravascular magnetic resonance imaging contrast medium through an extensive battery of toxicological safety studies. METHODS: Single and multiple dose toxicity, reproduction and mutagenicity assessments were carried out in rodents and non-rodents. RESULTS: Initial adverse clinical signs in monkeys were associated with a systemic exposure 34 times higher than that found in humans after 0.1 mmol/kg gadobenate dimeglumine. Good systemic tolerance was observed in repeated dose toxicity studies. Reproductive performance and physical and behavioral development of offspring were unaffected at doses corresponding to 20 times the human dose. Mutagenicity tests excluded any genotoxic potential of gadobenate dimeglumine. CONCLUSION: Based on the wide margins of safety demonstrated in different species, particularly in primates, gadobenate dimeglumine can be considered as safe in the range of clinical doses recommended for magnetic resonance imaging.

General pharmacology in experimental animals of gadobenate dimeglumine (MultiHance), a new magnetic resonance imaging contrast agent.

OBJECTIVES: To assess in animals the pharmacological tolerability for intravascular gadobenate dimeglumine. RESULTS: Cardiovascular effects: In healthy animals no relevant effects were observed apart from slight and transient increases in cardiac output and decreases in systemic vascular resistance. In pigs with myocardial ischemia: doses up to 3.0 mmol/kg caused dose-dependent decreases in heart rate, systemic vascular resistance and mean arterial blood pressure along with transient increases in cardiac output. In vitro: Myocardial contractility was slightly depressed after direct exposure to a 30 mM solution. Respiratory effects in healthy pigs: no effects after 1.0 mmol/kg i.v. Effects on the central nervous system: In healthy animals: gadobenate dimeglumine, 1.0 mmol/kg i.v, did not penetrate nor impair the blood-brain barrier in rats and did not affect behavior, motor coordination or EEG. In pathological models: even in the presence of an osmotically disrupted blood-brain barrier, brain penetration of gadobenate was poor and no signs of epileptogenic potential were evident. Effects on blood: No hemolytic potential was observed. Plasma coagulation was slightly affected in vitro but not in vivo. Effects on kidney and liver function: Transient increases in diuresis, without effects on blood and urine enzymes were observed at doses of 1.25 and 2.5 mmol/kg. CONCLUSIONS: The clinical use of gadobenate dimeglumine as an intravascular magnetic resonance imaging contrast agent is strongly supported by the good tolerability of the product in healthy and pathological animal models.

Neurotolerability of gadobenate dimeglumine. Evaluation of brain dopamine concentration in freely moving rats by microdialysis.

RATIONALE AND OBJECTIVES: Magnetic resonance imaging with contrast agents (CAs) is a procedure currently used for the diagnosis of neurologic pathologies. These pathologies are often characterized by blood-brain barrier disruptions, which determines a direct contact between CA and brain tissue. For this reason, an accurate assessment of neurotolerability is useful for the development of new CAs. The present study was designed to evaluate the neurotolerability of a new CA for MRI, gadobenate dimeglumine, employing a neurochemical method. The effect of gadobenate dimeglumine on the striatal levels of neurotransmitters was determined. In particular, the brain concentrations of dopamine and dopamine metabolites, 3,4-dihydroxyphenylacetic and homovanillic acid, were measured using microdialysis, after the direct application of gadobenate dimeglumine into the rat corpus striatum. Gadopentetate dimeglumine and gadoteridol were employed as reference compounds. METHODS: A microdialysis probe for brain extracellular fluid sampling and a stainless-steel cannula for CA application were chronically inserted into the right corpus striatum of rats. All CAs were administered at a dose of 5.4 nmol/rat. Dopamine and metabolite concentrations were analyzed using high-performance liquid chromatography. RESULTS: Gadobenate dimeglumine did not induce any significant changes in the extracellular levels of dopamine or dopamine metabolites up to 2 hours after administration. Gadoteridol produced similar results. Gadopentetate dimeglumine caused a moderate but not significant increase in dopamine levels throughout the duration of the experiments. CONCLUSIONS: Gadobenate dimeglumine directly administered into the corpus striatum of freely moving rats did not affect the dopaminergic system. This result demonstrates the safety of gadobenate dimeglumine under the experimental conditions used, thus confirming previous behavioral and electrophysiologic findings.

Iopiperidol: nonionic iodinated contrast medium with promising anticoagulant and antiplatelet properties.

RATIONALE AND OBJECTIVES: The purpose of this study was to determine the anticoagulant and antiplatelet characteristics of iopiperidol, a nonionic, triiodinated contrast agent. MATERIALS AND METHODS: Anticoagulant effects of iopiperidol were assessed both in vitro and in vivo after single or repeated intravenous administrations to rats. To this aim, results of prothrombin time, activated partial thromboplastin time, thrombin time, and fibrinogen tests were evaluated. To define better the mechanism of action of iopiperidol and of the contrast media used for comparison, in vitro tests to study the effects on thrombin activity and on thrombin generation were performed. In addition, the effect of iopiperidol was studied on adenosine diphosphate- and collagen-induced platelet aggregation both in vitro and in vivo after single or repeated intravenous administrations in the rat. RESULTS: In vitro, iopiperidol showed anticoagulant properties similar or superior to those of the ionic ioxaglate. Iopiperidol also inhibited collagen-induced platelet aggregation statistically significantly more than iodixanol and ioxaglate (P < .05). In vivo, no significant differences between iopiperidol and ioxaglate were observed after single or repeated administrations. CONCLUSION: The in vitro anticoagulant effect of iopiperidol is similar or even superior to that of ioxaglate; the in vivo effect is similar to that of reference nonionic contrast media.

High-performance liquid chromatographic assay of the X-ray contrast agent iopiperidol in plasma and urine of rats and humans.

Iopiperidol is a non ionic iodinated compound currently under evaluation as a potential contrast medium with anticoagulant property for radiological examinations. An HPLC method for assaying iopiperidol in plasma and urine of rats and humans is described. The analysis is based on the reversed-phase chromatographic separation of iopiperidol and the internal standard (iopamidol) from the endogenous components of the biological fluids, and their detection by UV absorption at 244 nm. The selectivity of the method was satisfactory. The mean absolute recovery was greater than 80%. The precision and accuracy of the analytical methods were in the range 0.3 to 3.3 and -8.5 to +11%, respectively. The detection limits of iopiperidol in plasma (0.1 ml) and urine (0.25 ml) were 0.2 and 0.4 microg/ml, respectively.

Neurotolerability of gadobenate dimeglumine in a rat model of focal brain ischemia: EEG evaluation.

RATIONALE AND OBJECTIVES: The neurologic pathologies for which contrast-enhanced MRI is indicated are often accompanied by a disruption of the blood-brain barrier (BBB), which allows the contrast agent to come into contact with the nervous tissue. Thus, assessment of the neurologic safety for a new contrast agent is of crucial importance. The objective of this study was to assess the neurotolerability of the new MRI contrast agent gadobenate dimeglumine using EEG in the presence of focal lesions of the BBB. METHODS: Lesions of the BBB were obtained inducing a photochemical ischemia in rats. Gadobenate dimeglumine was intravenously administered at 4.0 mmol/kg. An EEG was recorded during sleep/awake behavior and was analyzed for pathologic tracing and for changes in spectral content in terms of total power and frequency index. The presence of the BBB lesions was verified using high-performance liquid chromatography measurement of the gadobenate ion content in the brain. RESULTS: Gadobenate dimeglumine did not have any epileptogenic effect in ischemic rats. However, it caused a transitory shift of the EEG power spectrum toward the 0.5 to 9 Hz frequency bands of the lesioned hemisphere during quiet wake. In the lesioned cortex, higher levels of gadobenate ion were found until 3 hours after administration. CONCLUSIONS: In experimental conditions of focal brain ischemia associated with BBB lesions, gadobenate dimeglumine was well tolerated up to doses even 10 times higher than the maximum clinical dose (0.3 mmol/kg) intended for brain imaging procedures.

Cardiac effects of contrast media in MR angiography: evaluation in an experimental model of myocardial ischemia.

RATIONALE AND OBJECTIVES: The authors evaluated the cardiac tolerability of paramagnetic contrast agents for magnetic resonance (MR) angiography in an in vitro model of ischemic rat heart. MATERIALS AND METHODS: The left anterior descending coronary artery was temporarily occluded in a perfused rat heart model to induce cardiac ischemia and reperfusion. A dose of 0.4 mL of gadobenate dimeglumine, of gadopentetate dimeglumine, or of D-mannitol was injected directly into the aorta both during the ischemia and during the reperfusion period. The left ventricular pressure and heart rate were recorded. RESULTS: Myocardial ischemia resulted in decreased cardiac activity, with a reduction in left ventricular pressure and heart rate. A further decrease in cardiac activity was temporarily induced by injection of contrast medium during both the ischemic and early reperfusion phases. Less marked responses were induced by a hyperosmolal solution of mannitol. CONCLUSION: These results suggest that the transient cardiac effects induced by bolus injection of paramagnetic contrast medium may be regarded as the combined effects of the osmotoxicity of the contrast medium solution and the chemotoxicity of the contrast medium molecule.

[General toxicity study of gadobenate dimeglumine formulation (E7155) (1)--single dose intravenous and intracisternal toxicity study in rats].

Gadobenate dimeglumine formulation (E7155) was evaluated for its general toxicity potential following a single intravenous and intracisternal administration to rats. Dosage levels tested were 3.3, 4.5, 6.0 and 8.0 mmol/kg at the injection rate of 6 ml/min and 7.50, 8.89, 10.54 and 12.50 mmol/kg at 1 ml/min for the intravenous administration route, and 0.15, 0.21, 0.29 and 0.40 mmol/kg for the intracisternal administration route. Parameters measured during the 14-day observation period were mortality, clinical signs and macroscopic examination. After intravenous administration at the injection rate of 6 ml/min, twitches, respiratory blocking and prostration were observed at 6.0 mmol/kg, and dyspnoea and sedation at 3.3 and 4.5 mmol/kg. Deaths occurred within 1 min after administration at 6.0 mmol/kg and above. LD50 values were 7.97 mmol/kg in males and 6.22 mmol/kg in females. After intravenous administration at the injection rate of 1 ml/min, shallow breathing, twitches and sedation were observed at 7.50 mmol/kg and above and respiratory arrest at 8.89 mmol/kg. Deaths occurred within 1 min after administration at 8.89 mmol/kg and above. LD50 values were 9.0 mmol/kg in males and 9.7 mmol/kg in females. After intracisternal administration, symptoms consisted of sedation, staggering gait, dyspnoea, twitches and ataxia at 0.15 mmol/kg and above, prostration, paralysis of forelimbs, and/or hind limbs and chromodacryorrhea at 0.21 mmol/kg, and convulsions at 0.29 mmol/kg and above. Deaths occurred within 7 days after administration at 0.21 mmol/kg and within 5 min at 0.29 mmol/kg and above. LD50 values were 0.42 mmol/kg in males and 0.25 mmol/kg in females.

[General toxicity study of gadobenate dimeglumine formulation (E7155) (2)--Single dose intravenous toxicity study in dogs].

Gadobenate dimeglumine formulation (E7155) was given by single intravenous injection to 4-5 month-old beagle dogs at doses of 2 or 6 mmol/kg. Treatment was followed by a 14-day observation period in order to evaluate the test article's toxicity. The male and female dogs at 6 mmol/kg vomited and showed reddened gums and ears as clinical signs. One male dog at 6 mmol/kg was euthanized approximately 23 hr after administration due to its very poor clinical condition, which included an unwillingness to move, pale gums and weak pulse. Body weight was decreased at 6 mmol/kg, and also slightly at 2 mmol/kg. Decreased food consumption was noted both at 2 and 6 mmol/kg. Hematology for the euthanized male at 6 mmol/kg showed increases in the total white blood cell count, packed cell volume, hemoglobin and red cell count and a decrease in the platelet count. Biochemistry showed a dose-related increase in alkaline phosphatase, GPT and GOT at 2 and 6 mmol/kg. Males and females at 6 mmol/kg showed increases in bilirubin, calcium and urea, and a reduction in glucose. Females at 6 mmol/kg also showed a reduction in total protein. Urinalysis showed an increase in pH at 2 mmol/kg and above. For females at 6 mmol/kg, an increase in urine volume and a decrease in specific gravity and osmolality were noted. An increase in relative liver and kidney weights was recorded for males and females dosed at 6 mmol/kg. For the euthanized male at 6 mmol/kg, postmortem examination revealed a pale liver with rounded edges and an accentuated lobular pattern, and dark material on the gastro-intestinal mucosal surface. In macroscopic pathology, the male at 6 mmol/kg revealed single liver cell necrosis, minimal early hyperplasia in small biliary ductules, inflammatory cells in the sinusoidal and portal tracts, centrilobular inflammatory cells, diffuse vacuolation of the hepatocytes and sinusoidal dilatation in the liver, and cortical tubular vacuolation in the kidneys. In the female dog treated at 6 mmol/kg, hyperplasia in the small biliary ductules, inflammatory cells in the portal tracts, diffuse vacuolation of hepatocytes and sinusoidal dilatation were seen in the liver, and increases in the severity of cortical tubular basophilia, cortical tubular dilatation and cortical tubular casts were detected in the kidney. Based on these results, the lethal dose of E7155 was set at 6 mmol/kg. It is also concluded that a dose of 2 mmol/kg was tolerated in the beagle dog after a single injection followed by a 14-day observation period.

[General toxicity study of gadobenate dimeglumine formulation (E7155) (3)--4-week repeated dose intravenous toxicity study followed by 4-week recovery period in rats].

A 4-week repeated dose toxicity study of gadobenate dimeglumine formulation (E7155) was conducted in Sprague-Dawley rats to assess its non-clinical safety. E7155 was administered intravenously at doses of 0.3, 1.0 and 3.0 mmol/kg/day to male and female rats once a day during 4 weeks. The reversibility of toxicity was evaluated during a 4-week recovery period at 3.0 mmol/kg/day. At 0.3 mmol/kg/day and higher, vacuolation of the cortical epithelium was seen in the kidneys and an increase in the incidence of local damage at the injection sites. In the 1.0 and 3.0 mmol/kg/day male and female groups, scabbing/ulceration of the tail at the injection sites, macroscopic pale/thickened fundic mucosa in the stomachs, vacuolation of the urinary bladder, and mucosal mineralization with epithelial hyperplasia of the glandular stomach were found. In the 1.0 and 3.0 mmol/kg/day male group and 3.0 mmol/kg/day female group, increases of water consumption and urinary potassium excretion, increased kidney weight and enlargement of the kidneys were observed. In the 3.0 mmol/kg/day male and female group, hepatocyte necrosis with inflammatory cells in the liver and epithelial degranulation in the interlobular ducts of the salivary glands were found. In addition, in the 3.0 mmol/kg/day male group, increases in plasma sodium and decreases of urinary sodium and chloride excretion, and degenerative changes in the testes and epididymides were observed. After the 4-week recovery period, except for an increase in urinary potassium excretion, increased kidney weights and changes in the testes and epididymides, all of the above findings had complete or partial recovery. Vacuolation of renal tubular cells was common, expected, and known as an adaptive change of treatment with hypertonic solutions, and an increase in the incidence of local damage at the injection sites was due to irritation by repeated intravenous dosing with hypertonic solutions. Therefore, these changes were not toxic changes. In conclusion, the dose level of 0.3 mmol/kg/day should be regarded as the No Observed Adverse Effect Level (NOAEL) after repeated administration of E7155 in rats.

[General toxicity study of gadobenate dimeglumine formulation (E7155) (4)--4-week repeated dose intravenous toxicity study followed by 4-week recovery period in dogs].

Gadobenate dimeglumine formulation (E7155), at doses of 0 (physiological saline), 0.25, 0.5, 1 and 2 mmol/kg/day of body weight, was administered intravenously to male and female beagle dogs once daily for 4 consecutive weeks in order to evaluate the subacute toxicity of the test article. Reversibility of toxicity was evaluated during a 4-week recovery period at 1 and 2 mmol/kg/day. No toxicologically significant changes were observed at 0.25 and 0.5 mmol/kg/day. In animals receiving 1 or 2 mmol/kg/day, transient swelling and redness of the facial and eye areas, lethargy, decreased activity, emesis, retching, watery or unformed stool, decreased body weight or body weight gain, decreased food consumption, decreased hematocrit and hemoglobin concentration, increased APTT, increases in plasma ALP, GPT or gamma-GT, decreased plasma inorganic phosphorus, total protein or albumin, increased liver or kidney weight, subacute inflammatory infiltrates, loss of centrilobular hepatocytes or hepatocellular cytoplamic vacuolation in the liver, vacuoles in the epithelial cells of the renal tubles and/or hypocellularity in the bone marrow were seen. The results of toxicokinetic analysis showed that systemic exposure was similar in males and females, and there was no accumulation of the test material over the treatment period, although AUC tended to be enhanced by slightly more than the proportionate dose increase. These effects were recovered or tended to be reversed after a post-dosing period for 4 weeks. In conclusion, the No Observed Adverse Effect Level (NOAEL) was 0.5 mmol/kg/day.

[Reproductive and developmental toxicity study of gadobenate dimeglumine formulation (E7155) (1)--Fertility study in male rats by intravenous administration].

The influence of gadobenate dimeglumine formulation (E7155) on general reproductive performance and fertility in male rats of the Sprague-Dawley strain was assessed in this study. E7155 was administered by intravenous injection at a dosage of 0.3, 1.0, or 2.0 mmol/kg/day to groups of 22 male rats for 13 weeks. Control animals received 0.9% sterile physiological saline throughout the same period. After four weeks of treatment, each male was paired with an untreated female of the same strain. Each male was paired again after 10 weeks of treatment with another untreated female of the same strain. All females were killed on Day 14 of gestation for examination of pregnancy status. No significant toxicological signs associated with systemic exposure to E7155 were observed. There were no effects of treatment with E7155 on body weight gain, food consumption, macroscopic findings, reproductive organ weights and sperm count or sperm motility in male rats. Mating performance after pairing at Weeks 4 and 10 of treatment as well as litter size and number of survival embryos on Day 14 of gestation were not affected by paternal treatment with E7155. From these results, the No Observed Adverse Effect Level (NOAEL) of E7155 was 2.0 mmol/kg/day for general and reproductive toxicity parameters in male rats treated with E7155 and for development in their embryos.

[Reproductive and developmental toxicity study of gadobenate dimeglumine formulation (E7155) (2)--Combined study of effects on fertility and embryo-fetal toxicity in female rats by intravenous administration].

The influence of gadobenate dimeglumine formulation (E7155) on fertility and general reproductive performance and embryo-fetal development was assessed in female Sprague-Dawley rats. E7155 was administered by intravenous injection at a dose of 0.3, 1.0 or 2.0 mmol/kg/day to groups of 22 female rats for 15 days before pairing. Treatment was continued throughout mating and up to Day 17 of gestation. Control animals received 0.9% sterile physiological saline throughout the same period. All females were killed on Day 20 of gestation for examination of their uterine contents. There were no toxic clinical signs of treatment. The body weight and food consumption of females before pairing and during gestation were not affected by treatment. Estrous cycles, mating performance, litter size and fetal weight, survival and development were also not affected by treatment. Based on the above results, the No Observed Adverse Effect Level (NOAEL) of E7155 was 2.0 mmol/kg/day for general toxicologic effects and reproduction of female rats and the development of their fetuses.

[Mutagenicity study of gadobenate dimeglumine formulation (E7155) (1)--Reverse mutation assays in S. typhimurium and E. coli tester strains].

The ability of gadobenate dimeglumine formulation (E7155) to cause gene mutations was assessed in five strains of Salmonella typhimurium (TA100, TA1535, TA98, TA1538, and TA1537) and a strain of Escherichia coli (CM891; WP2, uvrA-, pKM101) using the Ames test (agar plate assay). The results suggest that E7155 is non-mutagenic towards these bacterial tester strains.

[Reproductive and developmental toxicity study of gadobenate dimeglumine formulation (E7155) (3)--Study of embryo-fetal toxicity in rabbits by intravenous administration].

Gadobenate dimeglumine formulation (E7155) was daily administered by intravenous injection at 0.3, 0.9 or 2.0 mmol/kg/day to mated NZW female rabbits (20/group) to assess the effect on embryo-fetal development. Treatment with 2.0 mmol/kg/day caused initial, notable loss of body weight and reduction in food consumption. Slightly reduced body weight gain and food intake were recorded at 0.9 mmol/kg/day. There were no obvious adverse effects in dams given E7155 at 0.3 mmol/kg/day. There was a slightly higher incidence of early intrauterine deaths at 0.9 and 2.0 mmol/kg/day. Morphological examination of fetuses at 2.0 mmol/kg/day revealed small eye/microphthalmia and/or retinal irregularities in three fetuses from three separate litters. There was also an increase in the incidence of additional and/or fused sternebral centres and 20-thoracolumbar vertebrae at this dosage. From these results, the No Observed Adverse Effect Level (NOAEL) for general toxicity of dams and embryo-fetal development was 0.3 mmol/kg/day.

[Mutagenicity study of gadobenate dimeglumine formulation (E7155) (2)--Chromosome aberration test with human lymphocytes in culture].

The mutagenic potential of gadobenate dimeglumine formulation (E7155) was studied by the chromosome aberration test in cultured human lymphocytes. Human lymphocytes were exposed to E7155 at 0.078-10 mM both in the presence and absence of S9 mix derived from rat livers. Three dose levels (2.5-10 mM) were selected for the metaphase analysis. E7155 induced no increase in the incidence of aberrant cells or polyploid cells in any treatments both in the presence and absence of metabolic activation. Thus, it is concluded that E7155 has shown no evidence of clastogenic or polyploidy-inducing activity under these experimental conditions.

[Mutagenicity study of gadobenate dimeglumine formulation (E7155) (3)--Micronucleus test in rat bone marrow cells].

The mutagenic potential of gadobenate dimeglumine formulation (E7155) was studied by the micronucleus test in rats. Single intraperitoneal injection of E7155 to Sprague Dawley rats at the dose of 5295.2 mg/kg (5 mmol/kg) did not induce any statistically significant increase in the frequency of micronucleate cells in the bone marrow sampled after 18, 42 and 66 hr from time of administration.