Differential staining of cartilage and bone has several applications including developmental toxicology studies of new chemical candidates for pharmaceutical, industrial, and environmental use. It has been more common to stain fetal bone only using the dye alizarin red S; however, failure to evaluate the cartilaginous portion of the skeleton may result in the failure to identify toxicologically important alterations in skeletal morphology. Previously, differential staining of fetal cartilage and bone was best achieved by combining alizarin red S for staining bone with alcian blue to stain cartilage in glacial acetic acid solution; however, occupational hazards posed by the use of glacial acetic acid make these methods undesirable. Replacement of the glacial acetic acid with potassium hydrogen phthalate eliminates these hazards without compromising the quality of the stained specimen.
The tumorigenic potential of dulaglutide was evaluated in rats and transgenic mice. Rats were injected sc twice weekly for 93 weeks with dulaglutide 0, 0.05, 0.5, 1.5, or 5 mg/kg corresponding to 0, 0.5, 7, 20, and 58 times, respectively, the maximum recommended human dose based on plasma area under the curve. Transgenic mice were dosed sc twice weekly with dulaglutide 0, 0.3, 1, or 3 mg/kg for 26 weeks. Dulaglutide effects were limited to the thyroid C-cells. In rats, diffuse C-cell hyperplasia and adenomas were statistically increased at 0.5 mg/kg or greater (P ≤ .01 at 5 mg/kg), and C-cell carcinomas were numerically increased at 5 mg/kg. Focal C-cell hyperplasia was higher compared with controls in females given 0.5, 1.5, and 5 mg/kg. In transgenic mice, no dulaglutide-related C-cell hyperplasia or neoplasia was observed at any dose; however, minimal cytoplasmic hypertrophy of C cells was observed in all dulaglutide groups. Systemic exposures decreased over time in mice, possibly due to an antidrug antibody response. In a 52-week study designed to quantitate C-cell mass and plasma calcitonin responses, rats received twice-weekly sc injections of dulaglutide 0 or 5 mg/kg. Dulaglutide increased focal C-cell hyperplasia; however, quantitative increases in C-cell mass did not occur. Consistent with the lack of morphometric changes in C-cell mass, dulaglutide did not affect the incidence of diffuse C-cell hyperplasia or basal or calcium-stimulated plasma calcitonin, suggesting that diffuse increases in C-cell mass did not occur during the initial 52 weeks of the rat carcinogenicity study.
Normal blood flow patterns to several maternal organs were characterized in individual CD rats, nonpregnant (NP) or on day 6, 7, 8, 10, 11, 12, 13, 16, 18, or 20 of gestation using the radioactive microsphere technique. Weights and flow values were determined for several uterine tissue samples as well as maternal organs. No significant changes were found in blood flow to the stomach, spleen, and urinary bladder of these animals. There also were no remarkable changes as pregnancy progressed in blood flow to the lungs, suggesting that no marked arterial-venous shunting occurs in maternal placental tissues over gestation. Slight but consistent decreases in absolute (ml/min) and relative (ml/min/g tissue) blood flow to the brain were noted, and percent cardiac output (CO) was significantly decreased on all days of gestation except day 7. Complex changes were observed in blood flow to the kidneys, liver, adrenals, and heart. Absolute flow to the kidneys and liver reached maximum values on day 11, although percent CO delivered to both organs was consistently reduced throughout gestation. Absolute flow to the heart and adrenals peaked on day 13 and days 11-12, respectively. Absolute flow to the ovaries increased nearly 5-fold from the NP state (0.36 +/- 0.11) to day 20 of pregnancy (1.61 +/- 0.33). Interlitter differences in ovarian blood flow during midgestation were found to be a result of differences in litter size and distribution of embryo/fetuses between the two uterine horns. The fact that the majority of changes observed in maternal organ flow coincide with placental development, rapid augmentation of total uterine flow, and/or maternal hormonal changes suggests that these patterns may be important indicators of the dynamic physiology of pregnancy.
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