Mice are widely used in studies investigating the effect of diet on metabolic risk factors, such as lipid profiles and plasma glucose levels. An important factor that is usually not taken into account is the biological age of the experimental models. The up-to-date identified experimental confounders do not cover all the parameters that may affect the results of animal studies. The aim of this study was to investigate the effects of a high-fat diet on the metabolic profile, hepatic and renal function in mice of differing ages. For this purpose two groups of male C57BL/6J mice were used, consisting of 10-week-old mice and 54-week-old mice in each group. Both groups followed identical high-fat diets for 12 weeks. The younger mice showed smaller increases in body weight, serum total cholesterol, glucose and urea levels while they had higher increases in high-density lipoprotein cholesterol levels than the older mice. Our results indicate the necessity to consider an experimental animal's age as a confounding factor when researching or interpreting metabolic studies. Age adjustment is warranted in all animal research while a uniform approach regarding the age of the animal models should be applied in experimental studies.
The findings of our study support that the proposed experimental model of colorectal endometriosis is feasible, easily reproducible and may be implemented in future research in this field.
It is estimated that approximately 0.5%-3% of fetuses are prenatally exposed to cocaine (COC). The neurodevelopmental implications of this exposure are numerous and include motor skill impairments, alterations of social function, predisposition to anxiety, and memory function and attention deficits; these implications are commonly observed in experimental studies and ultimately affect both learning and IQ. According to previous studies, the clinical manifestations of prenatal COC exposure seem to persist at least until adolescence. The pathophysiological cellular processes that underlie these impairments include dysfunctional myelination, disrupted dendritic architecture, and synaptic alterations. On a molecular level, various neurotransmitters such as serotonin, dopamine, catecholamines, and γ-aminobutyric acid seem to participate in this process. Finally, prenatal COC abuse has been also associated with functional changes in the hormones of the hypothalamic-pituitary-adrenal axis that mediate neuroendocrine responses. The purpose of this review is to summarize the neurodevelopmental consequences of prenatal COC abuse, to describe the pathophysiological pathways that underlie these consequences, and to provide implications for future research in the field.
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