From Bedside to Bench and Back Again: Research Issues in Animal Models of Human Disease

Tkacs, Nancy C.; Thompson, Hilaire J.

doi:10.1177/1099800406289717

Cited by 26 publications

(9 citation statements)

References 78 publications

(108 reference statements)

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“…Here, we report the first characterization of operant energy drink self‐administration, as well as its effects on alcohol self‐administration. Given that this method has a very high predictive validity in humans (Tkacs & Thompson ), the feasibility of operant energy drink and mixed alcohol/energy drink self‐administration constitutes a further advance that likely will help us understand the impact of these beverages on human health. Furthermore, in order to mimic more precisely human energy drink consumption, we used one of the most consumed energy drink worldwide, i.e.…”

Section: Discussionmentioning

confidence: 99%

Red Bull® energy drink increases consumption of higher concentrations of alcohol

et al. 2017

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Mixing alcohol with caffeinated energy drinks is a common practice, especially among young people. In humans, the research on this issue has mainly focused on the use of the mass-marketed energy drinks themselves, whereas in animal models, it has focused on the individual effects of their active ingredients (i.e. caffeine). Here, we have characterized how Red Bull®, one of the most consumed caffeinated energy drink worldwide, modulates operant alcohol self-administration in Wistar rats. We found that animals readily and steadily responded for Red Bull (mean: 90 responses, 30 minutes and fixed-ratio 1), which was accompanied by locomotor stimulating effects (26 percent increase). The higher the concentration of alcohol (3-20 percent), the higher the consumption of alcohol (g/kg) and associated blood alcohol levels (91.76 percent) in the mixed Red Bull-alcohol group (60 percent increase). Blood caffeine levels in the Red Bull group were 4.69 μg/ml and 1.31 μg/ml in the Red Bull-alcohol group after the 30-minute session. Because Red Bull also contains 11 percent sucrose, we examined the time course of blood glucose as well as insulin and corticosterone. The correlation between intake of Red Bull and blood glucose levels was higher at 90 minutes than 5 minutes after its consumption, and there was no relationship with blood insulin or blood corticosterone levels. Red Bull did not alter extinction and reacquisition of responding for alcohol nor did it affect relapse-like drinking. Overall, our results suggest that Red Bull might be a vulnerability factor to develop alcoholism given that it intensifies the consumption of higher concentrations of alcohol.

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Section: Discussionmentioning

confidence: 99%

Red Bull® energy drink increases consumption of higher concentrations of alcohol

et al. 2017

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“…A powerful animal model also needs to be reliable, i.e., reproducible within the same circumstances at different times, and between various laboratories. This is often an issue in basic research [61]. -Study design is as important as the choice of animal model [17].…”

Section: Methodsmentioning

confidence: 99%

Animal models of the cancer anorexia–cachexia syndrome

Bennani-Baiti

Walsh

2010

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Cancer-anorexia cachexia animal models are numerous. No one is ideal. The choice should depend on the research question. To investigate cancer-anorexia cachexia independent of pro-inflammatory cytokine effects, the MAC16 ADK and XK1 are useful. MAC16 ADK helps study the host's tumor metabolic effects, independent of any anorexia or inflammation. XK1 is both anorectic and cachectic, but data about it is limited. All other models induce a host inflammatory response. The Walker 256 ADK and MCG 101 are best avoided due to excessive tumor growth. Since individual models do not address all aspects of the syndrome, use of a combination seems wise. Suggested combinations: MAC16-ADK (non-inflammatory and non-anorectic) with YAH-130 (inflammatory, anorectic, and cachectic), Lewis lung carcinoma (slow onset anorexia) or prostate adenocarcinoma (inflammatory, anorectic but not cachectic) with YAH-130.

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“…The quality of an animal model is characterized by its reliability, and by its validity. 1,2 There are three concepts of validity that can be distinguished: face validity, predictive validity, and construct/etiological validity. In short, face validity is high if the model exhibits a behavioral or biological syndrome that meets typical criteria used to define the syndrome in humans.…”

Section: Animal Modeling-general Considerationsmentioning

confidence: 99%

“…To model restless legs syndrome (RLS) in animals, two steps are necessary: (1) The essential constituents of a (behavioral) animal phenotype of RLS have to be defined. (2) Knowledge and hypotheses on the etiology of RLS have to be applied to animals, to see if an expected animal phenotype can be observed.…”

Section: Animal Modeling-specific Considerationsmentioning

confidence: 99%

Animal studies in restless legs syndrome

2007

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Although restless legs syndrome (RLS) is a common disorder that has been studied thoroughly in the past decades, the underlying pathophysiology is still not fully understood. However, some attractive hypotheses on the pathogenesis of the disorder have been forwarded. Animal models are an important tool to verify hypotheses and to dissect out the details of pathophysiological mechanisms. Ideally they might serve the development of future treatment strategies. This review discusses the general and specific prerequisites necessary for the establishment of animal models for RLS and summarizes the approaches that have been made.

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From Bedside to Bench and Back Again: Research Issues in Animal Models of Human Disease

Cited by 26 publications

References 78 publications

Red Bull® energy drink increases consumption of higher concentrations of alcohol

Red Bull® energy drink increases consumption of higher concentrations of alcohol

Animal models of the cancer anorexia–cachexia syndrome

Animal studies in restless legs syndrome

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