lisdexamfetamine-dimesylate and Disease-Models--Animal

lisdexamfetamine-dimesylate has been researched along with Disease-Models--Animal* in 4 studies

Other Studies

4 other study(ies) available for lisdexamfetamine-dimesylate and Disease-Models--Animal

ArticleYear
Lisdexamfetamine suppresses instrumental and consummatory behaviors supported by foods with varying degrees of palatability: Exploration of a binge-like eating model.
    Pharmacology, biochemistry, and behavior, 2020, Volume: 189

    Diets high in sugar or fat are associated with multiple health conditions, including binge eating disorder (BED). BED affects approximately 2% of the US adult population, and occurs more frequently in females. It is important to develop animal models of palatable food consumption and food seeking that may have relevance for BED and other conditions associated with excessive food intake. The catecholamine uptake blocker and d-amphetamine prodrug lisdexamfetamine is used to treat BED. The present experiments studied the effect of lisdexamfetamine on food intake and food-reinforced effort-based choice in female Wistar rats. Three groups of rats received different food exposure conditions in the home cage randomly spread over several weeks: a chocolate exposure group (CE; brief access of chocolate and additional lab chow, n = 15), a lab chow exposure (LChE) group given additional access to lab chow (n = 8), and a third group given empty food dishes (n = 7). In tests of food intake under non-restricted conditions, lisdexamfetamine (0.1875-1.5 mg/kg IP) significantly reduced intake of both chocolate and chow in the CE group. In the LChE group, there was a trend towards reduced chow intake induced by lisdexamfetamine. All rats were trained on a Progressive Ratio/chow feeding choice task, in which they had a choice between working for high carbohydrate chocolate flavored pellets by lever pressing vs. approaching and consuming a concurrently available lab chow. The LChE group and the empty food dish group were combined to create one control group (n = 15). There was a significant overall dose-related suppressive effect of lisdexamfetamine on lever pressing but no group difference, and no dose x group interaction. Lisdexamfetamine significantly decreased chow intake in the CE group, but not in the control group. In conclusion, lisdexamfetamine affected both food intake and food-reinforced operant behavior, with larger effects seen in the group exposed to chocolate.

    Topics: Animals; Binge-Eating Disorder; Body Weight; Bulimia; Chocolate; Conditioning, Operant; Consummatory Behavior; Disease Models, Animal; Eating; Feeding Behavior; Female; Food Preferences; Lisdexamfetamine Dimesylate; Prodrugs; Rats; Rats, Wistar; Reward; Treatment Outcome

2020
Effects of lithium on inflammatory and neurotrophic factors after an immune challenge in a lisdexamfetamine animal model of mania.
    Revista brasileira de psiquiatria (Sao Paulo, Brazil : 1999), 2019, Volume: 41, Issue:5

    To evaluate whether an animal model of mania induced by lisdexamfetamine dimesylate (LDX) has an inflammatory profile and whether immune activation by lipopolysaccharides (LPS) has a cumulative effect on subsequent stimuli in this model. We also evaluated the action of lithium (Li) on inflammatory and neurotrophic factors.. Adult male Wistar rats were subjected to an animal model of mania. After the open-field test, they were given LPS to induce systemic immune activation. Subsequently, the animals' blood was collected, and their serum levels of brain-derived neurotrophic factor and inflammatory markers (tumor necrosis factor [TNF]-α, interleukin [IL]-6, IL-1β, IL-10, and inducible nitric oxide synthase [iNOS]) were measured.. LDX induced hyperactivity in the animals, but no inflammatory marker levels increased except brain-derived neurotrophic factor (BDNF). Li had no effect on serum BDNF levels but prevented iNOS levels from increasing in animals subjected to immune activation.. Although Li prevented an LPS-induced increase in serum iNOS levels, its potential anti-inflammatory effects in this animal model of mania were conflicting.

    Topics: Animals; Anti-Inflammatory Agents; Bipolar Disorder; Brain-Derived Neurotrophic Factor; Cytokines; Disease Models, Animal; Enzyme-Linked Immunosorbent Assay; Lipopolysaccharides; Lisdexamfetamine Dimesylate; Lithium; Locomotion; Male; Nerve Growth Factors; Nitric Oxide Synthase Type II; Rats, Wistar; Reproducibility of Results; Time Factors; Treatment Outcome

2019
Evaluation of 50-kHz ultrasonic vocalizations in animal models of mania: Ketamine and lisdexamfetamine-induced hyperlocomotion in rats.
    European neuropsychopharmacology : the journal of the European College of Neuropsychopharmacology, 2016, Volume: 26, Issue:12

    Drug-induced hyperlocomotion in rodents is frequently used as a behavioral model for mania. However, the use of locomotor activity as the single parameter in these animal models of mania may pose some limitations for developing new pharmacological treatments. Thus, alternative behavioral markers are required. Fifty-kHz ultrasonic vocalizations (USV), which are thought to represent positive affect, are increased by the administration of the psychostimulant d-amphetamine, an effect that can be prevented by lithium treatment, the gold standard antimanic drug for treating bipolar disorder. The aim of this study was to evaluate 50-kHz USV in two other pharmacological-induced animal models of mania: ketamine (KET)- and lisdexamfetamine (LDX)-induced hyperlocomotion. After systemic injection of LDX (10mg/kg, ip), racemic-ketamine (25mg/kg, ip) or S-ketamine (25mg/kg, ip), locomotor activity and 50-kHz USV emission were evaluated in rats. Furthermore, the effects of an antimanic treatment, namely lithium carbonate (100mg/kg, ip), on LDX-induced 50-kHz USV and hyperlocomotion were tested. Rats treated with racemic KET and S-KET showed increased locomotor activity, but these drug treatments did not significantly affect 50-kHz USV emission rates. On the other hand, LDX administration increased both locomotor activity and 50-kHz USV with both effects being reversed by lithium administration. The present findings suggest that 50-kHz USV can differentiate between drug-induced models of mania, which may represent different types of manic episodes. Thus, measuring 50-kHz USV might serve as an additional valuable behavioral variable to assess mania-like phenotypes in rat models.

    Topics: Animals; Antimanic Agents; Bipolar Disorder; Central Nervous System Stimulants; Disease Models, Animal; Excitatory Amino Acid Antagonists; Hyperkinesis; Ketamine; Lisdexamfetamine Dimesylate; Lithium Carbonate; Male; Motor Activity; Rats; Rats, Wistar; Vocalization, Animal

2016
Effects of lisdexamfetamine in a rat model of binge-eating.
    Journal of psychopharmacology (Oxford, England), 2015, Volume: 29, Issue:12

    Binge-eating disorder is a common psychiatric disorder affecting ~2% of adults. Binge-eating was initiated in freely-fed, lean, adult, female rats by giving unpredictable, intermittent access to ground, milk chocolate over four weeks. The rats avidly consumed chocolate during 2 hr binge sessions, with compensatory reductions of normal chow intake in these sessions and the days thereafter. Bodyweights of binge-eating rats were normal. The model's predictive validity was explored using nalmefene (0.1-1.0mg/kg), R-baclofen (1.0-10mg/kg) and SB-334867 (3.0-30 mg/kg) (orexin-1 antagonist), which all selectively decreased chocolate bingeing without reducing chow intake. Sibutramine (0.3-5.0mg/kg) non-selectively reduced chocolate and chow consumption. Olanzapine (0.3-3.0mg/kg) was without effect and rolipram (1.0-10mg/kg) abolished all ingestive behaviour. The pro-drug, lisdexamfetamine (LDX; 0.1-1.5mg/kg), dose-dependently reduced chocolate bingeing by ⩽ 71% without significantly decreasing normal chow intake. Its metabolite, D-amphetamine (0.1-1.0mg/kg), dose-dependently and preferentially decreased chocolate bingeing ⩽ 56%. Using selective antagonists to characterize LDX's actions revealed the reduction of chocolate bingeing was partially blocked by prazosin (α1-adrenoceptor; 0.3 and 1.0mg/kg) and possibly by SCH-23390 (D1; 0.1mg/kg). RX821002 (α2-adrenoceptor; 0.1 and 0.3mg/kg) and raclopride (D2; 0.3 and 0.5mg/kg) were without effect. The results indicate that LDX, via its metabolite, d-amphetamine, reduces chocolate bingeing, partly by indirect activation of α1-adrenoceptors and perhaps D1 receptors.

    Topics: Animals; Baclofen; Behavior, Animal; Benzazepines; Benzodiazepines; Body Weight; Bulimia; Disease Models, Animal; Eating; Feeding Behavior; Female; Idazoxan; Lisdexamfetamine Dimesylate; Naltrexone; Olanzapine; Prazosin; Prodrugs; Raclopride; Rats; Rats, Wistar; Rolipram

2015