Impact of Obesity on Cardiac Autonomic System Functioning in Military Police Officers.

INTRODUCTION: Cardiac autonomic system functioning may be altered by obesity leading to cardiovascular diseases and associated complications. Military police officers are exposed to traditional and occupational risk factors for the development of CVD, however data on the cardiovascular health in this population is still scarce. AIM: In this cross-sectional study, we investigated the impact of obesity on cardiac autonomic modulation and the hemodynamic profile in male active-duty military police officers. METHODS: The body composition of the volunteers was assessed by octapolar electrical bioimpedance. Participants were classified as non-obese or obese in accordance with their body fat, with further subgroups as physically active obese or insufficiently active obese using International Physical Activity Questionnaire (IPAQ). Cardiac autonomic modulation was assessed by heart rate variability and the automatic oscillometric method allowed us to assess hemodynamic features. RESULTS: 102 military police officers from the state of São Paulo participated in the study. Cardiac autonomic modulation revealed significant impairment in time and frequency domains and non-linear methods in the obese group compared to the non-obese (p < 0.05). A higher physical activity level did not alter these results in the obese group. However, no significant differences in the hemodynamic profile were observed between groups (p > 0.05). CONCLUSION: These findings suggest a negative association between obesity and cardiac autonomic modulation in military police officers, unaffected by increased physical activity.

Environmental novelty modulates the induction and expression of single injection-induced behavioral sensitization to morphine.

Opioid addiction is a growing public health problem, being currently considered an epidemic in the United States. Investigating the behavioral effects of opioids and the factors influencing their development becomes of major importance. In animals, the effects of drugs of abuse can be assessed using the behavioral sensitization model, which shares similar neuronal substrates with drug craving in humans. Importantly, novelty plays a critical role on the development of behavioral sensitization. The aim of the present study was to investigate the influence of a new environment on both the induction and expression phases of morphine (Mor)-induced behavioral sensitization in the two-injection protocol. Mice were initially treated with saline, 15 or 30 mg/kg Mor (induction phase), and subsequently challenged 7 days later with 15 mg/Kg Mor (expression phase). Locomotor frequency was evaluated during behavioral sessions, performed as follow: induction session on a novel environment and expression on a familiar open-filed apparatus; induction session on animals' home-cage (familiar environment) and expression session on an unknown open-filed apparatus; both sessions on novel environments; and both sessions on familiar contexts. Mor-induced behavioral sensitization was only observed when animals were exclusively exposed to novelty during the induction phase, not being observed when both the induction and expression sessions were performed on similar (novel or familiar) environments. Our results suggest that the development of behavioral sensitization to Mor depends on the exposure to novelty during the induction phase and absence of novelty during the expression phase, indicating a complex relationship between novelty and Mor-induced behavioral effects.

Haloperidol (but not ziprasidone) withdrawal potentiates sensitization to the hyperlocomotor effect of cocaine in mice.

One important contributing factor in the high prevalence of drug abuse disorders seen among schizophrenic patients seems to be related to chronic treatment with typical neuroleptics. We have previously demonstrated that withdrawal from long-term treatment with the typical neuroleptic haloperidol, but not the atypical neuroleptic ziprasidone, potentiated the hyperlocomotor effect induced by a single cocaine injection and cocaine-induced conditioned place preference in mice. In the present study we investigated whether withdrawal from long-term treatment with these same neuroleptics would also modify cocaine-induced hyperlocomotion sensitization, which has been proposed as an animal model for the intensification of drug craving in cocaine addiction. Swiss male mice were i.p. treated with haloperidol (1.0 mg/kg) or ziprasidone (4.0 mg/kg) for 15 days. Twenty-four hours after the last injection, animals received an i.p. injection of cocaine (10 mg/kg) for 5 consecutive days, being placed after each injection in the open-field apparatus in order to perform a drug-environment conditioning. Seven days after the last drug-environment conditioning procedure, the animals were challenged with an i.p. injection of cocaine (10 mg/kg), placed in the open-field apparatus and had their locomotor activity quantified. Withdrawal from haloperidol (but not ziprasidone) potentiated cocaine-induced behavioral sensitization. These results are suggested to be a consequence of the development of the dopaminergic supersensitivity phenomenon by long-term treatment with the typical compound. Our findings provide additional support for the use of atypical agents like ziprasidone in the treatment of schizophrenic patients with comorbid substance abuse disorder.