Your browser doesn't support javascript.
loading
Show: 20 | 50 | 100
Results 1 - 20 de 35
Filter
1.
Neurosci Lett ; 834: 137848, 2024 Jun 21.
Article in English | MEDLINE | ID: mdl-38823510

ABSTRACT

Ketamine is a dissociative anesthetic that has been proposed to be a useful alternative in cases of a poor response to other treatments in patients with depression. Remarkably, beneficial clinical actions of ketamine are detected once its psychotropic actions disappear. Therefore, clinical actions may occur independently of dose. Most current studies focus on actions of ketamine on neurotrophic factors, but few studies have investigated actions of ketamine on neural structures for which actions of antidepressants have been previously explored. Lateral septal nucleus (LSN) stimulation reduces neural activity in the prelimbic cortex (PL) and infralimbic cortex (IL) subregions of the medial prefrontal cortex (mPFC). Fluoxetine increases inhibitory responsivity of the LSN-IL connection. In the present study, actions of an anesthetic dose of ketamine were compared with a high dose of fluoxetine on behavior and neural responsivity 24 h after drug administration. Fluoxetine reduced immobility in the forced swim test without changing locomotor activity in the open field test. Ketamine strongly decreased locomotor activity and did not produce changes in immobility. In another set of Wistar rats that received similar drug treatment regimens, the results indicated that LSN stimulation in saline-treated animals produced a long-lasting inhibitory afterdischarge in these mPFC subregions. Actions of ketamine on the LSN-mPFC connection reproduced actions of fluoxetine, consisting of accentuated inhibition of the LSN action on the mPFC. These findings suggest that independent of different actions on neurotransmission, the common final pathway of antidepressants lies in their actions on forebrain structures that are related to emotional regulation.


Subject(s)
Fluoxetine , Ketamine , Prefrontal Cortex , Rats, Wistar , Septal Nuclei , Animals , Ketamine/pharmacology , Fluoxetine/pharmacology , Male , Prefrontal Cortex/drug effects , Rats , Septal Nuclei/drug effects , Electric Stimulation
2.
Behav Brain Res ; 459: 114795, 2024 02 29.
Article in English | MEDLINE | ID: mdl-38048910

ABSTRACT

Gonadal hormones may influence sexual activity by reducing anxiety. The basolateral amygdala (BLA) and prelimbic (PL) and infralimbic (IL) cortical regions comprise a loop that is related to fear, anxiety, and social behavior. In female ovariectomized rats, actions of estradiol, progesterone, and sequential estradiol and progesterone administration were explored in the open field test (OFT) and plus maze test (PMT) to evaluate signs of anxiety-like behavior. The three hormonal treatments reduced indicators of anxiety in the PMT but did not influence behavior in the OFT. In the same behaviorally tested rats under urethane anesthesia, single-unit extracellular recordings were obtained from the PL and IL during electrical stimulation of the BLA. The analysis of 250 ms peristimulus histograms showed that BLA stimulation produced two kinds of response. A small group of neurons increased their firing rate after BLA stimulation. Most neurons exhibited a reduction of spiking. Neurons that increased their firing rate after BLA stimulation did not show any difference with the hormonal treatments. In neurons that were inhibited by BLA stimulation, estradiol reduced the neuronal firing rate in the PL and IL, and progesterone alone and the sequential administration of estradiol followed by progesterone administration 24 h later (priming) increased the firing rate during the 240 ms before BLA stimulation. Analyses of responsivity of the PL and IL during electrical stimulation of the BLA indicated that estradiol, progesterone, and estradiol followed by progesterone administration 24 h later (priming) reduced inhibitory actions of the BLA on the PL but not IL. In the BLA-IL connection, progesterone exacerbated the inhibitory response. These findings indicate that anxiolytic actions of estradiol, progesterone, and estradiol followed by progesterone administration 24 h later (priming) correspond to lower BLA-PL responsivity. Actions of progesterone on BLA-IL responsivity appear to contribute to sexual activity by interacting with other forebrain structures that are also related to sexual receptivity.


Subject(s)
Prefrontal Cortex , Progesterone , Rats , Female , Animals , Progesterone/pharmacology , Prefrontal Cortex/physiology , Amygdala/physiology , Anxiety/drug therapy , Estradiol/pharmacology
3.
Neuropsychobiology ; 82(1): 33-39, 2023.
Article in English | MEDLINE | ID: mdl-36577389

ABSTRACT

INTRODUCTION: Research in humans has identified a link between hypoglycemia and anxiety. The present study examined anxiety-like behaviors in rats that were subjected to hypoglycemia that was produced by an acute injection of insulin. Healthy female Wistar rats were subjected to a battery of tests to explore anxiety (elevated plus maze) and locomotion (open field test). METHODS: The control (CT) group received 0.9% saline (3 mL/kg, p.o.). Three other groups received 50% glucose (3 mL/kg, p.o.), insulin (0.1 UI, s.c.), or insulin + glucose (normalized glycemia [NG] group). RESULTS: Normal glycemic values were found in the CT and NG groups. Therefore, a single control (CT-NG) group was formed for statistical comparisons. The highest glycemic value was found in the glucose-induced hyperglycemia group. The lowest glycemic value was found in the insulin-induced hypoglycemia group. In the open field test, the most significant change was a higher number of rearings in the hypoglycemia group. In the elevated plus maze test, the CT-NG group and hyperglycemia groups exhibited similar behavior, whereas the hypoglycemia group spent a shorter time on the open arms and a longer time on the closed arms and had the highest Anxiety Index. Hyperglycemia is a typical characteristic of diabetes. Insulin normalizes glycemia. In the present study, insulin produced anxiety only when it produced hypoglycemia. CONCLUSION: The main effect of acute hypoglycemia is anxiety, which may be considered an early sign of hypoglycemia in an allostatic process.


Subject(s)
Hyperglycemia , Hypoglycemia , Humans , Rats , Female , Animals , Rats, Wistar , Anxiety , Hypoglycemia/complications , Hypoglycemia/chemically induced , Insulin , Hyperglycemia/chemically induced , Hyperglycemia/complications , Glucose/adverse effects
4.
Behav Brain Res ; 437: 114146, 2023 02 02.
Article in English | MEDLINE | ID: mdl-36202146

ABSTRACT

Some diabetes patients develop depression, the main treatment for which is antidepressants. Pharmacological interactions between insulin and antidepressants (e.g., fluoxetine) are controversial in the literature. Some authors reported hypoglycemic actions of fluoxetine, whereas others reported antidepressant-like actions. In healthy rats, insulin produces an antidespair-like action in rats through an increase in locomotor and exploratory activity, but differences in actions of insulin and fluoxetine on neuronal activity are unknown. The present study evaluated Wistar healthy rats that were treated with saline, insulin, fluoxetine, or fluoxetine + insulin for 3 days (short-term) or 21 days (long-term). The model consisted of electrical stimulation of the lateral septal nucleus (LSN) while we performed single-unit extracellular response recordings in the prelimbic cortex (PL) and infralimbic cortex (IL) subregions of the medial prefrontal cortex (mPFC). Stimulation of the LSN produced an initial brief excitatory paucisynaptic response and then a long-lasting inhibitory afterdischarge in the PL and IL. Treatment with saline and fluoxetine, but not insulin, minimally affected the paucisynaptic response. Differences were found in LSN-IL responsivity. The inhibitory afterdischarge was clearly enhanced in the long-term fluoxetine group but not by insulin alone or fluoxetine + insulin. These findings suggest that insulin produces some actions that are opposite to fluoxetine on LSN-mPFC connection responsivity, with no synergistic actions between the actions of insulin and fluoxetine.


Subject(s)
Septal Nuclei , Animals , Rats , Fluoxetine/pharmacology , Insulin/pharmacology , Rats, Wistar , Prefrontal Cortex/physiology , Antidepressive Agents/pharmacology
5.
Neurosci Lett ; 764: 136201, 2021 11 01.
Article in English | MEDLINE | ID: mdl-34469712

ABSTRACT

Basolateral amygdala (BLA) nuclei and their reciprocal connections with prelimbic (PL) and infralimbic (IL) regions of the medial prefrontal cortex (mPFC) are involved in the regulation of fear. 2-Heptanone is released in urine in stressed rats, and the olfactory detection of this odor produces immediate avoidance and alarm reactions and modifies neuronal activity in limbic connections in non-stressed rats. If 2-heptanone acts as a danger signal, then long-lasting actions would be expected. The aim of the present study was to investigate whether the forced inhalation of 2-heptanone modifies the response capacity of the BLA-mPFC circuit in the long term (48 h). Single-unit extracellular recordings were obtained from the PL and IL during electrical stimulation of the BLA (square-wave pulses; 1 ms, 20 µA, 0.3 Hz, 110 stimuli over a total duration of 360 s) in three groups of Wistar rats: control group (no sensory stimulation), unpredictable auditory stimulation group, and 2-heptanone stimulation group. A brief-latency (1 ms), short-duration (5 ms) paucisynaptic response followed BLA stimulation and was unaffected by any sensorial stimulation. The paucisynaptic response was followed by a mostly inhibitory and long-lasting (>750 ms) afterdischarge in the control and auditory stimulation groups. In the 2-heptanone group, the inhibitory afterdischarge shifted to an excitatory afterdischarge after ∼250 ms in the PL and after ∼500 ms in the IL. Importantly, the rats that were included in this study were born in local housing facilities. Thus, these animals were never in contact with predators and instead in contact with only conspecifics. These results indicate that the forced inhalation of 2-heptanone is able to modify BLA-mPFC responsivity in the long term. 2-Heptanone decreases inhibitory control of the amygdala over mPFC activity. Disinhibition of the mPFC may lead to the adaptive expression of defensive behaviors, even in animals that are not in the presence of predators.


Subject(s)
Avoidance Learning/drug effects , Basolateral Nuclear Complex/drug effects , Fear/drug effects , Ketones/administration & dosage , Prefrontal Cortex/drug effects , Acoustic Stimulation/methods , Administration, Inhalation , Animals , Avoidance Learning/physiology , Basolateral Nuclear Complex/physiology , Behavior, Animal/drug effects , Behavior, Animal/physiology , Fear/psychology , Male , Neural Pathways/drug effects , Prefrontal Cortex/physiology , Rats
6.
Neuropsychobiology ; 80(6): 483-492, 2021.
Article in English | MEDLINE | ID: mdl-33827082

ABSTRACT

BACKGROUND/AIMS: Anti-immobility actions of insulin in diabetic rats that are subjected to the forced swim test (FST) have been reported. In this test, low doses of antidepressants exert actions after long-term treatment, without affecting locomotor activity in healthy rats. Few studies have compared acute and chronic actions of insulin with antidepressants in healthy rats. METHODS: We hypothesized that if insulin exerts a true anti-immobility action, then its effects must be comparable to fluoxetine in both a 1-day treatment regimen and a 21-day treatment regimen in healthy, gonadally intact female Wistar rats. RESULTS: The results showed that low levels of glycemia were produced by all treatments, including fluoxetine, and glycemia was lower in proestrus-estrus than in diestrus-metestrus. None of the treatments or regimens produced actions on indicators of anxiety in the elevated plus maze. Insulin in the 1-day regimen increased the number of crossings and rearings in the open field test and caused a low cumulative immobility time in the FST. These actions disappeared in the 21-day regimen. Compared with the other treatments, fluoxetine treatment alone or combined with insulin produced a longer latency to the first period of immobility and a shorter immobility time in the chronic regimen in the FST, without affecting locomotor activity, and more pronounced actions were observed in proestrus-estrus (i.e., a true anti-immobility effect). CONCLUSION: These results indicate that insulin does not produce a true antidepressant action in healthy rats. The purported antidepressant effects that were observed were instead attributable to an increase in locomotor activity only in the 1-day regimen.


Subject(s)
Diabetes Mellitus, Experimental , Insulin , Animals , Antidepressive Agents/pharmacology , Female , Rats , Rats, Wistar , Swimming
7.
CienciaUAT ; 14(2): 51-61, ene.-jun. 2020. graf
Article in Spanish | LILACS-Express | LILACS | ID: biblio-1124383

ABSTRACT

Resumen Para el estudio de la diabetes se dispone de diversas estrategias metodológicas en modelos animales, tales como, técnicas quirúrgicas, modificaciones dietéticas, incluso manipulación genética y la administración de fármacos específicos, por su toxicidad. En animales, la diabetes experimental se logra con el uso de fármacos, como la aloxana o la estreptozotocina, los cuales producen daño irreversible en las células β-pancreáticas, aunque causan una alta mortalidad, debido a la cetosis asociada al daño agudo de estas células pancreáticas. El objetivo de este trabajo fue analizar los protocolos farmacológicos y otras estrategias disponibles, para determinar si la diabetes experimental realmente emula la diabetes humana. La diabetes es un proceso progresivo y crónico, en el que la mayor parte de las alteraciones clínicas son consecuencia, en el largo plazo, de alteraciones micro y macrovasculares. Por ello, es conveniente diferenciar entre los efectos de una hiperglucemia aguda, con aquellos que se observan cuando la hiperglucemia se prolonga a lo largo del tiempo, a fin de establecer analogías, entre el modelo experimental animal, con el síndrome diabético humano, mediante datos de laboratorio y de tipo clínico, de uso habitual en el diagnóstico y manejo de la diabetes humana.


Abstract For the study of diabetes, several methodological strategies use animal models. Such methodologies involve surgical techniques, diet modifications, some genetic manipulations and specific toxic drugs. The experimental production of diabetes in animal models use the administration of alloxan or streptozotocin and these drugs produce irreversible damage to pancreatic β-cells. However, its use is associated to a ketosis high mortality rate due to the acute damage of pancreatic cells. The aim of this review consisted in the analysis of the pharmacological diabetes production protocols as well as other available strategies, in order to elucidate which is potentially the ideal protocol that emulates human diabetes. Diabetes is a progressive and chronic process, in which most of the clinical alterations are a long-term consequence of micro and macrovascular alterations. Therefore, it is convenient to establish a difference between the effects of acute hyperglycemia, with those effects observable when hyperglycemia is present over the long-term in order to reach enough analogies between the animal experimental model with the human diabetes syndrome, through the use of laboratory and clinical indicators commonly employed for the diagnoses and management of human diabetes.

8.
Neurosci Lett ; 732: 135079, 2020 07 27.
Article in English | MEDLINE | ID: mdl-32454149

ABSTRACT

The lateral septal nucleus (LSN) exerts inhibitory control over lordosis in female rats, but the influence of forebrain structures, such as prelimbic (PL) and infralimbic (IL) regions of the medial prefrontal cortex (mPFC), on LSN activity during sexual receptivity is unknown. We hypothesized that the neural responsivity of these connections may differ depending on sexual receptivity. Gonadally intact female Wistar rats received sequential priming injections of estradiol and progesterone (E2-P4). The presence of lordosis was then confirmed by exposing the female rats to a sexually experienced male rat. Intromission was not allowed. Vaginal smear analyses verified that the rats were in proestrus-estrus of the estrous cycle. The results were compared with a diestrus group, which was verified by vaginal smears and the absence of lordosis. Under ethyl-carbamate anesthesia, single-unit extracellular recordings of the LSN were performed during electrical stimulation of the PL and IL to evaluate possible changes in the responsivity of neural connections. Stimulation of the PL or IL produced a short-latency, brief-duration (paucisynaptic) excitatory response in the LSN, followed by a period of afterhyperpolarization. Responsivity of the PL-LSN pathway was unaffected by E2-P4 priming. The paucisynaptic response of the IL-LSN pathway was significantly greater in the E2-P4-primed group than in the diestrus group, and the afterhyperpolarization response decreased to nearly zero. These findings indicate that the IL exerts inhibitory control over the LSN during diestrus in rats, but this inhibitory control decreases under the action of gonadal steroids, seemingly favoring sexual receptivity.


Subject(s)
Estrogens/physiology , Posture/physiology , Prefrontal Cortex/physiology , Progesterone/physiology , Septal Nuclei/physiology , Sexual Behavior, Animal/physiology , Animals , Estrous Cycle , Female , Male , Rats , Rats, Wistar
9.
Neurosci Lett ; 704: 78-83, 2019 06 21.
Article in English | MEDLINE | ID: mdl-30946929

ABSTRACT

The basolateral amygdala (BLA) and prelimbic (PL) and infralimbic (IL) cortices are interconnected structures that participate in the regulation of fear. Unknown are the reciprocal functional influence of these regions on neuronal responsivity and the action of an anxiolytic drug. We performed multiunit activity recordings from one neuronal pool while applying electrical stimulation to another neuronal pool. In the same experimental session, PL-BLA and IL-BLA sequences of stimulation-recording were applied, followed by the inverse sequence (BLA-PL and BLA-IL). Using this procedure, we obtained information from the same neuronal pool that was stimulated and recorded. Using peristimulus histograms, we analyzed neuronal responsivity. In the saline-treated group, the PL-BLA stimulation-recording sequence produced an inhibitory response. The inverse sequence, BLA-PL, produced an excitatory response. For BLA-IL and IL-BLA stimulation-recording sequences, a minimal response was observed in the saline control group. Diazepam minimally affected responsivity of the PL-BLA and BLA-IL connections. Diazepam blocked the initial excitatory response of the IL-BLA connection. Under control conditions, the PL and BLA appeared to regulate each other. Under the action of diazepam, the IL exerted an inhibitory influence on the BLA. Because of the well-known actions of this anxiolytic drug on the BLA, this combined action may result in the synergistic control of fear.


Subject(s)
Anti-Anxiety Agents/pharmacology , Basolateral Nuclear Complex/physiology , Diazepam/pharmacology , Limbic System/physiology , Prefrontal Cortex/physiology , Action Potentials , Animals , Male , Neurons/drug effects , Neurons/physiology , Rats, Wistar , Saline Solution/pharmacology
10.
Behav Brain Res ; 368: 111919, 2019 08 05.
Article in English | MEDLINE | ID: mdl-31005560

ABSTRACT

The lateral septal nucleus (LSN) is related to the actions of antidepressants, and the prelimbic cortex (PL) and infralimbic cortex (IL) modulate responses to fear. However, unknown is whether experimental diabetes that is induced by alloxan alters the responsivity of these regions. We used a method in which one forebrain region (LSN) was electrically stimulated while single-unit extracellular recordings were performed in another mPFC region (PL and IL). Several experimental groups were tested: (a) animals that were subjected to long-term (42-day) alloxan-hyperglycemia and protected with insulin, (b) healthy animals that received a low dose of insulin that does not produce changes in glycemia, and (c) animals that received long-term treatment with fluoxetine. Additional healthy groups of animals received insulin or fluoxetine and underwent the forced swim test. Biological measurements indicated the induction of diabetes in alloxan-treated rats. In this group, a shift toward an inhibitory response to LSN stimulation was observed in the PL and IL compared with the control group. A low dose of insulin or fluoxetine produced similar changes in LSN-PL and LSN-IL responsivity. Long-term hyperglycemia increased inhibitory responsivity in the LSN-PL and LSN-IL, but this action was less pronounced than the action that was exerted by insulin and fluoxetine, which produced similar actions. Such similar actions were confirmed in the forced swim test, in which the antidepressant-like effects of insulin partially resembled the effects of fluoxetine. The changes that were observed in the alloxan group appeared to be related to neuronal damage, and a low dose of insulin exerted some antidepressant-like actions.


Subject(s)
Fear/physiology , Prefrontal Cortex/physiology , Septal Nuclei/physiology , Alloxan/pharmacology , Animals , Antidepressive Agents/pharmacology , Brain/physiology , Diabetes Mellitus, Experimental/metabolism , Fluoxetine/pharmacology , Hyperglycemia/metabolism , Hyperglycemia/physiopathology , Insulin/metabolism , Insulin/pharmacology , Male , Neurons/physiology , Prefrontal Cortex/drug effects , Rats , Rats, Wistar , Septal Nuclei/drug effects
11.
Behav Brain Res ; 351: 114-120, 2018 10 01.
Article in English | MEDLINE | ID: mdl-29885850

ABSTRACT

Several clinically effective antidepressants increase the neuronal firing rate in the lateral septal nucleus (LSN), a forebrain structure that is anatomically related to medial prefrontal cortex (mPFC) regions. mPFC function is related to depression and the regulation of fear. However, unknown is whether antidepressant treatment or chronic stress modifies the responsivity of neuronal LSN-mPFC connections. We performed single-unit extracellular recordings in the anterior cingulate cortex (ACC) and prelimbic (PL) and infralimbic (IL) regions of the mPFC during stimulation of the LSN in anesthetized male Wistar rats that received fluoxetine (1 mg/kg, 21 days) or were subjected to chronic mild stress (5 weeks). The results were compared with a control group (saline treatment, devoid of behavioral manipulations). Stimulation of the LSN produced an initial excitatory paucisynaptic response, followed by an afterdischarge, characterized by an increase in the neuronal firing rate. Opposite changes were induced by fluoxetine treatment and chronic stress exposure. Peristimulus histograms and unit-activity ratio analyses indicated that LSN-mPFC responsivity differed between fluoxetine treatment and chronic stress exposure. Fluoxetine reduced neuronal responsivity in the LSN-PL and LSN-IL, and stress increased neuronal responsivity in the same regions. In both cases, the changes were more pronounced in the IL region. The lower responsivity of LSN-PL and LSN-IL connections that was produced by fluoxetine may reflect a higher threshold for fear, and lower responsivity of this connection may be related to states of fear. The LSN and mPFC comprise a portion of a limbic-cortical circuit where neuronal responses depend on specific conditions.


Subject(s)
Antidepressive Agents, Second-Generation/pharmacology , Fluoxetine/pharmacology , Neurons/drug effects , Prefrontal Cortex/drug effects , Septal Nuclei/drug effects , Stress, Psychological/drug therapy , Action Potentials/drug effects , Animals , Depressive Disorder/drug therapy , Depressive Disorder/physiopathology , Fear/drug effects , Fear/physiology , Male , Microelectrodes , Neural Pathways/drug effects , Neural Pathways/physiopathology , Neurons/physiology , Prefrontal Cortex/physiopathology , Random Allocation , Rats, Wistar , Septal Nuclei/physiopathology , Stress, Psychological/physiopathology
12.
Rev. Costarric. psicol ; 37(1): 1-25, ene.-jun. 2018. tab, graf
Article in Spanish | LILACS, Index Psychology - journals | ID: biblio-1091939

ABSTRACT

Resumen Con el objetivo de explorar las relaciones entre la autoeficacia académica y la ansiedad, como inciden te crítico, el presente estudio descriptivo-correlacional incluyó una muestra de 310 estudiantes (183 mujeres y 127 hombres), quienes respondieron a la Escala de Autoeficacia en Conductas Académicas (EACA), la Escala de Ansiedad ZUNG y el Inventario de Ansiedad Estado-Rasgo (IDARE). La prueba de Pearson indicó una correlación positiva significativa entre las puntuaciones de autoeficacia percibida, deseable y alcanzable en EACA, pero una correlación negativa con el índice de mejora de la misma prueba; es decir, los puntajes de autoeficacia percibida, deseable y alcanzable se com portan de manera similar; pero, a medida en que los puntajes de estos tres indicadores disminuyen, la puntuación del índice de mejora es mayor. Por lo tanto, la autoeficacia percibida se tomó como el principal indicador de EACA, la cual se correlacionó inversamente con los puntajes de las escalas de ZUNG e IDARE; es decir, cuanto menor es la autoeficacia percibida mayor es el nivel de ansie dad. En un segundo análisis, un criterio arbitrario permitió definir tres rangos de puntuaciones en autoeficacia percibida: baja (puntuación 1-7.4), intermedia (puntuación 7.5-8.9) y alta (puntuación 9.0-10.0). Un ANOVA de dos vías indicó que los estudiantes, con niveles de autoeficacia percibida baja, obtuvieron los niveles de ansiedad más altos con la conocida tendencia del género femenino a desarrollar mayores puntajes de ansiedad. En conclusión, los estudiantes con baja autoeficacia perci bida manifiestan ansiedad en el momento de la prueba. Permanece pendiente la exploración de una relación causa-efecto.


Abstract: With the aim of exploring relationships between academic self-efficacy and anxiety, as critical incidents, this des criptive study included a sample of 310 students (183 women and 127 men). Volunteers responded to the Self-efficacy in Academic Behavior Scale (EACA), ZUNG anxiety scale and State-Trait Anxiety Inventory (STAI). A correlation analysis was performed between the different levels of perceived, desirable, achievable self-efficacy and an improvement index with anxiety indicators. A Pearson analysis indicated a moderate but significant positive correlation among perceived, desirable, and attainable self-efficacy scores in the EACA test, but a negative corre lation among these three indicators and the same test's improvement index. In other words, perceived, desirable, and attainable self-efficacy scores tabulated similarly, but as the scores of these three indicators rose, the score of the improvement index declined. Therefore, the perceived self-efficacy was taken as main indicator of EACA. The perceived self-efficacy correlated inversely with the scores obtained on ZUNG and STAI scales, i.e., as lower the perceived self-efficacy, the higher the level of anxiety. In second analyses, an arbitrary criterion allowed the esta blishment of three ranges of perceived self-efficacy scores into low (score 1-7.4), intermediate (score 7.5-8.9) and high (score 9.0-10.0). A two-way ANOVA indicated that students in the low range of perceived self-efficacy also scored the highest anxiety levels, with the well-known trend of feminine gender to express high levels of anxiety. In conclusion, students with low perceived self-efficacy are also anxious at the moment of the test, leaving for the future an exploration of a cause and effect relationship.


Subject(s)
Humans , Male , Female , Adult , Anxiety/psychology , Teaching/psychology , Student Health , Self Efficacy , Patient Health Questionnaire , Self-Assessment , Mexico
13.
Neurosci Lett ; 678: 16-21, 2018 06 21.
Article in English | MEDLINE | ID: mdl-29727729

ABSTRACT

2-Heptanone (methyl n-amyl ketone) is a ketone that produces alarm reactions in insects (e.g., bees and ants). As an olfactory stimulus, 2-heptanone produces anxiety reactions in the short term and despair in the long term in rodent models. Among the anatomical connections of the olfactory system that integrate behavioral responses, connections between the amygdala and nucleus accumbens are important, which in turn form a circuit with the ventral tegmental area (VTA). 2-Heptanone increases the firing rate of amygdala neurons without participation of the vomeronasal organ. The olfactory amygdala-VTA-nucleus accumbens circuit may integrate defensive behaviors, but the possible actions of 2-heptanone on the responsivity of VTA-nucleus accumbens connections have not yet been explored. In the present study, multiunit activity recordings were obtained in adult Wistar rats from the core and shell subregions of the nucleus accumbens during electrical stimulation of the VTA under basal conditions and later during simultaneous stimulation of the VTA and olfactory exposure to 2-heptanone. 2-Heptanone reduced the responsivity of the VTA-nucleus accumbens shell but did not influence the responsivity of the VTA-nucleus accumbens core. The lower VTA-nucleus accumbens shell excitability may be related to a primary defensive warning when exposed to an alarm pheromone.


Subject(s)
Ketones/administration & dosage , Neurons/physiology , Nucleus Accumbens/physiology , Pheromones/physiology , Ventral Tegmental Area/physiology , Action Potentials/drug effects , Animals , Electric Stimulation , Male , Neural Pathways/drug effects , Neural Pathways/physiology , Neurons/drug effects , Nucleus Accumbens/drug effects , Pheromones/administration & dosage , Rats, Wistar , Ventral Tegmental Area/drug effects
14.
Psiquiatr. biol. (Internet) ; 24(3): 85-96, sept.-dic. 2017. tab, ilus
Article in Spanish | IBECS | ID: ibc-169093

ABSTRACT

Algunos trastornos neuropsicopatológicos cursan con alteraciones de la percepción del tiempo, pero las bases neurobiológicas apenas empiezan a descifrarse. El objetivo de esta revisión sistemática consistió en integrar los hallazgos realizados en la neurobiología de la percepción del tiempo en algunas neuropsicopatologías. Se realizó una búsqueda de artículos (1975-2016) en diversas bases de datos (ELSEVIER, NCBI, EBSCO, SpringerLink, ResearchGate, OXFORD, SciELO, Redalyc, PubMed, UNAM, entre otras), de las cuales se extrajeron los conceptos principales sobre el estudio de la percepción temporal, las estructuras cerebrales clave, los paradigmas de evaluación y los aspectos metodológicos. Se revisaron 135 referencias, 39 cumplieron los requisitos de inclusión y versaron sobre las alteraciones en la estimación de intervalos de tiempo en pacientes diagnosticados con trastorno por déficit de atención, esquizofrenia, enfermedades neurodegenerativas y trastornos afectivos. Aún no es posible obtener conclusiones definitivas sobre las alteraciones en la percepción temporal de diversas neuropsicopatologías. No obstante, el análisis de los estudios al parecer involucra como estructuras clave en la neurobiología de la percepción del tiempo al cerebelo, los núcleos basales, la corteza prefrontal, la corteza parietal y el hipocampo. La principal limitación metodológica encontrada en los estudios es la falta de un instrumento estandarizado que permita unificar los resultados de la investigación experimental (AU)


While some alterations in the perception of time occur in patients suffering from neuropsychopathological disorders, some studies have attempted to elucidate the neurobiological process involved. The objective of this systematic review was to integrate the neurobiological findings on perception of time disruptions in different neuropsychopathologies. Several data bases (1975-2016) were used (e.g. ELSEVIER, NCBI, EBSCO, SpringerLink, ResearchGate, OXFORD, SciELO, Redalyc, PubMed, UNAM), to extract the main concepts about temporal perception, the cerebral structures, and the neurotransmitters involved, as well as the paradigms and methods used. Among the 135 references, 39 fulfilled the inclusion criteria and are related with time estimation alteration in attention deficit hyperactivity disorder, schizophrenia, neurodegeneration, and mood disorders. It is currently not possible to obtain definitive conclusions about time perception impairments in several psychopathologies. Nevertheless, some brain structures seem to be essential for time perception: cerebellum, basal nuclei, prefrontal cortex, parietal cortex, and hippocampus. The lack of standardised measurement tools that allows a consistent comparison to be made between data is the main methodological failure (AU)


Subject(s)
Humans , Time Perception , Perceptual Disorders/psychology , Mental Disorders/psychology , Affective Symptoms/psychology , Attention Deficit Disorder with Hyperactivity/psychology , Schizophrenia , Neurodegenerative Diseases/psychology , Depressive Disorder/psychology , Emotions
15.
Early Hum Dev ; 115: 32-37, 2017 12.
Article in English | MEDLINE | ID: mdl-28886572

ABSTRACT

BACKGROUND: A mixture of eight fatty acids (lauric acid, myristic acid, palmitic acid, palmitoleic acid, stearic acid, oleic acid, elaidic acid, and linoleic acid) that are contained in human amniotic fluid, colostrum, and milk produces appetitive responses in newborns, suggesting the existence of a transition of sensorial cues that guide newborns to the maternal breast. OBJECTIVE: To explore the ability of each of these eight fatty acids individually to produce appetitive responses in newborns. METHODS: The study included 12 healthy human newborns<24h after birth. Using a longitudinal design, cotton swabs that were impregnated with each of the eight fatty acids and control substances (i.e., vehicle, saline, and vanilla) were placed approximately 1cm from the newborns' nostrils for 30s. Positive responses that were suggestive of acceptance included appetitive movements (i.e., suckling) and sniffing that were directed toward the cotton swab. Lateral movements of the head away from the swab were considered negative responses. Remaining stationary with no changes in facial expressions was considered indifference. RESULTS: Compared with controls (i.e., vehicle, saline, and vanilla) and the other fatty acids tested, myristic acid produced the longest duration of positive facial responses (suckling and sniffing). No significant differences in negative facial responses were observed in response to the odoriferous stimuli. No reactions that were suggestive of disgust were observed. CONCLUSION: A complex combination of stimuli, including the odor of myristic acid, may integrate sensory cues that guide newborns to the maternal breast.


Subject(s)
Amniotic Fluid/metabolism , Appetite/drug effects , Myristic Acid/pharmacology , Sucking Behavior/drug effects , Adolescent , Adult , Female , Humans , Infant, Newborn , Male , Myristic Acid/metabolism , Odorants
16.
Med Hypotheses ; 104: 160-165, 2017 Jul.
Article in English | MEDLINE | ID: mdl-28673577

ABSTRACT

The main characteristic of diabetes is hyperglycemia. Depending on whether diabetes is type-1 or type-2, it is characterized by deficiencies in insulin secretion, insulin receptor sensitivity, hexokinase activity, and glucose transport. Current drug treatments are able to lower circulating glucose but do not address the problem of glucose utilization in the intracellular milieu, the consequence of which is tissue damage. In the long-term, such changes can produce structural damage in many cortical and subcortical brain areas that are related to cognitive function. Many epidemiological reports consider anxiety and depression as clinical entities that accompany diabetes. However, anxiety and depression in diabetes appear to occur in parallel and do not follow a causal relationship. From a behavioral perspective, anxiety may be considered adaptive, whereas depression can be considered reactive in response to changes in lifestyle and ailments that are caused by the disease. Therefore, the main alteration in diabetes seems to be cognitive function. We hypothesized that in type-2 diabetes, hypoglycemic medications do not restore the function of glucose in the intracellular compartment, which may have deleterious effects on neural tissue with behavioral consequences. In such a case, it is important to develop pharmacological interventions that directly restore plasma insulin levels, insulin receptor function, and hexokinase activity, thereby avoiding damage to neural tissue that is associated with cognitive deficits in diabetic patients, particularly patients with type-2 diabetes. The better management of such alterations in diabetes should be directed toward improving glucose utilization by neural tissue.


Subject(s)
Blood Glucose/analysis , Cognitive Dysfunction/physiopathology , Diabetes Mellitus, Type 1/psychology , Diabetes Mellitus, Type 2/psychology , Neurons/metabolism , Animals , Anxiety/complications , Biological Transport , Brain/physiopathology , Cognition , Depression/complications , Diabetes Complications/psychology , Diabetes Mellitus, Type 1/therapy , Diabetes Mellitus, Type 2/therapy , Glucose/chemistry , Humans , Hyperglycemia/physiopathology , Hyperglycemia/psychology , Insulin/metabolism , Insulin Resistance , Models, Theoretical , Receptor, Insulin
17.
Neurosci Lett ; 649: 1-6, 2017 05 10.
Article in English | MEDLINE | ID: mdl-28385515

ABSTRACT

Amygdala-medial prefrontal cortex (mPFC) connections partially regulate fear, anxiety, and the acquisition of conditioned fear. Progesterone exerts some effects on anxiety and fear. Currently unknown, however, are the actions of progesterone on the responsivity of amygdala-mPFC connections and possible sex differences. We performed single-unit extracellular recordings from the prelimbic (PL) and infralimbic (IL) cortices of the mPFC during stimulation of the basal amygdala (BA) in anesthetized male and diestrus female rats. Basal amygdala stimulation produced an initial excitatory paucisynaptic response that was similar between sexes and unaffected by progesterone. A long-lasting inhibitory response followed the initial brief excitatory response, which was more pronounced in the PL region in males. The unit activity ratio analysis indicated that progesterone negated the sex difference in the PL region response to BA stimulation. The results suggest that progesterone decreases the responsivity to amygdala stimulation, particularly in males compared with diestrus females, which may be related to sex differences in the strategies to cope with threatening situations.


Subject(s)
Basolateral Nuclear Complex/physiology , Neurons/physiology , Prefrontal Cortex/physiology , Progesterone/physiology , Sex Characteristics , Animals , Electric Stimulation , Female , Male , Neural Pathways/physiology , Progesterone/administration & dosage , Rats, Wistar
18.
Salud ment ; 36(4): 279-284, jul.-ago. 2013. ilus
Article in English | LILACS-Express | LILACS | ID: lil-691278

ABSTRACT

The capability to perceive and emit alarm substances, such as 2-heptanone, makes animals aware of the presence of danger, leading to some strategies directed towards survival. Strategies of survival involve emotional memory which is processed by deep temporal lobe structures, such as amygdaloid complex and hippocampus. In the Wistar rat, 2-heptanone produces anxiety-like behavior and an increased firing rate of basal amygdaline neurons. However, it is unknown whether 2-heptanone modifies the responsivity of medial amygdaline-hippocampal connection. Therefore, we placed a group (n=10) of Wistar rats in a plexiglass cage impregnated with 2-heptanone. Rats from control group (n=10) were introduced into a similar clean cage. Twenty four hours later we obtained single-unit extracellular recordings from the hippocampus (CA1-CA3) neurons identified by their connection to medial amygdala. Although the basal neuronal firing rate was similar between groups, first order interval distribution histogram analysis showed that 2-heptanone produced shorter intervals of firing rate. Peristimulus histograms indicated that: i) the amygdaline stimulation produces an increased firing rate in hippocampal neurons; and ii) this response is increased and enlarged on the 2-heptanone group. Since a single exposure to an alarm pheromone seems to facilitate the amygdala-hippocampal connection, results suggest the initial formation of contextual memories related with fear.


La percepción olfatoria de feromonas de alarma, como la 2-heptanona, promueve ciertas estrategias de supervivencia con la participación de la memoria emocional, integrada en estructuras del lóbulo temporal, como la amígdala y el hipocampo. En la rata Wistar, la olfacción de 2-heptanona genera conductas sugerentes de ansiedad y un incremento de la tasa de disparo neuronal del núcleo basal de la amígdala. Sin embargo, no se conoce si la 2-heptanona modifica la responsividad de la conexión amígdala medial-hipocampo. Un grupo de ratas Wistar (n=10) fue colocado dentro de una caja de acrílico impregnada con 2-heptanona; el grupo control (n=10) fue introducido en una caja limpia. Veinticuatro horas después se obtuvo el registro unitario extracelular de neuronas del hipocampo (CA1-CA3) identificadas por su conexión con la amígdala medial. Aunque la tasa de disparo basal fue similar entre los grupos experimentales, el histograma de distribución de intervalos de primer orden indicó un predominio de intervalos de breve duración en el grupo 2-heptanona. Los histogramas periestímulo indicaron que: i) las neuronas hipocampales responden con un incremento en la tasa de disparo neuronal ante la estimulación amigdalina; ii) la respuesta es de mayor magnitud y duración en el grupo previamente expuesto a 2-heptanona. Dado que una sola exposición a una feromona de alarma facilita la conexión amígdala medial-hipocampo, los resultados sugieren la formación inicial de una memoria contextual relacionada con el miedo.

19.
ScientificWorldJournal ; 2013: 534807, 2013.
Article in English | MEDLINE | ID: mdl-23864826

ABSTRACT

Human amniotic fluid (AF) contains eight fatty acids (FATs), and both produce anxiolytic-like effects in adult rats and appetitive responses in human newborns. The medial amygdala and lateral septal nucleus function are related to social behavior, but the action of AF or its FATs in this circuit is known. We obtained 267 single-unit extracellular recordings in Wistar rats treated with vehicle (1 mL, s.c.; n = 12), human AF (1 mL, s.c.; n = 12), a FAT mixture (1 mL, s.c.; n = 13), diazepam (1 mg/kg, i.p.; n = 11), and fluoxetine (1 mg/kg, p.o.; n = 12). Compared with the vehicle group, the spontaneous septal firing rate in the AF, FAT mixture, and diazepam groups was the lowest and in the fluoxetine group the highest. Cumulative peristimulus histograms indicated that the significant change in septal firing occurred only in the AF and FAT mixture groups and exclusively in those neurons that increased their firing rate during amygdala stimulation. We conclude that human AF and its FATs produce actions comparable to anxiolytic drugs and are able to modify the responsivity of a circuit involved in social behavior, suggesting facilitation of social recognition processes by maternal-fetal fluids.


Subject(s)
Action Potentials/physiology , Amniotic Fluid/chemistry , Biological Clocks/physiology , Diazepam/pharmacology , Fatty Acids/pharmacology , Neurons/physiology , Septal Nuclei/physiology , Action Potentials/drug effects , Adolescent , Adult , Animals , Anticonvulsants/pharmacology , Biological Clocks/drug effects , Fatty Acids/chemistry , Female , Humans , Male , Neurons/drug effects , Rats , Rats, Wistar , Septal Nuclei/drug effects , Young Adult
20.
Behav Brain Res ; 252: 101-9, 2013 Sep 01.
Article in English | MEDLINE | ID: mdl-23721965

ABSTRACT

Some chemical cues may produce signs of anxiety and fear mediated by amygdala nuclei, but unknown is the role of two anterior olfactory epithelial organs, the septal and vomeronasal organs (SO-VNOs). The effects of SO-VNO removal were explored in different groups of Wistar rats using two complementary approaches: (i) the assessment of neuronal firing rate in basal and medial amygdala nuclei and (ii) behavioral testing. Fourteen days after SO-VNO removal, spontaneous activity in basal and medial amygdala nuclei in one group was determined using single-unit extracellular recordings. A separate group of rats was tested in the elevated plus maze, social interaction test, and open field test. Compared with sham-operated and intact control rats, SO-VNO removal produced a higher neuronal firing rate in the basal amygdala but not medial amygdala. In the behavioral tests, SO-VNO removal increased signs of anxiety in the elevated plus maze, did not alter locomotion, and increased self-directed behavior, reflecting anxiety-like behavior. Histological analysis showed neuronal destruction in the accessory olfactory bulb but not anterior olfactory nucleus in the SO-VNO group. The present results suggest the participation of SO-VNO/accessory olfactory bulb/basal amygdala relationships in the regulation of anxiety through a process of disinhibition.


Subject(s)
Action Potentials/physiology , Amygdala/pathology , Anxiety/pathology , Neurons/physiology , Vomeronasal Organ/injuries , Analysis of Variance , Animals , Anxiety/etiology , Anxiety/physiopathology , Denervation/adverse effects , Disease Models, Animal , Exploratory Behavior/physiology , Interpersonal Relations , Male , Maze Learning/physiology , Olfactory Pathways/pathology , Rats , Rats, Wistar
SELECTION OF CITATIONS
SEARCH DETAIL
...