Search

Your search keyword '"Costa, Kauê M."' showing total 21 results
Start Over Author "Costa, Kauê M."
21 results on '"Costa, Kauê M."'

1. Multi-scale detection of rate changes in spike trains with weak dependencies

Author

Messer, Michael, Costa, Kauê M., Roeper, Jochen, and Schneider, Gaby

Subjects
Mathematics - Statistics Theory, Statistics - Applications
Abstract

The statistical analysis of neuronal spike trains by models of point processes often relies on the assumption of constant process parameters. However, it is a well-known problem that the parameters of empirical spike trains can be highly variable, such as for example the firing rate. In order to test the null hypothesis of a constant rate and to estimate the change points, a Multiple Filter Test (MFT) and a corresponding algorithm (MFA) have been proposed that can be applied under the assumption of independent inter spike intervals (ISIs). As empirical spike trains often show weak dependencies in the correlation structure of ISIs, we extend the MFT here to point processes associated with short range dependencies. By specifically estimating serial dependencies in the test statistic, we show that the new MFT can be applied to a variety of empirical firing patterns, including positive and negative serial correlations as well as tonic and bursty firing. The new MFT is applied to a data set of empirical spike trains with serial correlations, and simulations show improved performance against methods that assume independence. In case of positive correlations, our new MFT is necessary to reduce the number of false positives, which can be highly enhanced when falsely assuming independence. For the frequent case of negative correlations, the new MFT shows an improved detection probability of change points and thus, also a higher potential of signal extraction from noisy spike trains., Comment: The final publication is available at http://link.springer.com

Published
2015
Full Text
View/download PDF

3. Different Effects of Peer Sex on Operant Responding for Social Interaction and Striatal Dopamine Activity.

Author

Chow, Jonathan J., Pitts, Kayla M., Schoenbaum, Ansel, Costa, Kauê M., Schoenbaum, Geoffrey, and Shaham, Yavin

Abstract

When rats are given discrete choices between social interactions with a peer and opioid or psychostimulant drugs, they choose social interaction, even after extensive drug self-administration experience. Studies show that like drug and nondrug food reinforcers, social interaction is an operant reinforcer and induces dopamine release. However, these studies were conducted with same-sex peers. We examined if peer sex influences operant social interaction and the role of estrous cycle and striatal dopamine in sameversus opposite-sex social interaction. We trained male and female rats (n = 13 responders/12 peers) to lever-press (fixed-ratio 1 [FR1] schedule) for 15 s access to a same- or opposite-sex peer for 16 d (8 d/sex) while tracking females' estrous cycle. Next, we transfected GRAB-DA2m and implanted optic fibers into nucleus accumbens (NAc) core and dorsomedial striatum (DMS). We then retrained the rats for 15 s social interaction (FR1 schedule) for 16 d (8 d/sex) and recorded striatal dopamine during operant responding for a peer for 8 d (4 d/sex). Finally, we assessed economic demand by manipulating FR requirements for a peer (10 d/sex). In male, but not female rats, operant responding was higher for the opposite-sex peer. Female's estrous cycle fluctuations had no effect on operant social interaction. Striatal dopamine signals for operant social interaction were dependent on the peer's sex and striatal region (NAc core vs DMS). Results indicate that estrous cycle fluctuations did not influence operant social interaction and that NAc core and DMS dopamine activity reflect sex-dependent features of volitional social interaction. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

19. Evolution and physiology of neural oxygen sensing.

Author

Costa, Kauê M., Accorsi-Mendonça, Daniela, Moraes, Davi J. A., and Machado, Benedito H.

Subjects
ATMOSPHERIC oxygen, REGULATION of respiration, PHYSIOLOGICAL effects of oxygen, CARDIOPULMONARY system physiology, HYPOXEMIA
Abstract

Major evolutionary trends in animal physiology have been heavily influenced by atmospheric O2 levels. Amongst other important factors, the increase in atmospheric O2 which occurred in the Pre-Cambrian and the development of aerobic respiration beckoned the evolution of animal organ systems that were dedicated to the absorption and transportation of O2, e.g., the respiratory and cardiovascular systems of vertebrates. Global variations of O2 levels in post-Cambrian periods have also been correlated with evolutionary changes in animal physiology, especially cardiorespiratory function. Oxygen transportation systems are, in our view, ultimately controlled by the brain related mechanisms, which senses changes in O2 availability and regulates autonomic and respiratory responses that ensure the survival of the organism in the face of hypoxic challenges. In vertebrates, the major sensorial system for oxygen sensing and responding to hypoxia is the peripheral chemoreflex neuronal pathways, which includes the oxygen chemosensitive glomus cells and several brainstem regions involved in the autonomic regulation of the cardiovascular system and respiratory control. In this review we discuss the concept that regulating O2 homeostasis was one of the primordial roles of the nervous system.We also review the physiology of the peripheral chemoreflex, focusing on the integrative repercussions of chemoreflex activation and the evolutionary importance of this system, which is essential for the survival of complex organisms such as vertebrates. The contribution of hypoxia and peripheral chemoreflex for the development of diseases associated to the cardiovascular and respiratory systems is also discussed in an evolutionary context. [ABSTRACT FROM AUTHOR]

Published
2014
Full Text
View/download PDF

20. The Effects of Aging on Substantia Nigra Dopamine Neurons.

Author

Costa, Kauê M.

Subjects
*DOPAMINERGIC neurons, *AGING, *PACEMAKER cells, *LABORATORY mice, *REVERSE transcriptase polymerase chain reaction, *MESSENGER RNA
Abstract

The article focuses on a study conducted by S.Y. Branch and colleagues published in the "Journal of Neuroscience" in order to investigate the age affects on nigral dopamine neurons in vitro. It mentions that the development of nigral dopamine neurons from old mice by shortening spike widths and lowers pacemaker precision. It also showed that using reverse transcription quantitative Polymerase Chain reaction (PCR) of nigral tissue expression levels of messenger RNA aged and young mice.

Published
2014
Full Text
View/download PDF

21. Generalized cue reactivity in dopamine neurons after opioids.

Author

Lehmann CM, Miller NE, Nair VS, Costa KM, Schoenbaum G, and Moussawi K

Abstract

Cue reactivity is the maladaptive neurobiological and behavioral response upon exposure to drug cues and is a major driver of relapse. The leading hypothesis is that dopamine release by addictive drugs represents a persistently positive reward prediction error that causes runaway enhancement of dopamine responses to drug cues, leading to their pathological overvaluation compared to non-drug reward alternatives. However, this hypothesis has not been directly tested. Here we developed Pavlovian and operant procedures to measure firing responses, within the same dopamine neurons, to drug versus natural reward cues, which we found to be similarly enhanced compared to cues predicting natural rewards in drug-naïve controls. This enhancement was associated with increased behavioral reactivity to the drug cue, suggesting that dopamine release is still critical to cue reactivity, albeit not as previously hypothesized. These results challenge the prevailing hypothesis of cue reactivity, warranting new models of dopaminergic function in drug addiction, and provide critical insights into the neurobiology of cue reactivity with potential implications for relapse prevention.

Published
2024
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results