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Acoustic Startle Response in High and Low Hostiles Before And After A Cold Pressor TaskKlineburger, Philip C. 18 May 2011 (has links)
High-hostiles exhibit exaggerated physiological responses to stressors as seen by increased cardiovascular reactivity (BP & HR) (Rhodes, Harrison, & Demaree, 2002; Demaree & Harrison, 1997). This exaggerated physiological response style is associated with cardiovascular disease and premature death (Everson et al., 1997). This experiment hypothesized that diminished regulatory control would also be evident in the Acoustic Startle Response (ASR). In this experiment, high- and low-hostile undergraduate men (N = 40) were exposed to a series of startle probes before and after a cold pressor (CP). Startle responses were measured using electromyography (EMG) recorded over the orbicularis occuli. Cardiovascular measures of blood pressure and heart rate were also taken. A 2 X 2 mixed factorial ANOVA was performed with Group (high and low hostile) as the fixed factor, Condition (pre and post CP) as the repeated measure, and peak magnitude EMG (mV) of startle responses as the dependent variable. For startle responses, significant main effects for Group and Condition indicated that high hostiles had larger startle responses than low hostiles and startle responses decreased after the cold pressor (CP). A significant Group X Condition interaction effect was found. Post-hoc analyses revealed no significant group differences before the CP. After the CP, high-hostiles had significantly higher startle responses than-low hostiles. High-hostiles' startle responses did not change significantly after the CP, whereas low-hostiles' startle response magnitude decreased significantly after the CP. Low-hostiles HR increased significantly after the cold pressor and both groups SBP decreased significantly after the cold pressor. / Master of Science
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Prepulse Inhibition and the Acoustic Startle Response in Nine Inbred Mouse StrainsO'steen, Jennifer Robin 25 March 2003 (has links)
This study examined the effects of genetic background on the acoustic startle response (ASR) and its modulation by prepulse inhibition (PPI) by comparing nine inbred strains of mice. The ASR, a jerk-like motor reflex, is elicited by bursts of noise or tones with sound pressure levels of 80-90 dB and greater. PPI is a type of modulation of the ASR, requires no training, and results in observable response in both mice and humans.
Data were obtained from nine inbred mouse strains, sixteen per strain, which were shipped at approximately 3-5 weeks old from The Jackson Laboratory. In general, ASRs were generally smaller when the startle stimulus was less intense. PPI was relatively weak for the 4 kHz prepulse, and stronger with prepulses of 12 kHz and 20 kHz. However, means varied widely across strains for both ASR and PPI, suggesting a strong influence of genetic background on these behaviors. In addition to genetic influences, peripheral hearing loss and central auditory processing factors must be taken into consideration.
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Neural Mechanisms of Transcranial Magnetic Stimulation in the Treatment of TinnitusLowe, Andrea S. 01 April 2018 (has links)
Millions of people suffer from tinnitus, a disorder for which there is currently no effective treatment or cure. My dissertation work provides insight into the neural correlates of this pervasive hearing disorder and examines how a newly emerging therapy, transcranial magnetic stimulation (TMS), affects the central auditory system in the generation of the tinnitus percept. This work has a multifold focus of: i) developing and modeling the function of a miniature magnetic coil that can be used for TMS in rodents, ii) establishing a reliable mouse model of tinnitus that can be used for assessing TMS treatment-induced changes, iii) measuring the behavioral alterations and neural changes induced by TMS throughout the auditory system in mice with tinnitus, and iv) to assay underling molecular changes in the auditory cortex (AC) related to TMS and tinnitus. Chapter 1 gives an overview of the current research on tinnitus and TMS. Chapter 2 establishes a reliable neural and behavioral assay of verifying tinnitus in a mouse model and provides further evidence that the underlying hyperactivity associated with tinnitus is initiated in the brainstem following reduced afferent input. The remainder of the dissertation examines the modulation of tinnitus in the auditory central nervous system using a miniature TMS coil. Chapter 3 of the dissertation details the creation and evaluation of a rodent-sized TMS coil, which could increase the overall effectiveness and applicability for human treatment. TMS is currently an FDA approved treatment of depression and has been shown to decrease tinnitus perception in human clinical trials, albeit with variable results. There have been few published studies of tinnitus modulation by TMS using animal models and therefore little is known about the molecular and neural bases of this potential tinnitus treatment. TMS is thought to be therapeutic because the magnetic flux generated from the electromagnetic coil induces an electric field in the brain, altering ion flow and subsequently neural function, as the excitation and inhibition of cortical networks become synchronized to the magnetic pulse. Chapter 4 demonstrates that TMS with our custom-designed miniature rodent coil can successfully reduce behavioral evidence of tinnitus in a mouse model, mainly through activating inhibitory networks in the AC. It also shows that presynaptic activity is altered in the upper layers of the AC responsible for intralaminar processing and sound perception. Finally, chapter 5 describes an in-depth proteomic analysis of over 3000 proteins from the AC, which shows that TMS and noise-induced tinnitus alter the expression of several key proteins and pathways that play a critical role in cortical excitatory and inhibitory activation. The results of this work are also important because they are the first animal model to demonstrate neural changes during TMS-treated tinnitus, creating a paradigm that can be used for optimizing parameters to improve clinical outcomes in human trials.
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Effect of Toxoplasma gondii on Altering Dopamine Levels and Neuroinflammation Contributing to an Increased Risk of Developing SchizophreniaBramlett, Derek Lee 07 May 2016 (has links)
Toxoplasma gondii infection is common in humans and is a significant risk factor for developing the disease schizophrenia. Genetic risk factors are likely required for the disease of schizophrenia to develop. Nurr1 – heterozygous (+/-) mice and wild-type (+/+) mice were evaluated using immune activation of astrocytes within the prefrontal cortex, dopamine levels within the striatum, and measuring the acoustic startle response reaction time by using prepulse inhibition (PPI). T. gondii infected heterozygous (+/-) mice exhibited increased GFAP expression within the prefrontal cortex. Dopamine levels within the striatum were measured and T. gondii infected wild-type (+/+) mice exhibited increased dopamine levels. The acoustic startle response reaction time was measured using PPI and T. gondii infected mice exhibited slower reaction times when compared to controls. These data demonstrate that the Nurr1 (+/-) genotype predisposes mice to T. gondii-induced alterations in behaviors that involve dopamine neurotransmission and are associated with symptoms of schizophrenia.
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Prepulse inhibition and the acoustic startle response in nine inbred mouse strains [electronic resource] / by Jennifer Robin O'steen.O'steen, Jennifer Robin. January 2003 (has links)
Title from PDF of title page. / Document formatted into pages; contains 18 pages. / Thesis (Au.D.)--University of South Florida, 2003. / Includes bibliographical references. / Text (Electronic thesis) in PDF format. / ABSTRACT: This study examined the effects of genetic background on the acoustic startle response (ASR) and its modulation by prepulse inhibition (PPI) by comparing nine inbred strains of mice. The ASR, a jerk-like motor reflex, is elicited by bursts of noise or tones with sound pressure levels of 80-90 dB and greater. PPI is a type of modulation of the ASR, requires no training, and results in observable response in both mice and humans. Data were obtained from nine inbred mouse strains, sixteen per strain, which were shipped at approximately 3-5 weeks old from The Jackson Laboratory. In general, ASRs were generally smaller when the startle stimulus was less intense. PPI was relatively weak for the 4 kHz prepulse, and stronger with prepulses of 12 kHz and 20 kHz. However, means varied widely across strains for both ASR and PPI, suggesting a strong influence of genetic background on these behaviors. / ABSTRACT: In addition to genetic influences, peripheral hearing loss and central auditory processing factors must be taken into consideration. / System requirements: World Wide Web browser and PDF reader. / Mode of access: World Wide Web.
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CHARACTERIZING CONSUMPTION, DEPENDENCE, AND THE ROLE OF GLUCOCORTICOIDS IN AN ANIMAL MODEL OF VOLUNTARY ETHANOL CONSUMPTIONSharrett-Field, Lynda 01 January 2013 (has links)
Alcohol abuse disorders (AUD) represent a serious worldwide health problem with far reaching social, financial, and interpersonal implications. One of the most devastating facets of these disorders is the propensity to relapse following periods of abstinence. Ethanol withdrawal (EWD) is believed to promote relapse by increasing anxiety and craving, and may contribute to the development of cognitive decline associated with long-term dependence. Clinical data suggest that stress also plays a main role in both the development of AUD as well as relapse to drinking. As a physiological stressor, EtOH elevates levels of stress hormones (cortisol in humans, corticosterone (CORT) in the rat). Both CORT and EtOH have been shown to alter the composition, function, and activity of the N-methyl-D-aspartate (NMDA) receptor, and in particular, the NR2B subunit of this receptor. These alterations have been suggested to mediate EWD, which may negatively impact abstinence rates. This synergistic interaction between EtOH and CORT may present a therapeutic target for the treatment of EWD. In fact, data suggest that blocking the glucocorticoid receptor, which is a main target for CORT, with RU-486 could promote abstinence, as treatment with the drug has been shown to reduce consumption and the development dependence, as well as the severity of EWD and the cognitive deficits following EWD. However, these latter effects have not been validated in models of voluntary EtOH consumption. As there is considerable evidence that active versus passive intake can significantly impact neuroadaptations to ethanol this is an important consideration. These studies sought to characterize consumption and evaluate the development of dependence in a chronic voluntary model of intermittent access (IA) to EtOH. CORT plasma levels and protein expression of the glucocorticoid and NR2B receptors were measured during and/or following exposure. Finally, to assess the role of CORT in EtOH consumption and the development of dependence, the glucocorticoid receptor antagonist ORG-34517 was administered during access to EtOH. IA access to 20% EtOH produced varying levels of consumption (2.0-6.7g/kg/24hr exposure) and blood EtOH levels (6.3-116.9 mg/dl), but did not significantly affect food consumption or weight gain. Baseline CORT levels were found to be predictive of subsequent EtOH consumption and levels of consumption were sufficient to elevate CORT levels following one hour of EtOH exposure. Further, IA to EtOH was sufficient to produce dependence, as measured by elevations in the acoustic startle reflex following 26 hours and five days of withdrawal. No alteration in protein expression was observed regarding either the NR2B or glucocorticoid receptors and exposure to ORG-34517 had no effect on consumption or withdrawal.
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A bio-behavioural investigation into the role of the cholinergic system in stress / Ilse GroenewaldGroenewald, Ilse January 2006 (has links)
Posttraumatic stress disorder (PTSD) is an anxiety disorder that may follow exposure to
severe emotional trauma and presents with various symptoms of anxiety, hyperarousal and
cognitive anomalies. Interestingly, only 10-30% of an exposed population will go on to
develop full-blown PTSD. Cholinergic neurotransmission is implicated in anxiety as well as
other typical manifestations of PTSD, particularly cognitive changes. The frontal cortex
and hippocampus regulate and in turn are affected by stress, and have also been
implicated in the underlying neuropathology of PTSD. These areas are densely innervated
by cholinergic neurons originating from the basal forebrain. In this study, the time
dependent sensitization (TDS) model was used to induce symptoms of PTSD in animals.
The study was designed to determine the long-term effects of an intense, prolonged
aversive procedure on central muscarinic acetylcholine receptor (mAChR)
characteristics and the correlation if any of those findings to cognitive aspects and general
arousal as characteristics associated with PTSD.
In order to achieve this goal, male Sprague-Dawley rats were exposed to the TDS stress
paradigm with behavioral/neuro-receptor assessments performed on day 7 post re-stress
(duration of each experiment in whole is 14 days). Acoustic startle reflex (ASR) was
used to determine emotional state (hyperarousal), while the conditioned taste aversion
(CTA) paradigm was implemented in order to assess aversive memory. Muscarinic
receptor binding studies were performed in the frontal cortex and hippocampus. Moreover,
both the stress-exposed and control animals were pre-tested in the acoustic startle
chamber in order to attempt to separate stress sensitive from stress-resilient animals
based on predetermined ASR criteria.
The ASR niodel was previously validated in our laboratory, while the CTA model was
validated in this project before application. In the CTA model, an i.p. injection with lithium
chloride (LiCl) (associated with digestive malaise), was used as unconditioned stimulus
(US) and was paired with a saccharinlcyclamate drinking solution as conditioned stimulus
(CS) to induce aversion to the novel taste (CS) when presented in the absence of the US.
Population data of animals tested in the ASR experiment indicated no statistical significant
difference between stressed and control animals. However, when each animal was
assessed individually, 22.5 % of the exposed population displayed all increase above the
predetermined criteria of 35 % in startle response, indicating a state of heightened arousal.
In contrast, only 4.2 O h of control animals (no stress) displayed an increase in arousal
based on the above mentioned criteria. Muscarinic receptor densities (Bm,) in the total
population of animals exposed to stress showed a statistical significant increase in both the
hippocampus and frontal cortex when compared to controls, with no changes in & values
observed in either one of the areas.
In the CTA experiment, TDS stress was implemented as US paired with a
saccharinlcyclamate drinking solution as CS. An acute session of prolonged stress (as
used in the TDS model) effectively induced aversion to a novel taste and a subsequent
reminder of the stress (restress) paired with the CS sustained the acquire adversive
memory.
Furthermore, LiCl was reintroduced as US in order to assess the effect of prior exposure to
two types of stress (acute and TDS) on subsequently acquired CTA memory. Prior
exposure to acute stress had no significant effect on subsequently acquired aversive
memory when measured either 3- or 7 days post-conditioning (CS-US). Stress-restress
(TDS) exposure, however, indicated a significant decrease in aversive memory from 3- to 7
days post-conditioning (CS-US) as well as a significant decrease in aversive memory
between the control- and the TDS group 7 days post-conditioning. The mAChR density
(B,,) in the frontal cortex; but not in the hippocampus, was elevated at the same point in
time (7 days post CS-US pairing) that CTA memory was impaired following TDS stress (stress-restress).
Ultimately, these data support an association between altered cholinergic receptors and
hyperarousallanxiety in an animal model of PTSD. The data also support the phenomenon
of individual susceptibility to stress in animals that parallels that observed in humans
exposed to severe trauma. Impaired aversive memory (CTA) is a consequence of prior
exposure to TDS stress, but not acute stress, and is likewise mediated by an altered
central cholinergic transmission displayed as an increase in mAChRs in the frontal cortex.
The lack of studies regarding the influence of the cholinergic system in PTSD related
behavior earns ,this project value as inimitable PTSD research. / Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2007.
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A bio-behavioural investigation into the role of the cholinergic system in stress / Ilse GroenewaldGroenewald, Ilse January 2006 (has links)
Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2007.
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A bio-behavioural investigation into the role of the cholinergic system in stress / Ilse GroenewaldGroenewald, Ilse January 2006 (has links)
Posttraumatic stress disorder (PTSD) is an anxiety disorder that may follow exposure to
severe emotional trauma and presents with various symptoms of anxiety, hyperarousal and
cognitive anomalies. Interestingly, only 10-30% of an exposed population will go on to
develop full-blown PTSD. Cholinergic neurotransmission is implicated in anxiety as well as
other typical manifestations of PTSD, particularly cognitive changes. The frontal cortex
and hippocampus regulate and in turn are affected by stress, and have also been
implicated in the underlying neuropathology of PTSD. These areas are densely innervated
by cholinergic neurons originating from the basal forebrain. In this study, the time
dependent sensitization (TDS) model was used to induce symptoms of PTSD in animals.
The study was designed to determine the long-term effects of an intense, prolonged
aversive procedure on central muscarinic acetylcholine receptor (mAChR)
characteristics and the correlation if any of those findings to cognitive aspects and general
arousal as characteristics associated with PTSD.
In order to achieve this goal, male Sprague-Dawley rats were exposed to the TDS stress
paradigm with behavioral/neuro-receptor assessments performed on day 7 post re-stress
(duration of each experiment in whole is 14 days). Acoustic startle reflex (ASR) was
used to determine emotional state (hyperarousal), while the conditioned taste aversion
(CTA) paradigm was implemented in order to assess aversive memory. Muscarinic
receptor binding studies were performed in the frontal cortex and hippocampus. Moreover,
both the stress-exposed and control animals were pre-tested in the acoustic startle
chamber in order to attempt to separate stress sensitive from stress-resilient animals
based on predetermined ASR criteria.
The ASR niodel was previously validated in our laboratory, while the CTA model was
validated in this project before application. In the CTA model, an i.p. injection with lithium
chloride (LiCl) (associated with digestive malaise), was used as unconditioned stimulus
(US) and was paired with a saccharinlcyclamate drinking solution as conditioned stimulus
(CS) to induce aversion to the novel taste (CS) when presented in the absence of the US.
Population data of animals tested in the ASR experiment indicated no statistical significant
difference between stressed and control animals. However, when each animal was
assessed individually, 22.5 % of the exposed population displayed all increase above the
predetermined criteria of 35 % in startle response, indicating a state of heightened arousal.
In contrast, only 4.2 O h of control animals (no stress) displayed an increase in arousal
based on the above mentioned criteria. Muscarinic receptor densities (Bm,) in the total
population of animals exposed to stress showed a statistical significant increase in both the
hippocampus and frontal cortex when compared to controls, with no changes in & values
observed in either one of the areas.
In the CTA experiment, TDS stress was implemented as US paired with a
saccharinlcyclamate drinking solution as CS. An acute session of prolonged stress (as
used in the TDS model) effectively induced aversion to a novel taste and a subsequent
reminder of the stress (restress) paired with the CS sustained the acquire adversive
memory.
Furthermore, LiCl was reintroduced as US in order to assess the effect of prior exposure to
two types of stress (acute and TDS) on subsequently acquired CTA memory. Prior
exposure to acute stress had no significant effect on subsequently acquired aversive
memory when measured either 3- or 7 days post-conditioning (CS-US). Stress-restress
(TDS) exposure, however, indicated a significant decrease in aversive memory from 3- to 7
days post-conditioning (CS-US) as well as a significant decrease in aversive memory
between the control- and the TDS group 7 days post-conditioning. The mAChR density
(B,,) in the frontal cortex; but not in the hippocampus, was elevated at the same point in
time (7 days post CS-US pairing) that CTA memory was impaired following TDS stress (stress-restress).
Ultimately, these data support an association between altered cholinergic receptors and
hyperarousallanxiety in an animal model of PTSD. The data also support the phenomenon
of individual susceptibility to stress in animals that parallels that observed in humans
exposed to severe trauma. Impaired aversive memory (CTA) is a consequence of prior
exposure to TDS stress, but not acute stress, and is likewise mediated by an altered
central cholinergic transmission displayed as an increase in mAChRs in the frontal cortex.
The lack of studies regarding the influence of the cholinergic system in PTSD related
behavior earns ,this project value as inimitable PTSD research. / Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2007.
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Physiological Stress Reactivity in Late PregnancyHellgren, Charlotte January 2013 (has links)
During pregnancy, the basal activity is increased in both of our major stress response systems: the sympathetic nervous system and the hypothalamic-pituitary-adrenal axis. At the same time, the reactivity towards stressors is reduced. These alterations sustain maternal and fetal homeostasis, and are involved in the regulation of gestational length. Although the feto-placental hormone synthesis produces the main endocrinological changes, also the central nervous system undergoes adaptation. Together, these profound adjustments have been suggested to make women’s mental health more vulnerable during pregnancy and postpartum period. The aim of this thesis was to examine factors connected to physiological stress responses during the late pregnancy in relation to pain, labour onset, emotional reactivity, and mental health. The first study examined the pain and sympathetic response during cold stress, in relation to time to delivery. Women with fewer days to spontaneous delivery had lower sympathetic reactivity, while no pain measure was associated with time to delivery. In the second study, acoustic startle response modulation was employed to study emotional reactivity during late gestation, and at four to six weeks postpartum. The startle response was measured by eye-blink electromyography, while the participants watched pleasant and unpleasant pictures, and positive and negative anticipation stimuli. A significant reduction in startle modulation by anticipation was found during the postpartum assessment. However, no startle modulation by pleasant, or unpleasant, pictures was detected at either time-point. The serum level of allopregnanolone, a neurosteroid implied in pregnancy-induced hyporeactivity, was analysed in relation to self-reported symptoms of anxiety and depression. Although the participants reported low levels of depression, the women with the highest depression scores had significantly lower levels of serum allopregnanolone. There was no correlation between allopregnanolone and anxiety scores. In the fourth study, the cortisol awakening response was compared between women with depression during pregnancy, women with depression prior to pregnancy, and women who had never suffered from depression. No group differences in cortisol awakening response during late pregnancy were found. The results are in line with the previously described pregnancy-induced hyporesponsiveness, and add to the knowledge on maternal stress hyporeactivity, gestational length, and maternal mental health.
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