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Das Ziel der vorliegenden Arbeit war es, einen Beitrag zu leisten zur Klärung der Beziehung zwischen Alexithymie und den subjektiven und physiologischen Reaktionen auf emotionale Situationen. Kern des Persönlichkeitsmerkmals ‘Alexithymie’ ist die Schwierigkeit, eigene Gefühle zu identifizieren und anderen mitzuteilen (Bagby & Taylor, 1999a). Ähnlich wie bei anderen Formen emotionaler Hemmung wurde auch bei Alexithymie eine erhöhte physiologische Reaktivität angenommen, die auch mit einem erhöhten Erkrankungsrisiko verbunden sein soll (Stress-Alexithymie Hypothese, Martin & Pihl, 1985). Demnach führt eine in Stresssituationen durch mangelnde Emotionsregulation erhöhte und verlängerte physiologische Aktivität bei alexithymen Personen zu körperlichen Erkrankungen. In der Entkopplungshypothese (Papciak, Feuerstein & Spiegel, 1985) geht man bei Alexithymie unspezifischer als bei der Stress-Alexithymie Hypothese von einer Dissoziation der physiologischen Aktivität und den subjektiven Angaben zu Gefühlen oder emotionaler Erregung aus. Zu diesen Hypothesen liegen jedoch nur wenige und zudem widersprüchliche empirische Befunde vor. Die zentrale Frage der vorliegenden Arbeit lautete daher, ob sich hoch und niedrig alexithyme Personen in ihren subjektiven und physiologischen Reaktionen auf emotionale und belastende Situationen unterscheiden. Dazu wurde je eine experimentelle Untersuchung mit gesunden Probanden (n=43) und mit Patienten einer psychosomatischen Klinik (n=82) durchgeführt. Alle Probanden wurden nach der 20-Item Toronto-Alexithymieskala (Bagby, Parker & Taylor, 1994) in hoch und niedrig alexithyme Personen eingeteilt. Nach der Induktion von Emotionen und Belastungen (durch Filmausschnitte, Hyperventilation und einen modifizierten Stroop-Test) wurden die Reaktionen der Versuchspersonen hinsichtlich ihrer Gefühle, Körperempfindungen und physiologischen Parameter erfasst. Wie erwartet berichteten hoch alexithyme Gesunde und besonders Patienten im Vergleich zu niedrig Alexithymen stärkere negative Emotionen (v.a. Angst) und in einigen Bereichen stärkere körperliche Empfindungen im tonischen Niveau (vor der Emotionsinduktion). Jedoch ergaben sich entgegen den Erwartungen keine Gruppenunterschiede in den physiologischen Variablen. Durch Darbietung von Filmausschnitten wurden die Zielemotionen Traurigkeit und Ärger in ausreichender Stärke induziert. Während der Filme zeigten hoch Alexithyme stärkere Angst als niedrig Alexithyme. Signifikante Unterschiede zwischen hoch und niedrig alexithymen Personen in den Zielemotionen der Filmausschnitte oder anderen Emotionen fanden sich jedoch nicht. Allerdings beurteilten in beiden Untersuchungen weniger hoch als niedrig alexithyme Personen die Zielemotion Traurigkeit als stärkste Emotion während der traurigkeitsinduzierenden Filme. Hoch alexithyme Gesunde und stärker noch Patienten berichteten stärkere körperliche Empfindungen sowie größere Schwierigkeiten, ihre Gefühle während der Filmausschnitte in Worte zu fassen. Signifikante Unterschiede in der physiologischen Reaktivität auf die Filmausschnitte waren jedoch nicht nachweisbar. Vergleichbare Ergebnisse wie bei der Emotionsinduktion zeigten sich ebenfalls bei körperlicher und kognitiver Belastung. Die Befunde der vorliegenden Untersuchungen gelten damit für emotionale Situationen sowie auch für körperliche und kognitive Belastungen. Weder die Vorhersagen der Stress-Alexithymie Hypothese noch die der Entkopplungshypothese konnten in den vorliegenden Untersuchungen bestätigt werden. Ingesamt sprechen die Befunde daher dafür, dass eine mögliche höhere Vulnerabilität alexithymer Personen für körperliche Krankheiten nicht auf eine verstärkte physiologische Reaktivität auf spezifische emotionale Situationen zurückzuführen ist. Die Ergebnisse weisen allerdings auf eine in der Entkopplungshypothese nicht postulierte Dissoziation zwischen der objektiv messbaren und der wahrgenommenen physiologischen Reaktivität bei hoch alexithymen Patienten hin. Die stärkere Fokussierung auf körperliche Empfindungen lässt einen verstärkten Bericht körperlicher Symptome sowie ein verstärktes Krankheitsverhalten dieser Patienten erwarten.
Die Idee dieser Studie war es, die Modulation der Emotionsverarbeitung mittels transkranieller Gleichstrom-Stimulation nachzuweisen. Dieser Effekt wurde in anderen Studien bereits gezeigt. In diesem Versuch wurde der emotionsabhängige acoustic-Startle-Reflex als Messindikator für modulierte Emotionsverarbeitung eingesetzt. Wir konnten den Effekt der emotionsabhängigen Startle-Reflex Modulierung replizieren und unsere Messmethodik validieren.
Entgegen der Hypothese dieser Studie, konnten – bezogen auf die Gesamtpopulation - keine Effekte der tDCS auf die Verarbeitung emotionalrelevanter Bilder gezeigt werden. Da Emotionsverarbeitung stattgefunden hat, wie durch die emotionsabhängige Modulierung des acoustic-Startle-Reflexes gezeigt wurde, kann der fehlende Effekt nicht auf fehlende emotionale Triggerkraft der Bilder zurückgeführt werden.
Umso interessanter ist die Beobachtung, dass die Versuchspersonen mit erhöhter Angstsensitivität signifikant anders auf die tDCS reagierten, als diejenigen mit niedriger Angstsensitivität. Sie zeigten signifikant verringerte acoustic-Startle-Reflex Amplituden, was gemäß dem sog. Motivational Priming bedeutet, dass sie eine herabgesetzte aversive Grundstimmung, bzw. eine gehobene Befindlichkeit verspürt haben könnten. Der Effekt schien durch die bilaterale, links-kathodale/rechts-anodale Stimulation des DLPFC bedingt zu sein.
Angstsensitivität umschreibt die Ausprägung der Angst vor Veränderungen (körperlich, sozial, kognitiv), welche mit dem realen Erleben der Emotion Angst einhergehen können und wird als Risikofaktor für das Entstehen vieler Angsterkrankungen, speziell der Panikstörungen verstanden. In mehreren Studien wurden mediale Anteile des Präfrontalen Cortex, im Besonderen der dorsomediale Präfrontale Cortex (DMPFC) und der anteriore cinguläre Cortex (ACC) als u.a. für Angstsensitivität kodierende neuronale Korrelate isoliert.
Als in Frage kommende Ursache für den tDCS-Effekt wird die Modulierung des DMPFC und des benachbarten ACC diskutiert. Unterstützung für die vermutlich über das eigentlich anvisierte Areal des DLPFC hinausgehenden tDCS-induzierten Effekte, geben Bildgebungsstudien, in welchen bei bilateraler Stimulierung des DLPFC Aktivitätsveränderungen in weiter medial gelegenen Teilen des PFC nachgewiesen werden konnten.
Das Ergebnis, welches mit einer relativ kleinen Stichprobe klinisch gesunder Personen gewonnen wurde, lädt dazu ein, die gleiche Untersuchung mit einem größeren Kollektiv von Angstsensitiven durchzuführen. Eine begleitend durchzuführende funktionelle Bildgebung könnte Aufschluss über die bei bilateraler tDCS des DLPFC tatsächlich stimulierten Hirnareale geben.
The present work investigated the neural mechanisms underlying cognitive inhibition/thought suppression in Anderson’s and Green’s Think/No-Think paradigm (TNT), as well as different variables influencing these mechanisms at the cognitive, the neurophysiological, the electrophysiological and the molecular level. Neurophysiological data collected with fNIRS and fMRI have added up to the existing evidence of a fronto-hippocampal network interacting during the inhibition of unwanted thoughts. Some evidence has been presented suggesting that by means of external stimulation of the right dlPFC through iTBS thought suppression might be improved, providing further evidence for an implication of this region in the TNT. A combination of fNIRS with ERP has delivered evidence of a dissociation of early condition-independent attentional and later suppression-specific processes within the dlPFC, both contributing to suppression performance. Due to inconsistencies in the previous literature it was considered how stimulus valence would influence thought suppression by manipulating the emotional content of the to-be-suppressed stimuli. Findings of the current work regarding the ability to suppress negative word or picture stimuli have, however, been inconclusive as well. It has been hypothesized that performance in the TNT might depend on the combination of valence conditions included in the paradigm. Alternatively, it has been suggested that inconsistent findings regarding the suppression of negative stimuli or suppression at all might be due to certain personality traits and/or genetic variables, found in the present work to contribute to thought inhibition in the TNT. Rumination has been shown to be a valid predictor of thought suppression performance. Increased ruminative tendencies led to worse suppression performance which, in the present work, has been linked to less effective recruitment of the dlPFC and in turn less effective down-regulation of hippocampal activity during suppression trials. Trait anxiety has also been shown to interrupt thought suppression despite higher, however, inefficient recruitment of the dlPFC. Complementing the findings regarding ruminative tendencies and decreased thought inhibition a functional polymorphism in the KCNJ6 gene, encompassing a G-to-A transition, has been shown to disrupt thought suppression despite increased activation of the dlPFC. Through the investigation of thought suppression at different levels, the current work adds further evidence to the idea that the TNT reflects an executive control mechanism, which is sensitive to alterations in stimulus valence to some extent, neurophysiological functioning as indicated by its sensitivity to iTBS, functional modulations at the molecular level and personality traits, such as rumination and trait anxiety.
Facing Enemies. Modulation of Revenge Interactions based on Opponent State Indicators of Suffering
(2023)
Research on revenge often treats vengeful acts as singular one-way experiences, an approach which fails to account for the social nature and functions of revenge. This dissertation aims to integrate emotional punishment reactions into dynamic revenge sequences to investigate the affective and cognitive consequences of revenge within a social interaction.
Exacting revenge can evoke intense affective consequences, from feelings of guilt to the genuine enjoyment of the suffering of others. In Chapter 2, affective responses towards suffering opponents and the regulation of aggression based on the appraisal of distinct suffering indicators were investigated. Results indicate that the observation of opponent pain evokes positive affect (measured via facial muscle contractions during the observation), which is followed by a downregulation of subsequent punishment. Both, positive affective reactions and the downregulation of punishment, were only observed following pain and not sadness expressions. Empathic distress, indexed by negative affective reactions, was only present following the observation of pain in non-provoking opponents. Showcasing the modulation of empathy related processes due to provocation and competition.
In Chapter 3, a significant escalation of punishment, when being confronted with Schadenfreude, was observed. Results are interpreted as supporting the assumption that opponent monitoring processes inform subsequent action selection. The observation of opponent smiles led to imitation behavior (facial mimicry), which was partially attenuated due to previous provocation. The different functions of smile mimicry in the context of the aggressive competitive setting are discussed as containing simulation aspects (to aid in opponent understanding) and as a potential mirroring of dominance gestures, to avoid submission.
In an additional series of studies, which are presented in Chapter 4, changes in memory of opponent faces following vengeful encounters were measured. Based on provocation, and punishment outcomes (pain & anger), face memory was distorted, resulting in more positive representations of opponents that expressed pain. These results are discussed as evidence of the impact of outcome appraisals in the formation of opponent representations and are theorized to aid empathy avoidance in future interactions.
The comparison of desired and observed opponent states, is theorized to result in appraisals of the punishment outcomes, which evoke affective states, inform the action selection of subsequent punishments, and are integrated into the representation of the opponent in memory.
Overall, the results indicate that suffering cues that are congruent with the chosen punishment action are appraised as positive, evoking an increase in positive affect. The emergence of positive affect during the observation of successful aggressive actions supports recent theories about the chronification of aggressive behavior based on reinforcement learning. To allow positive affect to emerge, affective empathic responses, such as distress, are theorized to be suppressed to facilitate the goal attainment process. The suffering of the opponent constitutes the proximate goal during revenge taking, which highlights the importance of a theoretical differentiation of proximate and ultimate goals in revenge to allow for a deeper understanding of the underlying motives of complex revenge behavior.
Humans have the tendency to react with congruent facial expressions when looking at an emotional face. Interestingly, recent studies revealed that several situational moderators can modulate strength and direction of these reactions. In current literature, congruent facial reactions to emotional facial expressions are usually described in terms of “facial mimicry” and interpreted as imitative behavior. Thereby, facial mimicry is understood as a process of pure motor resonance resulting from overlapping representations for the perception and the execution of a certain behavior. Motor mimicry, however, is not the only mechanism by which congruent facial reactions can occur. Numerous studies have shown that facial muscles also indicate valence evaluations. Furthermore, facial reactions are also determined by our current emotional state. These thoughts suggest that the modulation of congruent facial reactions to emotional expressions can be based on both motor and affective processes. However, a separation of motor and affective processes in facial reactions is hard to make. None of the published studies that tried that could show a clear involvement of one or the other process so far. Therefore, the aim of the present line of experiments is to shed light on the involvement of motor and affective processes in the modulation of congruent and incongruent facial reactions. Specifically, the experiments are designed to test the assumptions of a working model on mechanisms underlying the modulation of facial reactions and to examine the neuronal correlates involved in such modulations with a broad range of methods. Experiments 1 and 2 experimentally manipulate motor and affective mechanisms by using specific contexts. In the chose settings, motor process models and affective models of valence evaluations make competing predictions about resulting facial reactions. The results of Experiment 1 did not support the involvement of valence evaluations in the modulation of congruent and incongruent facial reactions to facial expressions. The results of Experiments 2a and 2b suggest that emotional reactions are the predominant determinant of facial reactions. Experiment 3 aimed at identifying the psychological mediators that indicate motor and affective mechanisms. Motor mechanisms are assessed via the psychological mediator empathy. Additionally, as a psychological mediator for clarifying the role of affective mechanisms subjective measures of the participants’ current emotional state in response to the presented facial expressions were taken. Mediational analyses show that the modulation of congruent facial reactions can be explained by a decrease of state cognitive empathy. This suggests that motor processes mediate the effects of the context on congruent facial reactions. However, such a mechanism could not be observed for incongruent reactions. Instead, it was found that affective processes in terms of emotional reactions are involved in incongruent facial reactions. Additionally, the involvement of a third class of processes, namely strategic processes, was observed. Experiment 4 aimed at investigating whether a change in the strength of perception can explain the contextual modulation of facial reactions to facial expressions. According to motor process models the strength of perception is directly related to the strength of the spread of activation from perception to the execution of an action and thereby to the strength of the resulting mimicry behavior. The results suggest that motor mechanisms were involved in the modulation of congruent facial reactions by attitudes. Such an involvement of motor mechanisms could, however, not be observed for the modulation of incongruent reactions. In Experiment 5 the investigation of neuronal correlates shall be extended to the observation of involved brain areas via fMRI. The proposed brain areas depicting motor areas were prominent parts of the mirror neuron system. The regions of interest depicting areas involved in the affective processing were amygdala, insula, striatum. Furthermore, it could be shown that changes in the activity of parts of the MNS are related to the modulation of congruent facial reactions. Further on, results revealed the involvement of affective processes in the modulation of incongruent facial reactions. In sum, these results lead to a revised working model on the mechanisms underlying the modulation of facial reactions to emotional facial expressions. The results of the five experiments provide strong support for the involvement of motor mechanisms in congruent facial reactions. No evidence was found for the involvement of motor mechanisms in the occurrence or modulation of incongruent facial reactions. Furthermore, no evidence was found for the involvement of valence evaluations in the modulation of facial reactions. Instead, emotional reactions were found to be involved in the modulation of mainly incongruent facial reactions.
Die Aufmerksamkeitsdefizit-/Hyperaktivitätsstörung (ADHS) zeichnet sich durch eine starke klinische Heterogenität aus, deren Ursachen bislang noch nicht völlig geklärt sind. Als erfolgversprechendes Erklärungsmodell hat sich das Endophänotypenkonzept herausgestellt, das davon ausgeht, dass unterschiedliche Dysfunktionen den vielfältigen klinischen Phänotypen der ADHS zugrunde liegen. Emotional-motivationalen Defiziten wird hierbei eine große Bedeutung beigemessen, allerdings wurden diese bislang kaum untersucht. Die wenigen vorliegenden Studien bezogen sich auf subjektive Daten und differenzierten nicht nach klinischen Subgruppen, wodurch sich heterogene Ergebnisse ergaben. Die vorliegende Arbeit hatte somit zum Ziel, einen emotional-motivationalen Endophänotyp der ADHS bei unterschiedlichen klinischen Subgruppen von ADHS-Patienten mit subjektiven und objektiven psychophysiologischen Daten zu untersuchen. Dies wurde mithilfe eines emotionalen Bilderparadigmas untersucht, bei dem neben subjektiven Bildbewertungen die affektmodulierte Startlereaktion als Valenzindikator und die elektrodermale Aktivität als Arousalindikator emotional-motivationaler Reaktivität gemessen wurden. Studie 1 (N = 325) konzentrierte sich auf die klinischen Subtypen der ADHS bei erwachsenen Patienten. Diese Studie konnte aufzeigen, dass ADHS-Patienten in Abhängigkeit vom ADHS-Subtypus Defizite in der emotional-motivationalen Reaktivität aufwiesen. Der Mischtypus und der hyperaktiv-impulsive Typus zeichneten sich durch eine verminderte Reaktivität auf positive Stimuli aus, was sich in einer reduzierten Startleinhibition widerspiegelte. Der hyperaktiv-impulsive Typus reagierte zudem vermindert auf negative Stimuli, was sich in einer verringerten Startlepotenzierung zeigte. Im Gegensatz dazu reagierte der unaufmerksame Typus vergleichbar zu Kontrollpersonen mit einer leicht geringeren Startleinhibition bei positiven Stimuli. Die besonders beeinträchtigte emotionale Reaktivität des hyperaktiv-impulsiven Typus spiegelte sich auch in einem Bias zu positiveren Bewertungen aller Bilder und einer verminderten Arousaleinschätzung negativer Stimuli bei Männern dieses Typus wider. Die ADHS-Patienten zeigten keine elektrodermalen Arousaldysfunktionen, wobei auch hier der hyperaktiv-impulsive Typus deskriptiv auffallend abgeflachte Werte in der Reaktivität auf emotionale Stimuli aufwies. Die gefundenen Dysfunktionen könnten zu hyperaktiv-impulsivem Verhalten und Sensation Seeking durch die Suche nach Verstärkern führen. Gleichzeitig könnten die Ergebnisse die starken sozialen Dysfunktionen und antisoziales Verhalten von ADHS-Patienten mit hyperaktiv-impulsiven Symptomen erklären. Zur Berücksichtigung von Entwicklungsaspekten im Endophänotypenmodell und Untersuchung des emotional-motivationalen Endophänotyps bei Kindern mit ADHS konzentrierte sich Studie 2 (N = 102) auf Jungen mit ADHS, die mit und ohne Methylphenidat untersucht wurden. Durch die zusätzliche Methylphenidatgruppe sollten die klinische Relevanz emotional-motivationaler Dysfunktionen belegt und Erkenntnisse zur Wirkweise von Methylphenidat gewonnen werden. Diese Studie konnte aufzeigen, dass sich ADHS-Kinder ohne Methylphenidat durch Hypoarousal auszeichneten, was sich in verminderten Hautleitfähigkeitsreaktionen auf die Bilder und Startletöne sowie einem verminderten tonischen Hautleitfähigkeitsniveau widerspiegelte. Diese Dysfunktionen wurden durch Methylphenidat normalisiert. Die Startledaten konnten aus methodischen Gründen die affektive Modulation bei den Kindern nicht abbilden. Diese Daten lieferten jedoch Hinweise, dass Methylphenidat die emotional-motivationale Reaktivität steigerte, da die ADHS-Kinder mit Methylphenidat eine verstärkte Startlereaktivität während der Bildbetrachtung aufwiesen. Das gefundene Hypoarousal auf Stimuli könnte dazu führen, dass vermindert auf Umweltreize und auch auf Belohnung und Bestrafung reagiert wird. Dies könnte soziale Dysfunktionen und externalisierendes Verhalten nach sich ziehen. Hyperaktiv-impulsives Verhalten und Sensation Seeking könnten kompensatorisch zur Anhebung des Arousals resultieren. Unaufmerksamkeit könnte durch einen suboptimalen Aktiviertheitsgrad bedingt sein. Methylphenidat könnte durch eine Steigerung des Arousals und die Verstärkung der emotionalen Reaktivität diesen Symptomen entgegenwirken. Die vorliegende Arbeit konnte somit als erste einen emotional-motivationalen Endophänotyp der ADHS unter Berücksichtigung valenz- und arousalbezogener Maße bei unterschiedlichen klinischen Subgruppen mit objektiven psychophysiologischen Parametern aufzeigen. Die Normalisierung des Hypoarousals von der Kindheit zum Erwachsenenalter könnte mit der Veränderung der ADHS-Symptome über die Entwicklung zusammenhängen. Die weitere Erforschung des Endophänotypenmodells der ADHS ist eine wichtige Aufgabe für die Zukunft. Die vorliegende Arbeit versuchte, hierzu einen Beitrag zu leisten.
In order to survive, organisms avoid threats and seek rewards. Classical conditioning is a simple model to explain how animals and humans learn associations between events that allow them to predict threats and rewards efficiently. In the classical conditioning paradigm, a neutral stimulus is paired with a biologically significant event (the unconditioned stimulus – US). In virtue of this association, the neutral stimulus acquires affective motivational properties, and becomes a conditioned stimulus (CS+). Defensive responses emerge for pairings with an aversive US (e.g., pain), and appetitive responses emerge for pairing with an appetitive event (e.g., reward). It has been observed that animals avoid a CS+ when it precedes an aversive US during a training phase (CS+ US; forward conditioning); whereas they approach a CS+ when it follows an aversive US during the training phase (US CS+; backward conditioning). These findings indicate that the CS+ acquires aversive properties after a forward conditioning, whereas acquires appetitive properties after a backward conditioning. It is thus of interest whether event timing also modulates conditioned responses in such an opponent fashion in humans, who are capable of explicit cognition about the associations. For this purpose, four experiments were conducted in which a discriminative conditioning was applied in groups of participants that only differed in the temporal sequence between CS+ onset and US onset (i.e., the interstimulus interval – ISI). During the acquisition phase (conditioning), two simple geometrical shapes were presented as conditioned stimuli. One shape (CS+) was always associated with a mild painful electric shock (i.e., the aversive US) and the other one (CS-) was never associated with the shock. In a between-subjects design, participants underwent either forward or backward conditioning. During the test phase (extinction), emotional responses to CS+ and CS- were tested and the US was never presented. Additionally, a novel neutral shape (NEW) was presented as control stimulus. To assess cognitive components, participants had to rate both the valence (the degree of unpleasantness or pleasantness) and the arousal (the degree of calmness or excitation) associated with the shapes before and after conditioning. In the first study, startle responses, an ancestral defensive reflex consisting of a fast twitch of facial and body muscles evoked by sudden and intense stimuli, was measured as an index of stimulus implicit valence. Startle amplitude was potentiated in the presence of the forward CS+ whilst attenuated in the presence of the backward CS+. Respectively, the former response indicates an implicit negative valence of the CS+ and an activation of the defensive system; the latter indicated an implicit positive valence of the CS+ and an activation of the appetitive system. In the second study, the blood-oxygen level dependent (BOLD) response was measured by means of functional magnetic resonance imaging (fMRI) to investigate neural responses after event learning. Stronger amygdala activation in response to forward CS+ and stronger striatum activation in response to backward CS+ were found in comparison to CS-. These results support the notion that the defensive motivational system is activated after forward conditioning since the amygdala plays a crucial role in fear acquisition and expression. Whilst the appetitive motivational system is activated after backward conditioning since the striatum plays a crucial role in reward processing. In the third study, attentional processes underlying event learning were observed by means of steady-state visual evoked potentials (ssVEPs). This study showed that both forward and backward CS+ caught attentional resources. More specifically, ssVEP amplitude was higher during the last seconds of forward CS+ that is just before the US, but during the first seconds of backward CS+ that is just after the US. Supposedly, attentional processes were located at the most informative part of CS+ in respect to the US. Participants of all three studies rated both forward and backward CS+ more negative and arousing compared to the CS-. This indicated that event timing did not influence verbal reports similarly as the neural and behavioral responses indicating a dissociation between the explicit and implicit responses. Accordingly, dual process theories propose that human behavior is determined by the output of two systems: (1) an impulsive implicit system that works on associative principles, and (2) a reflective explicit system that functions on the basis of knowledge about facts and values. Most importantly, these two systems can operate in a synergic or antagonistic fashion. Hence, the three studies of this thesis congruently suggest that the impulsive and the reflective systems act after backward association in an antagonistic fashion. In sum, event timing may turn punishment into reward in humans even though they subjectively rate the stimulus associated with aversive events as being aversive. This dissociation might contribute to understand psychiatric disorders, like anxiety disorders or drug addiction.
Background: There is extensive evidence that explicit memory, which involves conscious recall of encoded information, can be modulated by emotions; emotions may influence encoding, consolidation or retrieval of information. However, less is known about the modulatory effects of emotions on procedural processes like motor memory, which do not depend upon conscious recall and are instead demonstrated through changes in behaviour. Experiment 1: The goal of the first experiment was to examine the influence of emotions on motor learning. Four groups of subjects completed a motor learning task performing brisk isometric abductions with their thumb. While performing the motor task, the subjects heard emotional sounds varying in arousal and valence: (1) valence negative / arousal low (V-/A-), (2) valence negative / arousal high (V-/A+), (3) valence positive / arousal low (V+/A-), and (4) valence positive / arousal high (V+/A+). Descriptive analysis of the complete data set showed best performances for motor learning in the V-/A- condition, but the differences between the conditions did not reach significance. Results suggest that the interaction between valence and arousal may modulate motor encoding processes. Since limitations of the study cannot be ruled out, future studies with different emotional stimuli have to test the assumption that exposure to low arousing negative stimuli during encoding has a facilitating effect on short term motor memory. Experiment 2: The purpose of the second experiment was to investigate the effects of emotional interference on consolidation of sequential learning. In different sessions, 6 groups of subjects were initially trained on a serial reaction time task (SRTT). To modulate consolidation of the newly learned skill, subjects were exposed, after the training, to 1 of 3 (positive, negative or neutral) different classes of emotional stimuli which consisted of a set of emotional pictures combined with congruent emotional musical pieces or neutral sound. Emotional intervention for each subject group was done in 2 different time intervals (either directly after the training session, or 6 h later). After a 72 h post-training interval, each group was retested on the SRTT. Re-test performance was evaluated in terms of response times and accuracy during performance of the target sequence. Emotional intervention did not influence either response times or accuracy of re-testing SRTT task performance. However, explicit awareness of sequence knowledge was enhanced by arousing negative stimuli applied at 0 h after training. These findings suggest that consolidation of explicit aspects of procedural learning may be more responsive toward emotional interference than are implicit aspects. Consolidation of different domains of skill acquisition may be governed by different mechanisms. Since skill performance did not correlate with explicit awareness we suggest that implicit and explicit modes of SRTT performance are not complementary. Experiment 3: The aim of the third experiment was to analyze if the left hemisphere preferentially controls flexion responses towards positive stimuli, while the right hemisphere is specialized towards extensor responses to negative pictures. To this end, right-handed subjects had to pull or push a joystick subsequent to seeing a positive or a negative stimulus in their left or right hemifield. Flexion responses were faster for positive stimuli, while negative stimuli were associated with faster extensions responses. Overall, performance was fastest when emotional stimuli were presented to the left visual hemifield. This right hemisphere superiority was especially clear for negative stimuli, while reaction times towards positive pictures showed no hemispheric difference. We did not find any interaction between hemifield and response type. Neither was there a triple interaction between valence, hemifield and response type. In our experimental context the interaction between valence and hemifield seems to be stronger than the interaction between valence and motor behaviour. From these results we suppose that under certain conditions a hierarchy scaling of the asymmetry patterns prevails, which might mask any other existing asymmetries.