Brain processing of experimental muscle pain and its interrelation with proprioception and muscle fatigue : positron emission tomography study

Korotkov, Alexander

January 2005

Chronic muscle pain is a significant medical and social problem and better understanding of the pathophysiological mechanisms involved is an important requirement for further development of diagnostics, treatment and rehabilitation methods. Experimental imaging studies have investigated functional neuroanatomy of different pain components. However, several aspects of brain mechanisms underlying brain processing of muscle pain remain unclear. The general goal of the present thesis was to study functional brain anatomy of systems underlying perception of muscle pain, processing of proprioceptive information and maintenance of fatiguing muscle contractions with an emphasize on their possible interrelations. Four series of experiment were carried out. Using an injection of hypertonic saline (HS) into the m. triceps to induce pain comparable with clinical muscle pain a significant activation of insula and putamen as well as decrease of activity in the temporal and occipital cortex in comparison with control stimulation were revealed. An advanced model of prolonged muscle pain were provided by the infusion of the HS during 20 minutes into m. erector spinae A complex dynamics of brain activity during the habituation to nociceptive stimulation was shown: initial activation of insula changed to decrease of activity in this and several other cortical areas. A conjunction analysis identified activations jointly significant in both experiments (despite localization of HS nociceptive stimulation) in the right insula, occipital and left parietal cortical areas. The study of brain activity in response to different modalities of prorioceptive inputs – passive movements, kinesthetic illusions and muscle vibration showed corresponding different patterns of activation in motor and somatosenory areas and temporal areas. Finally, the study of sustained isometric muscle contractions of various force levels and durations revealed that muscle fatigue is associated with contralateral activation of the motor and somatosensory areas and temporal areas and bilateral activation in the supplementary motor areas and cingular cortex, indicating that increased efforts needed to maintain required force and its eventual breakdown with fatigue might induce activation of additional cortical areas. Analysis of data obtained in all experimental series revealed that insula, secondary somatosensory and auditory areas are activated during both perception of muscle pain and processing of somatosensory afferentation. In conclusion, this thesis has elucidated brain processing of muscle pain showing distributed, bilateral patterns comprised of activated structures predominantly attributed to the medial pain system and deactivated structures. Furthermore, initial and late phases of tonic muscle pain are associated with different brain reactions, namely initial activation of the insula followed by a significant bilateral decrease of activity at the late stage. Area of brain cortex located near lateral sulcus and comprised of secondary somatosensory cortex, posterior part of the insula and adjacent auditory cortex is engaged in the perception of muscle pain and processing of somatosensory afferentation as well as maintenance of fatiguing muscle contractions.

Experimental muscle pain

Hypertonic saline

Kinesthesia

Proprioception

Movement

Vibration

Muscle fatigue

Brain

Imaging

Positron emission tomography

Regional cerebral blood flow

Patterns of Regional Cerebral Blood Flow in Patients with Occlusive or Stenotic Lesions of Both the Internal Carotid and Vertebrobasilar Arteries

ITOH, JUNKI, TAKADA, SOHSHUN, ISHIGURI, HITOSHI, KUCHIWAKI, HIROJI

03 1900

No description available.

Basilar artery

Vertebral artery

lnternal carotid artery

Multiple occlusive lesion

Fast flow in the gray matter

Regional cerebral blood flow

Social Phobia : The Family and the Brain

Tillfors, Maria

January 2001

<p>The present thesis investigated family history and neurobiology of social phobia. Social phobia is a disabling disorder characterized by a marked fear of scrutiny in a variety of social situations. By using a validated questionnaire, study I related family history of excessive social anxiety to social phobia and avoidant personality disorder in epidemiologically identified probands in the Swedish general population. A two- to threefold increased relative risk of social anxiety was observed for both diagnostic groups. Thus, having an affected family member is associated with approximately a doubled risk for both social phobia and avoidant personality disorder.</p><p>The neurobiological studies explored situational and anticipatory elicited anxiety by means of positron emission tomography and 15O-water. Study II examined the functional neuroanatomy of social anxiety provocation in social phobics and a healthy comparison group during a public speaking task. Social phobia symptomatology was associated with higher neural activity in the amygdaloid complex, i.e. "the alarm system" of the brain, and lower activity in the prefrontal cortex. Study III examined the neural correlates of anxiety elicited by the anticipation of public speaking in individuals with social phobia. Anticipatory anxiety was accompanied by enhanced regional cerebral blood flow in the dorsolateral prefrontal and inferior temporal cortices as well as in the amygdaloid-hippocampal region. Brain blood flow was lower in the temporal pole and in the cerebellum. These results suggest that social phobia has a neuroanatomical basis in a highly sensitive fear network centered in the amygdaloid-hippocampal region and encompassing the prefrontal cortex.</p>

Psychology

Anticipation

anxiety

avoidant personality disorder

family history

fear

neuroimaging

positron emission tomography

regional cerebral blood flow

social phobia

symptom provocation

Psykologi

Psychology

Psykologi

Fear, Startle, and Fear-Potentiated Startle : Probing Emotion in the Human Brain

Pissiota, Anna

January 2003

<p>The present thesis explored the neurobiological basis of three aspects of defense behaviors in humans. Positron emission tomography methodology was used, and changes in regional cerebral blood flow (rCBF) were measured as an index of neural activity. Firstly, brain function was studied in a group of patients suffering from combat-related posttraumatic stress disorder, using a symptom provocation paradigm with combat sounds in order to elicit fear. Exposure to auditory trauma reminders relative to neutral sounds was associated with increased rCBF in sensorimotor areas, the cerebellar vermis, the periaqueductal gray matter, and the right amygdala, whereas decreased activity was observed in the retrosplenial area of the posterior cingulate cortex. Secondly, the neural circuitry mediating the acoustic startle response and its habituation was studied in a group of healthy subjects. During acoustic startle stimulation as compared to a resting condition, increased rCBF was found in a medial posterior area of the pons corresponding to the nucleus reticularis pontis caudalis. As a result of startle repetition, altered activity was found in the cerebellum, pointing to its involvement in startle habituation. Thirdly, neural activity associated with startle modulation by phobic fear was studied in a group of subjects with specific animal phobias during exposure to pictures of their feared and non-feared objects, paired and unpaired with acoustic startle stimuli. As a result of startle potentiation, increased rCBF was found in the left amygdaloid-hippocampal region, and medially in the affective division of the anterior cingulate cortex. In conclusion, these results provide evidence for the involvement of limbic and paralimbic brain areas during fear provocation and fear-potentiated startle and for a similar neurocircuitry underlying startle in humans and animals.</p>

Psychology

anxiety

attention

brain

fear

fear-potentiated startle

human

neuroimaging

positron emission tomography

posttraumatic stress disorder

regional cerebral blood flow

startle

startle habituation

symptom provocation

Psykologi

Psychology

Psykologi

Social Phobia : The Family and the Brain

Tillfors, Maria

January 2001

The present thesis investigated family history and neurobiology of social phobia. Social phobia is a disabling disorder characterized by a marked fear of scrutiny in a variety of social situations. By using a validated questionnaire, study I related family history of excessive social anxiety to social phobia and avoidant personality disorder in epidemiologically identified probands in the Swedish general population. A two- to threefold increased relative risk of social anxiety was observed for both diagnostic groups. Thus, having an affected family member is associated with approximately a doubled risk for both social phobia and avoidant personality disorder. The neurobiological studies explored situational and anticipatory elicited anxiety by means of positron emission tomography and 15O-water. Study II examined the functional neuroanatomy of social anxiety provocation in social phobics and a healthy comparison group during a public speaking task. Social phobia symptomatology was associated with higher neural activity in the amygdaloid complex, i.e. "the alarm system" of the brain, and lower activity in the prefrontal cortex. Study III examined the neural correlates of anxiety elicited by the anticipation of public speaking in individuals with social phobia. Anticipatory anxiety was accompanied by enhanced regional cerebral blood flow in the dorsolateral prefrontal and inferior temporal cortices as well as in the amygdaloid-hippocampal region. Brain blood flow was lower in the temporal pole and in the cerebellum. These results suggest that social phobia has a neuroanatomical basis in a highly sensitive fear network centered in the amygdaloid-hippocampal region and encompassing the prefrontal cortex.

Psychology

Anticipation

anxiety

avoidant personality disorder

family history

fear

neuroimaging

positron emission tomography

regional cerebral blood flow

social phobia

symptom provocation

Psykologi

Psychology

Psykologi

Fear, Startle, and Fear-Potentiated Startle : Probing Emotion in the Human Brain

Pissiota, Anna

January 2003

The present thesis explored the neurobiological basis of three aspects of defense behaviors in humans. Positron emission tomography methodology was used, and changes in regional cerebral blood flow (rCBF) were measured as an index of neural activity. Firstly, brain function was studied in a group of patients suffering from combat-related posttraumatic stress disorder, using a symptom provocation paradigm with combat sounds in order to elicit fear. Exposure to auditory trauma reminders relative to neutral sounds was associated with increased rCBF in sensorimotor areas, the cerebellar vermis, the periaqueductal gray matter, and the right amygdala, whereas decreased activity was observed in the retrosplenial area of the posterior cingulate cortex. Secondly, the neural circuitry mediating the acoustic startle response and its habituation was studied in a group of healthy subjects. During acoustic startle stimulation as compared to a resting condition, increased rCBF was found in a medial posterior area of the pons corresponding to the nucleus reticularis pontis caudalis. As a result of startle repetition, altered activity was found in the cerebellum, pointing to its involvement in startle habituation. Thirdly, neural activity associated with startle modulation by phobic fear was studied in a group of subjects with specific animal phobias during exposure to pictures of their feared and non-feared objects, paired and unpaired with acoustic startle stimuli. As a result of startle potentiation, increased rCBF was found in the left amygdaloid-hippocampal region, and medially in the affective division of the anterior cingulate cortex. In conclusion, these results provide evidence for the involvement of limbic and paralimbic brain areas during fear provocation and fear-potentiated startle and for a similar neurocircuitry underlying startle in humans and animals.

Psychology

anxiety

attention

brain

fear

fear-potentiated startle

human

neuroimaging

positron emission tomography

posttraumatic stress disorder

regional cerebral blood flow

startle

startle habituation

symptom provocation

Psykologi

Psychology

Psykologi

Montreal Cognitive Assessment score correlates with regional cerebral blood flow in post-stroke patients / 脳梗塞亜急性期におけるモントリオール認知評価検査スコアと局所脳血流の相関解析

Nakaoku, Yuriko

25 March 2019

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第21669号 / 医博第4475号 / 新制||医||1035(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 村井 俊哉, 教授 古川 壽亮, 教授 宮本 享 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Post-stroke cognitive impairment

Prefrontal-subcortical circuits

Cerebral blood flow

Statistical parametric mapping

SPECT

490

Posttraumatic Stress Disorder (PTSD) in the General Population

Frans, Örjan

January 2003

<p>This thesis explored the epidemiology of Posttraumatic Stress Disorder (PTSD) and different aspects of the disorder. Firstly, we investigated the lifetime prevalence of traumatic experiences and PTSD in the general adult population in Sweden and evaluated the impact of different trauma types, trauma frequency, and perceived distress. The results show that traumatic experiences are common and PTSD is not rare; roughly one out of ten traumatic events results in PTSD, with a 5.6% lifetime prevalence. The female/male ratio is 2:1. The risk for PTSD increases considerably with a high trauma-associated emotional impact. The distressing impact of a given trauma appears to be higher in women than in men, indicating an increased vulnerability in women. Secondly, we hypothesized that traffic road accidents (TRA’s) are one of the most prevalent types of traumatic events in Swedish society; therefore, we examined the impact of event and response characteristics associated with TRA’s on PTSD development. The data demonstrate that of those who had experienced a TRA (n=1074, 58.9%), 6.1% reported lifetime PTSD. TRA’s associated with fatal accidents and injury to oneself and related to high distress more than double the risk for PTSD. Thirdly, we compared the relative merits of the DSM-IV’s three-factor solution for PTSD symptoms to alternative models. We found that the symptomatology is equally well accounted for using all factor analytic models as yet presented in the literature; the DSM-IV, we found, provides as good a fit to data as other models. Fourthly, we examined the neurofunctional correlates of PTSD symptoms and whether a treatment-induced (serotonin reuptake inhibitor - SSRI) reduction of PTSD symptoms is associated with altered rCBF during symptom provocation. Our results indicate that PTSD symptoms correlates with areas involved in memory, emotion, attention, and motor control and that SSRI treatment normalizes provocation-induced rCBF in these areas.</p>

Psychology

posttraumatic stress disorder

trauma

epidemiology

general population

prevalence

traffic road accidents

DSM-structure

positron emission tomography

regional cerebral blood flow

symptom provocation

selective serotonin reuptake inhibitor

Psykologi

Psychology

Psykologi

Posttraumatic Stress Disorder (PTSD) in the General Population

Frans, Örjan

January 2003

This thesis explored the epidemiology of Posttraumatic Stress Disorder (PTSD) and different aspects of the disorder. Firstly, we investigated the lifetime prevalence of traumatic experiences and PTSD in the general adult population in Sweden and evaluated the impact of different trauma types, trauma frequency, and perceived distress. The results show that traumatic experiences are common and PTSD is not rare; roughly one out of ten traumatic events results in PTSD, with a 5.6% lifetime prevalence. The female/male ratio is 2:1. The risk for PTSD increases considerably with a high trauma-associated emotional impact. The distressing impact of a given trauma appears to be higher in women than in men, indicating an increased vulnerability in women. Secondly, we hypothesized that traffic road accidents (TRA’s) are one of the most prevalent types of traumatic events in Swedish society; therefore, we examined the impact of event and response characteristics associated with TRA’s on PTSD development. The data demonstrate that of those who had experienced a TRA (n=1074, 58.9%), 6.1% reported lifetime PTSD. TRA’s associated with fatal accidents and injury to oneself and related to high distress more than double the risk for PTSD. Thirdly, we compared the relative merits of the DSM-IV’s three-factor solution for PTSD symptoms to alternative models. We found that the symptomatology is equally well accounted for using all factor analytic models as yet presented in the literature; the DSM-IV, we found, provides as good a fit to data as other models. Fourthly, we examined the neurofunctional correlates of PTSD symptoms and whether a treatment-induced (serotonin reuptake inhibitor - SSRI) reduction of PTSD symptoms is associated with altered rCBF during symptom provocation. Our results indicate that PTSD symptoms correlates with areas involved in memory, emotion, attention, and motor control and that SSRI treatment normalizes provocation-induced rCBF in these areas.

Psychology

posttraumatic stress disorder

trauma

epidemiology

general population

prevalence

traffic road accidents

DSM-structure

positron emission tomography

regional cerebral blood flow

symptom provocation

selective serotonin reuptake inhibitor

Psykologi

Psychology

Psykologi

Effet du traitement par pression positive continue sur les changements de flot sanguin cérébral dans l’apnée obstructive du sommeil

L'Heureux, Francis

09 1900

L'apnée obstructive du sommeil (AOS) est un problème de santé important, affectant jusqu’à 38% de la population générale et augmentant en prévalence avec l’âge. L'AOS mène à une hypoxémie intermittente, une fragmentation du sommeil et des changements de flot sanguin qui peuvent provoquer des dommages vasculaires et neuronaux. Récemment, des anomalies de flot sanguin cérébral (FSC) mesurées à l’éveil ont été observées chez les adultes présentant de l’AOS sévère. On ne sait toutefois pas si ces anomalies s’accentuent avec le temps et si le traitement de l'AOS (généralement la pression positive continue - PPC) peut diminuer ces anomalies chez les personnes âgées. Ainsi, ce projet de maîtrise vise à déterminer si le traitement par PPC d’une durée de 18 mois chez les personnes apnéiques de plus de 55 ans normalise le FSC mesuré en tomographie d'émission monophotonique. De plus, ce projet vise à investiguer les effets à moyen-terme de l'AOS non traitée relativement à un groupe contrôle. Nous avons émis l’hypothèse que les sujets avec de l'AOS traitée par PPC auront des augmentations de FSC dans des régions précédemment hypoperfusées alors que les individus avec l'AOS non traitée auront des diminutions de FSC à travers le temps dans des régions sensibles à l’AOS. Nous avons évalué 12 participants contrôles et 23 participants nouvellement diagnostiqués avec de l’AOS. Ces-derniers ont été référés à une clinique d’AOS et 13 d’entre eux ont suivi un traitement par PPC. Pour l’analyse de l’imagerie par émission monophotonique, nous avons utilisé une méthode basée sur le voxel ainsi qu’une méthode d’extraction pour mesurer les changements à travers le temps dans chacun des groupes. Nous avons observé une augmentation du FSC chez le groupe traité au niveau du gyrus temporal inférieur gauche. De plus, nous avons observé des diminutions de FSC chez le groupe non traité au niveau de l’hippocampe gauche, du gyrus parahippocampal droit et du pôle temporal supérieur gauche. Aucun changement n’a été observé chez le groupe contrôle. Les diminutions de FSC observées dans le groupe non traité pourraient être causées par les conséquences de l’AOS, notamment par une combinaison de diminution du calibre vasculaire et une perte cellulaire. En éliminant ces mécanismes pathologiques, le traitement par PPC permettrait une revascularisation et une prolifération cellulaire. Puisque les régions cérébrales affectées par l’AOS dans ce projet sont associées au déclin cognitif, d’autres études sont nécessaires pour clarifier le lien entre l’AOS, son traitement et la démence. / Obstructive sleep apnea (OSA) is an important health problem, affecting up to 38% of the general population and increasing in prevalence with age. OSA causes blood flow changes leading to vascular and neuronal damage. Indeed, decreases in regional cerebral blood flow (rCBF) have been observed in OSA. The treatment of OSA is continuous positive airway pressure (CPAP). CPAP treatment has been associated with increases in rCBF. However, studies evaluating rCBF in OSA were predominantly composed of middle-aged people. Therefore, we don’t know if these results could be generalized to the aging population. Thus, this master's project aims to determine whether an 18-month CPAP treatment for apneic individuals older than 55 years normalizes the rCBF measured in single-photon emission computed tomography. In addition, this project aims to investigate the longitudinal effects of untreated OSA relative to a control group. We hypothesized that treated subjects will have rCBF increases in previously hypoperfused regions while individuals with untreated OSA will have decreased rCBF over time in OSA-sensible regions. We evaluated 12 control participants and 23 newly diagnosed participants with OSA. The latter were referred to an OSA clinic and 13 of them followed a CPAP treatment. For the analysis of single photon emission imaging, we used a voxel-based method and an extraction method to measure changes over time in each of the groups. We observed an increased rCBF in the treated group in the left inferior temporal gyrus. In addition, we observed decreased rCBF in the untreated group in the left hippocampus, the right parahippocampal gyrus, and left superior temporal pole. No change was observed in the control group. The decreased rCBF seen in the untreated group could be caused by the consequences of OSA, including a combination of decreased blood vessels caliber and cell loss. By eliminating these pathological mechanisms, CPAP treatment would allow revascularization and cell proliferation. Since brain regions affected by OSA in this project are associated with cognitive decline, further studies are needed to clarify the link between OSA, its treatment, and dementia.

Apnée obstructive du sommeil

Pression positive continue

Vieillissement

Neuroimagerie

Flot sanguin cérébral régional

Tomographie par émission monophotonique

Obstructive sleep apnea

Continous positive airway pressure

Aging

Neuroimaging

Regional cerebral blood flow