Global ETD Search

71	Amylin mediates brainstem control of heart rate in the diving reflex Yang, Fan January 2012 (has links) Amylin, or islet amyloid polypeptide is a 37-amino acid member of the calcitonin peptide family. Amylin role in the brainstem and its function in regulating heart rates is unknown. The diving reflex is a powerful autonomic reflex, however no neuropeptides have been described to modulate its function. In this thesis study, amylin expression in the brainstem involving pathways between the trigeminal ganglion and the nucleus ambiguus was visualized and characterized using immunohistochemistry. Its functional role in slowing heart rate and also its involvement in the diving reflex were elucidated using stereotaxic microinjection, whole-cel patch-clamp, and a rat diving model. Immunohistochemical and tract tracing studies in rats revealed amylin expression in trigeminal ganglion cells, which also contained vesicular glutamate transporter 2 positive. With respect to the brainstem, amylin containing fibers were discovered in spinal trigeminal tracts. These fibers curved dorsally toward choline acetyltransferase immunoreactive neurons of the nucleus ambiguus, suggesting that amylin may synapse to parasympathetic preganglionic neurons in the nucleus ambiguus. Microinjection of fluorogold to the nucleus ambiguus retrogradely labeled a population of trigeminal ganglion neurons; some of which also contained amylin. In urethane-anesthetized rats, stereotaxic microinjections of amylin to the nucleus ambiguus caused a dose-dependent bradycardia that was reversibly attenuated by microinjections of the selective amylin receptor antagonist, salmon calcitonin (8-32) (sCT (8-32)) or AC187, and abolished by bilateral vagotomy. In an anesthetized rat diving model, diving bradycardia was attenuated by glutamate receptor antagonists CNQX and AP5, and was further suppressed by AC187. Whole-cel patch-clamp recordings from cardiac preganglionic vagal neurons revealed that amylin depolarizes neurons while decreasing conductance. Amylin also resulted in a reduction in whole cell currents, consistent with the decrease in conductance. Amylin is also found to increase excitability of neurons. In the presence of TTX, spontaneous currents in cardiac preganglionic vagal neurons were observed to decrease in frequency in response to amylin while amplitude remained constant, signifying that amylin reduces presynaptic activity at cardiac preganglionic vagal neurons. Finally, evoked synaptic currents revealed that amylin decreases evoked currents, further demonstrating that amylin depolarization and increase in excitability of cardiac preganglionic vagal neurons is also associated with simultaneous inhibition of presynaptic transmission. Our study has demonstrated for the first time that the bradycardia elicited by the diving reflex is mediated by amylin from trigeminal ganglion cells projecting to cardiac preganglionic neurons in the nucleus ambiguus. Additionally, amylin results in the depolarization and increased excitability of cardiac preganglionic vagal neurons while inhibiting presynaptic transmission. / Pharmacology Pharmacology Neurosciences Amylin Bradycardia Diving Reflex Neuropeptide Nucleus Ambiguus Trigeminal Ganglion
72	Inhibition of Retinoic Acid Receptors Results in Defasciculation of the Trigeminal Nerve in Xenopus laevis Thompson, Jeremy 09 May 2013 (has links) The anatomy of the cranial peripheral nervous system has been studied for over a century, yet surprisingly little is known about how the nerves are guided to their targets. The study of the development of these nerves has important implications for our understanding of craniofacial anomalies and possible treatments for both injury and genetic disorders of nerve development such as Goldenhar-Gorlin syndrome. We have discovered that retinoic acid (RA) may play a role in the development of the trigeminal nerve. Inhibition of retinoic acid receptors (RAR) results in trigeminal nerves that become unbundled or defasciculated in the eye region. To further understand how RA is affecting trigeminal development we searched for genes downregulated in response to RAR inhibition by the inhibitor BMS-453 and have identified neurotrophin-3 (NT-3), activated leukocyte cell adhesion molecule (ALCAM) and Semaphorin 4B (Sema4B). We have analyzed the expression patterns of Sema4B and NT-3 by in situ hybridization and have found NT-3 expression in the eye and Sema4B in the embryonic target of the trigeminal nerve, lens of the eye and in the pharyngeal arches. ALCAM has been analyzed via qRT-PCR and its transcription is downregulated just prior to the observed defasciculation phenotype. The pattern of expression of these genes combined with known expression of NT-3 receptors allows us to suggest a model whereby RA signaling regulates Sema4B, ALCAM and NT-3, which support the survival, guidance and fasciculation of the trigeminal nerve. This work has the potential to better understanding of the complex nature of cranial nervous system development. trigeminal Xenopus defasciculation retinoic acid trigeminal nerve Xenopus laevis fasciculation retinoic acid receptors retinoic acid inhibition ALCAM neurotrophin-3 semaphorin 4B neurotrophin 3 NT-3 Sema4B Biology Life Sciences
73	Inervação autonômica da articulação temporomandibular em condições de normalidade e, padrão de ativação neuronal no tronco encefálico durante a vigência de artrite no complexo articular temporomandibular. / Temporomandibular joint autonomic innervation inder normal conditions and, neuronal activation pattern in the brain stem during monoarthritis induced in the temporomandibular joint complex. Ervolino, Edilson 10 August 2009 (has links) Os objetivos do presente trabalho foram: 1) analisar a distribuição das fibras nervosas autonômicas na articulação temporomandibular (ATM) do rato, através da detecção de tirosina hidroxilase (TH), neuropeptídeo Y (NPY) e peptídeo intestinal vasoativo (VIP); 2) realizar um estudo topográfico ultra-estrutural das fibras e terminações nervosas autonômicas na ATM do rato; 3) determinar o padrão de ativação neuronal no complexo nuclear trigeminal e, em centros nervosos moduladores da dor, durante a vigência de monoartrite no complexo articular temporomandibular (CATM) do rato. Para o primeiro propósito o método imunoistoquímico, para a detecção simultânea de TH, NPY e VIP, foi executado em ATMs que apresentavam as seguintes condições: inervação intacta ou desprovida de inervação simpática e/ou parassimpática. Para o segundo propósito aliamos o tratamento prévio com 5-hidroxidopamina, para evidenciação de terminações nervosas simpáticas, com a remoção cirúrgica do gânglio ótico, para a visualização das fibras e terminações nervosas parassimpáticas em degeneração, em seguida analisamos as ATMs ao microscópio eletrônico de transmissão. O terceiro propósito foi obtido induzindo-se monoartrite (fase aguda, crônica e crônica ativa) no CATM e, verificando a expressão de Fos, um marcador de ativação neuronal, no complexo nuclear sensorial trigeminal e nos principais centros nervosos moduladores da dor, situados no tronco encefálico (substância cinzenta periaqueductal- PAG; área rostral ventromedial da medula oblonga- RVM; locus coeruleus- LC; área caudal ventrolateral da medula oblonga- CVLM; núcleo do trato solitário- NTS e; núcleo reticular ventral-NRV). Verificamos que as ATMs desprovidas de inervação simpática apresentam exclusivamente uma pequena quantidade de fibras nervosas VIP-IR, ao passo que aquelas desprovidas de inervação parassimpática mostram uma grande quantidade de fibras nervosas TH/NPY-IR e TH/NPY/VIP-IR. As fibras e terminações nervosas autonômicas foram observadas em vasos sanguíneos ou isoladas no tecido conjuntivo, especialmente na membrana sinovial. No que se refere à expressão de Fos, constatamos que o subnúcleo caudal do núcleo do tracto espinal do nervo trigêmeo (Sp5C) e a PAG apresentaram um aumento bilateral significante na expressão de Fos durante todas as fases da monoartrite induzida no CATM. Todavia, RVM, LC, CVLM, NTS apresentaram uma quantidade de neurônios Fos-IR significativamente aumentada, de ambos os lados, apenas quando o CATM estava sob vigência de monoartrite na fase aguda e crônica ativa. Concluímos que: 1) a ATM mostra-se densamente inervada por fibras nervosas simpáticas (TH/NPY-IR e TH/NPY/VIP-IR) e, por uma discreta quantidade de fibras nervosas parassimpáticas (VIP-IR), ambas predominantemente associadas com vasos sanguíneos; 2) o Sp5C e a PAG, mostra-se intensamente ativados em todas as fases da monoartrite no CATM, ao passo que a maioria dos centros nervosos moduladores da dor apresentam uma quantidade aumentada de neurônios imunoarreativos ao marcador de ativação neuronal, Fos, apenas durante as fases aguda e crônica ativa dessa monoartrite. / The goals of the present study were: 1) to analyse the distribution of autonomic nerve fibers in the rat temporomandibular joint (TMJ) under normal conditions using immunofluorescence method to detect tirosyne hydroxylase (TH), neuropetide Y (NPY) and vasoactive intestinal polypeptide (VIP); 2) to verify the detailed distribution of autonomic nerve fibers in the rat temporomandibular joint by transmission electron microscopy; 3) to determine the neuronal activation pattern in the trigeminal system and in the pain modulation centers during monoarthritis induced in the rat temporomandibular joint complex (TMJC). For the first purpose, histologic sections from TMJs with intact innervation or with surgical sympatectomy and/or parasympathectomy were submitted to simultaneous detection of TH, NPY and VIP. For the second purpose, 5-hydroxidopamine treatment to detect sympathetic nerve endings was combined with surgical parasympatectomy of the otic ganglion to detect degenerated parasympathetic nerve endings in the rat TMJC, by transmission electron microscopy. For the last purpose, monoarthritis (acute, chronic and chronic-active phases) was induced in the TMJC and histologic sections from the brain stem were submitted to immunodetection of Fos protein in the trigeminal system and in the pain modulation centers (periqueductal gray matter - PAG; rostroventromedial medulla - RVM; locus coeruleus- LC; caudal ventrolateral medulla- CVLM; nucleus of the solitary tract - NTS; ventral reticular nucleus - VRN). The most important results demonstrated that the TMJC showed a discrete parasympathetic innervation (VIP-IR), while the sympathetic innervation was dense and characterized by TH-/NPY-/VIP-IR or TH-/NPY-IR nerve fibers. Autonomic nerve fibers were mainly noted associated to blood vessels and occasionally disperse in the synovial membrane. Fos-IR neurons showed significant bilateral increase in the spinal trigeminal caudal subnucleus and PAG during arthritis evolution. On the other hand, RVM, LC, CVLM and NTS only showed significant increase of Fos-IR neurons during the acute and chronic-active phases of monoarthritis. The main conclusions were: 1) the TMJC shows a dense sympathetic innervation (TH/NPY-IR or TH-/NPY-/VIP-IR) and discrete parasympathetic innervation (VIP-IR), both associated mainly to blood vessels; 2) most modulation pain centers are activated principally during acute and chronic-active arthritis, while the spinal trigeminal caudal subnucleus and PAG showed continuous activation during all phases of arthritis. Arthritis Articulação temporomandibular Artrite Fibras nervosas parassimpáticas Fibras nervosas simpáticas Histologia Histology Pain modulation system Parasympathetic nerve fibers Sistema de modulação da dor Sistema trigeminal Sympathic nerve fibers Temporomandibular joint Trigeminal system
74	Inervação autonômica da articulação temporomandibular em condições de normalidade e, padrão de ativação neuronal no tronco encefálico durante a vigência de artrite no complexo articular temporomandibular. / Temporomandibular joint autonomic innervation inder normal conditions and, neuronal activation pattern in the brain stem during monoarthritis induced in the temporomandibular joint complex. Edilson Ervolino 10 August 2009 (has links) Os objetivos do presente trabalho foram: 1) analisar a distribuição das fibras nervosas autonômicas na articulação temporomandibular (ATM) do rato, através da detecção de tirosina hidroxilase (TH), neuropeptídeo Y (NPY) e peptídeo intestinal vasoativo (VIP); 2) realizar um estudo topográfico ultra-estrutural das fibras e terminações nervosas autonômicas na ATM do rato; 3) determinar o padrão de ativação neuronal no complexo nuclear trigeminal e, em centros nervosos moduladores da dor, durante a vigência de monoartrite no complexo articular temporomandibular (CATM) do rato. Para o primeiro propósito o método imunoistoquímico, para a detecção simultânea de TH, NPY e VIP, foi executado em ATMs que apresentavam as seguintes condições: inervação intacta ou desprovida de inervação simpática e/ou parassimpática. Para o segundo propósito aliamos o tratamento prévio com 5-hidroxidopamina, para evidenciação de terminações nervosas simpáticas, com a remoção cirúrgica do gânglio ótico, para a visualização das fibras e terminações nervosas parassimpáticas em degeneração, em seguida analisamos as ATMs ao microscópio eletrônico de transmissão. O terceiro propósito foi obtido induzindo-se monoartrite (fase aguda, crônica e crônica ativa) no CATM e, verificando a expressão de Fos, um marcador de ativação neuronal, no complexo nuclear sensorial trigeminal e nos principais centros nervosos moduladores da dor, situados no tronco encefálico (substância cinzenta periaqueductal- PAG; área rostral ventromedial da medula oblonga- RVM; locus coeruleus- LC; área caudal ventrolateral da medula oblonga- CVLM; núcleo do trato solitário- NTS e; núcleo reticular ventral-NRV). Verificamos que as ATMs desprovidas de inervação simpática apresentam exclusivamente uma pequena quantidade de fibras nervosas VIP-IR, ao passo que aquelas desprovidas de inervação parassimpática mostram uma grande quantidade de fibras nervosas TH/NPY-IR e TH/NPY/VIP-IR. As fibras e terminações nervosas autonômicas foram observadas em vasos sanguíneos ou isoladas no tecido conjuntivo, especialmente na membrana sinovial. No que se refere à expressão de Fos, constatamos que o subnúcleo caudal do núcleo do tracto espinal do nervo trigêmeo (Sp5C) e a PAG apresentaram um aumento bilateral significante na expressão de Fos durante todas as fases da monoartrite induzida no CATM. Todavia, RVM, LC, CVLM, NTS apresentaram uma quantidade de neurônios Fos-IR significativamente aumentada, de ambos os lados, apenas quando o CATM estava sob vigência de monoartrite na fase aguda e crônica ativa. Concluímos que: 1) a ATM mostra-se densamente inervada por fibras nervosas simpáticas (TH/NPY-IR e TH/NPY/VIP-IR) e, por uma discreta quantidade de fibras nervosas parassimpáticas (VIP-IR), ambas predominantemente associadas com vasos sanguíneos; 2) o Sp5C e a PAG, mostra-se intensamente ativados em todas as fases da monoartrite no CATM, ao passo que a maioria dos centros nervosos moduladores da dor apresentam uma quantidade aumentada de neurônios imunoarreativos ao marcador de ativação neuronal, Fos, apenas durante as fases aguda e crônica ativa dessa monoartrite. / The goals of the present study were: 1) to analyse the distribution of autonomic nerve fibers in the rat temporomandibular joint (TMJ) under normal conditions using immunofluorescence method to detect tirosyne hydroxylase (TH), neuropetide Y (NPY) and vasoactive intestinal polypeptide (VIP); 2) to verify the detailed distribution of autonomic nerve fibers in the rat temporomandibular joint by transmission electron microscopy; 3) to determine the neuronal activation pattern in the trigeminal system and in the pain modulation centers during monoarthritis induced in the rat temporomandibular joint complex (TMJC). For the first purpose, histologic sections from TMJs with intact innervation or with surgical sympatectomy and/or parasympathectomy were submitted to simultaneous detection of TH, NPY and VIP. For the second purpose, 5-hydroxidopamine treatment to detect sympathetic nerve endings was combined with surgical parasympatectomy of the otic ganglion to detect degenerated parasympathetic nerve endings in the rat TMJC, by transmission electron microscopy. For the last purpose, monoarthritis (acute, chronic and chronic-active phases) was induced in the TMJC and histologic sections from the brain stem were submitted to immunodetection of Fos protein in the trigeminal system and in the pain modulation centers (periqueductal gray matter - PAG; rostroventromedial medulla - RVM; locus coeruleus- LC; caudal ventrolateral medulla- CVLM; nucleus of the solitary tract - NTS; ventral reticular nucleus - VRN). The most important results demonstrated that the TMJC showed a discrete parasympathetic innervation (VIP-IR), while the sympathetic innervation was dense and characterized by TH-/NPY-/VIP-IR or TH-/NPY-IR nerve fibers. Autonomic nerve fibers were mainly noted associated to blood vessels and occasionally disperse in the synovial membrane. Fos-IR neurons showed significant bilateral increase in the spinal trigeminal caudal subnucleus and PAG during arthritis evolution. On the other hand, RVM, LC, CVLM and NTS only showed significant increase of Fos-IR neurons during the acute and chronic-active phases of monoarthritis. The main conclusions were: 1) the TMJC shows a dense sympathetic innervation (TH/NPY-IR or TH-/NPY-/VIP-IR) and discrete parasympathetic innervation (VIP-IR), both associated mainly to blood vessels; 2) most modulation pain centers are activated principally during acute and chronic-active arthritis, while the spinal trigeminal caudal subnucleus and PAG showed continuous activation during all phases of arthritis. Articulação temporomandibular Artrite Fibras nervosas parassimpáticas Fibras nervosas simpáticas Histologia Sistema de modulação da dor Sistema trigeminal Arthritis Histology Pain modulation system Parasympathetic nerve fibers Sympathic nerve fibers Temporomandibular joint Trigeminal system
75	Traitement des mélanges par le système trigéminal Filiou, Renée-Pier 04 1900 (has links) Le système trigéminal –tout comme l’olfaction et la gustation– est un sens chimique qui permet la perception des informations chimiosensorielles de notre environnement. Contrairement à l’olfaction et à la gustation, notre connaissance du traitement des mélanges par le système trigéminal est limitée. Nous avons donc utilisé des mélanges de trois agonistes relativement spécifiques à des récepteurs (eucalyptol, agoniste TRPM8; aldéhyde cinnamique, agoniste TRPA1 ; camphre, agoniste TRPV1) et d’une odeur pure (alcool phényléthylique) dans différentes proportions afin de déterminer les dimensions de base de la perception trigéminale. Quatre dimensions principales se sont avérées pertinentes: l’intensité, la sensation de chaleur, la sensation de froid et la douleur. Nous avons utilisé ces dimensions pour étudier la perception de mélanges et de combinaisons dans différentes proportions d’un stimulus qui procure une sensation de froid (eucalyptol) et d’un stimulus qui procure une sensation de chaleur (aldéhyde cinnamique). Les résultats indiquent que les mélanges obtiennent généralement des scores plus élevés que les combinaisons sur les dimensions « intensité », « sensation de chaleur » et « douleur » alors que les combinaisons obtiennent des scores plus élevés sur la dimension « sensation de froid ». Ces résultats suggèrent des interactions spécifiques pour les différentes dimensions de la perception trigéminale. Nous en venons à la conclusion d’un effet d’additivité pour les mélanges sur les dimensions « intensité », « sensation de chaleur » et « douleur » alors que nous observons plutôt un effet de suppression de la perception de froid pour les deux stimuli dans les mélanges, ce qui semble indiquer des interactions particulières pouvant prendre place aux niveaux périphérique ou central. / The trigeminal system – along with smell and taste – is a chemical sense that allows the perception of chemosensory information in our environment. However, contrary to smell and taste, we lack knowledge of the trigeminal processing of mixtures. We therefore investigated trigeminal perception using mixtures of three relatively receptor specific agonists (eucalyptol, TRPM8 agonist; cinnamaldehyde, TRPA1 agonist and camphor, TRPV1 agonist) together with one control odor (phenyl ethyl alcohol or PEA) in different proportions to determine basic dimensions of trigeminal perception. Four main dimensions were proven relevant to trigeminal perception: intensity, warmth sensation, cold sensation and pain sensation. Subsequently, we used these dimensions to investigate perception of mixtures and combinations of trigeminal stimuli using different concentrations of a cooling stimulus (eucalyptol) with a stimulus which evokes warmth perception (cinnamaldehyde). Results showed mixtures generally yielded higher ratings than combinations on the trigeminal dimensions “intensity”, “warm” and “painful” whereas combinations yielded higher ratings than mixtures on the trigeminal dimension “cold”. These results suggest dimension specific interactions in the perception of trigeminal mixtures. For the mixtures we used, we reach the conclusion of additivity for the dimensions “intensity”, “warm” and “painful”; we observed suppression of the cold perception of both stimuli in mixtures suggesting particular interactions which may take place on peripheral or central levels. Système trigéminal Mélanges binaires Olfaction Perception chimisensorielle Trigeminal system Binary mixtures Smell Chemosensory perception
76	INTERVENTION TO EXTRASYNAPTIC GABAA RECEPTORS FOR SYMPTOM RELIEF IN MOUSE MODELS OF RETT SYNDROME Zhong, Weiwei 10 May 2017 (has links) Rett Syndrome (RTT) is a neurodevelopmental disorder affecting 1 out of 10,000 females worldwide. Mutations of the X-linked MECP2 gene encoding methyl CpG binding protein 2 (MeCP2) accounts for >90% of RTT cases. People with RTT and mice with Mecp2 disruption show autonomic dysfunction, especially life-threatening breathing disorders, which involves defects in brainstem neurons for breathing controls, including neurons in the locus coeruleus (LC). Accumulating evidence obtained from Mecp2−/Y mice suggests that imbalanced excitation/inhibition or the impaired synaptic communications in central neurons plays a major role. LC neurons in Mecp2−/Ymice are hyperexcited, attributable to the deficiency in GABA synaptic inhibition. Several previous studies indicate that augmenting synaptic GABA receptors (GABARs) leads to a relief of RTT-like symptoms in mice. The extrasynaptic GABARs located outside synaptic cleft, which have the capability to produce sustained inhibition, and may be a potential therapeutic target for the rebalance of excitation/inhibition in RTT. In contrast to the rich information of the synaptic GABARs in RTT research, however, whether Mecp2 gene disruption affects the extrasynaptic GABARs remains unclear. In this study, we show evidence that the extrasynaptic GABAR mediated tonic inhibition of LC neurons was enhanced in Mecp2−/Ymice, which seems attributable to the augmented δ subunit expression. Low-dose THIP exposure, an agonist specific to δ subunit containing extrasynaptic GABARs, extended the lifespan, alleviated breathing abnormalities, enhanced motor function, and improved social behaviors of Mecp2−/Ymice. Such beneficial effects were associated with stabilization of brainstem neuronal hyperexcitability, including neurons in the LC and the mesencephalic trigeminal V nucleus (Me5), and improvement of norepinephrine (NE) biosynthesis. Such phenomena were found in symptomatic Mecp2+/− (sMecp2+/−) female mice model as well, in which the THIP exposure alleviated the hyperexcitability of both LC and Me5 neurons to a similar level as their counterparts in Mecp2−/Y mice, and improved breathing function. In identified LC neurons of sMecp2+/− mice, the hyperexcitability appeared to be determined by both MeCP2 expression and their environmental cues. In conclusion, intervention to extrasynaptic GABAAR by chronic treatment with THIP might be a therapeutic approach to RTT-like symptoms in both Mecp2−/Y and Mecp2+/− mice models and perhaps in people with RTT as well. Rett Syndrome Mecp2 extrasynaptic GABARs THIP imbalance of excitation and inhibition locus coeruleus (LC) mesencephalic trigeminal neurons breathing social behaviors motor function
77	Estudo topográfico da dor de origem dentária / Study of refered pain of dental origin Regatão, Milene Camargo 26 March 2010 (has links) A maioria dos pacientes que têm dor de origem dentária pulpar ou periapical tem dor referida, e algumas características da dor parecem influenciar este fenômeno. Por meio do preenchimento de fichas clínicas, com informações sobre as características da dor, investigamos, em 60 voluntários, a distribuição topográfica de áreas de dor referida de origem dentária. Por meio de métodos psicofísicos, comparamos a resolução espacial da dor com a resolução espacial de outras modalidades somestésicas (mecânica e térmica). Nossos resultados indicam que a intensidade da dor favorece o fenômeno da dor referida e interfere na sua dispersão topográfica. Dentes algógenos com polpa viva influenciam um maior espalhamento da dor. A organização hodológica do núcleo espinal do trigêmeo e mecanismos fisiológicos de integração neural podem explicar de maneira satisfatória várias características da dor referida. Além disso, observamos que a resolução espacial na localização da dor é maior que a resolução espacial da localização de outros estímulos somestésicos nos elementos dentários. / The majority of patients who suffer from toothache report referred pain to other sites in the head and neck. Thus, the aim of this study was to investigate the clinical and psychophysical characteristics of referred pain in the orofacial region and how factors such as intensity, duration and nature of odontogenic pain might modulate them. We employed psychophysical and clinical methods to correlate pain perception with the anatomy and physiology of the trigeminal system. Sixty patients reporting primary toothache were investigated as to the clinical and psychophysical aspects of their pains symptoms and signals (intensity, duration, location and state of the pulp inflammatory process). Pain intensity and state of irreversible pulp inflammation were found to significantly affect facilitate the incidence of referred pain and its spread across vertical laminations. Considering these results, we proposed a physiological model based on both neuronal integration (spatial and temporal summation) and the topographic organization of the trigeminal system, which is able to explain the observed characteristics of referred dental pain. Diagnóstico bucal Dor facial Dor referida Endodontic diagnostic Fisiologia do sistema nervoso Odontalgia Pain Referred pain Toothache Trigeminal system
78	ATTENUATING TRIGEMINAL NEUROPATHIC PAIN BY REPURPOSING PIOGLITAZONE AND D-CYCLOSERINE IN THE NOVEL TRIGEMINAL INFLAMMATORY COMPRESSION MOUSE MODEL Lyons, Danielle N 01 January 2014 (has links) Approximately 22% of the United States population suffers from a chronic orofacial pain condition. One such condition is known as trigeminal neuropathic pain frequently reported as continuous aching and burning pain, often accompanied by intermittent electrical shock-like sensations. Dental procedures or trauma are known causes of peripheral trigeminal nerve injury and inflammation. Patients who have this type of facial pain also suffer from emotional distress. For these reasons, trigeminal neuropathic pain needs to be studied in more detail to improve the understanding of the etiology and maintenance of this condition, as well as to develop effective treatment strategies. The first experiment was focused on characterizing the behavioral aspects of the Trigeminal Inflammatory Compression (TIC) mouse model. The findings determined that the TIC injury model induced mechanical and cold hypersensitivity that persist at least 21 weeks. This orofacial, neuropathic pain condition was accompanied by anxiety- and depressive-like behaviors at week 8 post injury. The TIC injury mouse model’s chronicity and development of psychosocial impairments demonstrated its usefulness as a facial pain model. The second experiment used the mouse TIC injury model to test the ability of pioglitazone (PIO), a PPARγ agonist used clinically for treatment of diabetes, on alleviating trigeminal pain. A single low dose of PIO had no effect, but a higher dose attenuated facial pain. The third experiment determined that combining ineffective low doses of PIO and D-cycloserine (DCS) produced a potentiated anti-allodynic response of these drugs and attenuated the anxiety associated with the TIC injury. Ex vivo studies revealed that cortical mitochondrial dysfunction occurred after the TIC injury but could be reversed by the combination of DCS/PIO which improves mitochondrial function. Overall, the present studies determined that the novel mouse TIC injury model is a clinically relevant facial neuropathic pain model. The results suggest that PPARγ and brain mitochondria may represent new molecular targets for the treatment of trigeminal neuropathic pain. These studies support the future “repurposing” of PIO and DCS as well as the combination of the two drugs for this new use in patients with trigeminal neuropathic pain. trigeminal inflammatory compression mouse model PPARγ D-cycloserine mitochondria Chemical Actions and Uses Nervous System Nervous System Diseases
79	Die Trigeminusneuralgie als Differentialdiagnose des odontogenen Schmerzes / Trigeminal neuralgia in the differential diagnosis of odontogenic pain Keil, Moritz 07 May 2014 (has links) No description available. 610 Trigeminusneuralgie trigeminal neuralgia odontogenic pain Medizin (PPN619874732) Neurochirurgie (PPN619876271)
80	Nasal solitary chemoreceptor cells : cell turnover, nerve dependence, and detection capabilities / Gulbransen, Brian D. January 2007 (has links) Thesis (Ph.D. in Neuroscience) -- University of Colorado Denver, 2007. / Typescript. Includes bibliographical references (leaves 129-151). Free to UCD affiliates. Online version available via ProQuest Digital Dissertations;

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