Global ETD Search

31	Immunohistochemical Mapping of Angiotensin at<sub>1</sub> Receptors in the Brain Ian Phillips, M., Shen, Leping, Richards, Elaine M., Raizada, Mohan K. 19 March 1993 (has links) A new approach to study angiotensin receptor distribution in the brain has been taken by developing antibodies to partial sequence of the angiotensin II (AII) type-1 receptor subtype (AT1) and demonstrating the presence of receptors with immunohistochemical staining. The antibody to a portion of the 3rd cytoplasmic loop of the AT1 receptor revealed distinctive punctate immunoreactive staining on cell bodies. The cell bodies were distributed in the forebrain in paraventricular and supraoptic nuclei, the organum vasculosum lamina terminalis, median preoptic area and subfornical organ. In the brainstem, the entire locus coeruleus was stained, together with the adjacent mesencephalic and motor nuclei of the trigeminal nerve. The auditory system including the cochlear nucleus and superior olivary nuclei were stained. In the medulla, all the structures involved in blood pressure control were stained including the nucleus of the solitary tract, the 12th nerve nuclei, the rostroventral lateral area and the nucleus ambiguous. Sites where AT2 receptors are located were not stained or staining was limited to specific area such as the medial accessory nucleus of the inferior olive. Immunocytochemical staining of AT1 receptors provides a new and more precise approach to the cellular localization of AII receptors. angiotensin II receptor auditory system brain nucleus immunohistochemistry trigeminal nerve
32	Effects of Trigeminal Nerve Stimulation on the ANS and Proprioception: High Frequency TNS Reduces Proprioceptive End-point Error January 2019 (has links) abstract: Previously accomplished research examined sensory integration between upper limb proprioception and tactile sensation. The active proprioceptive-tactile relationship points towards an opportunity to examine neuromodulation effects on sensory integration with respect to proprioceptive error magnitude and direction. Efforts to improve focus and attention during upper limb proprioceptive tasks results in a decrease of proprioceptive error magnitudes and greater endpoint accuracy. Increased focus and attention can also be correlated to neurophysiological activity in the Locus Coeruleus (LC) during a variety of mental tasks. Through non-invasive trigeminal nerve stimulation, it may be possible to affect the activity of the LC and induce improvements in arousal and attention that would assist in proprioceptive estimation. The trigeminal nerve projects to the LC through the mesencephalic nucleus of the trigeminal complex, providing a pathway similar to the effects seen from vagus nerve stimulation. In this experiment, the effect of trigeminal nerve stimulation (TNS) on proprioceptive ability is evaluated by the proprioceptive estimation error magnitude and direction, while LC activation via autonomic pathways is indirectly measured using pupil diameter, pupil recovery time, and pupil velocity. TNS decreases proprioceptive error magnitude in 59% of subjects, while having no measurable impact on proprioceptive strategy. Autonomic nervous system changes were observed in 88% of subjects, with mostly parasympathetic activation and a mixed sympathetic effect. / Dissertation/Thesis / Masters Thesis Biomedical Engineering 2019 Biomedical engineering Neurosciences Physiology Autonomic Neuromodulation Proprioception Pupil Stimulation Trigeminal
33	Evaluation of a Modified Infraorbital Approach for a Maxillary Nerve Block for Rhinoscopy with Nasal Biopsy of Dogs Fizzano, Kristen Michelle 11 August 2017 (has links) A maxillary nerve block via a modified infraorbital approach, applied before rhinoscopy and nasal biopsy, would decrease nociception, minimize cardiorespiratory anesthetic effects, and improve recoveries. In a crossover study, bupivacaine or equivalent volume of saline was administered to 8 healthy dogs via a modified infraorbital approach into each pterygopalatine region. Rhinoscopy and nasal biopsy were performed. Heart rate, blood pressure, plasma cortisol and norepinephrine concentrations, purposeful movement, and pain scores were monitored. Following a 14-day washout, dogs received the alternate treatment on the contralateral side. Blood pressures were significantly higher for the saline treatment than bupivacaine treatment. Plasma cortisol concentrations in the saline treatment were significantly higher 5 minutes after biopsy than at biopsy. No other parameters were significant. Using a maxillary nerve block via a modified infraorbital approach prior to rhinoscopy and nasal biopsy reduced procedural nociception. These findings warrant further evaluation in dogs with nasal disease. trigeminal nerve maxillary nerve infraorbital nerve block rhinoscopy
34	The Role of FGFR4 in Trigeminal Placode Cell Development Reynolds, Stephanie Beth 20 March 2006 (has links) (PDF) In vertebrate embryos, the ophthalmic trigeminal (opV) placode contributes sensory neurons to the trigeminal ganglion during development of the peripheral nervous system. FGFR4 is expressed transiently in the trigeminal placode as cells undergo an epithelial-mesenchymal transition and begin to migrate toward the condensing ganglion. Because of the restricted spatiotemporal expression of FGFR4 in the opV placode, it was hypothesized that FGFR4 is necessary for the process of epithelial-mesenchymal transition in the opV placode. Using electroporation, an FGFR4 inhibitory gene construct was introduced into 6—10 somite stage chick embryos. This secreted inhibitory form of the FGFR4 gene blocked endogenous FGFR4 signaling, which resulted in trigeminal placode cells remaining in the ectoderm that would have normally begun migration into the mesenchyme. These results show that FGFR4 is involved in trigeminal placode cell delamination. trigeminal placode chicken FGFR4 development Cell and Developmental Biology Physiology
35	Segmental, Axonal, and Demyelinative Lesions in the Trigeminal System Produce Neuropathic Pain Bauer, William R. 23 May 2005 (has links) No description available. Biology, Neuroscience Demyelinative Axonal Trigeminal Neuropathic Pain Model
36	Avaliação estrutural e quantitativa dos efeitos do envelhecimento sobre o gânglio trigeminal de ratos Wistar / Structural and quantitative evaluation of aging process on trigeminal ganglion of Wistar rats Silva, Ricardo Eustáquio da 23 February 2010 (has links) O envelhecimento é uma falha progressiva nos processos fisiológicos celulares, produzindo alterações morfológicas nas células e nos tecidos. No sistema nervoso, produz uma redução no número de neurônios, nas fibras nervosas, principalmente nas arborizações dendríticas e nas espinhas sinápticas, e nas células da glia que, de acordo com sua localização e tipo celular, podem diminuir, permanecer constantes ou mesmo aumentar numericamente. Na presente pesquisa, avaliou-se os efeitos do envelhecimento sobre o gânglio trigeminal (GT) de ratos Wistar em animais jovens (2 meses de vida), adultos (12 meses de vida) e idosos (24 meses de vida). Os GT foram submetidos às técnicas histológicas da hematoxilina e eosina e Picro-sírius, onde avaliou-se, respectivamente, a densidade das células satélites glias (CGS) e o componente colágeno ganglionar. Através da técnica histoquímica da NADH-d, avaliou-se a área do perfil do GT, a área do perfil dos corpos celulares dos neurônios ganglionares e a densidade neuronal. Uma avaliação qualitativa foi também realizada relativamente à imunorreatividade dos neurônios ganglionares à substância P (SP) e ao peptídeo intestinal vasoativo (VIP). A densidade das CGS foi maior nos animais jovens do que nos animais adultos e idosos. Verificou-se, qualitativamente, que à medida que o animal envelhece há uma diminuição das fibras colágenas do tipo III, passando a predominar, nos animais idosos, as fibras do tipo I. A área do perfil celular dos corpos neuronais foi maior nos animais adultos sendo que em todos os grupos predominaram neurônios de tamanho médio, com a área do perfil celular entre 490 e 1100 μm2. A densidade neuronal apresentou-se maior nos animais jovens, e sem variações estatísticas entre os animais adultos e idosos. Em todos os grupos estudados, os neurônios pequenos foram os que apresentaram maior imunorreatividade à SP e ao VIP. / Aging is a progressive failure in cellular physiological processes. It determines morphological changes in cells of different tissues. In the nervous system, a reduction in neuron number and in neuron fibers, mainly in dendritic tree and synaptic, are described. With aging the glial cells may increase or decrease in number or also remain constant. In the present work the effects of aging were evaluated on the trigeminal ganglion (TG) comparing young (2 months age), adult (12 months age) and old rats (24 months age). Histological sections of TG were stained with hematoxilin-eosin technique to determine the density of satellite glial cells and Picro-sirius under polarized light to evaluate the Types I and III of collagen fibers. The NADH-diaphorase technique allowed determining the perycarion area. The immunoreactivity of ganglionar neurons to Substance P (SP) and vasoactive intestinal peptide (VIP) were also qualitatively evaluated. The glial cells density was higher in young and adult animals than in old animals. The type I collagen fibers predominates in ganglia of old animals whereas in the young animals is characteristic the presence of the type III collagen fibers. Although the perycarion area was higher in adult animals the medium-sized neurons predominated in all groups. Their areas ranged from 490 to 1100 μm2. It was also observed that the neuron density was higher in young animals. In the adult and old animals the neuron density was similar. In all groups the immunoreactivity both to SP an VIP was detected mainly in neurons of small perycarion. Aging Células satélites gliais Collagen fibers Envelhecimento Fibras colágenas Gânglio trigeminal Immunohistochemistry Imunohistoquímica Satellite glial cells Trigeminal ganglion
37	The role of nerve growth factor in neuropeptide up-regulation in trigeminal ganglia neurons following irritant exposure Wilfong, Erin R. January 2003 (has links) Thesis (Ph. D.)--West Virginia University, 2003. / Title from document title page. Document formatted into pages; contains xiii, 82, [148] p. : ill. (some col.). Includes abstract. Includes bibliographical references.
38	Avaliação estrutural e quantitativa dos efeitos do envelhecimento sobre o gânglio trigeminal de ratos Wistar / Structural and quantitative evaluation of aging process on trigeminal ganglion of Wistar rats Ricardo Eustáquio da Silva 23 February 2010 (has links) O envelhecimento é uma falha progressiva nos processos fisiológicos celulares, produzindo alterações morfológicas nas células e nos tecidos. No sistema nervoso, produz uma redução no número de neurônios, nas fibras nervosas, principalmente nas arborizações dendríticas e nas espinhas sinápticas, e nas células da glia que, de acordo com sua localização e tipo celular, podem diminuir, permanecer constantes ou mesmo aumentar numericamente. Na presente pesquisa, avaliou-se os efeitos do envelhecimento sobre o gânglio trigeminal (GT) de ratos Wistar em animais jovens (2 meses de vida), adultos (12 meses de vida) e idosos (24 meses de vida). Os GT foram submetidos às técnicas histológicas da hematoxilina e eosina e Picro-sírius, onde avaliou-se, respectivamente, a densidade das células satélites glias (CGS) e o componente colágeno ganglionar. Através da técnica histoquímica da NADH-d, avaliou-se a área do perfil do GT, a área do perfil dos corpos celulares dos neurônios ganglionares e a densidade neuronal. Uma avaliação qualitativa foi também realizada relativamente à imunorreatividade dos neurônios ganglionares à substância P (SP) e ao peptídeo intestinal vasoativo (VIP). A densidade das CGS foi maior nos animais jovens do que nos animais adultos e idosos. Verificou-se, qualitativamente, que à medida que o animal envelhece há uma diminuição das fibras colágenas do tipo III, passando a predominar, nos animais idosos, as fibras do tipo I. A área do perfil celular dos corpos neuronais foi maior nos animais adultos sendo que em todos os grupos predominaram neurônios de tamanho médio, com a área do perfil celular entre 490 e 1100 μm2. A densidade neuronal apresentou-se maior nos animais jovens, e sem variações estatísticas entre os animais adultos e idosos. Em todos os grupos estudados, os neurônios pequenos foram os que apresentaram maior imunorreatividade à SP e ao VIP. / Aging is a progressive failure in cellular physiological processes. It determines morphological changes in cells of different tissues. In the nervous system, a reduction in neuron number and in neuron fibers, mainly in dendritic tree and synaptic, are described. With aging the glial cells may increase or decrease in number or also remain constant. In the present work the effects of aging were evaluated on the trigeminal ganglion (TG) comparing young (2 months age), adult (12 months age) and old rats (24 months age). Histological sections of TG were stained with hematoxilin-eosin technique to determine the density of satellite glial cells and Picro-sirius under polarized light to evaluate the Types I and III of collagen fibers. The NADH-diaphorase technique allowed determining the perycarion area. The immunoreactivity of ganglionar neurons to Substance P (SP) and vasoactive intestinal peptide (VIP) were also qualitatively evaluated. The glial cells density was higher in young and adult animals than in old animals. The type I collagen fibers predominates in ganglia of old animals whereas in the young animals is characteristic the presence of the type III collagen fibers. Although the perycarion area was higher in adult animals the medium-sized neurons predominated in all groups. Their areas ranged from 490 to 1100 μm2. It was also observed that the neuron density was higher in young animals. In the adult and old animals the neuron density was similar. In all groups the immunoreactivity both to SP an VIP was detected mainly in neurons of small perycarion. Células satélites gliais Envelhecimento Fibras colágenas Gânglio trigeminal Imunohistoquímica Aging Collagen fibers Immunohistochemistry Satellite glial cells Trigeminal ganglion
39	Wirksamkeit medikamentöser und myofunktioneller Therapiekonzepte beim chronischen Gesichtsschmerz / Efficacy of drug and myofunctional therapy concepts in chronic facial pain Schöne, Patrick 06 July 2016 (has links) No description available. 610 Gesichtsschmerz Myoarthropathie Trigeminusneuralgie Trigeminusneuropathie facial pain myoarthropathy trigeminal neuralgia trigeminal neuropathy persistent idiopathic facial pain
40	Análise da expressão de metaloproteinases da matriz em células satélites gliais do gânglio trigeminal de ratos portadores de inflamação da articulação temporomandibular persistente submetidos a laserterapia de baixa intensidade / Analysis of matrix metalloproteinase expression in glial cells satellites of the trigeminal ganglia of rats with persistent inflammation of the temporomandibular joint subjected to low intensity laser therapy Desiderá, Amanda de Carvalho 14 April 2016 (has links) A dor é uma das principais sintomatologias capazes de levar indivíduos a buscar tratamento médico-odontológico. Na odontologia estima-se que cerca de 40 a 75% da população seja portadora de dor de origem orofacial e tenha pelo menos um sinal ou sintoma de disfunção temporomandibular (DTM). A DTM corresponde a um quadro patológico de caráter multifatorial que acomete a articulação temporomandibular (ATM) e os músculos mastigatórios, ocasionando dores na região orofacial bom como alterações na realização de movimentos bucais. O principal sinal desta enfermidade é a inflamação articular, a qual gera dor nas estruturas relacionadas. A inflamação, por sua vez, leva a liberação de mediadores tais como, substância P, peptídeo relacionada ao gene da calcitonina (CGRP), além de fator de necrose tumoral a (TNF-α) e interleucina 1β (IL-1β). Estes mediadores sensibilizam as terminações nervosas livres e a informação nociceptiva caminha para a primeira estação sináptica, o gânglio trigeminal. A inflamação quando persistente promove a expressão de metaloproteinases da matriz (MMP), cuja ação modifica a matriz extracelular podendo, então, modular vias neuronais de percepção. Células satélites gliais (CSGs) são células envolvidas no suporte microambiente neuronal e, possivelmente, células que atuariam na modulação de vias de percepção nociceptiva. Conhecendo mais profundamente os mecanismos de modulação da dor, são buscadas terapêuticas não invasivas eficientes para atenuar a sintomatologia dolorosa advinda da DTM. A laserterapia de baixa intensidade (LLLT) mostra-se como um tratamento eficiente, porém seu efeito dose-dependente gera resultados ambíguos. Nesse contexto o presente trabalho teve como objetivos verificar os biomarcadores inflamatórios presentes no fluído sinovial em ratos portadores de inflamação persistente da ATM, tratados ou não com LLLT. Foram utilizados ratos Wistar (200-240g, n=440 - CEUA 2013.1.1111.58.7), os quais receberam administração de CFA (Adjuvante Completo de Freund) ou salina 0,9% (SAL) intraarticular e que foram submetidos (LLLT) ou não a aplicação de laser na região temporomandibular no primeiro dia, 1 hora após a indução da inflamação,, e nos dias 3, 5, 7 e 10 após indução da inflamação. Resultados obtidos neste trabalho mostram que a LLLT reduz as células polimorfonucleares presentes na cápsula articular das ATM, e, também, de espécies reativas de oxigênio (redução da atividade de mieloperoxidase - MPO). Ainda, verificou-se a redução da expressão de MMP-2 e MMP-9 no líquido sinovial de ratos com inflamação persistente induzida pela administração de CFA intraarticular. Citocinas pró-inflamatórias (por exemplo: IL-1α, IL-1β, IL-6, IL-12p70, IFN-&upsih;, GM-CSF e TNF-α.) analisadas do líquido sinovial mostraram aumento significativo em sua expressão quando da presença de inflamação, a LLLT reduziu a expressão de dessas citocinas. No entanto, a fotoestimulação em alguns momentos na ausência de inflamação estimulou a expressão das citocinas IL-2, IL-5, IL-12p70, GM-CSF. Além disso, a terapia fotodinâmica aumentou expressão das citocinas anti-inflamatórias IL-4, IL-10 e IL-13 na presença de inflamação. A análise da imunofluorescência para marcação de MMP-2 e MMP-9 co-localizadas para células suporte mostrou que a expressão mais significativa ocorreu em neurônios, e resultados apontam que a LLLT na dose de 60J/cm² não reduziu a expressão dessas gelatinases no gânglio trigeminal. / Pain is one of the main symptomatology able to lead individuals to seek medical and dental treatment. In dentistry it is estimated that about 40-75% of the population is a carrier of orofacial pain source and has at least one sign or symptom of temporomandibular disorders (TMD). The TMD corresponds to a pathological condition of multifactorial affecting the temporomandibular joint (TMJ) and masticatory muscles, causing pain in the orofacial region well as changes in the performance of mouth movements. The main sign of this disease is joint inflammation, which generates pain related structures. The inflammation leads to release of mediators such as substance P, calcitonin-related peptide gene (CGRP), and tumor necrosis factor (TNF-α) and interleukin-1β (IL-1β). These mediators sensitize terminal fiber nerves and nociceptive information goes to the first synaptic station, the trigeminal ganglion. The persistent inflammation when promotes the expression of metalloproteinase (MMP), whose operation modifies the extracellular matrix may therefore modulate neuronal pathways perception. Satellite glial cells (CSGs) are involved in neuronal microenvironment support, and possibly cells that act in the modulation of nociceptive pathways perception. Knowing deeper into the mechanisms of pain modulation, are sought noninvasive therapeutic effective to alleviate the painful symptoms arising from the DTM. The low level laser therapy (LLLT) is shown as an effective treatment, but their dose-dependent effect produces ambiguous results. In this context, this study aimed to verify the inflammatory biomarkers present in the synovial fluid in rats with persistent inflammation of the ATM, or not treated with LLLT. Wistar rats (200-240g, n = 440 - CEUA 2013.1.1111.58.7), which received CFA administration (Complete Freund\'s Adjuvant) or 0.9% saline (SAL) intraarticular and underwent (LLLT) or not applying laser temporomandibular region on the first day, 1 hour after inflammation induction, and after days 3, 5, 7 and 10. Our results showed that LLLT reduces polymorphonuclear cells present in the joint capsule of the TMJ, and also of reactive oxygen species (reduction in myeloperoxidase activity - MPO). Still, there was a reduction in expression of MMP-2 and MMP-9 in the synovial fluid of rats with persistent inflammation induced by the intraarticular administration of CFA. Pro-inflammatory cytokines (IL-1α, IL-1β, IL-6, IL-12p70, IFN-&upsih;, GM-CSF and TNF-α) analyzed synovial fluid showed a significant increase in its expression induced by TMJ 20 inflammation, and LLLT reduced expression of these cytokines. However, the photostimulation in the absence of inflammation stimulated the expression of cytokines IL-2, IL-5, IL-12p70, GM-CSF. Furthermore, photodynamic therapy increased expression of anti-inflammatory cytokines IL-4, IL-10 and IL-13 in rats with TMJ inflammation. Analysis of immunofluorescence for MMP-2 and MMP-9 co-located to support cells showed that the most significant expression was located in neurons, and results indicate that LLLT at a dose of 60 J/cm² did not reduce the expression of these gelatinases in the ganglion trigeminal.

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