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Sensory biology of aquatic Australian crustaceans /Patullo, Blair. January 2010 (has links)
Thesis (Ph.D.)--University of Melbourne, Dept. of Zoology, 2010. / Typescript. Includes journal articles co-written by the author. Includes bibliographical references (leaves: 93-107)
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Peripheral representation of sound frequency in cricket auditory system : beyond tonotopyImaizumi, Kazuo. January 2000 (has links)
No description available.
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The Effects of Growth Hormone in the Inner Ear of Zebrafish (<i>Danio rerio</i>) during Hair Cell RegenerationLin, Chia-Hui 01 August 2010 (has links)
Although deafness is a universal problem, effective treatments have remained elusive. In order to develop potential treatments, an overall understanding of the cellular process of auditory hair cell regeneration, which occurs in fish but not mammals, must be established. A previous microarray analysis and qRT-PCR validation of noise-exposed zebrafish showed that growth hormone (GH) was significantly upregulated during the process of auditory hair cell regeneration. Thus, GH may play an important role during hair cell regeneration. However, cellular effects of exogenous GH in the zebrafish auditory hair cell regeneration have not been examined after noise exposure. To understand the effect of GH in hair cell regeneration, adult zebrafish were exposed to a 150 Hz pure tone at a source level of 179 dB re 1 μPa RMS for 36 hours. Afterward the fish were immediately injected intraperitoneally with carp recombinant GH (20 μg/gram of body mass) or buffer (0.1 M, pH 7.4 phosphate buffer) and then placed in a recovery tank. The effect of GH on apoptosis in fish inner ear end organs were examined using TUNEL-labeling. Cell proliferation was measured by BrdU incorporation assay. Hair cell regeneration was determined by phalloidin-labeling to allow visualization of hair cell stereociliary bundles. After GH injection, the numbers of TUNEL-labeled cells showed a significant decrease in all three inner ear end organs (saccule, lagena, utricle), suggesting GH may suppress hair cell death induced by acoustic trauma. Higher levels of cell proliferation were also observed in the ears of GH-injected fish, indicating that GH is capable of activating cell mitosis in the zebrafish auditory system. Following sound exposure, the GH-injected group exhibited greater numbers of saccular hair cell bundles compared to the buffer-injected group. These results indicate that GH promotes hair cell regeneration following acoustic damage. Future studies are needed to examine the potential therapeutic benefits of GH in the mammalian ear.
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Development, validation and application of advanced neuroimaging analysis tools for in vivo neuroreceptor studies /Cselényi, Zsolt, January 2005 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2005. / Härtill 5 uppsatser.
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Finite-element analysis of inner ear hair bundles : a parameter study of bundle mechanics /Duncan, Robert Keith, January 1993 (has links)
Thesis (M.S.)--Virginia Polytechnic Institute and State University, 1993. / Vita. Abstract. Includes bibliographical references (leaves 106-108). Also available via the Internet.
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The effect of learning on pitch and speech perception influencing perception of Shepard tones and McGurk syllables using classical and operant conditioning principles /Stevanovic, Bettina. January 2007 (has links)
Thesis (Ph.D.)--University of Western Sydney, 2007. / A thesis submitted to the University of Western Sydney, College of Arts, School of Psychology in fulfilment of the requirements for the degree of Doctor of Philosophy. Includes bibliography.
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Avaliação da sensibilidade cutânea em pés de pacientes diabéticos através do Pressure Specified Sensory Device TM / Evaluation of cutaneous sensibility threshold on the feet of diabetic patients with the Pressure Specified Sensory Device(TM)Carvalho, Viviane Fernandes de 04 March 2008 (has links)
A neuropatia diabética causa diminuição ou perda da sensibilidade protetora do pé, tornando-o mais vulnerável ao trauma mecânico e térmico. A profilaxia das complicações neuropáticas tem início pela identificação da perda de sensibilidade e, portanto, do comprometimento neurológico. O Pressure Specified Sensory Device(TM) (PSSD) é um equipamento desenvolvido para quantificar o limiar de pressão, aplicada sobre a pele, necessária para que o paciente perceba o estímulo provocado por: um ponto estático, um ponto em movimento, dois pontos estáticos e dois pontos em movimento. Denominamos grupo estudo, aos trinta e quatro pacientes diabéticos do tipo 2, sem história prévia de feridas e/ou amputações nos pés que foram submetidos à avaliação de sensibilidade cutânea utilizando-se o PSSD(TM). Foram realizados testes nos territórios cutâneos dos nervos fibular profundo, plantar medial e ramo calcâneo do nervo tibial posterior. Estímulos foram provocados segundo as modalidades: um ponto estático (1 PE), um ponto em movimento (1 PD), dois pontos estáticos (2 PE) e dois pontos em movimento (2 PD), para as duas últimas modalidades. Previamente às modalidades 2PE e 2PD determinou-se o limiar de discriminação entre dois pontos estáticos (D2PE) e em movimento (D2PD). Foram realizados apenas no grupo estudo, testes com o monofilamento de Semmes-Weisntein nº 5,07 (MSW) e com o diapasão de 128 Hz. Vinte e oito pacientes não-diabéticos, submetidos aos mesmos testes, formaram o grupo controle. Para os limiares de sensibilidade, encontramos valores superiores no grupo estudo (p < 0,05). Ao compararmos os limiares de sensibilidade alcançados pelos pacientes diabéticos sensíveis e não sensíveis ao estímulo promovido pelo MSW nº 5,07 verificamos que o p-valor variou entre 0,018 < p < 0,113 para 1 PE e 0,002 < p < 0,083 para 2 PE, conforme o território cutâneo estudado. Na comparação dos limiares de sensibilidade da modalidade 1 PD entre diabéticos sensíveis e insensíveis à vibração do diapasão de 128 Hz, as diferenças não foram estatisticamente significantes (p = 0,183). Os resultados obtidos nos permitiram sugerir que o dispositivo PSSD(TM) seja utilizado como forma de acompanhamento do comprometimento da fibra nervosa. / Neuropathy is a severe progressive loss of protective sensation on the feet, making the patient more vulnerable to mechanical trauma and consequently more suitable to the development of chronic wounds, major distortion of the foot bone architecture and eventually to limb amputation. Prophylaxis should be enforced to avoid foot ulceration and for that, evaluation of the degree of loss of sensation on the skin is essential. The PSSD (Pressure Specified Sensory Device(TM)) was developed in order to quantify the threshold of pressure applied to the skin that could be recognized as positive by the patient. Pressure of one or two points is tested both statically and with movement, thus assessing the function of fast and slow response nerve fibers. Threshold of two-point discrimination was also measured in mm. Thirty four (n = 34) diabetic patients, type II, with no previous history of wounds on the lower extremity were studied using the tests, one point static (1PE), one point moving (1PD) and two points static (2 PE), and moving (2 PD) on the cutaneous territory of the fibular nerve and posterior tibial nerve (two territories - medial plantar and calcaneous nerves). The control group (28 non diabetic patients) was assessed by the same exams and the results were compared. In the diabetic group the cutaneous territories were also evaluated using the conventional Semmes-Weinstein filament nº 5,07 e vibrometer of the 128 Hz. Altered values were observed for the static and dynamic tests over the three studied nerve territories. The differences were statically significant (p < 0,05). Comparing the threshold of sensibility between sensitive and non sensitive diabetic patients to MSW nº 5,07 test, we observed that p-value range was 0,018 0,113 when 1PE test was applied, and 0,002 0,083 when 2PE test was applied, according to the cutaneous territories evaluated. Numeric quantification of the threshold of pressure allows us to determine the status of the fiber/receptor structures as well as the functional deficit of nerve fibers. Our findings suggest that PSSD(TM) is an adjuvant tool to evaluate the degree of loss of sensation on the skin.
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Analisis de la expresión y la función del gen beta-amyloid protein precursor like en relación a la vía de RasI en el disco imaginal de ojo de Drosophila melanogasterMora García, Natalia 26 October 2012 (has links)
Drosophila es un modelo versátil para entender las bases genéticas de la señalización celular. En particular, el ojo compuesto de Drosophila proporciona un tejido ideal para estudiar los mecanismos de integración de señales que dirigen la formación de la red de neuronas fotorreceptoras. La vía de Ras/MAPK está involucrada en la determinación de todos los fotorreceptores, pero es particularmente necesaria para la especificación del fotorreceptor R7, ya que su ausencia determina la transformación del R7 en una célula no neural. De manera que durante el desarrollo del ojo, Ras media la decisión entre la diferenciación neural y no neural. Sin embargo, se desconoce el perfil de genes activados por Ras. Con el objetivo de describir este perfil, hemos realizado microarrays comparando diferentes alelos del receptor tirosina quinasa Sevenless (Sev) que participa en la especificación del R7 mediante la activación de la vía de Ras / MAPK. Uno de los genes que responden a la activación de Sev es el gen amyloid protein precursor-like (Appl). El incremento de la expresión de Appl detectado en los microarrays, también se confirmó por hibridación in situ.
En un estudio detallado de localización de la proteína, observamos que aunque está presente en todos los fotorreceptores, hay más proteína Appl en R7 y R8, que en los otros. Para evaluar si Ras es necesario para la activación de Appl, realizamos clones con el alelo dominante negativo del gen Epithermal Growth factor Receptor (DERDN). En estos clones no se detectó Appl, mientras que los clones del alelo constitutivamente activo de Ras; RasV12 dieron lugar a la sobreexpresión de Appl. En cualquier otro tejido, RasV12 no produjo expresión ectópica, indicando que Ras es necesario y suficiente para la expresión de Appl aunque esta regulación es dependiente del dominio del ojo. Para ver si el factor de transcripción de la vía; Pnt, es capaz de unirse a Appl para activar su expresión realizamos clones con el alelo de pérdida de función pntΔ88. Estos clones mostraron que la falta de pnt tiene como resultado la ausencia de Appl. En segundo lugar evaluamos la posible unión directa de Pnt a Appl mediante transgénicos de regiones supuestamente enhancers de Appl unido a un promotor mínimo y al gen reportero lacZ. Ninguna de las construcciones fue capaz de dirigir la expresión de lacZ en ojo, sin embargo dos de ellas fueron capaces de dirigirla en cerebro, sugiriendo que estas dos secuencias actúan como unidades reguladoras de la expresión de Appl. Ya que no produjeron expresión en ojo, decidimos sensibilizar la respuesta de las construcciones a Ras, incrementando la actividad de la vía mediante clones RasV12. En este nuevo contexto, los dos ETS que tenían expresión en cerebro, fueron capaces de dirigir la expresión de lacZ. Además la unión de pnt a Appl se confirmó mediante experimentos de InmunoPrecipitación de la Cromatina (CHIP).
Ras en ojo es responsable de la determinación de casi todos los fotorreceptores, sin embargo observamos que mientras que la determinación no está afectada en mutantes Appld, sí lo está el funcionamiento del R7. Este fotorreceptor es el único capaz de ver la luz ultravioleta. Mediante experimentos de comportamiento observamos que las moscas Appld tienen disminuida la capacidad de discernir la luz UV. Esta reducción es debida en parte porque el 2% de los axones de R7 de moscas Appld no llegan a hacer la sinapsis. Para tratar de incrementar los efectos observados y poder describir con mayor claridad la función de Appl en ojo, testamos la habilidad de los mutantes Appld de discernir el UV, en combinación con mutantes heterocigotos de proteínas descritas en el proceso de guía de axones. La perdida de función de Appl combinada con el mutante heterocigoto del gen neurotactina (nrt), produjo un claro deterioro de la capacidad del R7 para discernir UV y de los axones pare llegar a hacer la sinapsis demostrando que Appl es necesario para la correcta función del R7. / In a genome wide expression profile search for genes that characterize the Drosophila R7 photoreceptor specification we found Appl, the ortholog of human APP and a key factor in the pathogenesis of Alzheimer’s disease. We analyzed Appl expression in the eye imaginal disc and found that is highly accumulated in R7 photoreceptor cells. The R7 photoreceptor is responsible for UV light detection. To explore the link between high expression of Appl and R7 function, we have analyzed Appl null mutants and found reduced preference for UV light, likely due to mistargeted R7 axons. Moreover, axon mistargeting and inappropriate light discrimination are enhanced in combination with neurotactin mutants. R7 differentiation is triggered by the inductive interaction between R8 and R7 precursors, which results in a burst of Ras1/MAPK activated by the tyrosine kinase receptor Sevenless. Thus, we have studied whether Ras1/MAPK is responsible for the high Appl expression. Inhibition of Ras1 signaling leads to reduced Appl expression, whereas constitutive activation drives ectopic Appl expression. We show that Appl is directly regulated by the Ras/MAPK pathway through a mechanism mediated by PntP2, an ETS transcription factor that specifically binds ETS sites in the Appl regulatory region. Also, the zebrafish appb expression increased after ectopic fgfr activation in the neural tube of zebrafish embryos, suggesting a conserved regulatory mechanism.
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Avaliação da sensibilidade cutânea em pés de pacientes diabéticos através do Pressure Specified Sensory Device TM / Evaluation of cutaneous sensibility threshold on the feet of diabetic patients with the Pressure Specified Sensory Device(TM)Viviane Fernandes de Carvalho 04 March 2008 (has links)
A neuropatia diabética causa diminuição ou perda da sensibilidade protetora do pé, tornando-o mais vulnerável ao trauma mecânico e térmico. A profilaxia das complicações neuropáticas tem início pela identificação da perda de sensibilidade e, portanto, do comprometimento neurológico. O Pressure Specified Sensory Device(TM) (PSSD) é um equipamento desenvolvido para quantificar o limiar de pressão, aplicada sobre a pele, necessária para que o paciente perceba o estímulo provocado por: um ponto estático, um ponto em movimento, dois pontos estáticos e dois pontos em movimento. Denominamos grupo estudo, aos trinta e quatro pacientes diabéticos do tipo 2, sem história prévia de feridas e/ou amputações nos pés que foram submetidos à avaliação de sensibilidade cutânea utilizando-se o PSSD(TM). Foram realizados testes nos territórios cutâneos dos nervos fibular profundo, plantar medial e ramo calcâneo do nervo tibial posterior. Estímulos foram provocados segundo as modalidades: um ponto estático (1 PE), um ponto em movimento (1 PD), dois pontos estáticos (2 PE) e dois pontos em movimento (2 PD), para as duas últimas modalidades. Previamente às modalidades 2PE e 2PD determinou-se o limiar de discriminação entre dois pontos estáticos (D2PE) e em movimento (D2PD). Foram realizados apenas no grupo estudo, testes com o monofilamento de Semmes-Weisntein nº 5,07 (MSW) e com o diapasão de 128 Hz. Vinte e oito pacientes não-diabéticos, submetidos aos mesmos testes, formaram o grupo controle. Para os limiares de sensibilidade, encontramos valores superiores no grupo estudo (p < 0,05). Ao compararmos os limiares de sensibilidade alcançados pelos pacientes diabéticos sensíveis e não sensíveis ao estímulo promovido pelo MSW nº 5,07 verificamos que o p-valor variou entre 0,018 < p < 0,113 para 1 PE e 0,002 < p < 0,083 para 2 PE, conforme o território cutâneo estudado. Na comparação dos limiares de sensibilidade da modalidade 1 PD entre diabéticos sensíveis e insensíveis à vibração do diapasão de 128 Hz, as diferenças não foram estatisticamente significantes (p = 0,183). Os resultados obtidos nos permitiram sugerir que o dispositivo PSSD(TM) seja utilizado como forma de acompanhamento do comprometimento da fibra nervosa. / Neuropathy is a severe progressive loss of protective sensation on the feet, making the patient more vulnerable to mechanical trauma and consequently more suitable to the development of chronic wounds, major distortion of the foot bone architecture and eventually to limb amputation. Prophylaxis should be enforced to avoid foot ulceration and for that, evaluation of the degree of loss of sensation on the skin is essential. The PSSD (Pressure Specified Sensory Device(TM)) was developed in order to quantify the threshold of pressure applied to the skin that could be recognized as positive by the patient. Pressure of one or two points is tested both statically and with movement, thus assessing the function of fast and slow response nerve fibers. Threshold of two-point discrimination was also measured in mm. Thirty four (n = 34) diabetic patients, type II, with no previous history of wounds on the lower extremity were studied using the tests, one point static (1PE), one point moving (1PD) and two points static (2 PE), and moving (2 PD) on the cutaneous territory of the fibular nerve and posterior tibial nerve (two territories - medial plantar and calcaneous nerves). The control group (28 non diabetic patients) was assessed by the same exams and the results were compared. In the diabetic group the cutaneous territories were also evaluated using the conventional Semmes-Weinstein filament nº 5,07 e vibrometer of the 128 Hz. Altered values were observed for the static and dynamic tests over the three studied nerve territories. The differences were statically significant (p < 0,05). Comparing the threshold of sensibility between sensitive and non sensitive diabetic patients to MSW nº 5,07 test, we observed that p-value range was 0,018 0,113 when 1PE test was applied, and 0,002 0,083 when 2PE test was applied, according to the cutaneous territories evaluated. Numeric quantification of the threshold of pressure allows us to determine the status of the fiber/receptor structures as well as the functional deficit of nerve fibers. Our findings suggest that PSSD(TM) is an adjuvant tool to evaluate the degree of loss of sensation on the skin.
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Finite-element analysis of inner ear hair bundles: a parameter study of bundle mechanicsDuncan, Robert Keith 29 September 2009 (has links)
Inner ear hair cells have been identified as the sites of mechanoelectrical transduction from a mechanical event (e.g. hearing, motion) to an electrical event (e.g. neural response). Deflection of bundles of hair-like stereocilia extending from these cells has been associated with the transduction process. Stereocilia bundle structure and stiffness controls deflection and thus the fundamental sensitivity of the transduction process. The finite-element method was used along with analytical techniques to characterize individual stereocilium and stereocilia bundle stiffnesses. A three ‘stack’ bundle with a Young’s modulus of 3 GPa (F-actin protein) and Poisson’s ratio of 0.4 (nearly incompressible) resulted in a stiffness of K = 2.1 x 10⁻³ N/m. This value is within the range of experimentally determined stiffmesses. Tip-link and subapical band interconnecting structures each contribute significantly to bundle stiffness and each could act as the gating-spring in transduction models, which propose gating structures as a means of regulating ionic activity and therefore neural activity. Stiffness depends most strongly on individual stereocilium geometry and material description, tip-link orientation and material description, and stereocilia bundle width. Stiffness depends least on stereocilia height variations and subapical bands configuration. Linear analysis was reliable up to deflections of 3.5 um, the upper limit of physical response. Preliminary dynamic response indicates a natural frequency of 382 kHz for the vibration mode resembling physical deformation behavior. Future models should include hexagonal bundle arrangements, transversely isotropic stereocilia material descriptions, and viscoelastic tip-link behavior. / Master of Science
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