Global ETD Search

41	Characterization of Parvalbumin and Nxph1 Expression in Lumbar Dorsal Root Ganglia by In Situ Hybridization Al-Anbari, Bahir Rami 22 May 2020 (has links) No description available. Nanoscience Proprioception proprioceptors mechanoreceptors movement sensing peripheral nerve injury proprioceptive genetic markers Parvalbumin Nxph1
42	TACTILE SPATIAL ACUITY FROM CHILDHOOD INTO ADULTHOOD Peters, Ryan M. 10 1900 (has links) <p>Measurement of human tactile spatial acuity – the ability to perceive the</p> <p>fine spatial structure of surfaces contacting our fingertips – provides a valuable</p> <p>tool for probing both the peripheral and central nervous system. However,</p> <p>measures of tactile spatial acuity have long been plagued by a prodigious amount</p> <p>of variability present between individuals in their sense of touch. Previously</p> <p>proposed sources of variability include sex, and age; here we propose a novel</p> <p>source of variability – fingertip size. Building upon anatomical research, we</p> <p>hypothesize that mechanoreceptors are more sparsely distributed in larger fingers.</p> <p>In this thesis, I provide empirical and theoretical support for the hypothesis</p> <p>that fingertip growth from childhood into adulthood sets up an apparent sex</p> <p>difference in human tactile spatial acuity during young adulthood (Chapter 2), and</p> <p>also predicts changes in acuity more strongly than does age over development</p> <p>(Chapter 3). To further understand how fingertip size could limit an individual's</p> <p>tactile spatial acuity, we develop an ideal observer model using</p> <p>neurophysiological data collected by other labs (Chapter 4).</p> <p>In summary, this research provides support for a novel source of variability</p> <p>in the sense of touch: one that parsimoniously explains an apparent sex difference,</p> <p>and helps clarify the source of changes in tactile spatial acuity occurring with age</p> <p>during childhood.</p> / Doctor of Philosophy (PhD) somatosensory perception touch psychophysics cutaneous mechanoreceptors development computational neuroscience Behavioral Neurobiology Behavioral Neurobiology
43	Subliminal electrical and mechanical stimulation does not improve foot sensitivity in healthy elderly subjects Zippenfennig, Claudio, Niklaus, Laura, Karger, Katrin, Milani, Thomas L.. 12 December 2018 (has links) Objective Deterioration of cutaneous perception may be one reason for the increased rate of falling in the elderly. The stochastic resonance phenomenon may compensate this loss of information by improving the capability to detect and transfer weak signals. In the present study, we hypothesize that subliminal electrical and mechanical noise applied to the sole of the foot of healthy elderly subjects improves vibration perception thresholds (VPT). Methods VPTs of 99 healthy elderly subjects were measured at 30 Hz at the heel and first metatarsal head (MET I). Participants were randomly assigned to one of five groups: vibration (Vi-G), current (Cu-G), control (Co-G), placebo-vibration (Pl-Vi), and placebo-current (Pl-Cu). Vi-G and Cu-G were stimulated using 90% (subliminal) of their individual perception thresholds for five minutes in a standing position. Co-G received no stimulation. The placebo groups were treated with mock stimulation. VPTs were measured twice before the intervention (baseline (BASE) and pre-measurement (PRE)), and once after the intervention (post-measurement (POST)). Results Significant differences were found between measurement conditions comparing BASE and POST, and PRE and POST. VPTs between groups within each measurement condition showed no significant differences. Vi-G was the only group that showed significantly higher VPTs in POST compared to BASE and PRE, which contradicts previous studies. Conclusion We analyzed increased VPTs after subliminal mechanical stimulation. The pressure load of standing for five minutes combined with subliminal stimulation may have shifted the initial level of mechanoreceptor sensitivity, which may lead to a deterioration of the VPT. The subliminal electrical stimulation had no effect on VPT. Significance Based on our results, we cannot confirm positive effects of subliminal electrical or mechanical stimulation on the sole of the foot. info:eu-repo/classification/ddc/610 ddc:610 Neurophysiologie; Sensibilität
44	Quantification of oral roughness perception and comparison with mechanism of astringency perception Linne, Brianne M. 21 November 2016 (has links) No description available. Food Science Psychology Neurosciences Oral tactile perception roughness perception lingual tactile sensitivity mechanoreceptors astringency EGCG Tannic Acid tongue
45	Neural processing of chemosensory information from the locust ovipositor / Neural processing of chemosensory information from the locust ovipositor Tousson, Ehab 03 May 2001 (has links) No description available. 570 Biowissenschaften, Biologie Chemoreceptors;Mechanoreceptors Interganglionic projections Sensoryneurons Ovipositor Cerci Paraproct Epiproct Abdominal segments Innervation Central projection Biotin staining Immunohistochemistry Extracellular recording Interacellular recording Interneurones 42
46	Avaliação da resposta neurovascular durante o exercício físico isométrico e estresse mental em usuários de esteroides androgênicos anabolizantes / Neurovascular response during isometric exercise and mental stress in anabolic androgenic steroids users Porello, Rafael Armani 16 October 2017 (has links) Introdução: Os esteroides androgênicos anabolizantes (EAA) são hormônios sintéticos análogos à testosterona, utilizados em homens para tratar o hipogonadismo. Sabendo dos potenciais efeitos tróficos na musculatura esquelética, muitos atletas e frequentadores de academia começaram a autoadministrar estes ergogênicos de forma ilícita e abusiva. Segundo a literatura, o uso abusivo interfere diretamente no sistema nervoso central, com aumento exacerbado da atividade nervosa simpática muscular (ANSM) associado à uma redução do fluxo sanguíneo muscular (FSM) periférico em repouso. Porém, não é conhecido o comportamento reflexo da ANSM e FSM pelo estímulo mecano/metaborreflexo (exercício isométrico) e do comando central (estresse mental) em jovens usuários de EAA. Objetivos: Testar a hipótese de que indivíduos que fazem uso de EAA, apresentam exacerbação da resposta da ANSM e redução do FSM pela via aferente mecanorreflexa e metaborreflexa, bem como, pela via eferente do comando central. Métodos: Foram selecionados 37 voluntários praticantes de treinamento resistido (musculação) por pelo menos 2 anos. Dezenove usuários de EAA (UEAA) por pelo menos 2 anos e 18 não usuários (NUEAA) foram incluídos no estudo. Todos os participantes realizaram anamnese, coleta de urina para análise toxicológica e avaliação da composição corporal por meio da absorciometria de raio-X de dupla energia (DXA). A ANSM foi avaliada pela técnica de microneurografia. O FSM do antebraço foi avaliado pelo método de pletismografia de oclusão venosa. A pressão arterial foi avaliada de forma não invasiva, batimento-a-batimento cardíaco, pelo método oscilométrico (Finometer®) e a frequência cardíaca (FC) foi registrada pelo eletrocardiograma. O estímulo mecano/metaborreflexo foi testado pelo exercício isométrico (preensão de mão) a 30% da contração voluntária máxima durante 3 minutos. O estímulo do comando central foi testado pelo estresse mental (Stroop Color Word Test) durante 4 minutos. Resultados: O grupo UEAA apresentou maior peso corporal (90,7±12,0 vs. 81,0±12,5 kg, respectivamente; p=0,02), índice de massa corporal (29,1± 2,8 vs. 25,3±2,2 kg/m2, respectivamente; p < 0,001) e massa magra (78,1±7,6 vs. 63,0±7,3 kg, respectivamente; p<0,001) quando comparado ao grupo NUEAA. No período basal, observamos maior ANSM (23±6 vs. 15±4 disparos/min; p < 0,001), ANSM/100 batimentos cardíaco (34±9 vs. 24±6 disparos/100bat; p=0,001) e FC (69±6 vs. 61±6 bpm; p < 0,001) no grupo UEAA quando comparado ao NUEAA. Para as demais variáveis hemodinâmicas e neurovasculares no período basal, não foram observadas diferenças significativas. Durante o exercício isométrico, a resposta pico do 3º min da FC (84±8 vs. 76±11bpm; p < 0,05) e PAM (122±14 vs. 113±11 mmHg; p < 0,05) foram maiores no grupo UEAA quando comparado ao NUEAA, entretanto, não houve diferença na resposta da ANSM, ANSM/100bat, FSM e CVA entre os grupos. Durante o estresse mental, a resposta pico do 4º min da ANSM (31±3 vs. 24 ± 5 disparos/min; p < 0,01) e da FC (76±7 vs. 69±10 bpm; p=0,01) foi maior no grupo UEAA quando comparado ao NUEAA. A resposta pico do FSM (3,08±1,16 vs. 4,34±1,57 ml/min/100ml; p < 0,01) e da CVA (3,00±1,29 vs. 4,21±1,25 ml/min/100ml; p < 0,01) foi menor no grupo UEAA quando comparado ao grupo NUEAA. Não houve diferença na resposta da ANSM/100bat entre os grupos. Conclusão: Durante a estimulação mantida de mecano-metaborreceptores, os UEAA apresentaram respostas semelhantes da ANSM, FSM e CVA. No entanto, durante a estimulação do comando central, os UEAA apresentaram ANSM exacerbada e atenuação da resposta vasodilatadora muscular. Dessa forma, o comando central parece ser uma importante via de ativação neural que desencadeia a disfunção vasodilatadora muscular observada em UEAA em situações reacionais de estresse / Introduction: Anabolic androgenic steroids (AAS) are synthetic hormones analogous to testosterone used to treat hypogonadism in men. Assuming the potential trophic effects on skeletal muscle, many athletes have used these illicit drugs abusively. According to the literature, AAS abuse directly interferes with the central nervous system, with an exacerbated increase in muscle sympathetic nerve activity (MSNA) associated with a reduction in forearm blood flow (FBF). However, the reflex response of MSNA and FBF by the mechano/metaboreflex stimulus (isometric exercise) and the central command (mental stress) in young AAS users have never been tested. Objective: To test the hypothesis that AAS abuse would cause an exacerbated MSNA associated with reduced FBF by increasing afferent mecanorreflex and metaboreflex activation and efferent central command response. Methods: We enrolled 37 participants who have been practicing resistance training for at least 2 years. Nineteen AAS users self-administering AAS for at least 2 years (AASU) aged 31±6 yr and eighteen AAS nonusers (AASNU) aged 29±4 yr were included. All participants underwent anamnesis, urine collection for toxicological analysis and body composition assessment using dual energy X-ray absorptiometry (DXA). MSNA was evaluated by microneurography technique and FBF was evaluated by venous occlusion plethysmography. Blood pressure was evaluated non-invasively, beat-by-beat by oscillometric method (Finometer®) and heart rate (HR) was recorded by electrocardiogram. The mechano/metaboreflex stimulus was tested by isometric exercise (handgrip) at 30% of maximal voluntary contraction for 3 minutes. The central command stimulus was tested by mental stress (Stroop color-word test) for 4 minutes. Results: AASU had higher body weight (90.7±12.0 vs. 81.0 ± 12.5 kg, respectively, p = 0.02), body mass index (29.1 ± 2.8 vs. 25.3 ± 2.2 kg/m2, respectively, p < 0.001) and lean mass (78.1 ± 7.6 vs. 63.0 ± 7.3 kg, respectively, p < 0.001) when compared with AASNU. At baseline, we observed higher MSNA (23 ± 6 vs. 15 ± 4 burts / min, p < 0.001), MSNA / 100 beats (34 ± 9 vs. 24 ± 6 burts / 100 beats, p = 0.001) and HR (69 ± 6 vs. 61 ± 6 beats/min, p < 0.001) in AASU compared with AASNU. There were no significant differences for hemodynamic and neurovascular variables at baseline. During isometric exercise, peak HR response at 3rd min (84 ± 8 vs. 76 ± 11bpm, p < 0.05) and median arterial blood pressure (122 ± 14 vs. 113 ± 11 mmHg, p < 0.05) were higher in AASU when compared with AASNU. There were no differences in MSNA response, MSNA / 100 beats, FBF and FVC between groups. During mental stress, peak MSNA response at 4th min (31 ± 3 vs. 24 ± 5 bursts / min, p < 0.01) and HR (76 ± 7 vs. 69 ± 10 beats/ min, p = 0,01) was higher in AASU when compared with AASNU. Peak FBF (3.08 ± 1.16 vs. 4.34 ± 1.57 ml / min / 100 ml, p < 0.01) and FVC responses (3.00 ± 1.29 vs. 4.21 ± 1.25 ml / min / 100 ml, p < 0.01) were lower in AASU compared with AASNU. There was no difference in MSNA / 100 beats response between groups. Conclusions: During sustained mechano-metaboreceptors stimulation, AASU presented similar MSNA, FBF and FVC responses. However, during central command stimulation, AASU presented exacerbated MSNA and blunted FBF. Thus, the central command seems to be an important neural activation pathway that triggers the muscular vasodilator dysfunction observed in AASU in reactive stress situations Anabolic agents Anabolizantes Central nervous system Mecanorreceptores Mechanoreceptors Resistance training Sistema nervoso central Sistema nervoso simpático Sympathetic nervous system Treinamento de resistência
47	Avaliação da resposta neurovascular durante o exercício físico isométrico e estresse mental em usuários de esteroides androgênicos anabolizantes / Neurovascular response during isometric exercise and mental stress in anabolic androgenic steroids users Rafael Armani Porello 16 October 2017 (has links) Introdução: Os esteroides androgênicos anabolizantes (EAA) são hormônios sintéticos análogos à testosterona, utilizados em homens para tratar o hipogonadismo. Sabendo dos potenciais efeitos tróficos na musculatura esquelética, muitos atletas e frequentadores de academia começaram a autoadministrar estes ergogênicos de forma ilícita e abusiva. Segundo a literatura, o uso abusivo interfere diretamente no sistema nervoso central, com aumento exacerbado da atividade nervosa simpática muscular (ANSM) associado à uma redução do fluxo sanguíneo muscular (FSM) periférico em repouso. Porém, não é conhecido o comportamento reflexo da ANSM e FSM pelo estímulo mecano/metaborreflexo (exercício isométrico) e do comando central (estresse mental) em jovens usuários de EAA. Objetivos: Testar a hipótese de que indivíduos que fazem uso de EAA, apresentam exacerbação da resposta da ANSM e redução do FSM pela via aferente mecanorreflexa e metaborreflexa, bem como, pela via eferente do comando central. Métodos: Foram selecionados 37 voluntários praticantes de treinamento resistido (musculação) por pelo menos 2 anos. Dezenove usuários de EAA (UEAA) por pelo menos 2 anos e 18 não usuários (NUEAA) foram incluídos no estudo. Todos os participantes realizaram anamnese, coleta de urina para análise toxicológica e avaliação da composição corporal por meio da absorciometria de raio-X de dupla energia (DXA). A ANSM foi avaliada pela técnica de microneurografia. O FSM do antebraço foi avaliado pelo método de pletismografia de oclusão venosa. A pressão arterial foi avaliada de forma não invasiva, batimento-a-batimento cardíaco, pelo método oscilométrico (Finometer®) e a frequência cardíaca (FC) foi registrada pelo eletrocardiograma. O estímulo mecano/metaborreflexo foi testado pelo exercício isométrico (preensão de mão) a 30% da contração voluntária máxima durante 3 minutos. O estímulo do comando central foi testado pelo estresse mental (Stroop Color Word Test) durante 4 minutos. Resultados: O grupo UEAA apresentou maior peso corporal (90,7±12,0 vs. 81,0±12,5 kg, respectivamente; p=0,02), índice de massa corporal (29,1± 2,8 vs. 25,3±2,2 kg/m2, respectivamente; p < 0,001) e massa magra (78,1±7,6 vs. 63,0±7,3 kg, respectivamente; p<0,001) quando comparado ao grupo NUEAA. No período basal, observamos maior ANSM (23±6 vs. 15±4 disparos/min; p < 0,001), ANSM/100 batimentos cardíaco (34±9 vs. 24±6 disparos/100bat; p=0,001) e FC (69±6 vs. 61±6 bpm; p < 0,001) no grupo UEAA quando comparado ao NUEAA. Para as demais variáveis hemodinâmicas e neurovasculares no período basal, não foram observadas diferenças significativas. Durante o exercício isométrico, a resposta pico do 3º min da FC (84±8 vs. 76±11bpm; p < 0,05) e PAM (122±14 vs. 113±11 mmHg; p < 0,05) foram maiores no grupo UEAA quando comparado ao NUEAA, entretanto, não houve diferença na resposta da ANSM, ANSM/100bat, FSM e CVA entre os grupos. Durante o estresse mental, a resposta pico do 4º min da ANSM (31±3 vs. 24 ± 5 disparos/min; p < 0,01) e da FC (76±7 vs. 69±10 bpm; p=0,01) foi maior no grupo UEAA quando comparado ao NUEAA. A resposta pico do FSM (3,08±1,16 vs. 4,34±1,57 ml/min/100ml; p < 0,01) e da CVA (3,00±1,29 vs. 4,21±1,25 ml/min/100ml; p < 0,01) foi menor no grupo UEAA quando comparado ao grupo NUEAA. Não houve diferença na resposta da ANSM/100bat entre os grupos. Conclusão: Durante a estimulação mantida de mecano-metaborreceptores, os UEAA apresentaram respostas semelhantes da ANSM, FSM e CVA. No entanto, durante a estimulação do comando central, os UEAA apresentaram ANSM exacerbada e atenuação da resposta vasodilatadora muscular. Dessa forma, o comando central parece ser uma importante via de ativação neural que desencadeia a disfunção vasodilatadora muscular observada em UEAA em situações reacionais de estresse / Introduction: Anabolic androgenic steroids (AAS) are synthetic hormones analogous to testosterone used to treat hypogonadism in men. Assuming the potential trophic effects on skeletal muscle, many athletes have used these illicit drugs abusively. According to the literature, AAS abuse directly interferes with the central nervous system, with an exacerbated increase in muscle sympathetic nerve activity (MSNA) associated with a reduction in forearm blood flow (FBF). However, the reflex response of MSNA and FBF by the mechano/metaboreflex stimulus (isometric exercise) and the central command (mental stress) in young AAS users have never been tested. Objective: To test the hypothesis that AAS abuse would cause an exacerbated MSNA associated with reduced FBF by increasing afferent mecanorreflex and metaboreflex activation and efferent central command response. Methods: We enrolled 37 participants who have been practicing resistance training for at least 2 years. Nineteen AAS users self-administering AAS for at least 2 years (AASU) aged 31±6 yr and eighteen AAS nonusers (AASNU) aged 29±4 yr were included. All participants underwent anamnesis, urine collection for toxicological analysis and body composition assessment using dual energy X-ray absorptiometry (DXA). MSNA was evaluated by microneurography technique and FBF was evaluated by venous occlusion plethysmography. Blood pressure was evaluated non-invasively, beat-by-beat by oscillometric method (Finometer®) and heart rate (HR) was recorded by electrocardiogram. The mechano/metaboreflex stimulus was tested by isometric exercise (handgrip) at 30% of maximal voluntary contraction for 3 minutes. The central command stimulus was tested by mental stress (Stroop color-word test) for 4 minutes. Results: AASU had higher body weight (90.7±12.0 vs. 81.0 ± 12.5 kg, respectively, p = 0.02), body mass index (29.1 ± 2.8 vs. 25.3 ± 2.2 kg/m2, respectively, p < 0.001) and lean mass (78.1 ± 7.6 vs. 63.0 ± 7.3 kg, respectively, p < 0.001) when compared with AASNU. At baseline, we observed higher MSNA (23 ± 6 vs. 15 ± 4 burts / min, p < 0.001), MSNA / 100 beats (34 ± 9 vs. 24 ± 6 burts / 100 beats, p = 0.001) and HR (69 ± 6 vs. 61 ± 6 beats/min, p < 0.001) in AASU compared with AASNU. There were no significant differences for hemodynamic and neurovascular variables at baseline. During isometric exercise, peak HR response at 3rd min (84 ± 8 vs. 76 ± 11bpm, p < 0.05) and median arterial blood pressure (122 ± 14 vs. 113 ± 11 mmHg, p < 0.05) were higher in AASU when compared with AASNU. There were no differences in MSNA response, MSNA / 100 beats, FBF and FVC between groups. During mental stress, peak MSNA response at 4th min (31 ± 3 vs. 24 ± 5 bursts / min, p < 0.01) and HR (76 ± 7 vs. 69 ± 10 beats/ min, p = 0,01) was higher in AASU when compared with AASNU. Peak FBF (3.08 ± 1.16 vs. 4.34 ± 1.57 ml / min / 100 ml, p < 0.01) and FVC responses (3.00 ± 1.29 vs. 4.21 ± 1.25 ml / min / 100 ml, p < 0.01) were lower in AASU compared with AASNU. There was no difference in MSNA / 100 beats response between groups. Conclusions: During sustained mechano-metaboreceptors stimulation, AASU presented similar MSNA, FBF and FVC responses. However, during central command stimulation, AASU presented exacerbated MSNA and blunted FBF. Thus, the central command seems to be an important neural activation pathway that triggers the muscular vasodilator dysfunction observed in AASU in reactive stress situations Anabolizantes Mecanorreceptores Sistema nervoso central Sistema nervoso simpático Treinamento de resistência Anabolic agents Central nervous system Mechanoreceptors Resistance training Sympathetic nervous system
48	The relation between human hair follicle density and touch perception Bendas, Johanna, Jönsson, Emma H., Weidner, Kerstin, Wessberg, Johan, Olausson, Håkan, Backlund Wasling, Helena, Croy, Ilona 10 November 2017 (has links) (PDF) Unmyelinated low threshold C-tactile fibers moderate pleasant aspects of touch. These fibers respond optimally to stroking stimulation of the skin with slow velocities (1–10 cm/s). Low threshold mechanoreceptors are arranged around hair follicles in rodent skin. If valid also in humans, hair follicle density (HFD) may relate to the perceived pleasantness of stroking tactile stimulation. We conducted two studies that examined the relation between HFD and affective touch perception in humans. In total, 138 healthy volunteers were stroked on the forearm and rated the pleasantness and intensity. Stimulation was performed by a robotic tactile stimulator delivering C-tactile optimal (1, 3, 10 cm/s) and non-optimal (0.1, 0.3, 30 cm/s) stroking velocities. Additionally, a measure of discriminative touch was applied in study 2. HFD of the same forearm was determined using the Cyanoacrylate Skin Stripping Method (CSSM), which we validated in a pretest. Women had higher HFD than men, which was explained by body size and weight. Furthermore, women rated affective touch stimuli as more pleasant and had higher tactile acuity. Depilation did not affect touch perception. A weak relationship was found between the C-tactile specific aspects of affective touch perception and HFD, and the hypothesis of HFD relating to pleasant aspects of stroking only received weak support. Mechanorezeptoren Haarfollikel Technische Universität Dresden Publikationsfonds mechanoreceptors hair follicle Technische Universität Dresden Publishing Fund ddc:520 rvk:UA 1000
49	Mechanoreceptor Activation in the Treatment of Drug-Use Disorders: Mechanism and Outcome Bills, Kyle 01 August 2019 (has links) The therapeutic benefits attributed to activation of peripheral mechanoreceptors are poorly understood. There is growing evidence that mechanical stimulation modulates substrates in the supraspinal central nervous system (CNS) that are outside the canonical somatosensory circuits. This work demonstrates that activation of peripheral mechnoreceptors via mechanical stimulation (MStim) is sufficient to increase dopamine release in the nucleus accumbens (NAc), alter neuron firing rate in the ventral tegmental area (VTA) and increase membrane translocation of delta opioid receptors (DORs) in the NAc. Further, we demonstrate that these effects are dependent on DORs and acetylcholine receptors. Additionally, MStim can block neuronal markers of chronic ethanol dependence including ethanol-induced changes to VTA GABA neuron firing during withdrawal, and DA release profiles after reinstatement ethanol during withdrawal. These are presented in tandem with evidence that MStim also ameliorates behavioral indices of ethanol withdrawal. Finally, exercise, a modality that includes a mechanosensory component, is shown to alter expression of kappa opioid receptors (KORs) in the NAc. This change substantively depresses KORs influence over evoked DA release in direct contraversion to the effects of chronic ethanol. These changes translate into reduced drinking behavior. mechanoreceptors dopamine GABA nucleus accumbens ventral tegmental area delta-opioid receptors kappa-opioid receptors exercise alcohol cholinergic interneurons whole-body vibration Life Sciences Neuroscience and Neurobiology
50	Efeito do treinamento físico no controle mecanorreflexo e metaborreflexo da atividade nervosa simpática muscular em pacientes com insuficiência cardíaca / Effects of exercise training on mechanoreflex and metaboreflex control of muscle sympathetic nerve activity in heart failure patients Corrêa, Lígia de Moraes Antunes 14 June 2013 (has links) Introdução. A hiperativação nervosa simpática é característica marcante da insuficiência cardíaca. Estudos apontam alterações no controle ergorreflexo muscular (mecano e metaborreflexo) como mecanismos potenciais para explicar esta modificação autonômica. Os mecanorreceptores (fibras do grupo III), que são ativadas pelo aumento no tônus muscular e modulados por metabólitos da via das ciclooxigenases, encontram-se hipersensibilizadas na insuficiência cardíaca. Ao contrário, a sensibilidade dos metaborreceptores (fibras do grupo IV), que são ativados pelo acúmulo de metabólitos durante as contrações musculares e modulados pelos receptores TRPV1 e CB1, encontra-se diminuída na insuficiência cardíaca. Por outro lado, o treinamento físico tem se mostrado uma importante ferramenta no tratamento da insuficiência cardíaca. Ele reduz os níveis de atividade nervosa simpática muscular (ANSM) no repouso e durante o exercício em pacientes portadores desta síndrome. Dessa forma, neste estudo, nós testamos a hipótese de que o treinamento físico melhoraria o controle mecano e metaborreflexo da ANSM em pacientes com insuficiência cardíaca, e se essa melhora está associada às alterações na via das ciclooxigenases e na expressão dos receptores TRPV1 e CB1, respectivamente. Métodos. Pacientes com insuficiência cardíaca foram consecutivamente e aleatoriamente divididos em dois grupos: insuficiência cardíaca não treinado (ICNT, n=17) e insuficiência cardíaca treinado (ICT, n=17). A ANSM foi avaliada pela técnica de microneurografia e o fluxo sanguíneo muscular (FSM) pela pletismografia de oclusão venosa. A frequência cardíaca (FC) e a pressão arterial (PA) foram avaliadas por medida não invasiva a cada batimento (Finometer). Foi realizada biopsia muscular do vasto lateral para análise de expressão gênica. O treinamento físico aeróbio foi realizado em ciclo ergômetro, em intensidade moderada, por 40 minutos, três vezes por semana, durante 16 semanas. A sensibilidade mecanorreflexa foi calculada pelo delta absoluto entre o pico do exercício passivo, realizado na perna esquerda, e a média do registro basal. A sensibilidade metaborreflexa foi calculada pelo delta absoluto entre o 1º minuto de oclusão circulatória pós-exercício na perna esquerda e a média do registro basal. Resultados. O treinamento físico reduziu a ANSM e aumentou o FSM no repouso. O treinamento físico diminuiu significativamente as respostas de ANSM durante o exercício passivo no grupo ICT. As repostas de PA média também foram menores no grupo ICT quando comparado ao grupo ICNT. Não houve alterações significativas nas repostas de FC, PA sistólica, PA diastólica e FSM durante o exercício passivo no grupo ICT. Em relação à sensibilidade metaborreflexa, o treinamento físico aumentou expressivamente as respostas de ANSM no 1º minuto de oclusão circulatória no grupo ICT. As respostas de FC, PA e FSM não foram alteradas neste grupo. Não foram observadas alterações significativas nos controles mecano e metaborreflexo musculares no grupo ICNT. Além disso, o treinamento físico reduziu significativamente a expressão gênica da enzima COX-2 e do receptor EP4 e aumentou significativamente a expressão dos receptores TRPV1 e CB1 no grupo ICT. Não foram verificadas alterações significativas nas expressões gênicas do grupo ICNT. Conclusões. O treinamento físico normaliza os controles mecano e metaborreflexo da ANSM em pacientes com insuficiência cardíaca. Estas alterações podem estar associadas às alterações na expressão gênica da enzima COX-2 e receptor EP4, e dos receptores TRPV1 e CB1, respectivamente. Em conjunto, estes achados podem explicar, pelo menos em parte, a diminuição da atividade nervosa simpática e a melhora na tolerância aos esforços em pacientes com insuficiência cardíaca / Introduction. Sympathoexcitation is the hallmark of heart failure. Studies suggest changes in ergoreflex muscle control (mechanoreflex and metaboreflex) as potential mechanisms to explain this autonomic alteration in heart failure. Mechanoreceptors (group III fibers) that are activated by mechanical stimuli and modulated by cyclooxygenase pathway metabolites are hypersensitive in heart failure. In contrast, the sensitivity of metaboreceptors fibers (group IV) that are activated by increases in ischemic metabolites during muscle contractions and modulated by TRPV1 and CB1 receptors is blunted in heart failure. On the other hands, exercise training has been shown to be an important strategy in the treatment of heart failure. It reduces the levels of muscle sympathetic nerve activity (MSNA) at rest and during exercise in patients suffering of this syndrome. Thus, we tested the hypothesis that exercise training would improve the mechanoreflex and metaboreflex control of MSNA in heart failure patients. In addition, we investigated whether the improvement in the mechanoreflex and metaboreflex control is related to changes in the cyclooxygenase pathway and expression of TRPV1 and CB1 receptors, respectively. Methods. Patients with heart failure were consecutively and randomly divided into two groups: heart failure untrained (HFUT, n = 17) and heart failure exercise-trained (HFET, n = 17). MSNA was measured by microneurography technique and muscle blood flow (MBF) by venous occlusion plethysmography. Heart rate (HR) and blood pressure (BP) were assessed by noninvasive measure on a beat-to-beat basis (Finometer). Gene expression analysis was investigated by vastus lateralis muscle biopsy. Aerobic exercise training was performed on a cycle ergometer at moderate intensity, three 40-min session/wk for 16 weeks. Mechanoreflex sensitivity was evaluated by means the absolute difference in MSNA at peak passive exercise and baseline. Metaboreflex sensitivity was calculated by means the absolute difference in MSNA at 1st min after exercise period with muscle circulatory arrest and baseline. Results. Exercise training reduced MSNA and increased MBF. Exercise training significantly decreased MSNA responses during passive exercise. The mean BP response was lower in HFET group when compared to HFUT group. There were no significant changes in HR, systolic and diastolic BP and MBF responses during passive exercise in HFET group. Regarding metaboreflex sensitivity, exercise training significantly increased the MSNA responses at 1st minute of post exercise circulatory arrest. The responses of HR, BP and MBF were unchanged after exercise training. No significant changes were observed in mechanoreflex and metaboreflex control in the HFUT group. Furthermore, exercise training significantly reduced gene expression of COX-2 and EP4 receptor and significantly increased expression of TRPV1 and CB1 receptors. There were no significant changes in the gene expressions in the HFUT group. Conclusions. Exercise training improves mechanoreflex and metaboreflex control of MSNA in heart failure patients. These changes may be associated with changes in gene expression of COX-2 and EP4 receptor and TRPV1 and CB1 receptor, respectively. Together, these findings may explain, at least in part, the decrease in sympathetic nerve activity and the improvement in exercise tolerance in patients with heart failure Canais de cátion TRPV Ciclo-oxigenase 2 Cyclooxygenase 2 Exercício Exercise Heart failure Insuficiência cardíaca Mecanorreceptores Mechanoreceptors Muscle Músculo esquelético/fisiopatologia skeletal/physiopathology TRPV cation channels

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