Global ETD Search

1	The Effects of Five Toed Socks on Motor Neuron Pool Excitability in the Lower Leg Itano, Keisuke January 2011 (has links) No description available. Kinesiology Ankle Hoffmann Reflex Balance Postural Control
2	Pilot study for efficacy of Yuishinkai karate training community “dose” to improve balance and neuromuscular function in older adults Mustafa, Hajer 21 April 2021 (has links) Purpose: To pilot test the efficacy of a documented 5-week karate training intervention for rehabilitation and neuroprotection in older adults. Methods: eleven older adults (4 male, 7 female, age 59-90y; 168.4±5.8cm; 67.2±10.7kg), five older adults (4 male, 1 female, age 67-76y;176.8±6.4 cm; 69.9±17.6kg) with chronic conditions, and two young adults (2 female, age 23; 165.1±4.9cm; 60.1±6.7 kg) participated. A commercial balance board was used to assess balance through dynamic posture. Arm and leg strength, Timed Up and Go (TUG), and spinal cord excitability (via the soleus H- reflex) were assessed. Results: Over the intervention participants completed approximately 2437 steps, 1762 turns, 3585 stance changes, 2047 punches, 2757 blocks, and 1253 strikes. Dynamic postural performance improved after the intervention (tTarget (18%, p=0.128), tCenter (9%, p<0.01), and tTotal (14%, p=0.073)), with 9 participants showing improvements in balance. No significant changes were found in TUG group data (p=0.539) but 5 neurologically intact participants (4-9%; p<0.05) and 1 Parkinson’s Disease participant (3%, p<0.05) improved. There was significant improvement to strength in the left hand (2%, p=0.037) and right leg (40%, p=0.050). Spinal cord excitability remained unchanged across the group a but 5 (3 neurologically intact (195%, 215%, 48% (avg= 153%); p<0.05); 2 Parkinson’s Disease participants (19%, 23%; p<0.05)) had significantly modulated H-reflex amplitudes following the intervention. Conclusion: Five weeks of training caused improvements in balance reactions and strength suggesting that neuromechanical integrity improved. Whole-body training in martial arts enhanced neuromuscular function and postural integration. The observations of this pilot investigation provide quantitative groundwork for explorations of dose and development of martial arts interventions as functional fitness intervention for older adults. / Graduate / 2022-01-01 Balance Hoffmann reflex Martial arts Karate Rehabilitation Aging Older adults
3	Ice Application Facilitates Soleus Motoneuron Pool Excitability in Subjects with Functional Ankle Instability Doeringer, Jeffrey R. 29 July 2008 (has links) No description available. Rehabilitation Hoffmann reflex Isokinetic torque arthrogenic muscle response
4	Effect of Functional Fatigue on the Soleus Hoffmann Reflex in Subjects with Functional Ankle Instability Hoch, Matthew C. 05 August 2008 (has links) No description available. Health Care Rehabilitation Sports Medicine functional ankle instability fatigue soleus sprain hoffmann reflex
5	Efeitos agudos e crônicos da combinação dos treinamentos de força e vibração sobre o desempenho neuromuscular e a excitabilidade das vias reflexas / Acute and chronic effects of combined strength and vibration training on neuromuscular performance and excitability of spinal pathways reflexes Batista, Mauro Alexandre Benites 16 April 2010 (has links) Tem sido sugerido que combinar o treinamento de força (TF) com o treinamento com vibração (TV) pode ser mais vantajoso do que realizar o TF isolado. OBJETIVOS: Foi objetivo deste estudo avaliar os efeitos da combinação do TF com o TV (TF+V) sobre o desenvolvimento de hipertrofia e os desempenhos da força máxima dinâmica de membros inferiores (FMD) e do salto vertical (SV). Investigou-se também se os benefícios proporcionados pelo treinamento são acompanhados por alterações agudas e crônicas na excitabilidade das vias reflexas. METÓDOS: Foram realizados dois experimentos. No primeiro, foram avaliados os efeitos de uma sessão de treinamento sobre o desempenho do SV e excitabilidade das vias reflexas. Doze sujeitos do sexo masculino foram submetidos a quatro condições experimentais. Na condição TF, realizaram cinco séries de 10 repetições do exercício agachamento, com 90% da massa corporal. Nas condições TF+V30 e TF+V50, o TF foi realizado sobre a plataforma vibratória nas freqüências de 30 Hz (2-4 mm) e 50 Hz (4-6 mm), respectivamente. Na condição controle (C), os sujeitos permaneceram em repouso. Antes e depois de todas as condições experimentais, foram mensurados o desempenho do SV, e os reflexos de Hoffmann (H com amplitude de 20% da onda M máxima, H20%) e tendíneo máximo (Tmáx), no músculo sóleo. No segundo experimento, 29 sujeitos do sexo masculino foram divididos aleatoriamente nos grupos TF, TF+V30 e TF+V50. Os três grupos realizaram entre 3-5 séries de 6-12 RM do exercício agachamento, duas vezes por semana, durante dez semanas. Os grupos TF+V30 e TF+V50 fizeram o agachamento sobre a plataforma vibratória nas freqüências de 30 Hz (amplitude de 2-4 mm) e 50 Hz (amplitude de 4-6 mm), respectivamente. Antes e depois do período de treinamento, foram avaliados a área de secção transversa do quadríceps femoral (ASTQ), os desempenhos da FMD e do SV, os reflexos H e T máximos (Hmáx e Tmáx) e a onda M máxima (Mmáx), no músculo sóleo. RESULTADOS: No primeiro experimento, não foram verificadas alterações significantes na amplitude de H20% em nenhuma das condições (p>0,05). Houve diminuições significantes na amplitude das ondas Tmáx, nas condições TF (-7,4%) e TF+V50 (-11,1%), no primeiro minuto, em comparação ao período antes da intervenção (p<0,001). Foram verificadas diminuições significantes na altura do SV após a realização de todas as condições (C= -11,8%, TF= -6,6%, TF+V30= -7,7% e TF+V50= -7,4%) (p<0, 001). Não houve diferenças significantes entre grupos em nenhuma das variáveis (p>0,05). No segundo experimento, após as dez semanas de treinamento, foram verificados aumentos significantes na ASTQ (TF= 9,8%, TF+V30= 11,7%, TF+V50= 12,9%); na FMD (TF= 16,9%, TF+V30= 15,2%, TF+V50= 16,6%) e na altura do SV (TF= 6,0%, TF+V30= 7,2%, TF+V50= 6,0%) para os três grupos (p<0,05). Não houve diferença significante entre grupos em nenhuma das três variáveis. O período de treinamento não causou alterações significantes nas razões Hmáx/Mmáx (TF = +28%, TF+V30 = -16,3%, TF+V50 = -14%) e Tmáx/Mmáx (TF = -30,3%, TF+V30 = -38,2%, TF+V50 = -28,1%) (p>0,05). Contudo, foi verificado efeito principal de tempo significante para a razão Tmáx/Mmáx (-48,9%) (p<0,05). CONCLUSÕES: A realização de uma sessão de treinamento de força causa uma breve redução da atividade dos fusos musculares. Essa redução não é ampliada quando o TF é combinado com vibração. Realizar um período de TF sobre a plataforma de vibração não proporciona qualquer aumento adicional na ASTQ ou nos desempenhos da FMD e do SV, em relação ao que pode ser conseguido através do TF / It has been suggested that the combination of strength and vibration training may be advantageous when compared with strength training alone. OBJECTIVES: The aim of this study was to assess the effects of combined strength training and vibration (ST+V) on lower limb hypertrophy and on maximal dynamic strength (MDS) and vertical jump (VJ) performances. In addition, we investigate if the training-induced adaptations were in agreement to acute and chronic changes on spinal reflex excitability. METHODS: Two experiments were performed. In the first experiment, the effects of a single training session on VJ performance and spinal reflexes excitability were assessed. Twelve young male undertook four experimental conditions. On ST condition, subjects performed five sets with 10 repetitions on squat exercise with load of 90% body mass. On both ST+V30 and ST+V50 conditions, subjects performed the ST on a vibration platform at 30 Hz (2-4 mm) and 50 Hz (4-6 mm), respectively. In C condition, subjects were only assessed. Vertical jumping performance and Hoffman (at 20% of maximal M wave, H20%) and maximal tendon soleus reflexes (Tmáx) were measured before and after all experimental conditions. In the second experiment, twenty nine young male were randomized into three groups. All groups performed 3-5 sets with 6-12 RM on squat exercise, twice a week, for ten weeks. The ST+V30 and ST+V50 groups performed the squat exercise on the vibration platform at 30 Hz (2-4 mm) and 50 Hz (4-6 mm), respectively. Quadriceps cross sectional area (QCSA), MDS and VJ performances, maximal soleus H- and T- reflexes and maximal M wave (Mmáx) were assessed before and after the 10-week training period. RESULTS: in the first experiment, no significant changes were found in H20% amplitude in any experimental condition (p>0,05). Significant decrease on Tmáx amplitude was found after ST+V30 (-7.4%) and ST+V50 (-11.1%) conditions, after the first minute, compared to before intervention assessment. VJ decreased in all experimental conditions (C= -11.8%, ST= -6.6%, ST+V30= -7.7% and ST+V50= -7.4%) (p<0.001). There were no significant changes between groups in any variable measured (p>0.05). In the second experiment, significant increases were found in QCSA (ST= 9.8%, ST+V30= 11.7%, ST+V50= 12.9%); MDS (ST= 16.9%, ST+V30= 15.2%, ST+V50= 16.6%) and VJ height (ST= 6.0%, ST+V30= 7.2%, ST+V50= 6.0%) in all groups (p<0.05). There were no significant changes between groups in any variable measured (p>0.05). The training period did not induce significant changes in Hmáx/ Mmáx (ST = +28%, ST+V30 = -16,3%, ST+V50 = -14%) and Tmáx/ Mmáx ratios (ST = -30,3%, ST+V30 = -38,2%, ST+V50 = -28,1%) (p>0.05). However it was found a significant time effect for Tmáx/ Mmáx ratio (-48.9%) (p<0,05).CONCLUSION: A single strength training session induces a brief impairment on muscle spindle activity. This impairment is not greater if ST is combined with vibration. Performing ST on a vibration platform did not additionally increase QCSA, MDS and VJ performance compared with ST alone Agachamento Countermovement jump Hipertrofia muscular Hoffmann reflex Muscle hypertrophy Reflexo de Hoffmann Reflexo tendíneo Salto com contramovimento Squat Tendon reflex
6	Efeitos agudos e crônicos da combinação dos treinamentos de força e vibração sobre o desempenho neuromuscular e a excitabilidade das vias reflexas / Acute and chronic effects of combined strength and vibration training on neuromuscular performance and excitability of spinal pathways reflexes Mauro Alexandre Benites Batista 16 April 2010 (has links) Tem sido sugerido que combinar o treinamento de força (TF) com o treinamento com vibração (TV) pode ser mais vantajoso do que realizar o TF isolado. OBJETIVOS: Foi objetivo deste estudo avaliar os efeitos da combinação do TF com o TV (TF+V) sobre o desenvolvimento de hipertrofia e os desempenhos da força máxima dinâmica de membros inferiores (FMD) e do salto vertical (SV). Investigou-se também se os benefícios proporcionados pelo treinamento são acompanhados por alterações agudas e crônicas na excitabilidade das vias reflexas. METÓDOS: Foram realizados dois experimentos. No primeiro, foram avaliados os efeitos de uma sessão de treinamento sobre o desempenho do SV e excitabilidade das vias reflexas. Doze sujeitos do sexo masculino foram submetidos a quatro condições experimentais. Na condição TF, realizaram cinco séries de 10 repetições do exercício agachamento, com 90% da massa corporal. Nas condições TF+V30 e TF+V50, o TF foi realizado sobre a plataforma vibratória nas freqüências de 30 Hz (2-4 mm) e 50 Hz (4-6 mm), respectivamente. Na condição controle (C), os sujeitos permaneceram em repouso. Antes e depois de todas as condições experimentais, foram mensurados o desempenho do SV, e os reflexos de Hoffmann (H com amplitude de 20% da onda M máxima, H20%) e tendíneo máximo (Tmáx), no músculo sóleo. No segundo experimento, 29 sujeitos do sexo masculino foram divididos aleatoriamente nos grupos TF, TF+V30 e TF+V50. Os três grupos realizaram entre 3-5 séries de 6-12 RM do exercício agachamento, duas vezes por semana, durante dez semanas. Os grupos TF+V30 e TF+V50 fizeram o agachamento sobre a plataforma vibratória nas freqüências de 30 Hz (amplitude de 2-4 mm) e 50 Hz (amplitude de 4-6 mm), respectivamente. Antes e depois do período de treinamento, foram avaliados a área de secção transversa do quadríceps femoral (ASTQ), os desempenhos da FMD e do SV, os reflexos H e T máximos (Hmáx e Tmáx) e a onda M máxima (Mmáx), no músculo sóleo. RESULTADOS: No primeiro experimento, não foram verificadas alterações significantes na amplitude de H20% em nenhuma das condições (p>0,05). Houve diminuições significantes na amplitude das ondas Tmáx, nas condições TF (-7,4%) e TF+V50 (-11,1%), no primeiro minuto, em comparação ao período antes da intervenção (p<0,001). Foram verificadas diminuições significantes na altura do SV após a realização de todas as condições (C= -11,8%, TF= -6,6%, TF+V30= -7,7% e TF+V50= -7,4%) (p<0, 001). Não houve diferenças significantes entre grupos em nenhuma das variáveis (p>0,05). No segundo experimento, após as dez semanas de treinamento, foram verificados aumentos significantes na ASTQ (TF= 9,8%, TF+V30= 11,7%, TF+V50= 12,9%); na FMD (TF= 16,9%, TF+V30= 15,2%, TF+V50= 16,6%) e na altura do SV (TF= 6,0%, TF+V30= 7,2%, TF+V50= 6,0%) para os três grupos (p<0,05). Não houve diferença significante entre grupos em nenhuma das três variáveis. O período de treinamento não causou alterações significantes nas razões Hmáx/Mmáx (TF = +28%, TF+V30 = -16,3%, TF+V50 = -14%) e Tmáx/Mmáx (TF = -30,3%, TF+V30 = -38,2%, TF+V50 = -28,1%) (p>0,05). Contudo, foi verificado efeito principal de tempo significante para a razão Tmáx/Mmáx (-48,9%) (p<0,05). CONCLUSÕES: A realização de uma sessão de treinamento de força causa uma breve redução da atividade dos fusos musculares. Essa redução não é ampliada quando o TF é combinado com vibração. Realizar um período de TF sobre a plataforma de vibração não proporciona qualquer aumento adicional na ASTQ ou nos desempenhos da FMD e do SV, em relação ao que pode ser conseguido através do TF / It has been suggested that the combination of strength and vibration training may be advantageous when compared with strength training alone. OBJECTIVES: The aim of this study was to assess the effects of combined strength training and vibration (ST+V) on lower limb hypertrophy and on maximal dynamic strength (MDS) and vertical jump (VJ) performances. In addition, we investigate if the training-induced adaptations were in agreement to acute and chronic changes on spinal reflex excitability. METHODS: Two experiments were performed. In the first experiment, the effects of a single training session on VJ performance and spinal reflexes excitability were assessed. Twelve young male undertook four experimental conditions. On ST condition, subjects performed five sets with 10 repetitions on squat exercise with load of 90% body mass. On both ST+V30 and ST+V50 conditions, subjects performed the ST on a vibration platform at 30 Hz (2-4 mm) and 50 Hz (4-6 mm), respectively. In C condition, subjects were only assessed. Vertical jumping performance and Hoffman (at 20% of maximal M wave, H20%) and maximal tendon soleus reflexes (Tmáx) were measured before and after all experimental conditions. In the second experiment, twenty nine young male were randomized into three groups. All groups performed 3-5 sets with 6-12 RM on squat exercise, twice a week, for ten weeks. The ST+V30 and ST+V50 groups performed the squat exercise on the vibration platform at 30 Hz (2-4 mm) and 50 Hz (4-6 mm), respectively. Quadriceps cross sectional area (QCSA), MDS and VJ performances, maximal soleus H- and T- reflexes and maximal M wave (Mmáx) were assessed before and after the 10-week training period. RESULTS: in the first experiment, no significant changes were found in H20% amplitude in any experimental condition (p>0,05). Significant decrease on Tmáx amplitude was found after ST+V30 (-7.4%) and ST+V50 (-11.1%) conditions, after the first minute, compared to before intervention assessment. VJ decreased in all experimental conditions (C= -11.8%, ST= -6.6%, ST+V30= -7.7% and ST+V50= -7.4%) (p<0.001). There were no significant changes between groups in any variable measured (p>0.05). In the second experiment, significant increases were found in QCSA (ST= 9.8%, ST+V30= 11.7%, ST+V50= 12.9%); MDS (ST= 16.9%, ST+V30= 15.2%, ST+V50= 16.6%) and VJ height (ST= 6.0%, ST+V30= 7.2%, ST+V50= 6.0%) in all groups (p<0.05). There were no significant changes between groups in any variable measured (p>0.05). The training period did not induce significant changes in Hmáx/ Mmáx (ST = +28%, ST+V30 = -16,3%, ST+V50 = -14%) and Tmáx/ Mmáx ratios (ST = -30,3%, ST+V30 = -38,2%, ST+V50 = -28,1%) (p>0.05). However it was found a significant time effect for Tmáx/ Mmáx ratio (-48.9%) (p<0,05).CONCLUSION: A single strength training session induces a brief impairment on muscle spindle activity. This impairment is not greater if ST is combined with vibration. Performing ST on a vibration platform did not additionally increase QCSA, MDS and VJ performance compared with ST alone Agachamento Hipertrofia muscular Reflexo de Hoffmann Reflexo tendíneo Salto com contramovimento Countermovement jump Hoffmann reflex Muscle hypertrophy Squat Tendon reflex
7	Spinal reflex control in healthy and ACL-injured women during a distracting task Perrier, Erica Taylor 12 September 2011 (has links) Female athletes exhibit three- to six-fold greater incidence of noncontact anterior cruciate ligament (ACL) injury relative to their male counterparts. The increased risk appears to stem from interactions between several risk factors, that can roughly be categorized as anatomic, biomechanical, hormonal, and neuromuscular. Neuromuscular risk factors have recently gained a greater focus, and include differences in the timing and magnitude of activation of lower extremity and trunk musculature. In addition to neuromuscular risk factors, the incidence of ACL injury is not evenly distributed across the menstrual cycle, suggesting that hormonal fluctuations may influence neuromuscular control. Finally, it is known that even well-trained athletes experience decrements in performance and postural control when forced to attend to multiple sensory stimuli, which is common in many sports. PURPOSE: To explore neuromuscular differences in the ways healthy and ACL-injured women respond to a secondary task requiring fine motor control and sustained mental focus (typing task). Our investigation encompassed three broad aims. First, we sought to determine whether ACL-injured individuals demonstrated similar reflex profiles to healthy individuals, as well as to determine whether the ACL-involved limb was similar to its uninvolved counterpart. Our second aim was to determine whether the typing task resulted in attenuated Hoffmann (H) reflex amplitudes, and to investigate whether any observed changes were similar in healthy and ACL-injured groups. Finally, our third broad aim was to utilize more complex H reflex analysis techniques to determine whether differences in spinal excitability existed at different points in the menstrual cycle. METHODS: Thirty nine recreationally active women (20 with prior unilateral noncontact ACL injury: 24.0 ± 4.5 years; 23.8 ± 4.5 kg•m⁻²; 4.1 ± 2.6 years post-injury; 19 with no history of knee injury: 23.8 ± 4.5 years; 23.1 ± 2.3 kg•m⁻²) agreed to participate, and were tested during days 2-5 (follicular phase) of the menstrual cycle. A sub-set of this original group (n=8; 24.0 ± 4.8 years; 22.0 ± 2.1 kg•m⁻²) also agreed to return for a second testing session 24-96 hours after ovulation (early luteal phase), in order to assess H reflex differences across the menstrual cycle. During each testing session, H reflex testing was used to explore spinal-level control mechanisms of the lower extremity musculature under both Rest and Task conditions. In the control group, the dominant limb was tested (CON-D) while in the ACL group, both the uninvolved (ACL-UN) and involved (ACL-INV) limbs were assessed. Differences between groups (Control vs. ACL) and within-groups (ACL-UN vs. ACL-INV) were explored. RESULTS: At rest, H reflex parameters in ACL-INV were generally similar to ACL-UN and to CON-D. However, differences in presynaptic inhibition were apparent in ACL-INV that imply reduced reflex plasticity. During the typing task, both the Control and ACL groups experienced attenuated H reflex parameters. In the sub-set of participants who were tested twice during the menstrual cycle, a significant increase in presynaptic inhibition was observed during the early luteal phase compared to the follicular phase. CONCLUSION: While individuals with prior ACL injury display similar H reflex profiles to healthy individuals, the ACL-involved limb may demonstrate less reflex plasticity in response to environmental changes. This lack of plasticity may potentially increase the risk of re-injury. In addition, an upper extremity task requiring fine motor control and sustained mental focus attenuates the H reflex in both groups. This attenuation has implications for lower-extremity neuromuscular control in dual-task environments. Finally, the increase in presynaptic inhibition observed during the early luteal phase may provide insight into why ACL injuries are not evenly distributed across the menstrual cycle. / Graduation date: 2012 ACL Hoffmann reflex Menstrual Dual task Menstrual cycle -- Physiological aspects Women athletes -- Physiology Motor ability -- Testing Attention -- Physiological aspects Reflexes -- Testing
8	Neuromuscular Function of the Shoulder Girdle and Upper Extremity Muscles in Individuals with Glenohumeral Labral Repair Takeno, Katsumi January 2020 (has links) No description available. Health Sciences Kinesiology Neurosciences Sports Medicine muscle activation spinal reflexive pathway corticospinal pathway motor neuron quality of life limb symmetry neuromuscular function shoulder stabilizer Hoffmann reflex active motor threshold predictive value ROC
9	Détermination des facteurs bénéfiques et néfastes à la récupération locomotrice à la suite d’une section spinale complète chez la souris Jeffrey-Gauthier, Renaud 12 1900 (has links) No description available. moelle épinière section hémisection locomotion plasticité générateur de patron central sérotonine inflammation réflexe de Hoffmann dépression post-activation désinhibition afférences sensorielles nociception Spinal cord Transection Plasticity Central pattern generator Serotonin Neuromodulation Hoffmann reflex Frequency-dependent depression Sensory afferents

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