Modulation of cutaneous reflexes in a finger muscle during voluntary contractions /

Poon, Ming-see, Angela.

January 1990

Thesis (M. Phil.)--University of Hong Kong, 1991.

La courbe de la contraction ventriculaire.-Essai d'interprétation mécanique ...

Gilardoni, Henri.

January 1901

Thesis.-Univ. de Paris.

Cardiographie. Coeur, Contraction.

The Use of Equalization Filters to Achieve High Common Mode Rejection Ratios in Biopotential Amplifier Arrays

Xia, Hongfang.

January 2005

Thesis (M.S.) -- Worcester Polytechnic Institute. / Keywords: CMRR; Equalization filter; noise deduction. Includes bibliographical references (p. 64-66).

Estudo da representação numérica do comportamento mecânico de músculos esqueléticos sujeitos à combinação de diferentes tipos de contrações / A study of the numeric skeletal muscle mechanical representation subjected to different contractions

Lagemann, Frederico

January 2015

Esta dissertação apresenta um estudo da caracterização numérica do comportamento mecânico de um músculo esquelético estriado sujeito à combinação de diferentes contrações. A partir dos mecânismos fisiológicos da contração do tecido muscular esquelético, são apresentadas as principais características da produção de força do músculo em diferentes tipos de contrações (isométrica, concêntrica, excêntrica) e suas combinações. A representação numérica da resposta mecânica do músculo esquelético foi investigada por diferentes autores. Dos diversos modelos encontrados na literatura, alguns foram escolhidos para a continuidade deste estudo, segundo sua capacidade representativa e facilidade de implementação em métodos numéricos de solução para grandes deformações. Os modelos disponíveis na literatura foram implementados e avaliados para diferentes sequências de contrações, sendo também realizado um ajuste de parâmetros para dados experimentais de contrações isométricas e isométricas-excêntricas-isométricas. Nenhuma das propostas avaliadas apresentou resultados satisfatórios. A principal deficiência dos modelos foi a incapacidade de reproduzir a dependência do histórico de carregamentos, ou seja, da combinação de contrações. Desta maneira, uma nova proposta de modelo constitutivo foi desenvolvida e implementada para testes uniaxiais e em um código de elementos finitos para testes tridimensionais. A partir destas implementações, foram executados testes numéricos para diferentes sequências de contrações, avaliando a capacidade representativa do modelo proposto neste trabalho. O modelo proposto apresentou bons resultados para contrações isométricas e a combinação de contrações com diferentes níveis de alongamento, ou encurtamento, a uma mesma velocidade. A principal contribuição deste modelo é a capacidade de representar a resposta associada à fadiga muscular e o ganho, ou perda de força, observados experimentalmente. / This work present a striated skeletal muscle numerical characterization subjected to different contractions. From the physiological contraction mechanism of the skeletal muscle tissue the force produced in different kinds of contraction (isometric, concentric and eccentric), and their combination, are presented. The numerical representation of these response was investigated by different authors. From the diverse models found in literature, some were selected to be studied according to their representation capability and the implementation ease in numerical methods for large strains. The models available in literature were implemented and evaluated for different contractions combinations and a parameter identification for experimental results of two isometric contraction and a isometric-eccentric-isometric contraction. None of the proposed models presented satisfactory results. The main deficiency of these models were the incapability of reproducing the loading history dependence, in other words, the contraction combination. In this way, a new material model was proposed and implemented to uniaxial and tridimensional finite element method tests. From these, different contractions sequences evaluated the proposed model representation capabilities. The proposed model present good results to isometric contraction, as well as contraction combination with different stretch, or shortening, level in the same speed. The main contribution of this model is the capability of represent the the response associated to the muscle fatigue and the force gain or loss, experimentally observed.

Contração muscular

Métodos numéricos

Comportamento mecânico

Muscle contraction

Isometric contraction

Concentric contraction

Eccentric contraction

Development and evaluation of vibration apparatus and method for neuromuscular stimulation

Pujari, Amit Narahar

January 2016

Vibration stimulation has been used as a tool to relieve muscle pain and spasm in physical therapy for many years. However recently, vibration, mainly Whole Body Vibration (WBV), has been increasingly studied and used as an exercise intervention in sports and rehabilitation. Although the physiological mechanisms which guide the body's response to this exercise modality are relatively poorly understood, evidence indicates that vibration can enhance muscle strength, power, and flexibility as well as increase bone mineral density in the general population. Evidence also suggests that the neuromuscular response to vibration stimulation depends on muscle length, stretch level (contraction) along with the vibration characteristics. One way to alter muscle length and contraction levels while receiving vibration is to superimpose the stimulation on graded isometric contraction. However, current WBV device designs cannot facilitate the delivery of vibration stimulation superimposed on graded isometric voluntary contraction. The aim of this PhD project was twofold, firstly to develop and evaluate a prototype WBV device which enables the delivery of vibration stimulation that can be superimposed on graded isometric contraction and secondly, to assess the neuromuscular responses to vibration superimposed on graded isometric contractions in lower limbs using this device. Due to the novelty of the device design and the method of the delivery, this study initially investigated the effects of different vibration frequencies and amplitudes combined with various effort levels on neuromuscular responses in lower limbs. The results of this study confirm that isometric contraction superimposed on vibration stimulation induce enhanced neuromuscular activity in the lower limbs. The results also confirm that although the neuromuscular responses to vibration depend on multiple factors the main determinants seem to be the vibration frequency, amplitude and muscle contraction /forc The results also confirm that although the neuromuscular responses to vibration depend on multiple factors the main determinants seem to be the vibration frequency, amplitude and muscle contraction /force level. Another limitation of most existing vibration devices is that they are not capable of delivering frequency of the vibration independent of amplitude and vice versa. Further, the evidence suggests that vibration amplitude can play an important role in neuromuscular response to vibration, especially when superimposed with graded contraction/force levels. To address the above limitation, the second aim of this PhD project was to develop and evaluate a prototype miniature upper limb vibration device capable of delivering precise and independent vibration frequency and amplitude stimulation. The miniature upper limb vibration (ULV) device with piezo actuators developed for this thesis, enables precise vibration stimulation to be delivered in a seated position with graded voluntary contraction superimposed. The neuromuscular responses to vibration superimposed on graded isometric contractions in upper limbs were also assessed by investigating the fatiguing effects of superimposed vibration stimulation using this newly developed device. This study is the first to investigate and compare the fatiguing effects of superimposed vibration stimulation pre and postvibration exercise in upper limbs. The results of this study confirm that isometric contraction superimposed on vibration stimulation lead to increased fatigue levels and neuromuscular activity in upper limbs. The results also indicate that post-vibration treatment the muscles display enhanced force generation capability associated with lower fatigue levels. In summary, two (WBV and ULV) novel vibration exercise devices were successfully developed and evaluated for this thesis. The results of the studies on these devices confirm that vibration stimulation superimposed on graded isometric contraction can induce higher neuromuscular activity compared to isometric contraction alone in both upper and lower limbs. However the effects of vibration frequency, amplitude and contraction/force levels seem to differ between the upper and lower limbs.

616.7

Vibration ; Muscle contraction

Excitation-contraction coupling in the rat anococcygeus muscle

Saint, David Albert

January 1982

Smooth muscles as a group exhibit great diversity of pharmacological and physiological properties. This makes it impossible to produce any but extremely generalised schemes for smooth muscle contractile mechanisms. However, knowledge of the detailed physiology and pharmacology of specific types of smooth muscle has been growing at an increasing rate, especially regarding vascular and visceral muscles. The rat anococcygeus muscle has, however, been investigated little. This work describes the excitation- contraction coupling mechanism in this preparation. The rat anococcygeus muscle was found to contract to all three of the agonists used (noradrenaline, acetylcholine and potassium chloride). In the first section of this work the properties of these contractions were investigated. It was found that the contractions induced by each agonist exhibited different pharmacological properties, (with regard to low calcium, sodium nitroprusside, verapamil, Stellazine and theophylline). This can be taken as an indication that the different agonists use different activation pathways. Electrophysiological studies showed that the membrane potential per se is not important in the regulation of contraction. (ie. the depolarisation produced by an agonist is not simply related to the tension produced ). KC1 produces the greatest change in membrane potential (from -55mV to -20mV for a maximal dose), but produces the least rise in tension of the three agonists. Evidence from other preparations and the results of the experiments with Stellazine suggest that the rise in tension produced by the agonists is not simply related to the rise in intracellular calcium concentration, but that some amplification of the response occurs. The way in which the agonists produce this amplification of the response is suggested as being related to changes in the levels of the cyclic nucleotides, cAMP and cGMP within the cells. It was found that the agonists did not substantially affect cAMP levels, but that all three reduced cGMP levels by varying amounts. The ratio of the levels of cAMP/cGMP produced by activation with each agonist correllates very well with the tension produced. This suggests that the ratio cAMP/cGMP is important in the regulation of contractility in this muscle. However, doubt is cast upon this theory by the results of experiments using sodium nitroprusside (NP). It was found that NP (2 X 10-7M) caused a pronounced change in the ratio cAMP/cGMP (by increasing cGMP levels ), but only a small change in tension (so that the tension in these experiments does not correllate well with the ratio cAMP/cGMP). In order to retain the hypothesis that cyclic nucleotides are important in the regulation of contractility in this preparation, it is proposed that some form of compartmentalisation of the cyclic nucleotide changes occurs within the cells.

QP321.S2 ; Muscle contraction

Muscle stiffness and soreness following exercise

McGlynn, Fraser Gillies

January 1997

It is in the best interests of sportsmen and sportswomen to try to avoid muscle stiffness and soreness. Apart from the discomfort experienced, muscle stiffness and soreness can cause unnecessary interruptions to training, may lead to injury and will reduce performance. Changes in muscle tone were quantified in terms of the Resonant Frequency (squared) (RF2) and the Amplitude of Movement (AM) in response to an applied torque. Muscle soreness was measured at twelve sites on the arm. Study One investigated the effects of a single bout of eccentric exercise on muscle stiffness and muscle soreness. RF2 increased and AM decreased following exercise and reached a maximum and minimum, respectively, 24-48 hours post exercise (p < 0.01). Muscle soreness also reached a peak 24-48 hours post-exercise (p < 0.01). Greatest soreness was in the biceps brachii and in the proximal ends of the brachioradialis and the flexor carpi radialis (p < 0.01). Voluntary extension was more painful than voluntary flexion following eccentric exercise. Study Two investigated the effect of performing two subsequent exercise bouts (EX1 and EX2), each separated by six days and an adaptation was observed. Each of the variables measured (RF2, AM, Soreness, Creatine Kinase, Limb Girth) showed a reduced response following EX2 when compared to the results of EX1 (p < 0.01). The resting angle of elbow flexion appeared to decrease following exercise. Study Three investigated the effect of muscle soreness on motor performance. The ability to perform a simple perception test was not affected while suffering from muscle soreness. The eccentric exercise is thought to cause damage to the connective tissue and muscle cell membrane leading to a build-up of fluid around the joint. This increased edema may explain the increase in muscle stiffness observed. Further research is required to determine whether changes in muscle tone are also observed following isometric and concentric exercise.

QP321.M5 ; Muscle contraction

Estudo da representação numérica do comportamento mecânico de músculos esqueléticos sujeitos à combinação de diferentes tipos de contrações / A study of the numeric skeletal muscle mechanical representation subjected to different contractions

Lagemann, Frederico

January 2015

Esta dissertação apresenta um estudo da caracterização numérica do comportamento mecânico de um músculo esquelético estriado sujeito à combinação de diferentes contrações. A partir dos mecânismos fisiológicos da contração do tecido muscular esquelético, são apresentadas as principais características da produção de força do músculo em diferentes tipos de contrações (isométrica, concêntrica, excêntrica) e suas combinações. A representação numérica da resposta mecânica do músculo esquelético foi investigada por diferentes autores. Dos diversos modelos encontrados na literatura, alguns foram escolhidos para a continuidade deste estudo, segundo sua capacidade representativa e facilidade de implementação em métodos numéricos de solução para grandes deformações. Os modelos disponíveis na literatura foram implementados e avaliados para diferentes sequências de contrações, sendo também realizado um ajuste de parâmetros para dados experimentais de contrações isométricas e isométricas-excêntricas-isométricas. Nenhuma das propostas avaliadas apresentou resultados satisfatórios. A principal deficiência dos modelos foi a incapacidade de reproduzir a dependência do histórico de carregamentos, ou seja, da combinação de contrações. Desta maneira, uma nova proposta de modelo constitutivo foi desenvolvida e implementada para testes uniaxiais e em um código de elementos finitos para testes tridimensionais. A partir destas implementações, foram executados testes numéricos para diferentes sequências de contrações, avaliando a capacidade representativa do modelo proposto neste trabalho. O modelo proposto apresentou bons resultados para contrações isométricas e a combinação de contrações com diferentes níveis de alongamento, ou encurtamento, a uma mesma velocidade. A principal contribuição deste modelo é a capacidade de representar a resposta associada à fadiga muscular e o ganho, ou perda de força, observados experimentalmente. / This work present a striated skeletal muscle numerical characterization subjected to different contractions. From the physiological contraction mechanism of the skeletal muscle tissue the force produced in different kinds of contraction (isometric, concentric and eccentric), and their combination, are presented. The numerical representation of these response was investigated by different authors. From the diverse models found in literature, some were selected to be studied according to their representation capability and the implementation ease in numerical methods for large strains. The models available in literature were implemented and evaluated for different contractions combinations and a parameter identification for experimental results of two isometric contraction and a isometric-eccentric-isometric contraction. None of the proposed models presented satisfactory results. The main deficiency of these models were the incapability of reproducing the loading history dependence, in other words, the contraction combination. In this way, a new material model was proposed and implemented to uniaxial and tridimensional finite element method tests. From these, different contractions sequences evaluated the proposed model representation capabilities. The proposed model present good results to isometric contraction, as well as contraction combination with different stretch, or shortening, level in the same speed. The main contribution of this model is the capability of represent the the response associated to the muscle fatigue and the force gain or loss, experimentally observed.

Contração muscular

Métodos numéricos

Comportamento mecânico

Muscle contraction

Isometric contraction

Concentric contraction

Eccentric contraction

Estudo da representação numérica do comportamento mecânico de músculos esqueléticos sujeitos à combinação de diferentes tipos de contrações / A study of the numeric skeletal muscle mechanical representation subjected to different contractions

Lagemann, Frederico

January 2015

Esta dissertação apresenta um estudo da caracterização numérica do comportamento mecânico de um músculo esquelético estriado sujeito à combinação de diferentes contrações. A partir dos mecânismos fisiológicos da contração do tecido muscular esquelético, são apresentadas as principais características da produção de força do músculo em diferentes tipos de contrações (isométrica, concêntrica, excêntrica) e suas combinações. A representação numérica da resposta mecânica do músculo esquelético foi investigada por diferentes autores. Dos diversos modelos encontrados na literatura, alguns foram escolhidos para a continuidade deste estudo, segundo sua capacidade representativa e facilidade de implementação em métodos numéricos de solução para grandes deformações. Os modelos disponíveis na literatura foram implementados e avaliados para diferentes sequências de contrações, sendo também realizado um ajuste de parâmetros para dados experimentais de contrações isométricas e isométricas-excêntricas-isométricas. Nenhuma das propostas avaliadas apresentou resultados satisfatórios. A principal deficiência dos modelos foi a incapacidade de reproduzir a dependência do histórico de carregamentos, ou seja, da combinação de contrações. Desta maneira, uma nova proposta de modelo constitutivo foi desenvolvida e implementada para testes uniaxiais e em um código de elementos finitos para testes tridimensionais. A partir destas implementações, foram executados testes numéricos para diferentes sequências de contrações, avaliando a capacidade representativa do modelo proposto neste trabalho. O modelo proposto apresentou bons resultados para contrações isométricas e a combinação de contrações com diferentes níveis de alongamento, ou encurtamento, a uma mesma velocidade. A principal contribuição deste modelo é a capacidade de representar a resposta associada à fadiga muscular e o ganho, ou perda de força, observados experimentalmente. / This work present a striated skeletal muscle numerical characterization subjected to different contractions. From the physiological contraction mechanism of the skeletal muscle tissue the force produced in different kinds of contraction (isometric, concentric and eccentric), and their combination, are presented. The numerical representation of these response was investigated by different authors. From the diverse models found in literature, some were selected to be studied according to their representation capability and the implementation ease in numerical methods for large strains. The models available in literature were implemented and evaluated for different contractions combinations and a parameter identification for experimental results of two isometric contraction and a isometric-eccentric-isometric contraction. None of the proposed models presented satisfactory results. The main deficiency of these models were the incapability of reproducing the loading history dependence, in other words, the contraction combination. In this way, a new material model was proposed and implemented to uniaxial and tridimensional finite element method tests. From these, different contractions sequences evaluated the proposed model representation capabilities. The proposed model present good results to isometric contraction, as well as contraction combination with different stretch, or shortening, level in the same speed. The main contribution of this model is the capability of represent the the response associated to the muscle fatigue and the force gain or loss, experimentally observed.

Contração muscular

Métodos numéricos

Comportamento mecânico

Muscle contraction

Isometric contraction

Concentric contraction

Eccentric contraction

Análise eletromiográfica do músculo trapézio submetido a aplicação da acupuntura / Electromyographic analysis of muscle trapezius submitted application of acupuncture

Marques, Cristhyano Pimenta, 1981-

08 September 2012

Orientador: Fausto Bérzin / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Odontologia de Piracicaba / Made available in DSpace on 2018-08-21T07:47:29Z (GMT). No. of bitstreams: 1 Marques_CristhyanoPimenta_M.pdf: 1436980 bytes, checksum: e41a9812f77cbf93a7e9225b7fd352c6 (MD5) Previous issue date: 2012 / Resumo: O objetivo deste trabalho foi analisar a atividade eletromiográfica da parte descendente do músculo trapézio, submetidos à aplicação da acupuntura sistêmica nos pontos o LI4 (Hegu), LI11 (Quchi), ST36 (Zusanli), LR3 (Taichong), no repouso e durante a contração isométrica voluntária máxima (CIVM), antes e imediatamente após a aplicação da acupuntura. Amostra foi composta por 26 voluntários (10 do gênero masculino e 16 do gênero feminino) assintomáticos (obtido através de um questionário e exame físico) com idade entre 18 e 30 anos, divididos em três grupos: G1MS que recebeu acupuntura nos pontos o LI4 (Hegu), LI11 (Quchi), composta de 8 voluntários, G2MI recebeu acupuntura nos pontos ST36 (Zusanli), LR3 (Taichong), composta por 8 voluntários e o G3MSI que recebeu acupuntura nos pontos o LI4 (Hegu), LI11 (Quchi), ST36 (Zusanli ), LR3 (Taichong), com 10 voluntários. Este estudo foi aprovado pelo Comitê de Ética e Pesquisa (CEP) da Faculdade Atenas com protocolo 004/2011. A coleta de dados foi realizada utilizando-se eletrodo de superfície diferencial simples com ganho de 20 vezes e registrada através de um eletromiógrafo. O sinal eletromiográfico bruto foi quantificado pela Raiz Quadrada da Média (Root Mean Square - RMS) e a FMED (Frequência Mediana). Os sinais eletromiográficos foram submetidos a um filtro passa-alta de 20 Hz e passa-baixa de 500 Hz e a frequência de amostragem utilizada foi de 2000 Hz por canal. Os dados foram submetidos a análise estatística não paramétrica, empregando-se teste Wilcoxon. Comparando os valores médios de RMS bruto do músculo trapézio parte descendente foram observadas reduções significativas (p<0,05) entre situações de repouso para o trapézio parte descendente direito (TD) do G1MS e para o trapézio parte descendente esquerdo (TE) do G2MI, para a CIVM no trapézio parte descendente direito (TD) do G1MS. A FMED se mostrou significativa para o repouso do (TE) do G2MI apresentando -se aumentada e para a CIVM do (TE) como uma redução, não houve diferenças significativas (p>0,05) entre as demais variáveis estudadas. De acordo com a metodologia empregada e análise dos resultados deste estudo, conclui-se que a acupuntura sistêmica é capaz de provocar alterações da atividade eletromiográfica do músculo trapézio parte descendente na condição de repouso e CIMV para as combinações de pontos investigados neste estudo / Abstract: The objective of this study was to analyze the electromyographic activity of the descending part of the trapezius muscle undergoing systemic application of acupuncture points in the LI4 (Hegu), LI11 (Quchi), ST36 (Zusanli), LR3 (Taichong), at rest and during voluntary isometric contraction (MVIC) before and immediately after application of acupuncture. Sample consisted of 26 volunteers (10 males and 16 females) were asymptomatic (obtained through a questionnaire and physical examination) aged between 18 and 30 years, divided into three groups: G1MS the acupuncture points in the LI4 (Hegu), LI11 (Quchi), composed of eight volunteers, G2MI acupuncture points ST36 (Zusanli), LR3 (Taichong), composed of eight volunteers and G3MSI the acupuncture points in the LI4 (Hegu), LI11 (Quchi) ST36 (Zusanli), LR3 (Taichong), with 10 volunteers. This study was approved by the Ethics and Research (CER), School Athens Protocol 004/2011. Data collection was performed using a single differential surface electrode with a gain of 20 times and recorded by an electromyograph. The raw electromyographic signal was quantified by the Root Mean Square (Root Mean Square - RMS) and MF (median frequency). The signals were subjected to a high-pass filter of 20 Hz and low-pass and 500 Hz sampling frequency used was 2000 Hz per channel. The data were analyzed using nonparametric statistics, using the Wilcoxon test. Comparing the mean values of RMS rough descending part of the trapezius muscle were significant reductions (p <0.05) both at rest for the descending part of the right trapezius (TD) of G1MS and the descending part of the left trapezius (TE) of G2MI to the trapeze MVIC right descending part (TD) G1MS. The MF was significant for the home (TE) of G2MI presenting increased and the MVIC (TE) as a reduction, no significant differences (p> 0.05) among other variables. According to the methodology and analysis of the results of this study, it is concluded that acupuncture is capable of causing systemic changes electromyographic activity of the descending part of trapezius muscle at rest and CIMV for combinations of points investigated in this study / Mestrado / Anatomia / Mestre em Biologia Buco-Dental

Contração isométrica

Isometric contraction