A Finite Element Model of the Electrically Stimulated Human Thigh: Changes due to Denervation and Training

Stickler, Yvonne; Martinek, Johannes; Höfer, Christian; Rattay, Frank

doi:10.1111/j.1525-1594.2008.00612.x

Cited by 15 publications

(11 citation statements)

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“…The second step describes the complex behavior of the axons' transmembrane potential (TP), which depends upon the spatiotemporal potential field along the axon [37]. Several two step models were proposed to describe TES [27,43,51]. However, these models exclusively employ static models (i.e.…”

Section: Introductionmentioning

confidence: 99%

A model for transcutaneous current stimulation: simulations and experiments

Kühn

Keller

Lawrence

et al. 2008

Med Biol Eng Comput

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Complex nerve models have been developed for describing the generation of action potentials in humans. Such nerve models have primarily been used to model implantable electrical stimulation systems, where the stimulation electrodes are close to the nerve (nearfield). To address if these nerve models can also be used to model transcutaneous electrical stimulation (TES) (farfield), we have developed a TES model that comprises a volume conductor and different previously published nonlinear nerve models. The volume conductor models the resistive and capacitive properties of electrodes, electrodeskin interface, skin, fat, muscle, and bone. The non-linear nerve models were used to conclude from the potential field within the volume conductor on nerve activation. A comparison of simulated and experimentally measured chronaxie values (a measure for the excitability of nerves) and muscle twitch forces on human volunteers allowed us to conclude that some of the published nerve models can be used in TES models. The presented TES model provides a first step to more extensive model implementations for TES in which e.g., multi-array electrode configurations can be tested. Keywords

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Section: Introductionmentioning

confidence: 99%

A model for transcutaneous current stimulation: simulations and experiments

Kühn

Keller

Lawrence

et al. 2008

Med Biol Eng Comput

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“…European Journal Translational Myology -Myology Reviews 1 (3): [91][92][93][94][95][96][97][98][99][100][101][102][103][104] 2010 -93 -behavior of denervated human muscle and his potential for reinnervation, establishing a dogma that continues to influence clinical managements of muscle denervation. Despite countless publications, new studies in animals and humans are enlightening several unrecognized characteristics and mechanisms of the complex processes that occur during permanent LMN denervation of muscle tissue.…”

Section: H-b Fes Of Denervated Muscle: Management and Monitoringmentioning

confidence: 99%

“…European Journal Translational Myology -Myology Reviews 1 (3): [91][92][93][94][95][96][97][98][99][100][101][102][103][104] 2010 -94 -anti-C and anti-N terminals [15]. Dystrophin glycoprotein complex dysfunction was demonstrated to occur in severely atrophic muscle fibers of cancer cachexia [1].…”

Section: H-b Fes Of Denervated Muscle: Management and Monitoringmentioning

confidence: 99%

“…Much of this has been excellently reviewed by Midrio [77] and Carlson [23]. In the medical literature other major issues are the neurodegenerative disorders, where partial muscle h-b FES of denervated muscle: management and monitoring European Journal Translational Myology -Myology Reviews 1 (3): [91][92][93][94][95][96][97][98][99][100][101][102][103][104] 2010 -92 -denervation and reinnervation occurs concomitantly to the muscle disease process [22,110]. The ethiopathogenic analyses of these processes are difficult since pathomechanisms of denervation ought to be distinguished from those of a progressively insufficient reinnervation [29].…”

mentioning

confidence: 99%

“…Small vessels showed larger than normal size and endothelial abnormalities with thickening/duplication of basal lamina. In the two h-b FES of denervated muscle: management and monitoring European Journal Translational Myology -Myology Reviews 1 (3): [91][92][93][94][95][96][97][98][99][100][101][102][103][104] 2010 -96 -subjects, who underwent several years of h-b FES, the vascular network appeared almost normalized in ultra structural morphology and number per fiber ratio [94]. Meantime light and electron microscopy analyses showed recovery of myofiber size and ultra structure with significant reduction of fatty infiltration.…”

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confidence: 99%

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Permanent LMN denervation of human skeletal muscle and recovery by h-b FES: management and monitoring

et al. 2010

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Denervation of a defined skeletal muscle is due to lower motor neuron (LMN) or peripheral nerve lesions that have major consequences on the muscle tissue. After early atrophy, the midand late-phases presents two very contrasting myofibers populations: beside those severely atrophic with internalized groups of myonuclei, large fast-type muscle fibers continue to be present 4 to 6 years after Spinal Cord Injury (SCI). Recent results of rat experiments provides the rational basis for understanding the residual functional characteristics of the long-term denervated muscle and the molecular explanation of its ability to respond to home-base functional electrical stimulation (h-b FES) using custom-designed electrodes and stimulators. Further outcomes of the Vienna-Padova ten-year collaboration are: 1. a world-unique MyoBank of muscle biopsies and 2. improved imaging procedures (Color Computer Tomography (CT) scan and Functional Echomyography), all demonstrating that h-b FES induces improvements in muscle contractility, tissue composition and mass, despite permanent LMN denervation. The benefits of h-b FES could be extended from patents suffering with complete Conus-Cauda Syndrome to the numerous patients with incomplete LMN denervation of skeletal muscles to determine whether h-b FES reduces secondary complications related to disuse and impaired blood perfusion (reduction in bone density, risk of bone fracture, decubitus ulcers, and pulmonary thromboembolism). We are confident that translation of the results of a clinical experiment, the EU Project RISE, to the larger cohort of incomplete LMN denervated muscles will provide the wanted results. Key Words: LMN denervation, human skeletal muscle, managements, monitorings, h-b FES, Color CT scan, ultra sonography, Functional Echomyography Lower motor neuron (LMN) muscle denervation is a major clinical and experimental problem that attracted attention of biologists, physiologists and of the medical community even before the modern scientific era. The major issues for decades have been the nature of the neurotrophic influence and the denervationreinnervation constrains. A principal query was whether there is a trophic function of the neuron that is distinct from its role in impulse conduction and transmission, the neurothrophic hypothesis, a concept suggested by the centuries-old question of Prochaska (1784), cited in Gutmann, 1962 [44]. Much of this has been excellently reviewed by Midrio [77] and Carlson [23]. In the medical literature other major issues are the neurodegenerative disorders, where partial muscle h-b FES of denervated muscle: management and monitoring European Journal Translational Myology -Myology Reviews 1 (3): [91][92][93][94][95][96][97][98][99][100][101][102][103][104] 2010 -92 -denervation and reinnervation occurs concomitantly to the muscle disease process [22,110]. The ethiopathogenic analyses of these processes are difficult since pathomechanisms of denervation ought to be distinguished from those of a progressively insufficient reinner...

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FES Modeling

Ojanguren¹

2018

Springer Theses

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A Finite Element Model of the Electrically Stimulated Human Thigh: Changes due to Denervation and Training

Cited by 15 publications

References 10 publications

A model for transcutaneous current stimulation: simulations and experiments

A model for transcutaneous current stimulation: simulations and experiments

Permanent LMN denervation of human skeletal muscle and recovery by h-b FES: management and monitoring

FES Modeling

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