Attenuation of pathological tremors by functional electrical stimulation II: Clinical evaluation

Javidan, Manouchehr; Elek, J.; Procházka, A.

doi:10.1007/bf02368522

Cited by 70 publications

(63 citation statements)

References 6 publications

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“…On the other hand, electrical systems were also used for tremor suppression as Javidan, Prochazkal, and Maneski suggested functional electrical stimulation (FES) as a method for tremor suppression [12][13][14]. In these studies, electrical motor stimulation (with the intensity greater than motor threshold) was applied to the muscles acting in the direction opposite to the joint movement.…”

Section: Introductionmentioning

confidence: 99%

Sensory electrical stimulation for suppression of postural tremor in patients with essential tremor

Heo

Kim

Kwon

et al. 2015

BME

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Abstract. Essential tremor is an involuntary trembling of body limbs in people without tremor-related disease. In previous study, suppression of tremor by sensory electrical stimulation was confirmed on the index finger. This study investigates the effect of sensory stimulation on multiple segments and joints of the upper limb. It denotes the observation regarding the effect's continuity after halting the stimulation. 18 patients with essential tremor (8 men and 10 women) participated in this study. The task, "arms stretched forward", was performed and sensory electrical stimulation was applied on four muscles of the upper limb (Flexor Carpi Radialis, Extensor Carpi Radialis, Biceps Brachii, and Triceps Brachii) for 15 seconds. Three 3-D gyro sensors were used to measure the angular velocities of segments (finger, hand, and forearm) and joints (metacarpophalangeal and wrist joints) for three phases of pre-stimulation (Pre), during-stimulation (On), and 5 minute poststimulation (P5). Three characteristic variables of root-mean-squared angular velocity, peak power, and peak power frequency were derived from the vector sum of the sensor signals. At On phase, RMS velocity was reduced from Pre in all segments and joints while peak power was reduced from Pre in all segments and joints except for forearm segment. Sensory stimulation showed no effect on peak power frequency. All variables at P5 were similar to those at On at all segments and joints. The decrease of peak power of the index finger was noted by 90% during stimulation from that of On phase, which was maintained even after 5 min. The results indicate that sensory stimulation may be an effective clinical method to treat the essential tremor.

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Section: Introductionmentioning

confidence: 99%

Sensory electrical stimulation for suppression of postural tremor in patients with essential tremor

Heo

Kim

Kwon

et al. 2015

BME

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“…This resembled a notch filter at the selected frequency, which was selected in accordance to that expected for the different types of tremor [2,7]. However, in [7], the assumed frequency was not corrected during the experiments, which might be problematic given that the characteristics of tremor vary depending on the conditions (as the authors mentioned in the report of the experimental validation [8]). A conceptually identical strategy, but with frequency adaptation was implemented and successfully validated in a recent work [10].…”

Section: Tremor Suppression Strategymentioning

confidence: 99%

“…Neuroprostheses (NPs) may be regarded as a special type of wearable orthoses, in which actuators are replaced by neural interfaces that stimulate the affected muscles. In [7], the authors proposed the first design of a table-mounted NP for tremor suppression, which provided a significant improvement [8] of the major types of tremor. In spite of the successful results it attained, a number of aspects should be improved to facilitate its translation into a product that improves the patients' quality of life, mainly: i) the NP should ideally be wearable system, and ii) the NP should adapt the stimulation it delivers to the ongoing characteristics of the tremor (mainly its severity).…”

Section: Introductionmentioning

confidence: 99%

Closed-Loop Modulation of a Notch-Filter Stimulation Strategy for Tremor Management with a Neuroprosthesis

et al. 2014

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Abstract-Tremor is the most common movement disorder, and one of the major causes of functional disability. In spite of the existence of various treatments, tremor is not managed effectively in a large number of patients, which make it a major cause of loss of quality of life. Here we present a novel strategy for tremor suppression through neurostimulation that replicates an adaptive notch-filter at the frequency of the tremor. The controller, which adapts the neurostimulation to the ongoing amplitude, frequency and phase of the tremor, is implemented in a wearable neuroprosthesis for tremor management. Experimental results in one patient with severe essential tremor illustrate the interest of the approach.

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“…The alternative to application of the exoskeleton for the suppression of tremor is to use functional electrical stimulation (FES), which would eliminate or minimize this abnormality. The first FES system that was designed to suppress tremor was proposed 20 years ago [6,15]. In this system, trains of lowlevel electrical current pulses activated wrist extensor and flexor muscles, while wrist joint flexion and extension were estimated from data collected by a displacement sensor.…”

Section: Introductionmentioning

confidence: 99%

Electrical stimulation for the suppression of pathological tremor

Maneski

Jorgovanović

Ilić

et al. 2011

Med Biol Eng Comput

105

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Pathological tremor is manifested as an involuntary oscillation of one or more body parts. Tremor greatly decreases the quality of life and often prevents the patient from performing daily activities. We hypothesized that sensors-driven multichannel electrical stimulation could stabilize affected joints by activating the antagonistic muscles during involuntary activation of agonist muscles and vice versa (out-of-phase stimulation). Here, we present the new system (hardware and software) and the testing of its operation. The hardware consists of a multichannel stimulator and inertial sensors for feedback. The software implements adaptive sensors-driven control for the out-of-phase stimulation. The system was initially applied to healthy persons at the wrist and elbow joints to test the efficiency of the hardware and software solutions. Predefined rhythmic stimulation resulted in tremulous movement, which subjects could not prevent; yet, they were still able to functionally use their hand. The system was then applied to seven patients with Parkinson's disease and essential tremor for minimization of the wrist joint tremor. In six patients, the adaptive out-of-phase stimulation resulted in a significant decrease in the amplitude of tremor (67 ± 13%). In one patient, the stimulation did not result in the expected reduction of tremor.

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Attenuation of pathological tremors by functional electrical stimulation II: Clinical evaluation

Cited by 70 publications

References 6 publications

Sensory electrical stimulation for suppression of postural tremor in patients with essential tremor

Sensory electrical stimulation for suppression of postural tremor in patients with essential tremor

Closed-Loop Modulation of a Notch-Filter Stimulation Strategy for Tremor Management with a Neuroprosthesis

Electrical stimulation for the suppression of pathological tremor

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