Tremor Reduction at the Palm of a Parkinson’s Patient Using Dynamic Vibration Absorber

Gebai, Sarah; Hammoud, Mohammad; Hallal, Ali; Khachfe, Hassan

doi:10.3390/bioengineering3030018

Cited by 17 publications

(7 citation statements)

References 13 publications

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“…For low damping coefficients, the reduction is higher. This was proved by Gebai et al, where the effect of the variation of damping coefficient of a conventional absorber on the percentage of reduction in the flexion angular displacement and similar results were studied. The study shows that as the damping coefficient decreases, the percentage of reduction increases but with a decrease in the yielding and fatigue safety factors of the absorber's beam.…”

Section: Resultsmentioning

confidence: 65%

“…The same strategy used by, based on the Dunkerley's semi‐empirical formulation, is followed to size the absorber. The effect of the absorber's mass (total mass and mass distribution) and damping coefficient on the reduction in the flexion angular motion at the upper limb's joint is still under study.…”

Section: Design and Formulationmentioning

confidence: 99%

“…The dynamic equations of motion of the upper limb controlled by the SEVD are derived using the non‐Lagrangian formulation as detailed in . The SEVD is attached to cause the reduction in the flexion motion amplitude at different joints.…”

Section: Design and Formulationmentioning

confidence: 99%

“…The series elastic viscous damper (SEVD) absorber proved its effectiveness over the conventional SDOF absorber (spring and damper connected in parallel) having the same total mass. Gebai et al studied the effect of the damping ratio of a conventional parallel dual absorber on the reduction in the percentage of tremor amplitude and the safety factor of the absorber. These absorbers were attached to a three DOF upper limb system designed previously .…”

Section: Introductionmentioning

confidence: 99%

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Parametric study of an enhanced passive absorber used for tremor suppression

Gebai

Hammoud

Khachfe

2018

Struct Control Health Monit

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Passive absorbers are designed to be attached to upper limb systems to reduce tremor of patients suffering from Parkinson's disease. Several works were done previously to show the effectiveness of the low cost passive controllers, which can reduce the undesired vibrations without power requirements. An improved type of such controllers is suggested in this paper. The mechanical absorber is a two-degree-of-freedom (DOF) system, which is formed by an elastic absorber connected in series to a viscous damper one, naming the system the Series Elastic Viscous Damper (SEVD). It was able to cause a high reduction in the amplitude of the tremor and operate over a wide frequency range. The lumped parameters of each absorber within the SEVD absorber are chosen to satisfy the tuning conditions. The device is tested numerically on the forearm of a biodynamic upper limb structure to check its capability in reducing the tremor at the limb's proximal joints. The limb was modeled as rigid segments with a three DOF flexion-extension angular motion in the horizontal plane. This study seeks to analyze the effect of the SEVD damping coefficient, total mass, and mass distribution on the reduction of the displacement amplitude at the joints, with stiffness chosen to satisfy the tuning condition for the undesired frequency of tremor. It was found that very low damping coefficients are not suitable to provide reduction at all joints simultaneously; high absorber's total mass can slightly increase the performance and equally, distributed dual masses can be a good selection.Pharmacotherapy or neurosurgeries through Deep Brain Stimulation are the clinical treatments against such involuntary tremor. The prolonged use of these treatments may cause its deterioration and could leave severe side effects on the patient. In addition, not all patients can respond to these medications. [1] As an alternative solution to medication, involuntary tremor can be treated using mechanical solutions. Such solutions can treat Parkinsonism mechanically and avoid the fatigue, sleep, nausea, poor vision, and muscle paralysis side effects of medications. [3] Passive absorbers can be used to reduce the undesired vibration of the structures without the need of power requirements. In order to increase the effectiveness of the traditional conventional absorbers, Snowdon [4] designed a three-element absorber which is formed by a series connection between the damper and spring connected together in parallel to another spring element. This device showed to be more effective than the conventional absorber. Lavan [5] presented a multi-objective optimized tuned vibration absorber (TVA). It was able to minimize the response of the system with a minimized absorber's mass and stroke. Different configurations were proposed in order to increase the effectiveness of the single-degree-of-freedom (SDOF) absorbers. Snowdon et al. [6] introduced the idea of the two-degree-of-freedom (DOF) conventional parallel absorber. Brennan [7] studied the effect of the multi degree-of-freedom (...

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Section: Resultsmentioning

confidence: 65%

Section: Design and Formulationmentioning

confidence: 99%

Section: Design and Formulationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Parametric study of an enhanced passive absorber used for tremor suppression

Gebai

Hammoud

Khachfe

2018

Struct Control Health Monit

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“…In the current work, an experiment is conducted to study the ability of passive TMD in reducing the amplitude of complex types of signals, the PT signal, which can be modeled as a second-order non-linear Stochastic oscillator [16], Gaussian noise signal [17], etc. The passive TMD having mass, stiffness, and damper as the effective elements, is fabricated in the form of a Cantilever-type TMD, as the design suggested by Gebai et al [18]. However, in the current design, the beam has a circular cross-section as shown in Figure 3.…”

Section: Passive Tuned Mass Dampermentioning

confidence: 99%

Experimental Testing of Passive Linear TMD for Postural Tremor Attenuation

et al. 2021

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Research interest to provide a mechanical solution for involuntary tremors is increasing due to the severe side effects caused by the medications used to lessen its symptoms. This paper deals with the design of a cantilever-type tuned mass damper (TMD) used to prove the effectiveness of passive controllers in reducing the involuntary tremor’s vibrational signals transmitted by the muscles to the hand segment. TMD is tested on an experimental arm, reflecting the flexion-extension motion of the wrist, excited by a mechanical shaker with the measured tremor signal of a patient with essential tremor. The designed TMD provides a new operational frequency for each position of the screw fixed to its beam. Modal damping ratios are also calculated using different methods for each position. The effectiveness of the TMD is quantified by measurements using a vibrometer and inertial measurement unit. Three TMDs, representing 15.7% total mass ratio, cause a reduction of 29% for the acceleration, 69% for the velocity, 79% for the displacement, 67% for the angular velocity, and 82% for the angular displacement signals. These encouraging results will allow the improvement of the design of the passive controller in the form of a wearable bracelet suitable for daily life.

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