Modulation of Stretch Reflexes During Imposed Walking Movements of the Human Ankle

Modulation of stretch reflexes during imposed walking movements of the human ankle. Our overall objectives were to examine the role of peripheral afferents from the ankle in modulating stretch reflexes during imposed walking movements and to assess the mechanical consequences of this reflex activity. Specifically we sought to define the changes in the electromyographic (EMG) and mechanical responses to a stretch as a function of the phase of the step cycle. We recorded the ankle position of a normal subject walking on a treadmill at 3 km/h and used a hydraulic actuator to impose the same movements on supine subjects generating a constant level of ankle torque. Small pulse displacements, superimposed on the simulated walking movement, evoked stretch reflexes at different phases of the cycle. Three major findings resulted: 1) soleus reflex EMG responses were influenced strongly by imposed walking movements. The response amplitude was substantially smaller than that observed during steady-state conditions and was modulated throughout the step cycle. This modulation was qualitatively similar to that observed during active walking. Because central factors were held constant during the imposed walking experiments, we conclude that peripheral mechanisms were capable of both reducing the amplitude of the reflex EMG and producing its modulation throughout the movement. 2) Pulse disturbances applied from early to midstance of the imposed walking cycle generated large reflex torques, suggesting that the stretch reflex could help to resist unexpected perturbations during this phase of walking. In contrast, pulses applied during late stance and swing phase generated little reflex torque. 3) Reflex EMG and reflex torque were modulated differently throughout the imposed walking cycle. In fact, at the time when the reflex EMG response was largest, the corresponding reflex torque was negligible. Thus movement not only changes the reflex EMG but greatly modifies the mechanical output that results.

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The role of joint biomechanics in determining stretch reflex latency at the normal human ankle

Experimental Brain Research ◽

10.1007/bf00250575 ◽

1989 ◽

Vol 77 (1) ◽

Cited By ~ 25

Author(s):

S.J. Fellows ◽

A.F. Thilmann

Keyword(s):

Stretch Reflex ◽

Reflex Latency ◽

Human Ankle ◽

Joint Biomechanics ◽

Normal Human

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Nonlinear behavior of muscle reflexes at the human ankle joint

Journal of Neurophysiology ◽

10.1152/jn.1995.73.1.65 ◽

1995 ◽

Vol 73 (1) ◽

pp. 65-72 ◽

Cited By ~ 92

Author(s):

R. B. Stein ◽

R. E. Kearney

Keyword(s):

Ankle Joint ◽

Stretch Reflex ◽

Maximum Voluntary Contraction ◽

Voluntary Contraction ◽

Voluntary Activation ◽

Random Perturbations ◽

Hydraulic Actuator ◽

Voluntary Activity ◽

Highly Nonlinear ◽

Human Ankle

1. Pulse inputs (similar to tendon jerks) were applied to the human ankle joint with the use of a hydraulic actuator. Inputs of only 1-2 degrees could elicit large responses (> 20% of maximum voluntary contraction). The magnitude of the response depended nonlinearly on a number of factors: the amplitude, direction, and duration of the pulse; the angle of the ankle; and the level of voluntary activation of the ankle muscles. 2. Pulses that flexed or extended the ankle could both produce reflex torques in the same direction (extensor torque). Although an extension of the ankle did not itself produce a response, it could affect the response to a subsequent flexion for up to 1 s. 3. The influence of random perturbations on the stretch reflex at the ankle was assessed. Responses to pulse displacements alone and to pulses superimposed on random perturbations were compared at the same level of voluntary activity. Reflex responses decreased in a graded manner with increasing amplitude or bandwidth of the random perturbations. 4. These results demonstrate that stretch reflexes can generate substantial torques, but in a highly nonlinear manner. In particular, passive joint movements markedly alter stretch reflex gain, and these changes must be considered in interpreting the functional significance of reflex actions.

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Statistical Considerations When Assessing Short Latency Stretch Reflexes in the Human Soleus Muscle

Motor Control ◽

10.1123/mc.2013-0095 ◽

2015 ◽

Vol 19 (4) ◽

pp. 253-270 ◽

Cited By ~ 3

Author(s):

Asger Roer Pedersen ◽

Peter William Stubbs ◽

Jørgen Feldbæk Nielsen

Keyword(s):

Ankle Joint ◽

Soleus Muscle ◽

Stretch Reflex ◽

Short Latency ◽

Response Magnitude ◽

Variance Heterogeneity ◽

Stretch Reflexes ◽

Response Characteristics ◽

Normally Distributed

The aim was to investigate trial-by-trial response characteristics in the short-latency stretch reflex (SSR). Fourteen dorsiflexion stretches were applied to the ankle joint with a precontracted soleus muscle on 2 days. The magnitude and variability of trial-by-trial responses of the SSR were assessed. The SSR was log-normally distributed and variance heterogeneous between subjects. For some subjects, the magnitude and variance differed between days and stretches. As velocity increased, variance heterogeneity tended to decrease and response magnitude increased. The current study demonstrates the need to assess trial-by-trial response characteristics and not averaged curves. Moreover, it provides an analysis of SSR characteristics accounting for log-normally distributed and variance heterogeneous trial-by-trial responses.

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Baclofen increases the soleus stretch reflex threshold in the early swing phase during walking in spastic multiple sclerosis patients

Multiple Sclerosis Journal ◽

10.1177/135245850000600209 ◽

2000 ◽

Vol 6 (2) ◽

pp. 105-114 ◽

Cited By ~ 19

Author(s):

Jørgen F Nielsen ◽

Jacob B Anderson ◽

Thomas Sinkjær

Keyword(s):

Multiple Sclerosis ◽

Stretch Reflex ◽

Swing Phase ◽

Modulation Index ◽

Emg Activity ◽

Walking Performance ◽

Linear Fit ◽

Reflex Threshold ◽

Multiple Sclerosis Patients ◽

Velocity Input

The effect of baclofen on walking performance was examined in nine spastic multiple sclerosis patient. In addition, nine healthy subjects were tested as controls. The modulation of the short latency soleus stretch reflex was closer to normal with baclofen compared to the recordings without baclofen, the modulation index being 74% (range: 60-100) with baclofen and 62% (range: 20 -100) without baclofen, P=0.03. In healthy subject the modulation index was 100% (range: 52 -100). In the early swing phase the threshold of the soleus stretch reflex was significantly higher during baclofen medication being 139 degls (range: 63 -302) compared with 93 degls (range: 37-187) with out baclofen, P=0.004. The relation between the stretch velocity (input) and the amplitude of the stretch reflex (output) in early swing phase was unchanged being 0.27 μVs/deg (range: 0.1-1.51) in patient with baclofen and 0.24 μVs/deg (range: 0.08-0.79) without baclofen, P=0.25. Baclofen induced no change in input-output properties of the stretch reflex during walking compared with findings in a sitting position at matched EMG activity. There was a significant correlation between clinical spasticity score and stretch reflex threshold in the early swing phase (p=-0.61, P=0.04) and between clinical spasticity score and the slope of the best linear fit in the early swing phase (p=0.72, P=0.009).

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ROLE OF HAMSTRING MUSCLES IN KNEE JOINT STABILITY PROVIDING AND INJURY PREVENTION

SOCIETY INTEGRATION EDUCATION Proceedings of the International Scientific Conference ◽

10.17770/sie2016vol3.1469 ◽

2016 ◽

Vol 3 ◽

pp. 522

Author(s):

Inese Pontaga

Keyword(s):

Stance Phase ◽

Knee Extension ◽

Swing Phase ◽

Joint Stability ◽

Distance Runners ◽

Leg Extension ◽

Hamstring Muscles ◽

Extreme Extension ◽

Torque Values

The aim of our investigation was to determine the ratio of maximal torque values and the torques in the certain positions of range of movements (ROM) between hamstring (H) and quadriceps femoris (Q) muscles at medium and high velocity of movement in concentric (CC) and eccentric (ECC) action of hamstring muscles. The knee muscles of 15 amateur female short and middle distance runners were tested by the dynamometer system in the isokinetic movements with the angular velocity of 90º/s and 240º/s in CC and at the velocity of 90º/s in ECC H/ CC Q muscles contractions. The torque values produced by the muscles are detected at the different angular positions of the ROM with the step of 10º. The ratios of H/ Q muscles torques are calculated. The H/Q muscles maximal torques ratio is 0.51 ± 0.13 at the velocity of 90º/s in CC and 0.60 ± 0.09 in ECC H/ CC Q muscles contractions, and 0.59 ± 0.09 CC at the velocity of 240º/s. The H/Q maximal torques ratio and this ratio in the knee extreme extension and flexion at the ECC contraction of H is higher due to greater torques produced by the H in comparison with Q muscle. The H must be stronger to decelerate the thigh and lower leg extension in the late swing phase of running and to extend the hip in early stance phase to provide powerful sprint running and prevent the knee and H injury. The H/Q muscles torques ratio in extended knee positions are similar in medium (90º/s) and fast (240º/s) velocity of motions because CC action of H muscles cannot prevent extreme knee extension.

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Mechanics of the human femoral adventitia including the high-pressure response

AJP Heart and Circulatory Physiology ◽

10.1152/ajpheart.00397.2001 ◽

2002 ◽

Vol 282 (6) ◽

pp. H2427-H2440 ◽

Cited By ~ 97

Author(s):

Christian A. J. Schulze-Bauer ◽

Peter Regitnig ◽

Gerhard A. Holzapfel

Keyword(s):

High Pressures ◽

Energy Functions ◽

Mean Values ◽

Mechanical Responses ◽

Strongly Nonlinear ◽

Pressure Load ◽

Nonlinear Mechanical ◽

Load Carrying

Adventitial mechanics were studied on the basis of adventitial tube tests and associated stress analyses utilizing a thin-walled model. Inflation tests of 11 nonstenotic human femoral arteries (79.3 ± 8.2 yr, means ± SD) were performed during autopsy. Adventitial tubes were separated anatomically and underwent cyclic, quasistatic extension-inflation tests using physiological pressures and high pressures up to 100 kPa. Associated circumferential and axial stretches were typically <20%, indicating “adventitiosclerosis.” Adventitias behaved nearly elastically for both loading domains, demonstrating high tensile strengths (>1 MPa). The anisotropic and strongly nonlinear mechanical responses were represented appropriately by two-dimensional Fung-type stored-energy functions. At physiological pressure (13.3 kPa), adventitias carry ∼25% of the pressure load in situ, whereas their circumferential and axial stresses were similar to the total wall stresses (∼50 kPa in both directions), supporting a “uniform stress hypothesis.” At higher pressures, they became the mechanically predominant layer, carrying >50% of the pressure load. These significant load-carrying capabilities depended strongly on circumferential and axial in-vessel prestretches (mean values: 0.95 and 1.08). On the basis of these results, the mechanical role of the adventitia at physiological and hypertensive states and during balloon angioplasty was characterized.

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The Role of the Passive Structures in the Mobility and Stability of the Human Ankle Joint: A Literature Review

Foot & Ankle International ◽

10.1177/107110070002100715 ◽

2000 ◽

Vol 21 (7) ◽

pp. 602-615 ◽

Cited By ~ 78

Author(s):

Alberto Leardini ◽

John J. O'Connor ◽

Fabio Catani ◽

Sandro Giannini

Keyword(s):

Literature Review ◽

Ankle Joint ◽

Human Ankle

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Stretch Reflex Latencies in Spastic Hemiparetic Subjects are Prolonged After Transcutaneous Electrical Nerve Stimulation

Canadian Journal of Neurological Sciences / Journal Canadien des Sciences Neurologiques ◽

10.1017/s0317167100047636 ◽

1993 ◽

Vol 20 (2) ◽

pp. 97-106 ◽

Cited By ~ 29

Author(s):

Christina W.Y. Hui-Chan ◽

Mindy F. Levin

Keyword(s):

Nerve Stimulation ◽

Transcutaneous Electrical Nerve Stimulation ◽

Stretch Reflex ◽

Time Course ◽

Dorsal Column ◽

Electrical Nerve Stimulation ◽

Reflex Excitability ◽

Reflex Threshold ◽

Repetitive Electrical Stimulation

ABSTRACT:Low-intensity repetitive electrical stimulation such as dorsal column and transcutaneous electrical nerve stimulation (TENS) reportedly decreases spasticity and improves voluntary motor control. However, the mechanisms mediating these effects are unclear. Recent findings suggest that spasticity may be characterized more appropriately by a decrease in the stretch reflex threshold than by an increase in gain. Our objectives were: (1) to examine possible changes in stretch reflex excitability following 45 min of TENS, (2) to map out the time course of possible post-stimulation effects via both latency and magnitude (amplitude or area) measurements, and (3) to determine the role of segmental versus non-segmental mechanisms involved in mediating these changes. The effects of 45 min of segmentally and heterosegmentally applied TENS on lower limb reflexes in ten spastic hemiparetic subjects were contrasted with those resulting from placebo stimulation. We found that both segmentally and heterosegmentally applied TENS caused an immediate increase in soleus H reflex latencies that was evident for up to 60 minutes post-stimulation in over 75% of the subjects. Similar increases for up to 60 and 40 minutes post-stimulation was noted for the stretch reflex latencies in 50% and 67% of the subjects respectively for segmental and heterosegmental stimulation. These results suggested that manipulation of segmental and heterosegmental afférents for 45 min may lead to a decrease of the otherwise augmented stretch reflex excitability accompanying hemiparetic spasticity.

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