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Examination of spinal column vibrations: a non-invasive approach (1988)

Hinz, Barbara ; Seidel, Helmut ; Bräuer, Dieter ; [et al.]

Springer

European journal of applied physiology 57 (1988), S. 707-713

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ISSN: 1439-6327

Keywords: Acceleration ; Bone ; Skin ; Spine ; Whole-body vibration

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Accelerations of vertebrae during whole-body vibration (WBV) are used in occupational biomechanics for the prediction of internal stress. To avoid invasive techniques, a method for the calculation of bone accelerations was developed using measurements on the skin. The soft tissue between spinous processes L3 and T5 and miniature accelerometers stuck to the skin over them was modelled by a simple Kelvin element, whose parameters i.e. angular natural frequencyω n4 and critical dampingζ describe an approximate transfer function between the bone (input) and the skin surface (output). The parameters were determined from free damped oscillations of the accelerometer-skin complex in the Z-axis, and depended significantly on the factors “subject” and “point of measurement”. In one subject, the time courses of bone accelerations during sinusoidal WBV (4.5 and 8 Hz; 1.5 m·s−2 RMS) were calculated using separate transfer functions for each of 11 different spinal levels. Since the output signals on the skin were non-sinusoidal, the skin accelerations had to be treated with an inverse transfer function in the frequency domain. A comparison of accelerations measured on the skin and predicted for the bone mainly indicates that absolute peak values of bone accelerations are smaller and occur earlier. Both kinds of acceleration hint at differences in WBV-induced internal stress within the spine.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01075992

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The relationship between the electromyogram-amplitude and isometric extension torques of neck muscles at different positions of the cervical spine (1994)

Queisser, Frank ; Blüthner, Ralph ; Bräuer, Dieter ; [et al.]

Springer

European journal of applied physiology 68 (1994), S. 92-101

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ISSN: 1439-6327

Keywords: Neck muscles ; Isometric ; Motor endplates ; Root mean square-torque relationship ; Cervical spine position ; Normalization

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract A group of 12 healthy men volunteered for the experiment. Electromyograms (EMG) were obtained from semispinalis capitis, splenius capitis, levator scapulae, and trapezius muscles. The flexion angle of the cervical spine was precisely adjusted to 0°, 10°, 20°, and 30° relative to the horizontal, with a constant angle of the atlanto-occipital joint. The subjects made eight short (about 2 s) vertical extension forces (6%, 12%,18%, 24%, 30%, 36%, 42%, and 48% of maximal voluntary peak contraction force). For each position, the centre of pressure under the head was determine as the basis for the calculation of the external lever arm. The presence of motor endplate regions was ascertained by multiple surface electrodes. The slopes of individual linear regression lines for the root mean square (rms)-values were dependent on the existence of endplates in the area of the electrodes — endplates caused smaller rms values per Newton metres of external torque. Significant intersubject differences between regression equations could not be eliminated by the normalization of EMG-parameters and/or torques. The elimination of gravity, the continuous monitoring of positions, and the consideration of localization of motor endplate regions were essential prerequisites for the acquisition of reliable relationships between EMG of different neck muscles and external torques. Two important conclusions were derived for the prediction of torques from EMG measurements: firstly, individual regression equations which take into account the position of the head and neck should be used; secondly, normalization procedures do not justify the application of average regressions to a group of subjects.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00599248

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Electromyographic evaluation of back muscle fatigue with repeated sustained contractions of different strengths (1987)

Seidel, Helmut ; Beyer, Helga ; Bräuer, Dieter

Springer

European journal of applied physiology 56 (1987), S. 592-602

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ISSN: 1439-6327

Keywords: Electromyography ; Fatigue ; Muscle ; Spine ; Time-series models

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The aim of the study was to obtain information on changes in surface electromyograms from the lumbar erector spinae muscles during fatiguing isometric contractions. Four male subjects held different target extension forces to fatigue in a prone position under carefully controlled biomechanical conditions. Standard deviations of the distribution of EMG amplitudes (RMS values), autoregressive (AR) time series models of the 15th order and spectral densities were computed. At lower force levels, i. e., at about 50 to 100 Nm or 20–40% of estimated maximum voluntary contraction force (MVC), RMS values significantly decreased over time; at the highest level examined (on average 162 Nm), they increased. Over all force levels, the explained variances of AR models increased and mean power frequencies (MPF) decreased with increasing force. The first and second AR coefficients also exhibited significant changes, depending on both contraction time and strength. The AR time series structure of EMGs during short isometric test contractions at the lowest force level within 30 s after the failure point clearly indicated muscle fatigue and some differences remained in their dependence on the preceding force. The results suggest a concept of ‘selective fatigue’, and provide a basis for refined electromyographic evaluation of back muscle fatigue. Such an evaluation has to consider the force history preceding the failure point, or serious errors become unavoidable. The increase in RMS values does not constitute a criterion of back muscle fatigue at low force levels. AR time series models are recommended for the description of fatigue-induced electromyographic changes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00635375

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