W.L.J. Martens scite author profile

Background and Purpose. In this study, the validity and reliability of measurements obtained with an "Activity Monitor" (AM) were examined. The instrument is designed to monitor ambulatory activity by use of accelerometer signals, and it detects several activities associated with mobility (standing, sitting, lying, transitions, movement-related activities). Subiects. Four men with a transtibial amputation and 4 men without a transtibial amputation participated. Methods. The subjects performed normal daily activities, during which accelerations were measured and videotape recordings were made (reference method). Validity was assessed by calculating agreement scores between the AM output and the videotape recordings and by comparing the number of transitions and the duration of activities determined by both methods. Results. The overall agreement between the AM output and the videotape recordings was 90%. Other agreement scores, in addition to the determination of the number of transitions and the duration of activities, were generally within a range of error of 0% to 10%.Conclusion and Discussion. The reliability and validity of the AM measurements appeared to be good, which supports its potential use in rehabilitation and physical therapy. [Bussmann HBJ, Reuvekamp PJ, Veltink PH, et al. Validity and reliability of measurements obtained with an "Activity Monitor" in people with and without a transtibial amputation. Phys Ther. 1998;78:989-998.1

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Human sleep spindle characteristics after sleep deprivation

Knoblauch

Martens²,

Wirz‐Justice

et al. 2003

Clinical Neurophysiology

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Age-Related Changes in the Circadian Modulation of Sleep-Spindle Frequency During Nap Sleep

Knoblauch¹,

Münch²,

Blatter³

et al. 2005

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Regional differences in the circadian modulation of human sleep spindle characteristics

Knoblauch

Martens²,

Wirz‐Justice

et al. 2003

Eur J of Neuroscience

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Electroencephalographic oscillations in the sleep spindle frequency range (11-16 Hz) are a key element of human nonrapid eye movement sleep. In the present study, sleep spindle characteristics along the anterior-posterior axis were analysed during and outside the circadian phase of melatonin secretion. Sleep electroencephalograms were recorded during naps distributed over the entire circadian cycle and analysed with two different methodological approaches, the classical fast Fourier transform in the frequency-domain and a new method for instantaneous spectral analysis, the fast time frequency transform that yields high-resolution parameters in the combined time-frequency-domain. During the phase of melatonin secretion, spindle density was generally increased and intraspindle frequency variation reduced. Furthermore, lower spindle frequencies were promoted: peak frequencies shifted towards the lower end of the spindle frequency range, and spindle amplitude was enhanced in the low-frequency range (11-14.25 Hz) and reduced in the high-frequency range (approximately 14.5-16 Hz). The circadian variation showed a clear dependence on brain topography such that it was maximal in the parietal and minimal in the frontal derivation. Our data provide evidence that the circadian pacemaker actively promotes low-frequency sleep spindles during the biological night with a parietal predominance.

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W.L.J. Martens

Measuring daily behavior using ambulatory accelerometry: The Activity Monitor

Validity and Reliability of Measurements Obtained With an “Activity Monitor” in People With and Without a Transtibial Amputation

Human sleep spindle characteristics after sleep deprivation

Age-Related Changes in the Circadian Modulation of Sleep-Spindle Frequency During Nap Sleep

Regional differences in the circadian modulation of human sleep spindle characteristics

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