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Automatic analysis of electro-encephalogram sleep spindle frequency throughout the night

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Abstract

A fully automatic method to analyse electro-encephalogram (EEG) sleep spindle frequency evolution during the night was developed and tested. Twenty allnight recordings were studied from ten healthy control subjects and ten sleep apnoea patients. A total of 22 868 spindles were detected. The overall mean spindle frequency was significantly higher in the control subjects than in the apnoea patients (12.5Hz against 11.7Hz, respectively; p<0.004). The proposed method further identified the sleep depth cycles, and the mean spindle frequency was automatically determined inside each sleep depth cycle. In control subjects, the mean spindle frequency increased from 12.0Hz in the first sleep depth cycle to 12.6Hz in the fifth cycle. No such increase was observed in the sleep apnoea patients. This difference in the spindle frequency evolution was statistically significant (p<0.004). The advantage of the method is that no EEG amplitude thresholds are needed.

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References

  • Akgül, T., Mingui, S., Sclabassi, R. J., andCetin, A. E. (2000): ‘Characterization of sleep spindles using higher order statistics and spectra’,IEEE Trans. Biomed. Eng.,47, pp. 997–1009

    Google Scholar 

  • Guilleminault, C., Do Kim, Y., Chowdhuri, S., andHorita, M. (2001): ‘Sleep and daytime sleepiness in upper airway resistance syndrome compare to obstructive sleep apnoea syndrome’,Eur. Respir. J.,17, pp. 838–847

    Article  Google Scholar 

  • Hasan, J. (1996): ‘Past and future of computer-assisted sleep analysis and drowsiness assessment’,J. Clin. Neurophysiol.,13, pp. 295–313

    Google Scholar 

  • Heinzer, R., Gaudreau, H., Decary, A., andSforza, E. (2001): ‘Slow-wave activity in sleep apnoea patients before and after continuous positive airway pressure treatment’,Chest,119, pp. 1807–1813

    Article  Google Scholar 

  • Himanen, S.-L. (2000): ‘A new visual adaptive scoring system for sleep recordings. Development and application to the multiple sleep latency test’. Doctoral Thesis, Acta Universitatis Tamperensis, pp. 1–47

  • Himanen, S.-L., Virkkala, J., Huhtala, H., andHasan, J. (2000): ‘Spindle frequencies in sleep EEG show U-shape within first four NREM sleep episodes’,J. Sleep Res.,11, pp. 35–42

    Google Scholar 

  • Himanen, S.-L., Virkkala, J., Huupponen, E., andHasan, J. (2003): ‘Spindle frequency remains slow in sleep apnoea patients throughout the night’,Sleep Med.,4, pp. 229–234

    Google Scholar 

  • Huupponen, E., Värri, A., Hasan, J., Himanen, S.-L., Lehtokangas, M., andSaarinen, J. (2000): ‘Optimization of sigma amplitude threshold in sleep spindle detection’,J. Sleep Res.,9, pp. 327–334

    Google Scholar 

  • Huupponen, E., Himanen, S.-L., Värri, A., Hasan, J., Lehtokangas, M., andSaarinen, J. (2001): ‘Improving reliability in sleep spindle detection’. Proc. Int. Conf. Signal Processing, Pattern Recognition and Applications, SPPRA 2001, Rhodes, Greece, pp. 16–20

  • American Sleep Disorders Association (1997): ‘ICSD—The international classification of sleep disorders. Diagnostic and coding manual’. Rochester, MN, pp. 28–38

  • Isono, S., andRemmers, J. E. (1994): ‘Anatomy and physiology of upper airway obstruction’, inKryger, M. H., Roth, T., andDement, W. C., (Eds), ‘Principles and practice of sleep medicine’ (W.B. Saunders Co., Philadelphia, 1994), pp. 642–656

    Google Scholar 

  • Jankel, W. R., andNiedermeyer, E. (1985): ‘Sleep spindles’,J. Clin. Neurophysiol.,2, pp. 1–35

    Google Scholar 

  • Kemp, B. (1993): ‘A proposal for computer-based sleep/wake analysis’,J. Sleep Res.,2, pp. 179–185

    MathSciNet  Google Scholar 

  • Klösh, G., Kemp, B., Penzel, T., Schlögl, A., Rappelsberger, P., Trenker, E., Gruber, G., Zeithofer, J., Saletu, B., Herrmann, W. M., Himanen, S.-L., Kunz, D., Barbanoj, M. J., Röschke, J., Värri, A., andDorffner, G. (2001): ‘The SIESTA project polygraphic and clinical database’,IEEE Eng. Med. Biol.,20, pp. 51–57

    Google Scholar 

  • Koivuluoma, M., Huupponen, E., Värri, A., Olejarczyk, E., andKlonowski, W. (2001): ‘Comparison of some linear and nonlinear methods in the quantification of NREM sleep process’, Proc. Int. Symposium on Nonlinear Theory and its Applications, NOLTA-2001, Miyagi, Japan, pp. 411–414

  • Naitoh, P., Antony-Baas, V., Muzet, A., andEhrhart, J. (1982): ‘Dynamic relation of sleep spindles and K complexes to spontaneous phasic arousal in sleep human patients’,Sleep,5, p. 58

    Google Scholar 

  • Penzel, T., Bunde, A., Heitmann, J., Kantelhardt, J. W., Peter, J. H., andVoight, K. (1999): ‘Sleep stage-dependent heart rate variability in patients with obstructive sleep apnoea’,Comput. Cardiol.,26, pp. 249–252

    Google Scholar 

  • Penzel, T., andConradt, R. (2000): ‘Computer based sleep recording and analysis’,Sleep Med. Rev.,4, pp. 131–148

    Article  Google Scholar 

  • Rechtshaffen, A., andKales, A. (1968): ‘A manual of standardized terminology, techniques and scoring system for sleep stages of human subjects’, US Public Health Service, US Govemment Printing Office, Washington, DC

    Google Scholar 

  • Rezek, I. A., andRoberts, S. J. (1998): ‘Stochastic complexity measures for physiological signal processing’,IEEE Trans. Biomed. Eng.,45, pp. 1186–1191

    Article  Google Scholar 

  • Saramäki, T. (1989): ‘A class of window functions with nearly minimum sidelobe energy for designing FIR filters’,Proc. IEEE Int. Symp. Circ. Syst., Portland, Oregon,1, pp. 359–362

    Google Scholar 

  • Terzano, M. G., Parrino, L., Boselli, M., Spaggiari, M. C. (1996): ‘Polysomnographic analysis of arousal responses in obstructive sleep apnoea syndrome by means of the cyclic alternating pattern’,J. Clin. Neurophysiol.,13, pp. 145–155

    Google Scholar 

  • Wei, H. G., Riel, E., Czeisler, C. A., andDijk, D.-J. (1999): ‘Attenuated amplitude of circadian and sleep-dependent modulation of electroencephalographic sleep spindle characteristics in elderly human subjects’,Neurosci. Lett.,260, pp. 29–32

    Article  Google Scholar 

  • Zeitlhofer, J., Gruber, G., Anderer, P., Asenbaum, S., Schimicek, P., andSaletu, B. (1997): ‘Topographic distribution of sleep spindles in young healthy subjects’,J. Sleep Res.,6, pp. 149–155

    Article  Google Scholar 

  • Zygierewicz, J., Blinowska, K. J., Durka, P. J., Szelenberger, W., Niemcewicz, S., andAndrosiuk, W. (1999): ‘High resolution study of sleep spindles’,Clin. Neurophys.,110, pp. 2136–2147

    Google Scholar 

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Authors and Affiliations

  1. Signal Processing Laboratory, Tampere University of Technology, Finland

    E. Huupponen & A. Värri

  2. Department of Clinical Neurophysiology, Tampere University Hospital, Finland

    S. -L. Himanen & J. Hasan

  3. Section of Clinical Neuroscience, Finnish Institute of Occupational Health, Helsinki, Finland

    J. Hasan

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  1. E. Huupponen
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  2. S. -L. Himanen
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  3. J. Hasan
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  4. A. Värri
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Correspondence to E. Huupponen.

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Huupponen, E., Himanen, S.L., Hasan, J. et al. Automatic analysis of electro-encephalogram sleep spindle frequency throughout the night. Med. Biol. Eng. Comput. 41, 727–732 (2003). https://doi.org/10.1007/BF02349981

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  • DOI: https://doi.org/10.1007/BF02349981

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