Temporal Associations between Weather and Headache: Analysis by Empirical Mode Decomposition

Background Patients frequently report that weather changes trigger headache or worsen existing headache symptoms. Recently, the method of empirical mode decomposition (EMD) has been used to delineate temporal relationships in certain diseases, and we applied this technique to identify intrinsic weather components associated with headache incidence data derived from a large-scale epidemiological survey of headache in the Greater Taipei area. Methodology/Principal Findings The study sample consisted of 52 randomly selected headache patients. The weather time-series parameters were detrended by the EMD method into a set of embedded oscillatory components, i.e. intrinsic mode functions (IMFs). Multiple linear regression models with forward stepwise methods were used to analyze the temporal associations between weather and headaches. We found no associations between the raw time series of weather variables and headache incidence. For decomposed intrinsic weather IMFs, temperature, sunshine duration, humidity, pressure, and maximal wind speed were associated with headache incidence during the cold period, whereas only maximal wind speed was associated during the warm period. In analyses examining all significant weather variables, IMFs derived from temperature and sunshine duration data accounted for up to 33.3% of the variance in headache incidence during the cold period. The association of headache incidence and weather IMFs in the cold period coincided with the cold fronts. Conclusions/Significance Using EMD analysis, we found a significant association between headache and intrinsic weather components, which was not detected by direct comparisons of raw weather data. Contributing weather parameters may vary in different geographic regions and different seasons.

[1]  Bertram Walter,et al.  Headache and Sferics , 2001, Headache.

[2]  A. Leviton,et al.  The relationship of headache occurrence to barometric pressure , 1980, International journal of biometeorology.

[3]  K. Alstadhaug,et al.  Lack of Seasonal Variation in Menstrually-Related Migraine , 2008, Cephalalgia : an international journal of headache.

[4]  R. Zivadinov,et al.  Migraine and Tension-Type Headache in Croatia: A Population-Based Survey of Precipitating Factors , 2003, Cephalalgia : an international journal of headache.

[5]  Chung-Kang Peng,et al.  Multimodal pressure-flow method to assess dynamics of cerebral autoregulation in stroke and hypertension , 2004, Biomedical engineering online.

[6]  J. D. Gomersall,et al.  Variations in migraine attacks with changes in weather conditions , 1973, International journal of biometeorology.

[7]  R. Cull Barometric Pressure and Other Factors in Migraine , 1981, Headache.

[8]  W. Becker,et al.  Effect of Chinook Winds on the Probability of Migraine Headache Occurrence , 1997, Headache.

[9]  B. Rasmussen,et al.  Presentation of a New Instrument: The Diagnostic Headache Diary , 1992, Cephalalgia : an international journal of headache.

[10]  W. Becker,et al.  Chinook winds and migraine headache , 2000, Neurology.

[11]  R. Kaniecki Headache assessment and management. , 2003, JAMA.

[12]  Barry Spencer The Effect of Weather on Headache , 2005, Headache.

[13]  N. Huang,et al.  The empirical mode decomposition and the Hilbert spectrum for nonlinear and non-stationary time series analysis , 1998, Proceedings of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences.

[14]  Slawomir J. Nasuto,et al.  A novel approach to the detection of synchronisation in EEG based on empirical mode decomposition , 2007, Journal of Computational Neuroscience.

[15]  B. Shia,et al.  Prevalence of Migraine in Taipei, Taiwan: A Population-Based Survey , 2000, Cephalalgia : an international journal of headache.

[16]  P. Villeneuve,et al.  Weather and Emergency Room Visits for Migraine Headaches in Ottawa, Canada , 2006, Headache.

[17]  N. Huang,et al.  A study of the characteristics of white noise using the empirical mode decomposition method , 2004, Proceedings of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences.

[18]  Men-Tzung Lo,et al.  Nonlinear phase interaction between nonstationary signals: a comparison study of methods based on Hilbert-Huang and Fourier transforms. , 2009, Physical review. E, Statistical, nonlinear, and soft matter physics.

[19]  R. Irizarry,et al.  Travelling waves in the occurrence of dengue haemorrhagic fever in Thailand , 2004, Nature.

[20]  L. Wilkins Weather and air pollution as triggers of severe headaches , 2009, Neurology.

[21]  Norden E. Huang,et al.  The Multi-Dimensional Ensemble Empirical Mode Decomposition Method , 2009, Adv. Data Sci. Adapt. Anal..

[22]  Zhaohua Wu,et al.  On the trend, detrending, and variability of nonlinear and nonstationary time series , 2007, Proceedings of the National Academy of Sciences.

[23]  P. Lundberg,et al.  Weekly headache periodicity and the effect of weather changes on headache , 1981, International journal of biometeorology.

[24]  J. J. Korten,et al.  Headache , 1893, Neurology.