Prospects for detecting early warning signals in discrete event sequence data: Application to epidemiological incidence data

AbstractInferring the transmission potential of an infectious disease during the low-incidence period following an epidemic wave is crucial for preparedness. In this period, necessarily scarce data hamper existing inference methods, blurring early-warning signals essential for discriminating between the likelihoods of resurgence versus elimination. Advanced insight into whether a region of interest will face elevating caseloads (requiring swift community-wide interventions) or achieve local elimination (allowing interventions to be relaxed or refocussed on controlling the importation of infections), can be the difference between decisive and ineffective policy. We propose a novel early-warning framework that formally maximises information extracted from low-incidence data to robustly infer the chances of sustained local transmission or elimination in real time, at any desired scale of investigation. Applying this framework, we decipher previously hidden disease-transmission signals from the prolonged low-incidence COVID-19 data of New Zealand, Hong Kong and Victoria state, Australia. We uncover how timely interventions averted dangerous, resurgent waves of COVID-19 and support official declarations of elimination. Across these locations, we obtain strong evidence for the effectiveness of rapid and adaptive COVID-19 responses.

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Deciphering early-warning signals of SARS-CoV-2 elimination and resurgence from limited data at multiple scales

Journal of The Royal Society Interface ◽

10.1098/rsif.2021.0569 ◽

2021 ◽

Vol 18 (185) ◽

Author(s):

Kris V. Parag ◽

Benjamin J. Cowling ◽

Christl A. Donnelly

Keyword(s):

Early Warning ◽

Disease Transmission ◽

Multiple Scales ◽

Limited Data ◽

Warning Signals ◽

Early Warning Signals ◽

Transmission Potential ◽

Incidence Data ◽

Low Incidence ◽

Inference Methods

Inferring the transmission potential of an infectious disease during low-incidence periods following epidemic waves is crucial for preparedness. In such periods, scarce data may hinder existing inference methods, blurring early-warning signals essential for discriminating between the likelihoods of resurgence versus elimination. Advanced insight into whether elevating caseloads (requiring swift community-wide interventions) or local elimination (allowing controls to be relaxed or refocussed on case-importation) might occur can separate decisive from ineffective policy. By generalizing and fusing recent approaches, we propose a novel early-warning framework that maximizes the information extracted from low-incidence data to robustly infer the chances of sustained local transmission or elimination in real time, at any scale of investigation (assuming sufficiently good surveillance). Applying this framework, we decipher hidden disease-transmission signals in prolonged low-incidence COVID-19 data from New Zealand, Hong Kong and Victoria, Australia. We uncover how timely interventions associate with averting resurgent waves, support official elimination declarations and evidence the effectiveness of the rapid, adaptive COVID-19 responses employed in these regions.

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Early warning signals of regime shifts for aquatic systems: Can experiments help to bridge the gap between theory and real-world application?

Ecological Complexity ◽

10.1016/j.ecocom.2021.100944 ◽

2021 ◽

Vol 47 ◽

pp. 100944

Author(s):

Julio Alberto Alegre Stelzer ◽

Jorrit Padric Mesman ◽

Rita Adrian ◽

Bastiaan Willem Ibelings

Keyword(s):

Early Warning ◽

Real World ◽

Regime Shifts ◽

Aquatic Systems ◽

Warning Signals ◽

Early Warning Signals ◽

Real World Application

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Efficacy of early warning signals and spectral periodicity for predicting transitions in bipolar patients: An actigraphy study

Translational Psychiatry ◽

10.1038/s41398-021-01465-w ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Yoram K. Kunkels ◽

Harriëtte Riese ◽

Stefan E. Knapen ◽

Rixt F. Riemersma - van der Lek ◽

Sandip V. George ◽

...

Keyword(s):

Spectral Analysis ◽

Early Warning ◽

Type I ◽

Warning Signals ◽

Early Warning Signals ◽

Research Fields ◽

Mood Episode ◽

Final Sample ◽

Bipolar Patients ◽

Direction Opposite

AbstractEarly-warning signals (EWS) have been successfully employed to predict transitions in research fields such as biology, ecology, and psychiatry. The predictive properties of EWS might aid in foreseeing transitions in mood episodes (i.e. recurrent episodes of mania and depression) in bipolar disorder (BD) patients. We analyzed actigraphy data assessed during normal daily life to investigate the feasibility of using EWS to predict mood transitions in bipolar patients. Actigraphy data of 15 patients diagnosed with BD Type I collected continuously for 180 days were used. Our final sample included eight patients that experienced a mood episode, three manic episodes and five depressed episodes. Actigraphy data derived generic EWS (variance and kurtosis) and context-driven EWS (autocorrelation at lag-720) were used to determine if these were associated to upcoming bipolar episodes. Spectral analysis was used to predict changes in the periodicity of the sleep/wake cycle. The study procedures were pre-registered. Results indicated that in seven out of eight patients at least one of the EWS did show a significant change-up till four weeks before episode onset. For the generic EWS the direction of change was always in the expected direction, whereas for the context-driven EWS the observed effect was often in the direction opposite of what was expected. The actigraphy data derived EWS and spectral analysis showed promise for the prediction of upcoming transitions in mood episodes in bipolar patients. Further studies into false positive rates are suggested to improve effectiveness for EWS to identify upcoming bipolar episode onsets.

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