Hemodynamic Instability Prediction Through Continuous Multiparameter Monitoring in ICU

Current algorithms identifying hemodynamically unstable intensive care unit patients typically are limited to detecting existing dangerous conditions and suffer from high false alert rates. Our objective was to predict hemodynamic instability at least two hours before patient deterioration while maintaining a low false alert rate, using minute-by-minute heart rate (HR) and blood pressure (BP) data. We identified 66 stable and 104 unstable patients meeting our stability-instability criteria from the MIMIC II database, and developed multi-parameter measures using HR and BP. An instability index combining measures of BP, shock index, rate pressure product, and HR variation was developed from a multivariate regression model to predict hemodynamic instability (ROC of 0.82±0.03, sensitivity of 0.57±0.07 when the specificity was targeted at 0.90; the alert rate ratio of unstable to stable patients was 7.62). We conclude that these algorithms could form the basis for reliable predictive clinical alerts which identify patients likely to become hemodynamically unstable within the next few hours so that the clinicians can proactively manage these patients and provide necessary care.

[1]  M. Chambrin Alarms in the intensive care unit: how can the number of false alarms be reduced? , 2001, Critical care.

[2]  H. Smithline,et al.  A comparison of the shock index and conventional vital signs to identify acute, critical illness in the emergency department. , 1994, Annals of emergency medicine.

[3]  Hanqing Cao,et al.  Toward quantitative fetal heart rate monitoring , 2006, IEEE Transactions on Biomedical Engineering.

[4]  G. Parati,et al.  Spectral analysis of blood pressure and heart rate variability in evaluating cardiovascular regulation. A critical appraisal. , 1995, Hypertension.

[5]  YANG WANG,et al.  The Rate-Pressure Product as an Index of Myocardial Oxygen Consumption during Exercise in Patients with Angina Pectoris , 1978, Circulation.

[6]  C. Tsien,et al.  Poor prognosis for existing monitors in the intensive care unit. , 1997, Critical care medicine.

[7]  J Hilden,et al.  Regret graphs, diagnostic uncertainty and Youden's Index. , 1996, Statistics in medicine.

[8]  R. Peura,et al.  Supplemental systemic oxygen support using an intestinal intraluminal membrane oxygenator. , 2000, Artificial organs.

[9]  J. E. Carceller Practice parameters for hemodynamic support of sepsis in adult patients in sepsis , 1999 .

[10]  Mohammed Saeed,et al.  Reducing false alarm rates for critical arrhythmias using the arterial blood pressure waveform , 2008, J. Biomed. Informatics.

[11]  M. Rosner,et al.  Cerebral perfusion pressure: management protocol and clinical results. , 1995, Journal of neurosurgery.

[12]  Mark R Stoker,et al.  Principles of pressure transducers, resonance, damping and frequency response , 2004 .

[13]  R. Chesnut Guidelines for the management of severe head injury. Brain Trauma Foundation, American Association of Neurological Surgeons, Joint Section on Neurotrauma and Critical Care. , 1996, Journal of neurotrauma.

[14]  H. Vohra,et al.  The predictors and outcome of recidivism in cardiac ICUs. , 2005, European journal of cardio-thoracic surgery : official journal of the European Association for Cardio-thoracic Surgery.

[15]  Larry J. Eshelman,et al.  Development and Evaluation of Predictive Alerts for Hemodynamic Instability in ICU Patients , 2008, AMIA.

[16]  R Mukkamala,et al.  Forecasting acute hypotensive episodes in intensive care patients based on a peripheral arterial blood pressure waveform , 2009, 2009 36th Annual Computers in Cardiology Conference (CinC).

[17]  R G Mark,et al.  MIMIC II: a massive temporal ICU patient database to support research in intelligent patient monitoring , 2002, Computers in Cardiology.

[18]  J. Vincent,et al.  Practice parameters for hemodynamic support of sepsis in adult patients in sepsis. Task Force of the American College of Critical Care Medicine, Society of Critical Care Medicine. , 1999, Critical care medicine.

[19]  G. Breithardt,et al.  Heart rate variability: standards of measurement, physiological interpretation and clinical use. Task Force of the European Society of Cardiology and the North American Society of Pacing and Electrophysiology. , 1996 .

[20]  D. Marion,et al.  Guidelines for the management of severe head injury. Brain Trauma Foundation. , 1996, European journal of emergency medicine : official journal of the European Society for Emergency Medicine.

[21]  Mohammed Saeed,et al.  Predicting ICU hemodynamic instability using continuous multiparameter trends , 2008, 2008 30th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[22]  M. B. Wilkinson,et al.  Principles of pressure transducers, resonance, damping and frequency response , 2009 .

[23]  Mohammed Saeed,et al.  Temporal pattern recognition in multiparameter ICU data , 2007 .

[24]  Mohammed Saeed,et al.  The cardiac output from blood pressure algorithms trial. , 2009, Critical care medicine.

[25]  M. Levy,et al.  Hemodynamic monitoring in sepsis. , 2009, Critical care clinics.

[26]  L. Eshelman,et al.  Morphograms: exploiting correlation patterns to efficiently identify clinically significant events in intensive care units , 2004, Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[27]  Mohammed Saeed,et al.  A Novel Method for the Efficient Retrieval of Similar Multiparameter Physiologic Time Series Using Wavelet-Based Symbolic Representations , 2006, AMIA.