Flashback Technologies Published Clinical Results

[1] A. Metzger, J. Mulligan and G. Grudic, "Development of a non-invasive cerebrovascular status algorithm to estimate cerebral perfusion pressure and intracranial pressure in a porcine model of focal brain injury," Military Medicine, vol. 183, no. suppl_1, p. 119–123, 2018. 
[2] D. Leopold, K. Campbell, L. Pyle, R. Ing, J. Mulligan, M. Twite and S. Moulton, "Perioperative central volume status in healthy children and in children with congenital heart disease.," in International Anesthesia Research Society (IARS), Society of Critical Care Anesthesiologists (SOCCA) and Association of University Anesthesiologists (AUA) Annual Meetings, Chicago, IL, 2018. 
[3] D. Leopold, K. Campbell, L. Pyle, R. Ing, J. Mulligan, M. Twite and S. Moulton, "Joint modeling and the Compensatory Reserve Index: Insight into hemodynamic compensation during the induction of general anesthesia.," in International Anesthesia Research Society (IARS), Society of Critical Care Anesthesiologists (SOCCA) and Association of University Anesthesiologists (AUA) Annual Meetings, Chicago, IL, 2018. 
[4] Y. Choi, D. Leopold, K. Campbell, J. Mulligan, G. Grudic and S. Moulton, "Noninvasive monitoring of physiologic compromise in acute appendicitis: New insight into an old disease," Journal of pediatric surgery, vol. 53, no. 2, pp. 241-246, 2018. 
[5] M. Johnson, A. Alarhayem, V. Convertino, R. Carter, K. Chung, R. Stewart, J. Myers, D. Dent, L. Liao, R. Cestero, S. Nicholson, M. Muir, M. Schwacha, D. Wampler, M. DeRosa and B. Eastridge, "Compensatory reserve index: performance of a novel monitoring technology to identify the bleeding trauma patient," SHOCK, vol. 49, no. 3, p. 295–300, 2018. 
[6] M. Johnson, A. Alarhayem, V. Convertino, R. Carter, K. Chung, R. Stewart, J. Myers, D. Dent, L. Liao, R. Cestero, S. Nicholson, M. Muir, M. Schwaca, D. Wampler, M. DeRosa and B. Eastridge, "Comparison of compensatory reserve and arterial lactate as markers of shock and resuscitation.," Journal of Trauma and Acute Care Surgery, vol. 83, no. 4, pp. 603-608, 2017. 
[7] S. Moulton, J. Mulligan, M. Santoro, K. Bui, G. Grudic and D. MacLeod, "Validation of a noninvasive monitor to continuously trend individual responses to hypovolemia," Journal of Trauma and Accute Care Surgery, vol. 83, no. 1, p. S104–S111, 2017. 
[8] C. Stewart, J. Mulligan, G. Grudic, M. Talley, G. Jurkovich and S. Moulton, "Trending changes in the compensatory reserve index (CRI) following injury: Results of a prospective clinical trial.," SHOCK, vol. 46, no. 3S, p. 61–67, 2016. 
[9] D. Gagnon, Z. Schlader, A. Adams, E. Rivas, J. Mulligan, G. Grudic, V. Convertino, J. Howard and C. Crandall, "The effect of passive heat stress and exercise-induced dehydration on the compensatory reserve during simulated hemorrhage.," SHOCK, vol. 46, no. 3S, pp. 74-82, 2016. 
[10] J. Howard, J. Janak, C. Carmen Hinojosa-Laborde and V. Convertino, "Specificity of compensatory reserve and tissue oxygenation as early predictors of tolerance to progressive reductions in central blood volume," SHOCK, vol. 46, no. 3S, pp. 68-73, 2016. 
[11] C. Hinojosa-Laborde, J. Howard, J. Mulligan, G. Grudic and V. Convertino, "Comparison of compensatory reserve during lower-body negative pressure and hemorrhage in nonhuman primates," American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, vol. 310, no. 11, p. R1154–R1159., 2016. 
[12] V. Convertino, J. Howard, C. Laborde, S. Cardin, P. Batchelder, J. Mulligan, G. Grudic and D. Macleod, "Individual-specific, beat-to-beat trending of significant human blood loss: The compensatory reserve.," SHOCK, vol. 44, p. 27–32, 2015. 
[13] J. Janak, J. Howard, K. Goei, R. Weber, G. Muniz, C. Hinojosa-Laborde and V. Convertino, "Predictors of the onset of hemodynamic decompensation during progressive central hypovolemia: comparison of the peripheral perfusion index, pulse pressure variability, and compensatory reserve index.," SHOCK, vol. 44, no. 6, pp. 548-553, 2015. 
[14] C. Stewart, J. Mulligan, G. Grudic, L. Pyle and S. Moulton, "A noninvasive computational method for fluid resuscitation monitoring in pediatric burns: a preliminary report.," Journal of Burn Care Research, vol. 36, no. 1, pp. 145-50, 2015. 
[15] C. Stewart, J. Mulligan, G. Grudic, V. Convertino and S. Moulton, "Detection of low-volume blood loss: Compensatory reserve versus traditional vital signs.," Journal of Trauma and Acute Care Surgery, vol. 77, no. 6, pp. 892-898, 2014. 
[16] R. Nadler, V. Convertino, S. Gendler, G. Lending, A. Lipsky, S. Cardin, A. Lowenthal and E. Glassberg, "The value of noninvasive measurement of the compensatory reserve index in monitoring and triage of patients experiencing minimal blood loss," SHOCK, vol. 42, no. 2, pp. 93-98, 2014. 
[17] S. Moulton, J. Mulligan, G. Grudic and V. Convertino, "Running on empty? the compensatory reserve index.," Journal of Trauma and Acute Care Surgery, vol. 75, no. 6, pp. 1053-1059, 2013. 
[18] G. Muniz, D. Wampler, C. Manifold, G. Grudic, J. Mulligan, S. Moulton, R. Gerhardt and V. Convertino, "Promoting early diagnosis of hemodynamic instability during simulated hemorrhage with the use of a real-time decision-assist algorithm," Journal of Trauma and Acute Care Surgery, vol. 75, no. 2, p. S184–S189, 2013. 
[19] C. I. Van Sickle, K. Schafer, J. Mulligan, G. Grudic, S. Moulton and V. Convertino, "A sensitive shock index for real-time patient assessment during simulated hemorrhage," Aviation, Space, and Environmental Medicine, vol. 84, no. 9, pp. 907-912, 2013. 
[20] V. Convertino, G. Grudic, J. Mulligan and S. Moulton, "Estimation of individual-specific progression to impending cardiovascular instability using arterial waveforms.," Journal of Applied Physiology, vol. 115, no. 8, pp. 1196-202, 2013. 
[21] V. Convertino, S. Moulton, G. Grudic, C. Rickards, C. Hinojosa-Laborde, R. Gerhardt, L. Blackbourne and K. Ryan, "Use of Advanced Machine-Learning Techniques for Noninvasive Monitoring of Hemorrhage," Journal of Trauma and Acute Care Surgery, vol. 71, no. 1, pp. S25-S32, 2011.