Automated closed-loop versus manually controlled norepinephrine infusion in patients undergoing intermediate- to high-risk abdominal surgery: a randomised controlled trial.

[1]  B. Allaouchiche,et al.  Monitoring tissue perfusion: a pilot clinical feasibility and safety study of a urethral photoplethysmography-derived perfusion device in high-risk patients , 2019, Journal of Clinical Monitoring and Computing.

[2]  J. Vincent,et al.  Feasibility of closed-loop titration of norepinephrine infusion in patients undergoing moderate- and high-risk surgery. , 2019, British journal of anaesthesia.

[3]  John A. Kellum,et al.  Perioperative Quality Initiative consensus statement on intraoperative blood pressure, risk and outcomes for elective surgery , 2019, British journal of anaesthesia.

[4]  Pavel S. Roshanov,et al.  Relationship between Perioperative Hypotension and Perioperative Cardiovascular Events in Patients with Coronary Artery Disease Undergoing Major Noncardiac Surgery , 2019, Anesthesiology.

[5]  Maxime Cannesson,et al.  Automated Titration of Vasopressor Infusion Using a Closed-loop Controller: In Vivo Feasibility Study Using a Swine Model , 2019, Anesthesiology.

[6]  J. Rinehart,et al.  Blood pressure variability in surgical and intensive care patients: Is there a potential for closed-loop vasopressor administration? , 2019, Anaesthesia, critical care & pain medicine.

[7]  J. Rinehart,et al.  Closed-loop vasopressor control: in-silico study of robustness against pharmacodynamic variability , 2018, Journal of Clinical Monitoring and Computing.

[8]  E. Futier,et al.  Personalization of arterial pressure in the perioperative period , 2018, Current opinion in critical care.

[9]  A. Slooter,et al.  Intraoperative hypotension and the risk of postoperative adverse outcomes: a systematic review , 2018, British journal of anaesthesia.

[10]  V. Novack,et al.  Blood Pressure Coefficient of Variation and Its Association With Cardiac Surgical Outcomes , 2018, Anesthesia and analgesia.

[11]  E. Vicaut,et al.  Performance of closed-loop resuscitation of haemorrhagic shock with fluid alone or in combination with norepinephrine: an experimental study , 2018, Annals of Intensive Care.

[12]  M. Farkouh,et al.  Defining an Intraoperative Hypotension Threshold in Association with Stroke in Cardiac Surgery , 2018, Anesthesiology.

[13]  J. Rinehart,et al.  Implementation of closed-loop-assisted intra-operative goal-directed fluid therapy during major abdominal surgery: A case–control study with propensity matching , 2018, European journal of anaesthesiology.

[14]  D. Sessler,et al.  The association of hypotension during non‐cardiac surgery, before and after skin incision, with postoperative acute kidney injury: a retrospective cohort analysis , 2018, Anaesthesia.

[15]  D. Sessler,et al.  Perioperative myocardial injury and the contribution of hypotension , 2018, Intensive Care Medicine.

[16]  K. Leslie,et al.  Period-dependent Associations between Hypotension during and for Four Days after Noncardiac Surgery and a Composite of Myocardial Infarction and Death: A Substudy of the POISE-2 Trial , 2017, Anesthesiology.

[17]  J. Rinehart,et al.  Crystalloid versus Colloid for Intraoperative Goal-directed Fluid Therapy Using a Closed-loop System: A Randomized, Double-blinded, Controlled Trial in Major Abdominal Surgery , 2018, Anesthesiology.

[18]  The future of intraoperative blood pressure management , 2018, Journal of Clinical Monitoring and Computing.

[19]  J. Rinehart,et al.  Feasibility of automated titration of vasopressor infusions using a novel closed-loop controller , 2018, Journal of Clinical Monitoring and Computing.

[20]  Zongming Jiang,et al.  Optimal blood pressure decreases acute kidney injury after gastrointestinal surgery in elderly hypertensive patients: A randomized study: Optimal blood pressure reduces acute kidney injury. , 2017, Journal of clinical anesthesia.

[21]  M. Sugimachi,et al.  Computer-controlled closed-loop drug infusion system for automated hemodynamic resuscitation in endotoxin-induced shock , 2017, BMC Anesthesiology.

[22]  S. Jaber,et al.  Effect of Individualized vs Standard Blood Pressure Management Strategies on Postoperative Organ Dysfunction Among High-Risk Patients Undergoing Major Surgery: A Randomized Clinical Trial , 2017, JAMA.

[23]  J. Rinehart,et al.  Part of the Steamroller and Not Part of the Road: Better Blood Pressure Management Through Automation. , 2017, Anesthesia and analgesia.

[24]  T. Lindsay,et al.  Association between Intraoperative Hypotension and Myocardial Injury after Vascular Surgery , 2016, Anesthesiology.

[25]  W. Beattie,et al.  Association of Intraoperative Hypotension with Acute Kidney Injury after Elective Noncardiac Surgery , 2015, Anesthesiology.

[26]  E. Mascha,et al.  Intraoperative Mean Arterial Pressure Variability and 30-day Mortality in Patients Having Noncardiac Surgery , 2015, Anesthesiology.

[27]  A. Sia,et al.  Closed‐loop double‐vasopressor automated system vs manual bolus vasopressor to treat hypotension during spinal anaesthesia for caesarean section: a randomised controlled trial , 2014, Anaesthesia.

[28]  A. Garg,et al.  Relationship between Intraoperative Mean Arterial Pressure and Clinical Outcomes after Noncardiac Surgery: Toward an Empirical Definition of Hypotension , 2013, Anesthesiology.

[29]  W D Ngan Kee,et al.  Randomized comparison of closed-loop feedback computer-controlled with manual-controlled infusion of phenylephrine for maintaining arterial pressure during spinal anaesthesia for caesarean delivery. , 2013, British journal of anaesthesia.

[30]  Barbara Phillips-Bute,et al.  Intraoperative Systolic Blood Pressure Variability Predicts 30-day Mortality in Aortocoronary Bypass Surgery Patients , 2010, Anesthesiology.

[31]  Thomas W. Schnider,et al.  Influence of age and gender on the pharmacokinetics and pharmacodynamics of remifentanil. I. Model development , 1997 .