| Pub. Date | Title | Author(s) |
| 1982 | Computer-Assisted Environmental Control for Newborns | Paul H. Perlstein, Neil K. Edwards, Harry D. Atherton, Marcus C. Hermansen |
| 1994 | Pharmacodynamics of Mivacurium in Infants | O.A. Meretoja, T. Taivainen, K. Wirtavuori |
| 1986 | Automating Patient Care with Closed-Loop Control | Dwayne R. Westenkow, PhD |
| Apr-91 | Computerized Continuous Infusion of Intravenous Anesthetic Drugs During Pediatric Cardiac Surgery | F. H. Kern, R. M. Ungerleider, J. R. Jacobs, J. L. Boyd, J. G. Reves, D. Goodman, W. J. Greeley |
| 1994 | Neonatal workstation for inspired oxygen control and monitoring | Y. Sun and I. Kohane |
| March/April 1992 | Closed-Loop Control of SaO2 in the Neonate | Paul E. Morozoff and Ron W. Evans |
| 1985 | Incubator Temperature Control - Effects on the Very Low Birthweight Infant | D. A. Ducker; A. J. Lyon; R. Ross Russell; C. A. Bass; and N. McIntosh |
| 1979 | New Technique for Servo-Control of Arterial Oxygen Tension in Preterm Infants | I. R. Beddis; P. Collins; N. M. Levy; S. Godfrey; and M. Silverman |
| July/August 1977 | Incubator Control with Computer Assistance | Paul H. Perlstein; Neil K. Edwards; Harry D. Atherton |
| March, 1969 | Bioengineering and Anesthesia | Terence W. Murphy, MD; Valentino D. B. Mazzia, MD |
| July, 1979 | Apparatus for the servocontrol of arterial oxygen tension in preterm infants | P. Collins; N. M. Levy; I. R. Beddis; S. Godfrey; M. Silverman |
| July, 1981 | Using Computers in Newborn Intensive Care Settings | Ann Slone Endo |
| 1971 | Automated Patient Care Following Cardiac Surgery | Nicholas T. Kouchoukos; Louis B. Sheppard; John W. Kirklin |
| Dec. 1997 | Computer-controlled minute ventilation in preterm infants undergoing mechanical ventilation | Nelson Claure; Tilo Gerhardt; Helmut Hummler; Ruth Everett; Eduardo Bancalari |
| January, 1998 | Dynamic Programming Approach for Newborn's Incubator Humidity Control | Djaaffar Bouattoura, Pierre Villon, and Gilbert Farges |
| Mar-95 | A computerized control system for cardiopulmonary bypass | T. Beppu; Y. Imai; Y. Fukui |
| 1982 | Computer Controlled Extracorporeal Circulation (ECC) with Pulsatile Perfusion for an Infant | Y. Fukui; K. Tsuchiya; and Y. Imai |
| July-August, 1994 | Computerized Temperature Control of the Low-Birth-Weight Infant: A 20-Year Retrospective and Future Prospects. | H. D. Atherton; S. Dollberg; M. M. Donnelly; P. H. Perlstein; S. B. Hoath |
| 1979 | Hypertensive crisis managed by computer-controlled infusion of sodium nitroprusside: a model for the closed-loop administration of short-acting vasoactive agents | Jeremy J. Hammond; Walter M. Kirkendall; Richard V. Calfee |
| Oct-68 | Automated treatment of critically ill patients following operation | Louis C. Sheppard; Nicholas T. Kouchoukos; Mary Alta Kurtts; John W. Kirklin |
| August, 1977 | Use of a microprocessor in the control of malignant hypertension with sodium nitroprusside | R. V. Jackson; J. B. Love; W. G. Parkin; M. L. Wahlqvist; N. S. Williams |
| 1977 | Effective control of blood pressure by computerized infusion of sodium nitroprusside | R. V. Calfee; J. J. Hammond; W. M. Kirkendall |
| Jul-73 | The digital computer in surgical intensive care automation | Louis C. Sheppard; Nicholas T. Kouchoukos; John W. Kirklin |
| 1969 | On-line digital analysis of respiratory mechanics and the automation of respirator control | Mark Hilberman; John P. Schill; and Richard M.Peters |
| Jan-Feb 1972 | Surgical Intensive Care Automation | Louis C. Sheppard; Nicholas T. Kouchoukos; Jack C. Acton; Janice M. Fincher; John W. Kirklin |
| Nov. 1997 | Computer-assisted adjustment of inspired oxygen concentration improves control of oxygen saturation in newborn infants requiring mechanical ventilation. | Yao Sun; Isaac S. Kohane; Ann R. Stark |
| March/April 1998 | Improving Instrumentation for Hospital Care of Neonates in Hungary: A System to Help Reduce the Rate of Perinatal Mortality | M. Blasovsky and T. Machay |
| Oct. 1992 | Microcomputer-based automatic regulation of extracorporeal circulation: a trial for the application of fuzzy inference | Anbe J, Tobi T, Nakajima H, Akasaka T, Okinaga K |
| May, 2001 | Closed-Loop Controlled Inspired Oxygen Concentration for Mechanically Ventilated Very Low Birth Weight Infants With Frequent Episodes of Hypoxemia | Nelson Claure, Tilo Gerhardt, Ruth Everett, Gabriel Musante, Carmen Herrera, and Eduardo Bancalari |
| April, 2000 | Clinical evaluation of a computer-controlled pressure support mode. | Dojat M. Harf A. Touchard D. Lemaire F. Brochard L. |
| Oct. 1997 | NeoGanesh: a working system for the automated control of assisted ventilation in ICUs. | Dojat M. Pachet F. Guessoum Z. Touchard D. Harf A. Brochard L. |
| Dec. 1992 | A knowledge-based system for assisted ventilation of patients in intensive care units. | Dojat M. Brochard L. Lemaire F. Harf A. |
| Feb. 1994 | Automatic selection of tidal volume, respiratory frequency and minute ventilation in intubated ICU patients as start up procedure for closed-loop controlled ventilation | Laubscher TP. Frutiger A. Fanconi S. Jutzi H. Brunner JX |
| Aug-99 | Automatic control of pressure support mechanical ventilation using fuzzy logic | Nemoto T. Hatzakis GE. Thorpe CW. Olivenstein R. Dial S. Bates JH. |
| Sept. 1986 | Computer-controlled optimization of positive end-expiratory pressure | East TD. Andriano KP. Pace NL |
| Jan-Feb. 2003 | Vibrotactile stimulation system to treat apnea of prematurity | Pichardo R, Adam JS, Rosow E, Bronzino J, Eisenfeld L. |
| Oct. 1992 | Adaptive control of inspired oxygen delivery to the neonate | Bhutani VK, Taube JC, Antunes MJ, Delivoria-Papadopoulos M |
| Nov. 2003 | Weaning Infants with Respiratory Syncytial Virus from Mechanical Ventilation through a Fuzzy-Logic Controller | S. Olliver MD, G.M. Davis MB ChB, G.E. Hatzakis PhD |
| Feb-09 | Automated respiratory support in newborn infants. | Claure N, Bancalari E. |
| Nov. 2009 | Automated adjustment of inspired oxygen in preterm infants with frequent fluctuations in oxygenation: a pilot clinical trial. | Claure N, D'Ugard C, Bancalari E. |
| Nov. 2004 | Automatic control of the inspired oxygen fraction in preterm infants: a randomized crossover trial. | Urschitz MS, Horn W, Seyfang A, Hallenberger A, Herberts T, Miksch S, Popow C, Müller-Hansen I, Poets CF. |
| Dec. 2007 | Automated regulation of inspired oxygen in preterm infants: oxygenation stability and clinician workload. | Claure N. |
| 7/1/2019 | Automated oxygen control in the preterm infant: automation yes, but we need intelligence. | Dargaville PA, Franz A, Poets CF, Gale TJ. |
| 1/1/2017 | Clinical evaluation of a novel adaptive algorithm for automated control of oxygen therapy in preterm infants on non-invasive respiratory support. | Plottier GK, Wheeler KI, Ali SK, Fathabadi OS, Jayakar R, Gale TJ, Dargaville PA. |
| 7/1/2019 | Randomised cross-over study of automated oxygen control for preterm infants receiving nasal high flow. | Reynolds PR, Miller TL, Volakis LI, Holland N, Dungan GC, Roehr CC, Ives K. |
| 9/1/2019 | Targeting Arterial Oxygen Saturation by Closed-Loop Control of Inspired Oxygen in Preterm Infants. | Claure N, Bancalari E. |
| 3/1/2019 | Automated control of inspired oxygen (FiO2 ) in preterm infants: Literature review. | Dani C. |
| 9/1/2015 | Automated versus Manual Oxygen Control with Different Saturation Targets and Modes of Respiratory Support in Preterm Infants. | van Kaam AH, Hummler HD, Wilinska M, Swietlinski J, Lal MK, te Pas AB, Lista G, Gupta S, Fajardo CA, Onland W, Waitz M, Warakomska M, Cavigioli F, Bancalari E, Claure N, Bachman TE. |
| 7/1/2021 | The effect of automated oxygen control on clinical outcomes in preterm infants: a pre- and post-implementation cohort study. | Salverda HH, Oldenburger NJ, Rijken M, Pauws SC, Dargaville PA, Te Pas AB. |