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Literature DB >> 2116503

Closed-loop control for anesthesia breathing systems.

Abstract

Numerous medical applications of closed-loop control have been developed over the past 40 years. For the patient breathing system, appropriate sensors are available. Feedback controllers have been developed and tested. Gas and vapor delivery devices seem ready for use. With the sensors, controllers, and delivery devices developed and tested, it seems likely that closed-loop control will be an integral part of future anesthesia workstations. The convenience and improved stability and response time will be important advantages in future anesthesia delivery systems.

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Carbon Dioxide

Year: 1990 PMID： 2116503 DOI： 10.1007/bf02832155

Source DB: PubMed Journal: J Clin Monit ISSN： 0748-1977

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References

41 in total

1. End-tidal halothane concentration for endotracheal intubation.

Authors: R W Yakaitis; C D Blitt; J P Angiulo
Journal: Anesthesiology Date: 1977-10 Impact factor: 7.892

2. The response of arterial pressure to halothane: a systems analysis.

Authors: N T Smith; H O Schwede
Journal: Med Biol Eng Date: 1972-03

3. Evaluation of oxygen monitors for use during anesthesia.

Authors: D R Westenskow; W S Jordan; R Jordan; S T Gillmor
Journal: Anesth Analg Date: 1981-01 Impact factor: 5.108

4. Closed loop control of vasoactive drug infusion. A preliminary report.

Authors: D R Potter; J T Moyle; R J Lester; R J Ware
Journal: Anaesthesia Date: 1984-07 Impact factor: 6.955

5. Automatic control in anesthesia: a comparison in performance between the anesthetist and the machine.

Authors: N T Smith; M L Quinn; J Flick; Y Fukui; R Fleming; J R Coles
Journal: Anesth Analg Date: 1984-08 Impact factor: 5.108

6. Hypertensive crisis managed by computer controlled infusion of sodium nitroprusside: a model for the closed loop administration of short acting vasoactive agents.

Authors: J J Hammond; W M Kirkendall; R V Calfee
Journal: Comput Biomed Res Date: 1979-04

Closed-loop control for anesthesia breathing systems.

1. End-tidal halothane concentration for endotracheal intubation.

2. The response of arterial pressure to halothane: a systems analysis.

3. Evaluation of oxygen monitors for use during anesthesia.

4. Closed loop control of vasoactive drug infusion. A preliminary report.

5. Automatic control in anesthesia: a comparison in performance between the anesthetist and the machine.

6. Hypertensive crisis managed by computer controlled infusion of sodium nitroprusside: a model for the closed loop administration of short acting vasoactive agents.

7. Digital and sampled-data control of arterial blood pressure during halothane anesthesia.

8. A microcomputer-based differential lung ventilation system.

9. A microprocessor based feedback controller for mechanical ventilation.

10. Microprocessor-controlled hemodynamics: a step towards improved efficiency and safety.