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Equipment Articles

Disclaimer: The ideas and opinions expressed in these documents are those of the authors. Inclusion on this list does not necessarily constitute endorsement by the Undersea and Hyperbaric Medical Society.


Infusion Pumps to Consider for Use with Hyperbaric Chambers

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Reproduced from: Health Devices 2016 Feb 17

Transcutaneous oxygen electrode

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Model(s): all
Manufacturer: Radiometer Copenhagen

USN Equipment Testing Procedures

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Publisher: United States Navy

Decision process to assess medical equipment for hyperbaric use

Author(s): F. BURMAN, R. SHEFFIELD, K. POSEY
Information:
Appeared in: Journal of Hyperbaric Medicine, Vol 36, No 2, 2009
Publisher: Undersea and Hyperbaric Medical Society

Performance of the Sechrist 500A Hyperbaric Ventilator in a Monoplace Hyperbaric Chamber

Author(s): LK Weaver, L Greenway, CG Elliott
Information:
Appeared in: Journal of Hyperbaric Medicine, Vol 3, No 4, 1988
Publisher: Undersea and Hyperbaric Medical Society
Abstract: In our initial use of the Sechrist 500A hyperbaric ventilator operating within a Sechrist 2500B monoplace chamber, we observed that the patient's tidal volume (VT) decreased as chamber pressure (PCH) increased more than 10%, the maximum allowable decrement in VT from the ambient VT (500A operator's manual). Therefore we decided to quantitate this decrement in VT and to determine what variables were important for the ventilator to deliver an adequate VT. The 500A ventilator was set up within the chamber in the manner described by the 500A operator's manual. First, an adult Boehringer spirometer was calibrated over the range of monoplace PCH (0.85 to 2.9 ATA at our altitude). This was accomplished by collecting a volume of gas at various PCH, then measuring the volume of gas at atmospheric pressure and calculating the true VT. Comparing measured VT to true VT, the percent error discrepancy was: -1.5, +2.4, +2.8, +6.1, +6.0% at PCH = 0.85, 1.5, 2.0, 2.5, 2.9 ATA, respectively (the + values mean that the spirometer underestimates the actual VT by that %). Once the spirometer calibration was known, we varied the static complaince (C = 15 to 8.7 cc/cmH2O) of a test lung and ventilator control module inlet pressure (PIN) from 55 to 85 psig (the allowed range of PIN by Sechrist) and measured VT as the dependent variable. We found that VT is a function of C, PCH and PIN . Even with a normal V , VT decreased more than -10% when PCH exceeded 1.5 to 2.0 ATA. With a C = 15 cc/cmH2O, PCH = 2.5 ATA, and PIN = 55 psig, VT was reduced 38% from that at ambient pressure. We recommend monitoring VT continuously during mechanical ventilation of patients in a monoplace hyperbaric chamber with a hyperbaric-calibrated spirometer, making appropriate ventilator adjustments to maintain an adequate VT.

Evaluation of Respiratory Support Devices for Use in the Hyperbaric Chamber

Author(s): DF Stanga, G Beck, JM Chimiak
Information:
Appeared in: NEDU TR 03-18 (November 2003)
Publisher: Navy Experimental Diving Unit
NOTE: The devices were tested for use in an air filled chamber.

Evaluation of Intravenous Therapy Devices in the Hyperbaric Chamber

Author(s): DF Stanga
Information:
Appeared in: NEDU TR 03-21 (December 2003)
Publisher: Navy Experimental Diving Unit
NOTE: The devices were tested for use in an air filled chamber.

Medical Equipment for Multiplace Hyperbaric Chambers Part I: Devices for Monitoring and CardiacSupport

Author(s): Jacek Kot, National Centre for Hyperbaric Medicine, Institue of Maritime and Tropical Medicine, Gdynia, Medical University of Gdansk, Poland
Information:
Appeared in: European Journal of Underwater and Hyperbaric Medicine: ISSN: 1605-9204: Vol. 6, No. 4: December 2005
Description: Hyperbaric chamber is an active medical device, which is potentially hazardous taking into accounts its application, and exposure of people inside to incresed ambient pressure and increased partial pressure of oxygen.

Medical Equipment for Multiplace Hyperbaric Chambers Part II: Ventilators

Author(s): Jacek Kot, National Centre for Hyperbaric Medicine, Institue of Maritime and Tropical Medicine, Gdynia, Medical University of Gdansk, Poland
Information:
Appeared in: European Journal of Underwater and Hyperbaric Medicine: ISSN: 1605-9204: Vol. 7, No. 1: March 2006
Description: In Part 1 of this paper (1) the review concerning monitoring devices and cadiac support was presented. This Part describes mechanical ventilators. Part 3 will be devoted to infusion pumps and syringes.

Medical Equipment for Multiplace Hyperbaric Chambers Part III: Infusion pumps and syringes

Author(s): Jacek Kot, National Centre for Hyperbaric Medicine, Institue of Maritime and Tropical Medicine, Gdynia, Medical University of Gdansk, Poland
Information:
Appeared in: European Journal of Underwater and Hyperbaric Medicine: ISSN: 1605-9204: Vol. 7, No. 2:June 2006
Description: The review concerning monitoring devices and cardiac support was presented int he Part 1 of this paper (1). Part 2 of this paper reviewed the mechanical ventilators (2). Part 3 presentes a review of infusion pumps and electric syringes.

Patient Manual for Inspire models 3034 and 3028

These devices have been tested and will tolerate at least 2.0ATA, depending on the model.