BACKGROUND: The administration of oxygen at a high-inspired concentration is often required in medicine, particularly in resuscitation of critically ill patients. However, there is a lack of evidence-based guidance on how to achieve this using currently available apparatus. The aim of this study was to assess how maximum inspired oxygen concentrations can be delivered using existing equipment. METHODS: Ten healthy female volunteers breathed oxygen through two types of Hudson non-rebreathing mask with reservoir bag, one with a safety vent in the mask body and the other with a valve replacing this safety vent (3-valve mask). Oxygen flow was adjusted to either 10 or 15 l min(-1) and the masks were fitted to the face either loosely or tightly. The expired oxygen concentration was measured using an oxygen analyzer. FINDINGS: By using the Hudson non-rebreathing mask with three valves, increasing the oxygen flow to 15 l min(-1), and fitting the mask tightly to the face the average expired oxygen fraction could be raised to 0.85. This equates to an average inspired oxygen fraction of 0.97 in these subjects. INTERPRETATION: The three simple measures mentioned above result in a significant improvement in the performance of the Hudson non-rebreathing mask. Together they allow the delivery of an inspired oxygen concentration close to maximum.
BACKGROUND: The administration of oxygen at a high-inspired concentration is often required in medicine, particularly in resuscitation of critically illpatients. However, there is a lack of evidence-based guidance on how to achieve this using currently available apparatus. The aim of this study was to assess how maximum inspired oxygen concentrations can be delivered using existing equipment. METHODS: Ten healthy female volunteers breathed oxygen through two types of Hudson non-rebreathing mask with reservoir bag, one with a safety vent in the mask body and the other with a valve replacing this safety vent (3-valve mask). Oxygen flow was adjusted to either 10 or 15 l min(-1) and the masks were fitted to the face either loosely or tightly. The expired oxygen concentration was measured using an oxygen analyzer. FINDINGS: By using the Hudson non-rebreathing mask with three valves, increasing the oxygen flow to 15 l min(-1), and fitting the mask tightly to the face the average expired oxygen fraction could be raised to 0.85. This equates to an average inspired oxygen fraction of 0.97 in these subjects. INTERPRETATION: The three simple measures mentioned above result in a significant improvement in the performance of the Hudson non-rebreathing mask. Together they allow the delivery of an inspired oxygen concentration close to maximum.
Authors: Thomas D A Standley; Helen L Smith; Liam J Brennan; Ingrid A Wilkins; Peter G Bradley; Casiano Barrera Groba; Andrew J Davey; David K Menon; Daniel W Wheeler Journal: Intensive Care Med Date: 2008-03-19 Impact factor: 17.440
Authors: Adrian Barnett; Richard Beasley; Catherine Buchan; Jimmy Chien; Claude S Farah; Gregory King; Christine F McDonald; Belinda Miller; Maitri Munsif; Alex Psirides; Lynette Reid; Mary Roberts; Natasha Smallwood; Sheree Smith Journal: Respirology Date: 2022-02-17 Impact factor: 6.175