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Closed and open breathing circuit function in healthy volunteers during exercise at Mount Everest base camp (5300 m)

Closed and open breathing circuit function in healthy volunteers during exercise at Mount Everest base camp (5300 m)
Closed and open breathing circuit function in healthy volunteers during exercise at Mount Everest base camp (5300 m)
We present a randomised, controlled, crossover trial of the Caudwell Xtreme Everest (CXE) closed circuit breathing system vs an open circuit and ambient air control in six healthy, hypoxic volunteers at rest and exercise at Everest Base Camp, at 5300 m. Compared with control, arterial oxygen saturations were improved at rest with both circuits. There was no difference in the magnitude of this improvement as both circuits restored median (IQR [range]) saturation from 75%, (69.5-78.9 [68-80]%) to > 99.8% (p = 0.028). During exercise, the CXE closed circuit improved median (IQR [range]) saturation from a baseline of 70.8% (63.8-74.5 [57-76]%) to 98.8% (96.5-100 [95-100]%) vs the open circuit improvement to 87.5%, (84.1-88.6 [82-89]%; p = 0.028). These data demonstrate the inverse relationship between supply and demand with open circuits and suggest that ambulatory closed circuits may offer twin advantages of supplying higher inspired oxygen concentrations and/or economy of gas use for exercising hypoxic adults.
0003-2409
875-880
McMorrow, R.C.N.
16f89414-0172-43be-86a5-ce683e0d2533
Windsor, J.S.
bab0016e-a884-4083-9f84-93d7676bb720
Hart, N.D.
b6bc379a-e142-408b-b613-a090d7122fe7
Richards, P.
6c844fc2-a33d-4de0-9392-b05f299817c2
Rodway, G.W.
0b1dd502-fcdc-4a7e-810f-404bfe3114d7
Ahuja, V.Y.
38524c78-9ea4-448b-8de6-2e0c6cca78b2
O'Dwyer, M.J.
803b1777-f5d9-41ab-ab39-e8d9c681d146
Mythen, M.G.
c82ab585-86d5-44f8-bd3c-ead87c59d459
Grocott, M.P.W
1e87b741-513e-4a22-be13-0f7bb344e8c2
Caudwell Extreme Everest Research Group
McMorrow, R.C.N.
16f89414-0172-43be-86a5-ce683e0d2533
Windsor, J.S.
bab0016e-a884-4083-9f84-93d7676bb720
Hart, N.D.
b6bc379a-e142-408b-b613-a090d7122fe7
Richards, P.
6c844fc2-a33d-4de0-9392-b05f299817c2
Rodway, G.W.
0b1dd502-fcdc-4a7e-810f-404bfe3114d7
Ahuja, V.Y.
38524c78-9ea4-448b-8de6-2e0c6cca78b2
O'Dwyer, M.J.
803b1777-f5d9-41ab-ab39-e8d9c681d146
Mythen, M.G.
c82ab585-86d5-44f8-bd3c-ead87c59d459
Grocott, M.P.W
1e87b741-513e-4a22-be13-0f7bb344e8c2

McMorrow, R.C.N., Windsor, J.S., Hart, N.D., Richards, P., Rodway, G.W., Ahuja, V.Y., O'Dwyer, M.J., Mythen, M.G. and Grocott, M.P.W , Caudwell Extreme Everest Research Group (2012) Closed and open breathing circuit function in healthy volunteers during exercise at Mount Everest base camp (5300 m). Anaesthesia, 67 (8), 875-880. (doi:10.1111/j.1365-2044.2012.07152.x). (PMID:22519895)

Record type: Article

Abstract

We present a randomised, controlled, crossover trial of the Caudwell Xtreme Everest (CXE) closed circuit breathing system vs an open circuit and ambient air control in six healthy, hypoxic volunteers at rest and exercise at Everest Base Camp, at 5300 m. Compared with control, arterial oxygen saturations were improved at rest with both circuits. There was no difference in the magnitude of this improvement as both circuits restored median (IQR [range]) saturation from 75%, (69.5-78.9 [68-80]%) to > 99.8% (p = 0.028). During exercise, the CXE closed circuit improved median (IQR [range]) saturation from a baseline of 70.8% (63.8-74.5 [57-76]%) to 98.8% (96.5-100 [95-100]%) vs the open circuit improvement to 87.5%, (84.1-88.6 [82-89]%; p = 0.028). These data demonstrate the inverse relationship between supply and demand with open circuits and suggest that ambulatory closed circuits may offer twin advantages of supplying higher inspired oxygen concentrations and/or economy of gas use for exercising hypoxic adults.

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More information

Published date: August 2012
Organisations: Human Development & Health

Identifiers

Local EPrints ID: 348863
URI: http://eprints.soton.ac.uk/id/eprint/348863
DOI: doi:10.1111/j.1365-2044.2012.07152.x
ISSN: 0003-2409
PURE UUID: 766c4abe-1060-4fff-813a-bec012d8bfb0
ORCID for M.P.W Grocott: ORCID iD orcid.org/0000-0002-9484-7581

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Date deposited: 20 Feb 2013 15:42
Last modified: 15 Mar 2024 03:33

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Contributors

Author: R.C.N. McMorrow
Author: J.S. Windsor
Author: N.D. Hart
Author: P. Richards
Author: G.W. Rodway
Author: V.Y. Ahuja
Author: M.J. O'Dwyer
Author: M.G. Mythen
Author: M.P.W Grocott ORCID iD
Corporate Author: Caudwell Extreme Everest Research Group

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