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Replicating measurements of total hemoglobin mass (tHb-mass) within a single day: precision of measurement; feasibility and safety of using oxygen to expedite carbon monoxide clearance

Replicating measurements of total hemoglobin mass (tHb-mass) within a single day: precision of measurement; feasibility and safety of using oxygen to expedite carbon monoxide clearance
Replicating measurements of total hemoglobin mass (tHb-mass) within a single day: precision of measurement; feasibility and safety of using oxygen to expedite carbon monoxide clearance

Hemoglobin concentration ([Hb]) is a function of total hemoglobin mass (tHb-mass) and plasma volume. [Hb] may fall by dilution due to plasma volume expansion and changes in the perioperative period may therefore correlate poorly with blood loss. A simple, reliable, repeatable way to measure plasma volume and tHb-mass would have substantial clinical utility. The “optimized carbon monoxide re-breathing method” (oCOR) meets these criteria. However, it is recommended that a minimum of 12 h (when breathing room air) is left between repeat measurements. Twenty-four subjects underwent 3 days of testing. Two oCOR tests were performed (T1 and T2), 3 h apart, with a different CO clearance method employed between tests aiming to keep the carboxyhemoglobin level below 10%. The primary aim was to ascertain whether tHb-mass testing could be safely repeated within 3 h if carboxyhemoglobin levels were actively reduced by breathing supplemental oxygen (PROCA). Secondary aims were to compare two other clearance methods; moderate exercise (PROCB), or a combination of the two (PROCC). Finally, the reliability of the oCOR method was assessed. Mean (SD) tHb-mass was 807.9 ± (189.7 g) (for T1 on day 1). PROCA lowered the carboxyhemoglobin level from the end of T1 (mean 6.64%) to the start of T2 (mean 2.95%) by a mean absolute value of 3.69%. For PROCB and PROCC the mean absolute decreases in carboxyhemoglobin were 4.00% and 4.31%, respectively. The fall in carboxyhemoglobin between T1 and T2 was greatest in PROCC; this was statistically significantly lower than that of PROCA (P = 0.0039) and PROCB (P = 0.0289). The test-retest reliability for the measurement of total hemoglobin mass was good with a mean typical error (TE) of 2.0%. The oCOR method is safe and can be repeated within 3 h when carbon monoxide is suitably cleared between tests. Using oxygen therapy alone adequately achieves this.

Blood volume, optimized carbon monoxide re-breathing, plasma volume, red cell volume, total hemoglobin mass (tHb-mass)
1-13
Plumb, James O.M.
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Kumar, Shriya
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Otto, James
5675a532-7adc-449b-b9fe-f555b870e694
Schmidt, Walter
0faa7896-b696-4156-91e1-83738e71f053
Richards, Toby
fffe064a-a2c6-4d35-8ea9-128eda18f7fa
Montgomery, Hugh E.
8082956e-3142-42b4-9f46-b0c9cee79785
Grocott, Mike P.W.
1e87b741-513e-4a22-be13-0f7bb344e8c2
Plumb, James O.M.
4660fa62-49b4-4448-9b1b-a7fbe34a780b
Kumar, Shriya
0a0552d3-da23-4692-976f-af6a59053c7c
Otto, James
5675a532-7adc-449b-b9fe-f555b870e694
Schmidt, Walter
0faa7896-b696-4156-91e1-83738e71f053
Richards, Toby
fffe064a-a2c6-4d35-8ea9-128eda18f7fa
Montgomery, Hugh E.
8082956e-3142-42b4-9f46-b0c9cee79785
Grocott, Mike P.W.
1e87b741-513e-4a22-be13-0f7bb344e8c2

Plumb, James O.M., Kumar, Shriya, Otto, James, Schmidt, Walter, Richards, Toby, Montgomery, Hugh E. and Grocott, Mike P.W. (2018) Replicating measurements of total hemoglobin mass (tHb-mass) within a single day: precision of measurement; feasibility and safety of using oxygen to expedite carbon monoxide clearance. Physiological Reports, 6 (17), 1-13, [e13829]. (doi:10.14814/phy2.13829).

Record type: Article

Abstract

Hemoglobin concentration ([Hb]) is a function of total hemoglobin mass (tHb-mass) and plasma volume. [Hb] may fall by dilution due to plasma volume expansion and changes in the perioperative period may therefore correlate poorly with blood loss. A simple, reliable, repeatable way to measure plasma volume and tHb-mass would have substantial clinical utility. The “optimized carbon monoxide re-breathing method” (oCOR) meets these criteria. However, it is recommended that a minimum of 12 h (when breathing room air) is left between repeat measurements. Twenty-four subjects underwent 3 days of testing. Two oCOR tests were performed (T1 and T2), 3 h apart, with a different CO clearance method employed between tests aiming to keep the carboxyhemoglobin level below 10%. The primary aim was to ascertain whether tHb-mass testing could be safely repeated within 3 h if carboxyhemoglobin levels were actively reduced by breathing supplemental oxygen (PROCA). Secondary aims were to compare two other clearance methods; moderate exercise (PROCB), or a combination of the two (PROCC). Finally, the reliability of the oCOR method was assessed. Mean (SD) tHb-mass was 807.9 ± (189.7 g) (for T1 on day 1). PROCA lowered the carboxyhemoglobin level from the end of T1 (mean 6.64%) to the start of T2 (mean 2.95%) by a mean absolute value of 3.69%. For PROCB and PROCC the mean absolute decreases in carboxyhemoglobin were 4.00% and 4.31%, respectively. The fall in carboxyhemoglobin between T1 and T2 was greatest in PROCC; this was statistically significantly lower than that of PROCA (P = 0.0039) and PROCB (P = 0.0289). The test-retest reliability for the measurement of total hemoglobin mass was good with a mean typical error (TE) of 2.0%. The oCOR method is safe and can be repeated within 3 h when carbon monoxide is suitably cleared between tests. Using oxygen therapy alone adequately achieves this.

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Accepted/In Press date: 21 July 2018
e-pub ahead of print date: 1 September 2018
Published date: 11 September 2018
Keywords: Blood volume, optimized carbon monoxide re-breathing, plasma volume, red cell volume, total hemoglobin mass (tHb-mass)

Identifiers

Local EPrints ID: 423545
URI: http://eprints.soton.ac.uk/id/eprint/423545
DOI: doi:10.14814/phy2.13829
PURE UUID: 8fd05890-bf10-464f-bbbc-b727490f8bbf
ORCID for Mike P.W. Grocott: ORCID iD orcid.org/0000-0002-9484-7581

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Date deposited: 26 Sep 2018 16:30
Last modified: 16 Mar 2024 04:00

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Contributors

Author: James O.M. Plumb
Author: Shriya Kumar
Author: James Otto
Author: Walter Schmidt
Author: Toby Richards
Author: Hugh E. Montgomery
Author: Mike P.W. Grocott ORCID iD

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