A comparison of sequential total and activated white cell count in patients undergoing coronary artery bypass grafting, using cardiopulmonary bypass, with and without a white cell filter
A comparison of sequential total and activated white cell count in patients undergoing coronary artery bypass grafting, using cardiopulmonary bypass, with and without a white cell filter
Introduction
Cardiopulmonary bypass (CPB) has been shown to induce a systemic inflammatory response similar to the local reaction seen after tissue damage [1]. This leads to the release of toxic substances, such as elastase, which cause endothelial damage and may adversely affect outcome [2]. Use of a leucocyte depleting arterial line filter is one of many anti-inflammatory strategies that are undergoing evaluation. Leucocyte depleting filters may be capable of selectively removing activated white cells [3], but this has not been proved in vivo. The aim of the present study was to compare sequential total and activated white cells during CPB, using either a leucocyte depleting or standard arterial line filter.
Materials and methods
After local ethical committee approval, 20 patients undergoing coronary artery bypass grafting using CPB were prospectively randomly allocated to have either a Leukogard LG–6 (Pall Biomedical, Portsmouth, UK) or a nonleucocyte depleting filter inserted into the arterial line of the CPB circuit. Arterial limb blood samples were taken immediately after institution of CPB (0min) and at 10–min intervals throughout the bypass period. Activated white cells were identified using nitroblue tetrazolium, then both total and activated white cell numbers counted after staining with Leucoplate.
Results
Table 1 shows the number of white cells counted/1.25 ? l (volume of a single channel of Nageotte counting chamber) using light microscopy (× 25).
Conclusion
The LG6 leucocyte filter reduces the total white cell count and is capable of selectively removing activated white cells during CPB. The exact relationship between leucocyte depletion and improved patient outcome still remains unclear.
Nanson, J.K.
9a976e06-02cc-47ef-a646-92556cc58957
Sheppard, S.V.
e1cda445-ccea-4633-a11a-95a28ca31313
Kulkarni, M.
2610cecc-53b5-484c-95f5-aeefddd88d3a
Smith, D.C.
536ad98e-9c71-4171-a7b5-51d796090e5d
1999
Nanson, J.K.
9a976e06-02cc-47ef-a646-92556cc58957
Sheppard, S.V.
e1cda445-ccea-4633-a11a-95a28ca31313
Kulkarni, M.
2610cecc-53b5-484c-95f5-aeefddd88d3a
Smith, D.C.
536ad98e-9c71-4171-a7b5-51d796090e5d
Nanson, J.K., Sheppard, S.V., Kulkarni, M. and Smith, D.C.
(1999)
A comparison of sequential total and activated white cell count in patients undergoing coronary artery bypass grafting, using cardiopulmonary bypass, with and without a white cell filter.
Chest, 4 ((Suppl A):3).
(doi:10.1186/cc654).
Abstract
Introduction
Cardiopulmonary bypass (CPB) has been shown to induce a systemic inflammatory response similar to the local reaction seen after tissue damage [1]. This leads to the release of toxic substances, such as elastase, which cause endothelial damage and may adversely affect outcome [2]. Use of a leucocyte depleting arterial line filter is one of many anti-inflammatory strategies that are undergoing evaluation. Leucocyte depleting filters may be capable of selectively removing activated white cells [3], but this has not been proved in vivo. The aim of the present study was to compare sequential total and activated white cells during CPB, using either a leucocyte depleting or standard arterial line filter.
Materials and methods
After local ethical committee approval, 20 patients undergoing coronary artery bypass grafting using CPB were prospectively randomly allocated to have either a Leukogard LG–6 (Pall Biomedical, Portsmouth, UK) or a nonleucocyte depleting filter inserted into the arterial line of the CPB circuit. Arterial limb blood samples were taken immediately after institution of CPB (0min) and at 10–min intervals throughout the bypass period. Activated white cells were identified using nitroblue tetrazolium, then both total and activated white cell numbers counted after staining with Leucoplate.
Results
Table 1 shows the number of white cells counted/1.25 ? l (volume of a single channel of Nageotte counting chamber) using light microscopy (× 25).
Conclusion
The LG6 leucocyte filter reduces the total white cell count and is capable of selectively removing activated white cells during CPB. The exact relationship between leucocyte depletion and improved patient outcome still remains unclear.
More information
Published date: 1999
Identifiers
Local EPrints ID: 9008
URI: http://eprints.soton.ac.uk/id/eprint/9008
ISSN: 0012-3692
PURE UUID: 060a909a-c9df-4937-962c-45cd854fdf09
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Date deposited: 14 Sep 2004
Last modified: 15 Mar 2024 04:53
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Contributors
Author:
J.K. Nanson
Author:
S.V. Sheppard
Author:
M. Kulkarni
Author:
D.C. Smith
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