Do lipid microemboli induce acute kidney injury during cardiopulmonary bypass?
Do lipid microemboli induce acute kidney injury during cardiopulmonary bypass?
Background: Acute Kidney Injury following cardiopulmonary bypass affects 5% of patients representing significant postoperative morbidity and mortality. Animal models have shown an increased uptake of Lipid Microemboli (LME) into the renal vasculature, potentially indicating ischaemic causation. This study tested a new lipid filtration system (RemoweLL) against a conventional system with no lipid-depleting capacity, to determine the efficacy of the filtration system and its effects on renal function.
Methods: Thirty consecutive patients underwent coronary artery bypass graft surgery using either the RemoweLL filtration system (15 patients) or a conventional cardiopulmonary bypass circuit (15 patients). Renal function was assessed using Cystatin C concentrations as a surrogate marker of glomerular injury, as well as perioperative glomerular filtration rate (GFR) and serum creatinine concentrations. Patients were defined as having acute renal injury if there was an increase in absolute serum creatinine ≥3mg/dL (26.4µmol/L) or 1.5-fold increase from baseline as categorised using the AKIN criteria.
Results: Post-op differences in LME count between the two groups were highly significant [p<0.001]. Analysis of peak Cystatin C concentrations showed significantly lower levels in the LME filtration group on the 2nd postoperative morning [p=0.04]. Two factor ANOVA revealed a trend towards interaction but this failed to reach significance [p=0.06]. There were no differences throughout the study period in serum creatinine or GFR [p>0.05]. There were no differences in any of the serum or urinary electrolytes.
Conclusions: This study has shown a trend towards improved Cystatin C removal with LME filtration; with significantly lower peak concentrations, although no further evidence of renoprotection could be demonstrated. Further research is warranted to establish possible renal benefits of LME filtration in patients undergoing cardiac surgery.
Issitt, Richard, William
e5d2a06c-e3c3-439c-ba9a-c94777f1a12b
James, Tim
55eedb24-cd56-418a-b4b4-30dd0dbb84a0
Walsh, Bronagh
5818243e-048d-4b4b-88c5-231b0e419427
Voegeli, David
e6f5d112-55b0-40c1-a6ad-8929a2d84a10
Issitt, Richard, William
e5d2a06c-e3c3-439c-ba9a-c94777f1a12b
James, Tim
55eedb24-cd56-418a-b4b4-30dd0dbb84a0
Walsh, Bronagh
5818243e-048d-4b4b-88c5-231b0e419427
Voegeli, David
e6f5d112-55b0-40c1-a6ad-8929a2d84a10
Issitt, Richard, William, James, Tim, Walsh, Bronagh and Voegeli, David
(2017)
Do lipid microemboli induce acute kidney injury during cardiopulmonary bypass?
Perfusion.
(doi:10.1177/0267659117705194).
Abstract
Background: Acute Kidney Injury following cardiopulmonary bypass affects 5% of patients representing significant postoperative morbidity and mortality. Animal models have shown an increased uptake of Lipid Microemboli (LME) into the renal vasculature, potentially indicating ischaemic causation. This study tested a new lipid filtration system (RemoweLL) against a conventional system with no lipid-depleting capacity, to determine the efficacy of the filtration system and its effects on renal function.
Methods: Thirty consecutive patients underwent coronary artery bypass graft surgery using either the RemoweLL filtration system (15 patients) or a conventional cardiopulmonary bypass circuit (15 patients). Renal function was assessed using Cystatin C concentrations as a surrogate marker of glomerular injury, as well as perioperative glomerular filtration rate (GFR) and serum creatinine concentrations. Patients were defined as having acute renal injury if there was an increase in absolute serum creatinine ≥3mg/dL (26.4µmol/L) or 1.5-fold increase from baseline as categorised using the AKIN criteria.
Results: Post-op differences in LME count between the two groups were highly significant [p<0.001]. Analysis of peak Cystatin C concentrations showed significantly lower levels in the LME filtration group on the 2nd postoperative morning [p=0.04]. Two factor ANOVA revealed a trend towards interaction but this failed to reach significance [p=0.06]. There were no differences throughout the study period in serum creatinine or GFR [p>0.05]. There were no differences in any of the serum or urinary electrolytes.
Conclusions: This study has shown a trend towards improved Cystatin C removal with LME filtration; with significantly lower peak concentrations, although no further evidence of renoprotection could be demonstrated. Further research is warranted to establish possible renal benefits of LME filtration in patients undergoing cardiac surgery.
Text
Do lipid microemboli induce acute kidney injury during cardiopulmonary bypass?
- Accepted Manuscript
Text
Title Page - Do lipid microemboli induce acute kidney injury during cardiopulmonary bypass?
- Accepted Manuscript
More information
Accepted/In Press date: 26 March 2017
e-pub ahead of print date: 20 April 2017
Organisations:
Researcher Development, Centre for Innovation & Leadership, Advancing Clinical & Expert Practice
Identifiers
Local EPrints ID: 407593
URI: http://eprints.soton.ac.uk/id/eprint/407593
ISSN: 0267-6591
PURE UUID: f3bc3263-cc10-450e-b88f-52074a6d75d9
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Date deposited: 16 Apr 2017 16:59
Last modified: 16 Mar 2024 05:13
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Author:
Richard, William Issitt
Author:
Tim James
Author:
David Voegeli
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