The impact of temperature in aortic arch surgery patients receiving antegrade cerebral perfusion for >30 minutes: How relevant is it really?

Autor: Ricky J.L. Haywood-Watson, Faisal G. Bakaeen, Matt D. Price, Joseph S. Coselli, Andrea Garcia, Shuab Omer, Athina Rammou, Sarang A. Kashyap, Shahab Akvan, Katherine H. Simpson, Lorraine D. Cornwell, Kim I. de la Cruz, Ourania Preventza, Jessica M. Mayor
Rok vydání: 2017
Předmět:
Male
Reoperation
Pulmonary and Respiratory Medicine
Time Factors
Databases
Factual
Aorta
Thoracic
Postoperative Hemorrhage
030204 cardiovascular system & hematology
Risk Assessment
law.invention
Blood Vessel Prosthesis Implantation
03 medical and health sciences
0302 clinical medicine
Hypothermia
Induced
Risk Factors
law
Cardiopulmonary bypass
medicine
Humans
Hospital Mortality
Cerebral perfusion pressure
Stroke
Aged
Retrospective Studies
Univariate analysis
business.industry
Middle Aged
Hypothermia
medicine.disease
Confidence interval
Perfusion
Circulatory Arrest
Deep Hypothermia Induced
Treatment Outcome
030228 respiratory system
Cerebrovascular Circulation
Anesthesia
Relative risk
Deep hypothermic circulatory arrest
Female
Surgery
medicine.symptom
Cardiology and Cardiovascular Medicine
business
Zdroj: The Journal of Thoracic and Cardiovascular Surgery. 153:767-776
ISSN: 0022-5223
DOI: 10.1016/j.jtcvs.2016.11.059
Popis: Objective We examined the early outcomes and the long-term survival associated with different degrees of hypothermia in patients who received antegrade cerebral perfusion (ACP) for >30 minutes. Methods During a 10-year period, 544 consecutive patients underwent proximal and total aortic arch surgery and received ACP for >30 minutes and 1 of 3 levels of hypothermia: deep (14.1°C-20°C; n = 116 [21.3%]), low-moderate (20.1°C-23.9°C; n = 262 [48.2%]), and high-moderate (24°C-28°C; n = 166 [30.5%]). A variable called "predicted temperature" was used in propensity-score analysis. Multivariate analysis was done to evaluate the effect of actual temperature on outcomes. Results The operative mortality rate was 12.5% (n = 68) overall and was 15.5%, 11.8%, and 11.5% in the deep, low-moderate, and high-moderate hypothermia patients, respectively ( P = .54). The persistent stroke rate was 6.6% overall and 12.2%, 4.6%, and 6.0% in these 3 groups, respectively ( P = .024 on univariate analysis). On multivariate analysis, actual temperature was not associated with mortality, but lower temperatures predicted persistent stroke and reoperation for bleeding. In the propensity-matched subgroups, the patients with predicted deep hypothermia had (nonsignificantly) greater rates of persistent stroke (12.2% vs 4.9%; relative risk, 1.08; 95% CI, 0.87-1.15) and reoperation for bleeding (14.6% vs 2.4%; relative risk, 1.14; 95% CI, 0.87-1.15) than the patients with predicted moderate hypothermia. On long-term follow-up (mean duration, 5.12 years), 4- and 8-year survival rates were 62.3% and 55.7% in the deep hypothermia group and 75.4% and 74.2% in the moderate hypothermia group ( P = .0015). Conclusions In proximal and arch operations involving ACP for >30 minutes, greater actual temperatures were associated with less stroke and reoperation for bleeding. There were no significant differences among the predicted hypothermia levels, although a trend toward a higher rate of adverse events was noticed in the deep hypothermia group. Long-term survival was better in the moderate hypothermia group.
Databáze: OpenAIRE
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