Published: June 01, 2003Received: -Available on J-STAGE: June 28, 2010Accepted: -
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Correction information
Date of correction: June 28, 2010Reason for correction: -Correction: KEYWORDDetails: [in Japanese]
Date of correction: June 28, 2010Reason for correction: -Correction: CITATIONDetails: Wrong : E E E E E E E
Right : 1)Padayachee TS, Parsons S, Deverall PB, et al.: The effect of arterial filtration on reduction of gaseous microemboli in the middle cerebral artery during cardiopulmonary bypass. Ann Thorac Surg, 45: 647-9, 1988. 2)Pugsley W. Klinger L. Newman S. et al.: The impact of microemboli during cardiopulmonary bypass on neuropsychological functioning. Stroke, 25: 1393-9, 1994. 3)Morita M, Yozu R, Kawada S, et al.: Closed circuit cardiopulmonary bypass with centrifugal pump for open heart surgery. Artificial organs, 24(6); 442-5, 2000. 4)Matayoshi T, Yozu R, Kawada S, et al.: Development of a completely closed circuit using an air filter in a drainage circuit for minimally invasive cardiac surgery. Artificial organs, 24(6); 454-8, 2000. 5)Robert FB, William RB, David AS, et al.: Cardiotomy suction: A major source of brain lipid emboli during cardiopulmonary bypass. Ann Thorac Surg, 65; 1651-5, 1998. 6)Edward HK, Timothy JJ. John WH. et al.: Processing scavenged blood with a cell saver reduces cerebral lipid microembolization. Ann Thorac Surg, 70: 1296-300, 2000. 7)Pierangeli A, Masieri V, Delnevo A, et al.: Heamolysis during cardiopulmonary bypass: how to reduce the free heamoglobin by managing the suction blood separately. Perfusion, 16; 519-24, 2001.