An ultrasonic analysis of the comparative efficiency of various cardiotomy reservoirs and micropore blood filters.
Open Access
- 1 June 1978
- Vol. 33 (3) , 352-358
- https://doi.org/10.1136/thx.33.3.352
Abstract
The ability of 12 commercially available cardiotomy reservoirs to remove bubbles from aspirated blood was investigated by means of a simulated cardiopulmonary bypass circuit and an ultrasonic microbubble detector. Performance varied considerably. The number of gaseous microemboli remaining after passage of blood through the reservoir was reduced by (a) holding the blood in the reservoir, (b) reducing the volume of air mixed with the aspirated blood, and (c) using a reservoir that did not induce turbulence and that contained integral micropore filtration material. Further micropore filtration of the blood after passage through the cardiotomy reservoir was beneficial, and significantly more bubbles were extracted when the microfilter was sited below the reservoir than when it was placed in the arterial line.This publication has 14 references indexed in Scilit:
- Cerebral protection during open-heart surgery.Thorax, 1977
- Events Related to Microembolism during Extracorporeal Perfusion in Man: Effectiveness of In-Line Filtration Recorded by UltrasoundThe Annals of Thoracic Surgery, 1976
- Prevention of neurological damage during open-heart surgery.Thorax, 1975
- Particulate Microembolism During Cardiac OperationThe Annals of Thoracic Surgery, 1974
- Ultrasonic identification of sources of gaseous microemboli during open heart surgeryThorax, 1973
- Brain damage and mortality in dogs following pulsatile and non-pulsatile blood flows in extracorporeal circulationThorax, 1972
- Cerebral blood flow and metabolism during cardiopulmonary bypassNeurology, 1971
- Experience Using a New Dacron Wool Filter During Extracorporeal CirculationArchives of Surgery, 1970
- Central Nervous System Dysfunction Following Open-Heart SurgeryJAMA, 1970
- Microemboli during cardiopulmonary bypass detected by ultrasound.1969