To valuate cerebral protection by retrograde cerebral perfusion (RCP) via superior vena cava,the study results for the last ten years have been reviewed.RCP is regarded as an assistant method in deep hypothermic circulatory arrest(DHCA) in that it provides partial brain blood flow,maintains a low brain temperature,optimizes cerebral metabolic function during DHCA by supplying oxygen and some nutrient and removal of catabolic products;it also reduces the incidence of cerebral embolization by flushing out air...
Abstract: Objective To observe the influence of various methods of cerebral protection during deep hypothermic circulatory arrest (DHCA ) on S-100 protein. Methods Eighteen dogs were randomly and equally divided into three groups: the deep hypothermic circulatory arrest (DHCA group ) , the DHCA with retrograde cerebral perfusion (DHCA + RCP group ) , and the DHCA with intermittent antegrade cerebral perfusion (DHCA + IACP group ). Upon interruption of cardiopulmonary bypass (CPB) , the nasopharyngeal temperature was slowly lowered to 18℃, before CPB was discontinued for 90 minutes, after 90 minutes, CPB was re-established and the body temperature was gradually restored to 36℃, then CPB was terminated. Before the circulatory arrest, 45min, 90min after the circulatory arrest and 15min, 30min after re-established of CPB, blood samples were drawn from the jugular veins fo r assay of S-100 protein. Upon completion of surgery, the dogs was sacrificed and the hippocampus was removed from the brain, properly processed for examination by transmission electron microscope for changes in the ultrastructure of the brain and nerve cells. Results There was no significant difference in the content of S-100 protein before circulatory arrest among all three groups (P gt; 0.05). After circulatory arrest, DHCA and DHCA +RCP group showed an significant increase in the content of S-100 protein (P lt; 0.01). There was no significant difference in the content of S-100 protein after circulatory arrest in DHCA + IACP group. Conclusion Cerebral ischemic injuries would occur if the period of DHCA is prolonged. RCP during DHCA would provide protection for the brain to some extent, but it is more likely to cause dropsy in the brain and nerve cells. On the other hand IACP during DHCA appears to provide better brain protection.
Objective To investigate the clinical effects and the brain protection effect of different cardiopulmonary bypass in treating descending aortic aneurysms. Methods From January 2001 to December 2008, 65 patients were diagnosed to have descending aortic aneurysm with magnetic resonance imaging (MRI) in our hospital. Among them, there were 56 males and 9 females whose age was between 15 and 71 years old with an average of 48.1 years. The disease process ranged from 6 days to 4 months (19.0±6.5 d ). Preoperative diagnosis showed that there were 41 cases of DeBakey type Ⅲinterlayer, 9 cases of Marfan syndrome with postoperative complications of type Ⅲ interlayer, 7 cases of pseudoaneurysm and 8 cases of true aneurysm. We adopted artificial blood vessel repair patch to repair the damaged point of the descending aorta in 2 cases, performed vascular aneurysm resection and artificial vessel replacement on 63 patients, and carried out descending aorta replacement and intercostal artery grafting in 18 cases. Results Among the 65 cases of cardiopulmonary bypass patients, there were 13 cases of left heart bypass, 12 cases of heart bypass, 30 cases of deep hypothermic circulatory arrest (DHCA) with total body retrograde perfusion (TBRP) and 10 cases of modified separate perfusion of upper and low body. Cardiopulmonary bypass time, DHCA time, retrograde perfusion time, upper body circulatory arrest time and low body circulatory arrest time were respectively 51-212 min, 18-75min, 18-73 min, 21-31 min, and 39-67 min. No death occurred during the operation, and there were no brain complications or complications of paralysis among all the patients. Two patients died after operation because of renal failure. Conclusion Good results can be achieved by selecting different method of cardiopulmonary bypass based on the anatomical location and range of the thoracic descending aortic aneurysms. The selection criteria should be favorable to the surgical operation and organ protection.
Objective To determine risk factors of delayed recovery of consciousness after aortic arch surgery underdeep hypothermic circulatory arrest (DHCA) and antegrade selective cerebral perfusion (ASCP). Methods We retrospectively analyzed clinical data of 113 patients who underwent aortic arch surgery under DHCA+ASCP in the Affiliated Drum Tower Hospital, Medical School of Nanjing University from October 2004 to April 2012. According to whether they regained consciousness within 24 hours after surgery, all the 113 patients were divided into normal group (73 patients including 55 males and 18 females with their average age of 48.1±10.9 years) and delayed recovery group (40 patients including 29 males and 11 females with their average age of 52.2±11.4 years). Risk factors of delayed recovery of consciousness after surgery were evaluated by univariate analysis and multivariate logistic regression analysis. Results Nine patients (8.0%) died postoperatively, including 5 patients with multi-organ failure, 2 patients with heart failure, 1 patient with mediastinal infection, and 1 patient with pulmonary hemorrhage. There were 7 deaths (17.5%) in the delayed recovery group and 2 deaths (2.7%) in the normal group, and the in-hospital mortality of the delayed recovery group was significantly higher than that of the normal group (P=0.016). A total of 94 patients (including 65 patients in the normal group and 29 patients in the delayed recovery group) were followed up for 4-95 months. Eight patients (including 5 patients in the normal group and 3 patients in the delayed recovery group) died during follow-up, including 2 patients with stroke, 3 patients with heart failure, 2 patients with pulmonary hemorrhage and 1 patient with unknown cause. Ten patients were lost during follow-up. Univariate analysis showed that age (P=0.042), hypertension (P=0.017), emergency surgery (P=0.001), cardiopu- lmonary bypass (CPB) time (P=0.007), aortic cross-clamp time (P=0.021), and blood transfusion(P=0.012)were risk factors of delayed recovery of consciousness after aortic arch surgery. Multivariate logistic regression showed that emergency surgery (P=0.005) and CPB time>240 minutes (P=0.000) were independent risk factors of delayed recovery of consciousness after aortic arch surgery. Conclusion Delayed recovery of consciousness after aortic arch surgery is attributed to a combination of many risk factors. Correct patient diagnosis, lesion site and involved scope should be made clear preoperatively in order to choose appropriate surgical strategies. During the surgery, strengthened brain protection, shortened operation time, improved surgical techniques, and perioperative stable circulation maintenance are all important measures to prevent delayed recovery of consciousness after aortic arch surgery.
Objective Through establishment of brain slice model in rats with perfusion and oxygen glucose deprivation (OGD), we investigated whether this model can replicate the pathophysiology of brain injury in cardiopulmonary bypass (CPB) and deep hypothermic circulatory arrest (DHCA) or not and whether perfusion and OGD can induce preoligodendrocytes (preOL) injury or not, to provide cytological evidence for white matter injury after cardiopulmonary bypass. Methods Three to five living brain slices were randomly obtained from each of forty seven-day-old (P7) Sprague-Dawley (SD) rats with a mean weight of 14.7±1.5 g. Brain slices were randomly divided into five groups with 24 slices in each group: control group with normothermic artificial cerebralspinal fluid (aCSF) perfusion (36℃) and DHCA groups: OGD at 15℃, 25℃, 32℃ and 36℃. The perfusion system was established, and the whole process of CPB and DHCA in cardiac surgery was simulated. The degree of oligodendrocyte injury was evaluated by MBP and O4 antibody via application of immunohistochemistry. Results In the OGD group, the mature oligodendrocytes (MBP-positive) cells were significantly damaged, their morphology was greatly changed and fluorescence expression was significantly reduced. The higher the OGD temperature was, the more serious the damage was; preOL (O4-positive) cells showed different levels of fluorescence expression reduce in 36℃, 32℃ and 25℃ groups, and the higher the OGD temperature was, the more obvious decrease in fluorescence expression was. There was no statistically significant difference in the O4-positive cells between the control group and the 15℃ OGD group. Conclusion The perfused brain slice model is effective to replicate the pathophysiology of brain injury in CPB/DHCA which can induce preOL damage that is in critical development stages of oligodendrocyte cell line, and reduce differentiation of oligodendrocyte cells and eventually leads to hypomyelination as well as cerebral white matter injury.
Objective To compare the changes between deep hypothermic circulatory arrest (DHCA) with deep hypothermic low flow (DHLF) cardiopulmonary bypass (CPB) on pulmonary surfactant (PS) activity in infants with congenital heart disease. Methods Twenty infants with ventricular septum defect and pulmonary hypertension were assigned to either DHCA group or DHLF group according to the CPB methods respectively. Measurements of saturated phosphatidylcholine /total phospholipids (SatPC /TPL), saturated phosphatidylcholine/ total protein (SatPC/TP) and static pulmonary compliance were performed before institution of CPB, 5 minutes after cessation of CPB and 2 hours. Results The length of ICU stay in DHLA group was significantly longer ( P lt;0 05) than that in DHCA group. SatPC/TPL, SatPC/TP and static pulmonary compliance in DHLF group were significantly lower compared with DHCA group ( P lt;0.01). Conclusion DHLF could lower the PS activity level significantly as compared with DHCA in infants with congenital heart disease.