Objective To summarize the methods and experiences of surgical treatment of aortic arch diseases with four branches aortic graft under deep hypothermia circulatory arrest (DHCA) and antegrade selective cerebral perfusion (ASCP). Methods In 2004 from September to December, surgical treatment of 12 patients with 7 aortic aneurysm(4 cases with ascending aorta and aortic arch aneurysm, 3 cases with aneurysm of aortic isthmus) and 5 aortic dissection(DeBakey Ⅰ 1 case, DeBakey Ⅱ 3 cases, DeBakey Ⅲ 1 case) were collected in Gunma Prefectural Cardiovascular Center. All operations were carried out under DHCA and ASCP, and four branches aortic graft were used to replace the aortic arch. The Bentall procedure, total and partial arch replacement and elephant trunk technique were undertaken in different patients. Results Total 12 patients recovered from the great vessel diseases smoothly without severe cerebral and other systematic complications, the time of operation was 5.5±1.7 h, the period of DHCA was 42.2±12.9min, 4 cases with no blood transfusion, the time of hospitalization was 22.3±7.2d. Conclusion ASCP is a safe. and effective method of cerebral protection during circulation arrest, and four branches aortic graft may shorten the time of DHCA and simplify the procedure of aortic arch replacement.
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 investigate the cerebral protective effects of hyperoxia management during deep hypothermia circulatory arrest(DHCA) rabbit by the blood gas indexes, superoxide dismutase( SOD) activity and malondialdehyde (MDA) levels of brain, and ratio of water to brain. Methods A DHCA and antegrade selective cerebral perfusion (ASCP) rabbit model was established. Twenty-four 11-13 week-old male New Zealand rabbits( weighing 2.7 to 3.4 kg) were assigned to three groups with a random number table: a sham operation group (Sham group), an ASCP group (S group), and an ASCP + hyperoxia management group (SH group). There were eight rabbits in each group. We recorded the intraoperative values for arterial oxygen pressure (PaO2), arterial oxygen saturation (SaO2), jugular venous oxygen pressure(PjvO2), jugular venous oxygen saturation( SjvO2) and blood lactate level. The brain SOD activity, MDA levels, and ratio of water to brain were measured after the operation. Results Before initiating circulatory arrest, before initiating reperfusion and five minutes of reperfusion, levels of PaO2 , PjvO2 , and SjvO2 in the SH group were significantly higher than those of the S group and Sham group. SOD activity in the SH group was not significantly different from that of the S group[(213.53±33.52) U/mg. prot vs. (193.02±27.67) U/mg. prot] and Sham group[(213.53±33.52) U/mg. prot vs.(244.38±35.02)U/mg. prot], but the SOD activity in the S group was lower than that in the Sham group( P < 0.05). MDA levels in the SH group were lower than that in the S group[(1.42±0.30) nmol/mg. prot vs. (2.37±0.55) nmol/mg. prot, P < 0.05]. Conclusion Our data show that hyperoxia management during DHCA+ASCP improves rabbits’PjvO2 and SjvO2, maintains brain SOD activity, and decreases brain MDA levels, demonstrating the neuroprotective effects of hyperoxia mangagement.
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.
ObjectiveTo investigate the impact of deep hypothermic circulatory arrest (DHCA) with antegrade cerebral perfusion (ACP) on cognitive function of patients undergoing surgical therapy for acute Stanford type A aortic dissection (AD).
MethodsBetween January 2009 and March 2012, 48 patients with acute Stanford type A AD underwent Sun's procedure (aortic arch replacement combined with stented elephant trunk implantation) under DHCA with ACP in Nanjing Hospital affiliated to Nanjing Medical University. There were 40 males and 8 females with their age of 51.3±13.6 years. Circulatory arrest time and time for postoperative consciousness recovery were recorded. Preoperative and postoperative cognitive functions of each patient were evaluated by mini-mental status examination (MMSE).
ResultsMean cardiopulmonary bypass time of the 48 patients was 237.3±58.5 minutes, and mean circulatory arrest time was 37.3 ±6.9 minutes. Four patients died postoperatively with the causes of death including lung infection, multiple organ dysfunction syndrome, myocardial infarction and acute respiratory distress syndrome. Forty-one patients recovered their consciousness within 24 hours postoperatively, and the mean time for postoperative consciousness recovery was 15.3±6.5 hours. Preoperative MMSE score was 28.6±1.1 points, and MMSE score at 1 week postoperatively was 23.6±4.5 points. Thirty-one patients were followed up for 6 months with the follow-up rate of 70.45%. The average MMSE score of the 31 patients at 6 months after surgery was 27.6±2.1 points which was significantly higher than postoperative average MMSE score (P < 0.05), but not statistically different from preoperative average MMSE score (P > 0.05).
ConclusionsDHCA with ACP can provide satisfactory cerebral protection for patients undergoing surgical therapy for acute Stanford type A AD, but patients' cognitive function may be adversely affected in the short term. As long as cerebral infarction or hemorrhage is excluded in CT scan of the brain, such adverse impact may generally disappear automatically within 6 months after surgery.
Objective To summarize treatment experience and evaluate clinical outcomes of surgical therapy for Stanford type A aortic dissection (AD). Methods Clinical data of 48 patients with Stanford type A AD who underwent surgical treatment in General Hospital of Lanzhou Military Region from October 2006 to March 2013 were retrospectively analyzed. There were 41 males and 7 females with their age of 26-72 (47.6±9.2) years. There were 43 patients with acute Stanford type A AD (interval between symptom onset and diagnosis<14 days) and 5 patients with chronic AD. There were 19 patients with moderate to severe aortic insufficiency and 6 patients with Marfan symdrome but good aortic valve function,who all received Bentall procedure,total arch replacement and stented elephant trunk implantation. There were 8 patients with AD involving the aortic root but good aortic valve function who underwent modified David procedure,total arch replacement and stented elephant trunk implantation. There were 10 patients with AD involving the ascending aorta who received ascending aorta replacement,total arch replacement and stented elephant trunk implantation. There were 5 patients with AD involving partial aortic arch who underwent ascending aorta and hemiarch replacement. Patients were followed up in the 3rd,6th and 12th month after discharge then once every year. Follow-up evaluation included general patient conditions,blood pressure control,chest pain recurrence,mobility and computerized tomography arteriography (CTA). ResultsCardiopulmonary bypass time was 121-500 (191.4±50.6) minutes,aortic cross-clamp time was 58-212 (112.3±31.7) minutes,and circulatory arrest and selective cerebral perfusion time was 26-56 (34.8±8.7) minutes. Postoperative mechanicalventilation time was 32-250 (76.2±35.6) hours,and ICU stay was 3-20 (7.1±3.4) days. Thoracic drainage within 24 hours postoperatively was 680-1 600 (1 092.5±236.3) ml. Seven patients (14.5%) died perioperatively including 2 patients with multiple organ dysfunction syndrome,2 patients with low cardiac output syndrome,1 patient with renal failure,1patient with delayed refractory hemorrhage,and 1 patient with coma. Twenty patients had other postoperative complicationsand were cured or improved after treatment. A total of 38 patients [92.7% (38/41)] were followed up for 3-48 (13.0±8.9) months,and 3 patients were lost during follow-up. During follow-up,there were 36 patients alive and 2 patients who died of other chronic diseases. There was no AD-related death during follow-up. None of the patients required reoperation for AD or false-lumen expansion. CTA at 6th month after discharge showed no anastomotic leakage,graft distortion or obstruction.Conclusion According to aortic intimal tear locations,ascending aorta diameter and AD involving scopes,appropriate surgical strategies,timing and organ protection are the key strategies to achieve optimal surgical results for Stanford type A AD. Combined axillary and femoral artery perfusion and increased lowest intraoperative temperature are good methods for satisfactory surgical outcomes of Stanford type A AD.
ObjectiveTo investigate the results of emergent aortic arch replacement using moderate hypothermic circulatory arrest and unilateral antegrade cerebral perfusion (MHCA+UACP).MethodsWe retrospectively analyzed the clinical data of 146 patients who underwent emergent aortic arch replacement using MHCA+UACP in our institution from January 2008 to June 2018. There were 111 males and 35 females aged 60.3±7.2 years. According to different surgical approaches, patients were divided into two groups: a total arch replacement (TAR) group (n=104) and a semi arch replacement (SAR) group (n=42). Right axillary artery was cannulated for cardiopulmonary bypass (CPB) and cerebral perfusion. Core temperature at the onset of MHCA was 23.4±1.4 ℃. UACP was initiated at 18-22 ℃ with the flow of 5-10 ml/(kg·min). Flow was adjusted to maintain cerebral perfusion pressure of 50–60 mm Hg.ResultsCPB time was 235.0±42.0 min. Aortic clamp time was 154.0±29.0 min. Circulatory arrest (CA) time was 48.1±13.0 min. The CPB time and CA time of the TAR group were longer than those of SAR group. Overall mortality rate was 9.6%. Complications included permanent neurological dysfunction (PND), temporary neurological dysfunction (TND), acute kidney injury (AKI) requiring dialysis and delayed extubation (mechanical ventilation time >72 hours). Overall incidence of PND and TND was 2.7% and 6.8%, respectively. The incidence of AKI requiring dialysis was 4.1%. The incidence of delayed extubation was 21.9%. No difference of mortality rate or incidence of complications was found between the two groups. The average follow-up was 63.0±33.1 months. The 5-year survival rate was 72.6% in the TAR group and 85.5% in the SAR group.ConclusionEmergent aortic arch replacement using MHCA+UACP can be accomplished with excellent results.
ObjectiveTo explore the clinical efficacy of single-branch intraoperative stent combined with modified bilateral cerebral perfusion in type A aortic dissection. MethodsA retrospective analysis was conducted on the clinical data of patients who underwent surgery for type A aortic dissection at the First Affiliated Hospital of Anhui Medical University from January 2021 to May 2024. Patients were divided into the experimental group (single branch stent combined with modified bilateral cerebral perfusion) and the control group (traditional surgical method, straight stent+unilateral cerebral perfusion) according to the surgical method. Propensity score matching analysis was used to match the two groups of patients with a ratio of 1:1, and the perioperative data and clinical efficacy after matching were compared. ResultsA total of 14 patients were included in the experimental group, including 13 males and 1 female, with an average age of (47.4±16.1) years. There were 56 patients in the control group, including 38 males and 18 females, with an average age of (52.1±11.7) years. After propensity score matching, 14 patients were included in each group. Compared with the control group, the ventilator support time [(27.4±24.3) h vs. (93.4±88.0) h, P=0.018], length of stay in the intensive care unit [(2.8±1.8) d vs. (8.7±6.5) d, P=0.009], and postoperative awakening time [(5.4±2.2) h vs. (8.8±4.8) h, P=0.047] in the experimental group were shorter than those in the control group, with statistically significant differences. ConclusionSingle-branch intraoperative stent combined with modified bilateral cerebral perfusion can effectively shorten ventilator support time, length of stay in the intensive care unit, and postoperative awakening time, and is safe and effective for the treatment of type A aortic dissection, which is worth further promotion.
Objective To evaluate the applicability of Transcranial Doppler (TCD) monitoring in brain protection in the process of aortic dissection surgical procedure. Methods From Feburary 2007 to November 2007, six patients with type I aortic dissection underwent surgical procedure in Xuanwu Hospital of Capital Medical University. All patients are male with their age ranged from 48 to 60 years. During the operation, right subclavian arterial cannulation technique was used to protect the brain, and TCD monitoring was adopted to guide cerebral perfusion. The function of nervous system after operation was observed, and the minimental state examination (MMSE) was used to assess the cognitive function of the patients. A twoyear followup was done to monitor patients’ aorta condition. Results The time of cardiopulmonary bypass (CPB) was 136 to 350 minutes. The time of selected cerebral perfusion was 20 to 65 minutes. The lowest cerebral blood flow was 31% of basic level according to TCD monitoring. All patients were successfully treated without neurological complication and cognitive dysfunction when discharged from hospital. MMSE score was 28 to 30 points. During the twoyear followup after operation, all aortic false lumen were closed and there was no dissection recurrence. Conclusion Monitoring blood change with TCD monitoring technique is safe and effective in evaluating brain protection by selective cerebral perfusion in aortic dissection surgical procedure.
Objective To investigate the efficacy and safety of the application of selective cerebral perfusion (SCP) technique in pediatric aortic arch reconstruction, so as to alleviate brain injury during operation. Methods From April 2007 to May 2008, 32 children aged from 8 days to 103 months (14.4±25.4 months) and weighed from 27 kg to 22.0 kg (6.7±4.4 kg) underwent aortic arch reconstruction with selective cerebral perfusion in Shanghai Children’s Medical Center. Twentytwo suffered from aortic coarctationwith intracardiac anomaly, and 10 suffered from interrupted aortic arch with intracardiac anomaly. The arterial cannulation was achieved by placing a flexible wire wound cannula in ascending aorta close to the root part of innominate artery. The rectal temperature was about 1820℃. Then the cannula was moved upward into innominate artery to perform SCP. Results The time of SCP was 17-121 mins(39.6±19.4 mins), perfusion blood flow maintained in 15-40 ml/(kg·min)[29.7±6.1 ml/(kg·min)]. Four cases died of low cardiac output syndrome or arrhythmia, and no evidence of brain injury was observed. No obvious neurologic complication was observed in 28 survivls. No abnormal electroencephalogram was observed in 25 cases. The results of head Bsonography and brain magnetic resonance image (MRI) were normal in 5 neonates. Conclusion Selective cerebral perfusion is a simple, feasible, safe and effective technique in pediatric aortic arch reconstruction.
