Does methylprednisolone provide protective effect in total aortic arch replacement requiring hypothermia circulatory arrest and selective cerebral perfusion?

BACKGROUND:Glucocorticoids (GC)were applied in total aortic arch replacement (TAAR) at various dosages in many centers, but with limited evidence.METHODS:The retrospective study was aimed to evaluate whether methylprednisolone was associated with better postoperative outcomes in patients undergoing TAAR. Patients undergoing TAAR with moderate hypothermia and selective cerebral perfusion between 2017.1 to 2018.12 in Fuwai hospital were classified into three groups according to doses of methylprednisolone given in the surgery: large-GC group (1500-3000 mg); medium-GC group (500-1000 mg) and no-GC group (0 mg). Postoperative outcomes were compared among three groups. Multivariable analysis was performed to identify the association of methylprednisolone with outcomes.RESULTS:Three hundred twenty-eight patients were enrolled. Two hundred twenty-eight were in the large-GC group, 34 were in the medium-GC group, and 66 were in the no-GC group. The incidences of major adverse outcomes in large-GC, medium-GC and no-GC groups were 22.8%, 17.6% and 18.2%, respectively, with no statistical difference. A significant difference was observed in post-cardiopulmonary bypass (CPB) fresh frozen plasma (FFP) transfusion (p < .001) and chest drainage volume (p < .001). Multivariable analysis demonstrated that methylprednisolone was not associated with better outcomes (p = .455), while large doses of methylprednisolone were significantly associated with excessive chest drainage (over 2000 mL) [OR (99% CI) 4.282 (1.66-11.044), p < .001] and excessive post-CPB FFP transfusion (over 400 mL) [OR (99% CI) 2.208 (1.027-4.747), p = .008].CONCLUSIONS:Large doses of methylprednisolone (1500-3000 mg) did not show a protective effect in TAAR with moderate hypothermia arrest plus selective cerebral perfusion and might increase postoperative bleeding and FFP transfusion.

Outcomes from adult veno-arterial extracorporeal membrane oxygenation in a cardiovascular disease center from 2009 to 2019.

INTRODUCTION:Extracorporeal membrane oxygenation (ECMO) is an imperative short-term cardiopulmonary support device now. We aimed to provide a single-center experience of veno-arterial (V-A) ECMO management and identify the risk factors of in-hospital mortality.METHODS:We conducted a retrospective review of adult patients who received V-A ECMO between 2009 and 2019 in a cardiovascular disease center. The risk factor analysis of in-hospital mortality was conducted.RESULTS:The study reviewed 236 patients, with an overall survival rate of 68.2%. The survivors' blood lactate concentration is significantly lower than non-survivors [7.4 (7.8) vs 11.1 (9.7), p = 0.002]. Patients who received heart transplantation were with higher in-hospital survival rate. Survivors developed less hepatic dysfunction, acute kidney injury and myocardial damage [23 (14.3%) vs 19 (25.3%), p = 0.039; 81 (50.3%) vs 51 (68%), p = 0.011; 24 (14.9%) vs 22 (29.3%), p = 0.009, respectively], with higher rate of continuous renal replacement therapy (CRRT) [56 (34.8%) vs 53 (70.7%), p < 0.001]. Fewer survivors' 24 hours and total chest drainage was over 1000 mL, and the rate of re-exploration as well as red blood cell and platelet transfusion were lower in survivors. In multivariate analysis, female, pre-ECMO blood lactate concentration, hyperlipidemia, CRRT, and 24 hours chest drainage ⩾ 1000 mL were risk factors of early mortality.CONCLUSIONS:By providing a general description of V-A ECMO practice at a single-center in China. Post-heart transplant graft failure was associated with numerically, the greatest survival in our practice. Furthermore, female sex, pre-ECMO blood lactate concentration, hyperlipidemia, CRRT, and high blood loss in chest drains are predictors of mortality in patients who undergo V-A ECMO.

Air in extracorporeal membrane oxygenation: can never be overemphasized.

INTRODUCTION:Air in extracorporeal membrane oxygenation circuit may lead to deleterious consequence.CASE REPORT:Three cases of air in extracorporeal membrane oxygenation were presented. Air was introduced from right jugular venous sheath during percutaneous septal repair, pulmonary artery catheter during intensive care unit, and sewing holes on atrial wall during surgery respectively. Accidents in Case 2 and Case 3 were successfully managed, while Case 1 was suspected of cerebral air embolism through transseptal right-to-left shunt.DISCUSSION:With extracorporeal membrane oxygenation being widely applied in more clinical settings, especially in catheterization lab, risks of air in extracorporeal membrane oxygenation increase. More attention should be paid to patients with communication between right and left heart system, especially in situations when venous accesses' exposure to air could not be avoided.CONCLUSION:Air in the extracorporeal membrane oxygenation circuit should never be overemphasized, especially during special procedures.

Perfusion management of aortic balloon occlusion technique in total arch replacement with frozen elephant trunk.

To ensure both cerebral and lower body perfusion during total arch replacement with frozen elephant trunk, aortic balloon occlusion technique has been applied in some cases at our institute. During the procedure, after stented elephant trunk is inserted into the true lumen of the descending aorta, an aortic balloon catheter is placed and inflated within the stented elephant trunk, occluding the orifice of descending aorta. Then, lower body perfusion is provided via femoral cannulae during distal aortic arch anastomosis. We describe the perfusion management strategy of the technique, elucidate intraoperative monitoring parameters, and clarify the feasibility of the method from the aspect of perfusion.

Cardiopulmonary bypass strategy in a patient with cold agglutinin of high thermal amplitude.

Perfusion strategy and mid-term results of 58 consecutive pulmonary endarterectomy.

OBJECTIVE:The aim of this retrospective study was to review and report short-term and mid-term outcomes of pulmonary endarterectomy for chronic thromboembolic pulmonary hypertension at our institute in the recent 2 years and to describe perfusion strategy.METHODS:A total of 58 consecutive patients with chronic thromboembolic pulmonary hypertension underwent pulmonary endarterectomy under deep hypothermia circulatory arrest with an established perfusion practice between November 2015 and December 2017. Peri-operative data and patients' outcome were retrospectively analyzed.RESULTS:Mean pulmonary artery pressure was decreased (49 (40-56) mmHg vs 27 (20-31) mmHg, p < 0.001), and pulmonary vascular resistance (724 (538-1108) vs 206 (141-284) dyn second cm-5, p < 0.001) improved significantly after surgery. In-hospital mortality was 1.7% and postoperative complication rate was 27.6%. Antipsychotic medication of olanzapine was prescribed for 36 patients (62.1%), which was independently related to total deep hypothermic circulatory arrest time, postoperative blood potassium concentration, and hematocrit. The majority of patients recovered uneventfully with good mid-term cardiac function (New York Heart Association I-II: 98.1%) and neurological outcome (Glasgow Outcome Scale-Extended Upper Good Recovery: 74.1% and Lower Good Recovery: 20.3%). Mid-term neurological outcome was associated with post-pulmonary endarterectomy antipsychotic medication.CONCLUSION:Short-term and mid-term outcome after pulmonary endarterectomy was comparable to high-volume centers. Incidence of post-pulmonary endarterectomy delirium was relatively high and associated with mid-term neurological outcome. Total deep hypothermic circulatory arrest time, postoperative blood potassium concentration, and hematocrit were independent risk factors of postoperative olanzapine medication. More efforts and further research are required to optimize the neuroprotection of perfusion practice.

Ultrafiltration and reinfusion of residual cardiopulmonary bypass pump blood: A prospective non-randomized controlled study.

The aim of the study was to investigate whether processing residual pump blood with ultrafiltration could increase the increment of hemoglobin after residual pump blood reinfusion and evaluate its influence on plasma-free hemoglobin (pFHb) level and postoperative renal function. Sixty adult patients undergoing elective cardiac surgery with cardiopulmonary bypass were assigned to 2 groups, based on pump blood processing strategy: ultrafiltration plus reinfusion (n = 30) or reinfusion (control; n = 30). Increment in hemoglobin and pFHb after reinfusion (ΔHgb, ΔpFHb), reinfusion volume, postoperative chest drainage volume (first 24 h), duration of mechanical ventilation, changes in serum creatinine, and prevalence of AKI were compared between the 2 groups. Higher levels of both ΔHgb and ΔpFHb were observed after reinfusion in the ultrafiltration group [ΔHgb 1.8 ± 1.1 g/dL vs. 1.2 ± 0.6 g/dL, P = 0.03, ΔpFHb 100 (0, 200) mg/L vs. 0 (-100, 0) mg/L, P = 0.03]. The reinfusion volume was lower in the ultrafiltration group [550 (325, 615) mL vs. 1000 (900, 1180) mL, P < 0.001]. No differences were found in postoperative chest drainage volume (first 24 h), duration of mechanical ventilation, changes in serum creatinine, and prevalence of AKI. Compared to the unprocessed group, ultrafiltration before reinfusion of residual pump blood improved the hemoglobin level and reduced volume loading. Despite an increase in pFHb, the processing procedure was not related to postoperative kidney injury.

Does methylprednisolone provide protective effect in total aortic arch replacement requiring hypothermia circulatory arrest and selective cerebral perfusion?

BACKGROUND:Glucocorticoids (GC)were applied in total aortic arch replacement (TAAR) at various dosages in many centers, but with limited evidence.METHODS:The retrospective study was aimed to evaluate whether methylprednisolone was associated with better postoperative outcomes in patients undergoing TAAR. Patients undergoing TAAR with moderate hypothermia and selective cerebral perfusion between 2017.1 to 2018.12 in Fuwai hospital were classified into three groups according to doses of methylprednisolone given in the surgery: large-GC group (1500-3000 mg); medium-GC group (500-1000 mg) and no-GC group (0 mg). Postoperative outcomes were compared among three groups. Multivariable analysis was performed to identify the association of methylprednisolone with outcomes.RESULTS:Three hundred twenty-eight patients were enrolled. Two hundred twenty-eight were in the large-GC group, 34 were in the medium-GC group, and 66 were in the no-GC group. The incidences of major adverse outcomes in large-GC, medium-GC and no-GC groups were 22.8%, 17.6% and 18.2%, respectively, with no statistical difference. A significant difference was observed in post-cardiopulmonary bypass (CPB) fresh frozen plasma (FFP) transfusion (p < .001) and chest drainage volume (p < .001). Multivariable analysis demonstrated that methylprednisolone was not associated with better outcomes (p = .455), while large doses of methylprednisolone were significantly associated with excessive chest drainage (over 2000 mL) [OR (99% CI) 4.282 (1.66-11.044), p < .001] and excessive post-CPB FFP transfusion (over 400 mL) [OR (99% CI) 2.208 (1.027-4.747), p = .008].CONCLUSIONS:Large doses of methylprednisolone (1500-3000 mg) did not show a protective effect in TAAR with moderate hypothermia arrest plus selective cerebral perfusion and might increase postoperative bleeding and FFP transfusion.

Outcomes from adult veno-arterial extracorporeal membrane oxygenation in a cardiovascular disease center from 2009 to 2019.

INTRODUCTION:Extracorporeal membrane oxygenation (ECMO) is an imperative short-term cardiopulmonary support device now. We aimed to provide a single-center experience of veno-arterial (V-A) ECMO management and identify the risk factors of in-hospital mortality.METHODS:We conducted a retrospective review of adult patients who received V-A ECMO between 2009 and 2019 in a cardiovascular disease center. The risk factor analysis of in-hospital mortality was conducted.RESULTS:The study reviewed 236 patients, with an overall survival rate of 68.2%. The survivors' blood lactate concentration is significantly lower than non-survivors [7.4 (7.8) vs 11.1 (9.7), p = 0.002]. Patients who received heart transplantation were with higher in-hospital survival rate. Survivors developed less hepatic dysfunction, acute kidney injury and myocardial damage [23 (14.3%) vs 19 (25.3%), p = 0.039; 81 (50.3%) vs 51 (68%), p = 0.011; 24 (14.9%) vs 22 (29.3%), p = 0.009, respectively], with higher rate of continuous renal replacement therapy (CRRT) [56 (34.8%) vs 53 (70.7%), p < 0.001]. Fewer survivors' 24 hours and total chest drainage was over 1000 mL, and the rate of re-exploration as well as red blood cell and platelet transfusion were lower in survivors. In multivariate analysis, female, pre-ECMO blood lactate concentration, hyperlipidemia, CRRT, and 24 hours chest drainage ⩾ 1000 mL were risk factors of early mortality.CONCLUSIONS:By providing a general description of V-A ECMO practice at a single-center in China. Post-heart transplant graft failure was associated with numerically, the greatest survival in our practice. Furthermore, female sex, pre-ECMO blood lactate concentration, hyperlipidemia, CRRT, and high blood loss in chest drains are predictors of mortality in patients who undergo V-A ECMO.

Air in extracorporeal membrane oxygenation: can never be overemphasized.

INTRODUCTION:Air in extracorporeal membrane oxygenation circuit may lead to deleterious consequence.CASE REPORT:Three cases of air in extracorporeal membrane oxygenation were presented. Air was introduced from right jugular venous sheath during percutaneous septal repair, pulmonary artery catheter during intensive care unit, and sewing holes on atrial wall during surgery respectively. Accidents in Case 2 and Case 3 were successfully managed, while Case 1 was suspected of cerebral air embolism through transseptal right-to-left shunt.DISCUSSION:With extracorporeal membrane oxygenation being widely applied in more clinical settings, especially in catheterization lab, risks of air in extracorporeal membrane oxygenation increase. More attention should be paid to patients with communication between right and left heart system, especially in situations when venous accesses' exposure to air could not be avoided.CONCLUSION:Air in the extracorporeal membrane oxygenation circuit should never be overemphasized, especially during special procedures.

Perfusion management of aortic balloon occlusion technique in total arch replacement with frozen elephant trunk.

To ensure both cerebral and lower body perfusion during total arch replacement with frozen elephant trunk, aortic balloon occlusion technique has been applied in some cases at our institute. During the procedure, after stented elephant trunk is inserted into the true lumen of the descending aorta, an aortic balloon catheter is placed and inflated within the stented elephant trunk, occluding the orifice of descending aorta. Then, lower body perfusion is provided via femoral cannulae during distal aortic arch anastomosis. We describe the perfusion management strategy of the technique, elucidate intraoperative monitoring parameters, and clarify the feasibility of the method from the aspect of perfusion.

Cardiopulmonary bypass strategy in a patient with cold agglutinin of high thermal amplitude.

Perfusion strategy and mid-term results of 58 consecutive pulmonary endarterectomy.

OBJECTIVE:The aim of this retrospective study was to review and report short-term and mid-term outcomes of pulmonary endarterectomy for chronic thromboembolic pulmonary hypertension at our institute in the recent 2 years and to describe perfusion strategy.METHODS:A total of 58 consecutive patients with chronic thromboembolic pulmonary hypertension underwent pulmonary endarterectomy under deep hypothermia circulatory arrest with an established perfusion practice between November 2015 and December 2017. Peri-operative data and patients' outcome were retrospectively analyzed.RESULTS:Mean pulmonary artery pressure was decreased (49 (40-56) mmHg vs 27 (20-31) mmHg, p < 0.001), and pulmonary vascular resistance (724 (538-1108) vs 206 (141-284) dyn second cm-5, p < 0.001) improved significantly after surgery. In-hospital mortality was 1.7% and postoperative complication rate was 27.6%. Antipsychotic medication of olanzapine was prescribed for 36 patients (62.1%), which was independently related to total deep hypothermic circulatory arrest time, postoperative blood potassium concentration, and hematocrit. The majority of patients recovered uneventfully with good mid-term cardiac function (New York Heart Association I-II: 98.1%) and neurological outcome (Glasgow Outcome Scale-Extended Upper Good Recovery: 74.1% and Lower Good Recovery: 20.3%). Mid-term neurological outcome was associated with post-pulmonary endarterectomy antipsychotic medication.CONCLUSION:Short-term and mid-term outcome after pulmonary endarterectomy was comparable to high-volume centers. Incidence of post-pulmonary endarterectomy delirium was relatively high and associated with mid-term neurological outcome. Total deep hypothermic circulatory arrest time, postoperative blood potassium concentration, and hematocrit were independent risk factors of postoperative olanzapine medication. More efforts and further research are required to optimize the neuroprotection of perfusion practice.

Ultrafiltration and reinfusion of residual cardiopulmonary bypass pump blood: A prospective non-randomized controlled study.

The aim of the study was to investigate whether processing residual pump blood with ultrafiltration could increase the increment of hemoglobin after residual pump blood reinfusion and evaluate its influence on plasma-free hemoglobin (pFHb) level and postoperative renal function. Sixty adult patients undergoing elective cardiac surgery with cardiopulmonary bypass were assigned to 2 groups, based on pump blood processing strategy: ultrafiltration plus reinfusion (n = 30) or reinfusion (control; n = 30). Increment in hemoglobin and pFHb after reinfusion (ΔHgb, ΔpFHb), reinfusion volume, postoperative chest drainage volume (first 24 h), duration of mechanical ventilation, changes in serum creatinine, and prevalence of AKI were compared between the 2 groups. Higher levels of both ΔHgb and ΔpFHb were observed after reinfusion in the ultrafiltration group [ΔHgb 1.8 ± 1.1 g/dL vs. 1.2 ± 0.6 g/dL, P = 0.03, ΔpFHb 100 (0, 200) mg/L vs. 0 (-100, 0) mg/L, P = 0.03]. The reinfusion volume was lower in the ultrafiltration group [550 (325, 615) mL vs. 1000 (900, 1180) mL, P < 0.001]. No differences were found in postoperative chest drainage volume (first 24 h), duration of mechanical ventilation, changes in serum creatinine, and prevalence of AKI. Compared to the unprocessed group, ultrafiltration before reinfusion of residual pump blood improved the hemoglobin level and reduced volume loading. Despite an increase in pFHb, the processing procedure was not related to postoperative kidney injury.