Objective To analyze different characteristics of extra-vascular lung water ( EVLW) in the patients with acute respiratory distress syndrome( ARDS) , and examine its prognostic value. Methods 23 patients with ARDS admitted between November 2010 and December 2011 were divided into a survival group( n=13) and a dead group( n =10) according to the outcome. The hemodynamic status including extravascular lung water index( EVLWI) was measured in 3 consecutive days, and the relationship between EVLWI and the prognosis of patients was analyzed. Results On the first day of diagnosis, the EVLWI was higher in both groups in comparison with normal value. It was ( 13. 9 ±3. 45) mL/kg in the survival group and ( 14. 87 ±5. 75) mL/kg in the dead group( P gt;0. 05) . However, on the second day, the EVLWI in the survival group dropped significantly after intensive intervention, but the patients in the dead group did not respond well to the treatment and the EVLWI declined slightly. The EVLWI of both groups began to diverge significantly fromeach other, showing average value of ( 11. 07 ±2. 51) mL/kg and ( 15.63 ±5. 05) mL/kg, respectively( P lt; 0. 05) . On the third day, this difference between two groups was still more remarkable, resulting in ( 10.32 ±1.57) mL/kg vs. ( 16. 6 ±4. 33) mL/kg( P lt; 0. 01) . Conclusions The changes of EVLWI can be used to evaluate the effectiveness of treatment and predict the prognosis of patients with ARDS. EVLWI would likely be an indicator to evaluate the pulmonary capillary leakage.
Objective To explore the hemodynamic monitoring value of pulse-indicated continuous cardiac output( PiCCO) during lung transplantation. Methods Twenty patients with end-stage lung disease undergone lung transplantation were enrolled. Hemodynamic states were monitored by PiCCO and Swan-Ganz standard thermodilution pulmonary artery catheter( PAC) simultaneously at six stages throughout the study. Changes in the variables were calculated by subtracting the first fromthe second measurement( Δ1 ) and so on ( Δ1 to Δ5 ) . Results The linear correlation between intra-thoracic blood volume index( ITBVI) and stroke volume index( SVIpa) was significant ( r = 0. 654, P lt; 0. 05) , whereas pulmonary artery wedge pressure ( PAWP) poorly correlated with SVIpa( P gt; 0. 05) . Changes in ITBVI correlated with changes in SVIpa ( Δ1 , r =0. 621; Δ2 , r = 0. 784; Δ3 , r = 0. 713; Δ4 , r = 0. 740; Δ5 , r = 0. 747; all P lt; 0. 05) , whereas PAWP failed. The mean bias between CIart and CIpa was ( 0. 09 ±0. 5) L·min-1 ·m-2 ; the limit of agreement was ( - 0. 89 ~1. 07) L·min-1 ·m-2 . Conclusions There is good correlation between the two methods of PiCCO and PAC for reflecting the change of heart preload. PiCCO is reliable in hemodynamic monitoring in patients undergone lung transplantation.
ObjectiveTo explore surgical methods and risk factors of anomalous origin of the left coronary artery from the pulmonary artery (ALCAPA). MethodsClinical data of 28 ALCAPA patients who underwent surgical repair from October 1993 to September 2013 in Beijing Anzhen Hospital were retrospectively reviewed. There were 8 male and 20 female patients with their age of 0.6-l6.8 (4.3±0.7)years including 10 patients less than 1 years old. Surgical procedures included simple ligation of left coronary artery, intrapulmonary tunnel procedure (Takeuchi)and direct coronary reimplantation of the anomalous artery. Postoperative death, complication and cardiac function were observed. ResultsAmong the 28 patients, 1 patient received simple ligation of left coronary artery, and 7 patients received intrapulmonary tunnel procedure (Takeuchi), among whom 2 patients died postoperatively. Twenty patients received direct implantation of the anomalous artery into the ascending aorta, and 3 patients died postoperatively. Five patients who died postoperatively were 10.20±3.27 months old, including 3 patients with moderate mitral regurgitation (MR)and 2 patients with mild MR preoperatively. Preoperative heart function of the patients who died postoperatively was significantly reduced. Preoperative left ventricular ejection fraction of the patients who died postoperatively was significantly lower than that of the patients who survived (36.6%±8.5% vs. 60.9%±10.7%, P=0.000). Low cardiac output syndrome was the reason for all postoperative death. All survival patients were followed up from 1 month to 18 years. One patient who underwent intra-pulmonary tunnel procedure (Takeuchi)received pulmonary artery balloon dilatation for pulmonary supravalvular stenosis 15 years after discharge. None of the other patients received a secondary operation. During follow-up, left ventricular function was improved. Growth and development of all the patients was normal. MR did not significantly aggravate in all the patients. ConclusionPatients with younger age and worse left ventricular function have greater surgical risks of ALCAPA.
ObjectiveTo analyze the significance of application of pulse indicated continuous cardiac output (PICCO) as hemodynamic monitoring for low cardiac output patients after coronary artery bypass grafting (CABG) operation. Method We retrospectively analyzed the clinical data of 110 patients conducted non-extracorporeal circulation CABG operation in Beijing Anzhen Hospital between June 2013 and October 2014. The patient were divided into two groups including a PICCO applied group and a non-PICCO applied group. There were 49 patients including 29 males and 20 females at average age of 60.80±9.34 years in the PICCO group. There were 61 patients with 37 males and 24 females at age of 62.22±10.41 years in the non-PICCO group. We compared the treatment effects between the two groups. ResultsComparing to the non-PICCO group, the PICCO group had shorter average days of postoperative intra-aortic balloon pump (IABP) usage (t=2.155, P=0.039), less usage rate of endotracheal reintubation (χ2=5.098, P=0.039), shorter average postoperative mechanical ventilation time (t=2.087, P=0.044), less occurrence rate of cardiac arrhythmia (χ2=4.011, P=0.045), less occurrence rate of multiple organ dysfunction syndrome (MODS) (χ2=5.075, P=0.035), shorter days in ICU (t=2.141, P=0.040) and in-hospital time (t=2.061 P=0.048). During monitoring, the PICCO group had slower average heart rate, higher average arterial pressure, lower blood lactate, greater oxygenation and greater left ventricular ejection fraction (LVEF) than those in the non-PICCO group. ConclusionThe application of PICCO reduces occurrence of postoperative complications for low cardiac output patients with post coronary artery bypass grafting operation, increases cure rate.
ObjectiveTo evaluate the predictive value of mini-fluid challenge for volume responsiveness in patients under shock.MethodsSixty patients diagnosed as shock were included in the study. A 50 mL infusion of physiological saline over 10 seconds and a further 450 mL over 15 minutes were conducted through the central venous catheter. Cardiac output (CO), global end-diastolic volume index (GEDVI), central venous pressure (CVP) and extravascular pulmonary water index (EVLWI) were monitored by the pulse indicator continuous cardiac output monitoring. If the increase of CO after 500 mL volume expansion (ΔCO500) ≥10%, the patient was considered to be with volume responsiveness. The relevance between ΔCO50 and ΔCO500 was analyzed, and the sensitivity and specificity of the ΔCO50 were analyzed by receiver operating characteristic (ROC) curve.ResultsAfter 50 mL volume injection, the heart rate and systolic blood pressure of the two groups did not change obviously. The CVP of non-responders changed slightly higher than that of responders, but neither of them had obviously difference (P>0.05). The CO of responders had increased significantly (P<0.05) which was in accord with that after a further 450 mL volume injection. GEDVI and EVLWI did not change significantly (P>0.05). ΔCO50 and ΔCO500 were strongly correlated (r=0.706, 95%CI 0.677 - 0.891, P>0.05). The area under ROC curve for ΔCO50 was 0.814 (95%CI 0.707 - 0.922).ConclusionThe volume responsiveness of patients under shock can be predicted by mini-fluid challenge study which is related to normal volume expansion and it does not increase the risk of pulmonary edema.
ObjectiveTo summarize the clinical experience of extracorporeal membrane oxygenation (ECMO) in adult patients with cardiac surgery, analyze the risk factors associated with the mortality and other severe complications and to discuss prevention methods of complications during ECMO treatment.MethodsThe clinical data of 26 patients with cardiac surgery, who underwent ECMO because of cardiopulmonary insufficiency ect in Zhongshan Hospital, Fudan University from January 2012 to September 2017, were retrospectively analyzed. There were 19 males and 7 females aged 24–80 (58.0±13.9) years.ResultsTwelve (42.3%) patients successfully weaned from ECMO and six (23.1%) were discharged from hospital. Among 26 patients, 24 received VA ECMO (veno-arterial ECMO), including 5 after heart transplantation, 9 after heart valve surgery, and 3 were successfully weaned from ECMO. Seven patients with valvular surgery underwent ECMO within 48 hours due to refractory low cardiac output syndrome (LCOS). Eight patients underwent major angioplasty, 3 of whom were successfully weaned from ECMO. Four patients underwent coronary artery bypass grafting and other cardiac surgeries. Patients with VA ECMO were treated with femoral vein-femoral artery cannulation except for 2 patients undergoing femoral vein-radial artery cannulation after major angioplasty. Patients with VV ECMO (veno-venous ECMO) underwent femoral vein-jugular vein cannulation. After ECMO support, 10 patients with bleeding occurred, and 5 patients were successfully weaned from ECMO. All patients had transfusion therapy during the assist period, 7 patients had infection after ECMO support, 4 patients suffered severe distal limb ischemia. There was no significant difference in the lactic acid between the survival and the dead patients before and after ECMO support. However, the decline of serum lactic acid in the survivors was faster than that of the dead patients. The trend was the most significant within 6 h after the operation.ConclusionECMO is one of the significant treatments for LCOS and refractory hypoxemia after cardiac surgery. The type of cardiac surgery and the timing of catheter placement are key factors for the success of ECMO. The different ways of ECMO intubation, prevention and control of bleeding during ECMO, monitoring and management of internal environment and the strategies of anti-infection are all important for success of ECMO.
Objective To investigate the value of pulse indicator continuous cardiac output ( PiCCO) monitoring in the treatment of septic shock.Methods Patients with septic shock were selected in intensive care unit ( ICU) . After initial empirical resuscitating and using vasoactive drugs, the patients with circulation instability were connected with the PiCCO temperature probe to monitor hemodynamics and to resuscitate in the target of intrathoracic blood volume index ( ITBVI) , cardiac index ( CI) , extravascular lung water index ( EVLWI) . Hemodynamic parameters, oxygen metabolic variability and 24h-fluid management after 0h ( before) , 8h, 24h, the rate of implementing resuscitation goals, oxygen metabolic variability and fluid resuscitation at different times in the guidance of PiCCO parameters were compared. The data of age, APACHEⅡ score, central venous pressure ( CVP) , CI, ITBVI, mean arterial pressure ( MAP) , systemic vascular resistance index ( SVRI) and EVLWI after 0h and 24h were substituted into the regression equation by the multiple linear regression, to determine the indexes which would affect the 28-day prognosis. Results A total of 80 patients with septic shock were recruited in the study. Comparing fluid resuscitation at different times in the guidance of PiCCO,MAP( 73.6 ±13.4 and 75.1 ±10.2 mm Hg) , ITBVI ( 843.5 ±168.9 and 891.5 ±232.9 mL/m2 ) and CI ( 3.2 ±1.1 and 3.9 ±0. 4 L· min-1 · m-2 ) on 8h and 24h were significantly higher than that at 0h ( 69.1 ±21.4 mm Hg, 781.2±146.7 mL/m2 and 2.7 ±1.5 L·min-1·m-2 ) , and Lac( 2.0 ±1.4 and 1.1 ±1.0 mmol /L) and SVRI ( 1 624. 2 ±301. 7 and 1 543.6 ±435.4 d·s·m2·cm-5 ) were declined than that at 0h( 3.1 ±2.4 mmol /L and 1 796.2 ±399.1 d·s·m2 ·cm-5 ) ( Plt;0.05) . The rate of implementing resuscitation goals at 8h ( 64.7% ) and 24h ( 66.9% ) were significantly higher than that at 0h ( 55.7% ) ( Plt;0.05) , but there was no significant difference between 8h and 24h ( Pgt;0.05) . All of the patients were divided into a survival group ( n=54) and a death group ( n=26) . The rate of implementing resuscitation goals at 0h and 24h in the survival group ( 57.1% and 71.3% ) were significantly higher than that of the death group( 28.6% and 39.3% ) . By the prognosis on 28-day as the dependent variability in the multiple linear regression, multiple linear regression equation were established, and there was significantly difference ( F=55.03, Plt;0.05) . By the layer-wise screening, equation was fitted, both the CI ( R=0.431) and ITBVI ( R=0.627) at beginning and EVLWI ( R= 0.305) at 24h were determined to influence the 28-day prognosis. Conclusions The fluid resuscitation under the guidance of PiCCO can achieve the goal better and improve the prognosis. CI, ITBVI and EVLWI were useful goaldirectors for the prognosis evaluation in critical ill patients.
Objective To investigate the changes of hemodynamics in patients weaning intra-aortic balloon pump (IABP) by using progressive volume deflation followed by rate reduction. Methods We retrospectively analyzed the clinical data of 36 patients aged 68.9±4.7 years, 22 males and 14 females, who underwent progressive volume deflation followed by rate reduction for IABP weaning in Xinhua Hospital between September 2006 and January 2016. Progressive volume deflation followed by rate reduction was used to wean IABP and collect hemodynamics parameters of each time point. Results All the patients successfully weaned IABP. One patient got re-IABP assistant 36 hours after the first successful weaning. One early death and three patients (8%) with postoperative IABP-related complications were embolization of the toe artery. One was in ipsilateral limb, and two of contralateral limb. One patient with acute hepatic insufficiency and one patient with acute renal insufficiency cured after treatment. Conclusion Intra-aortic balloon pump weaning is successful by using volume deflation followed by rate reduction which allowed better hemodynamic parameters.
Objective To investigate the value of extravascular lung water index ( EVLWI) and intrathoracic blood volume index ( ITBVI) monitoring in fluid management of severe pneumonia patients with sepsis shock.Methods A prospective controlled study was conducted in106 patients who were diagnosed as severe pneumonia with sepsis shock in intensive care unit fromJanuary 2010 to February 2013. 54 patients who received pulse indicator continuous output ( PiCCO) monitoring were enrolled into the EVLWI + ITBVI group, and EVLWI and ITBVI were used as indicator of fluid management. 52 patients who received central venous pressure ( CVP) as indicator of traditional fluid managementwere enrolled into the control group. The time and the rate to achieve early goal-directed therapy ( EGDT) target were compared between two groups. Acute physiology and chronic health evaluation Ⅱ ( APACHE Ⅱ ) , sepsis related organ failure assessment ( SOFA) , noradrenaline dosage, serumlactic acid, serum creatinine were compared between 1 day and 3 days after treatment. The characteristics of fluid management were recorded and compared within 72 hours. Mechanical ventilation ratio, duration of mechanical ventilation, ICU stay and 28-day mortality were compared between two groups. Results The ratio of achieving EGDT target in 6 hours was significantly higher in the EVLWI + ITBVI group than that in the control group ( 75.9% vs. 55.7% , Plt;0.05) , whereas the time and the ratio to achieve EGDT target in 24 hours were not statistically different. APACHE Ⅱ, SOFA, norepinephrine dosage, serum lactate were significantly decreased 3 days after treatment in the EVLWI + ITBVI group, but did not change significantly in the control group. On3 days after treatment, serumcreatinine was increased in the control group, and did not change significantly in the EVLWI + ITBVI group. The fluid intake and fluid balance volume during 0-6 hours period were significantly higher in the EVLWI + ITBVI group than those in the control group ( Plt;0.05) , but showed no difference ( Pgt;0.05) in other periods. Mechanical ventilation ratio, duration of mechanical ventilation, ICU stay and 28-days mortality were significantly lower in the EVLWI + ITBVI group compared with the control group ( Plt;0.05) . Conclusion Compared with CVP, ITBVI and EVLWI can more accurately assess and guide fluid management in severe pneumonia patients with septic shock with less duration of mechanical ventilation, ICU stay and mortality.
ObjectiveTo systematically review the efficacy of pulse indicating continuous cardiac output (PICCO) monitoring for guiding the treatment of patients with septic shock.MethodsDatabases including PubMed, The Cochrane Library, EMbase, Web of Science, CBM, WanFang Data, VIP and CNKI were electronically searched from inception to February 2017 to collect randomized controlled trials (RCTs) about PICCO monitoring on treatment guidance of patients with septic shock. Two reviewers independently screened literature, extracted data and assessed the risk of bias of included studies. Then meta-analysis was performed using Stata 12.0 software.ResultsA total of 20 RCTs involving 1 253 patients were included. The results of meta-analysis showed: compared with central venous pressure (CVP) measurements, the treatment of sepsis bundles informed by PICCO could significantly shorten the length of intensive care unit (ICU) stay (MD=–2.74, 95%CI –3.40 to –2.09, P<0.001), reduce the ICU mortality (RR=0.49, 95%CI 0.36 to 0.67, P<0.001) and 28-day mortality (RR=0.61, 95%CI 0.43 to 0.87, P=0.006).ConclusionCurrent evidence shows the PICCO monitoring can significantly improve the prognosis of septic shock. Due to limited and quantity quality of the included studies, more high-quality studies are needed to verify above conclusion.