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Background:An ideal CO monitor should be noninvasive, cost effective, reproducible, reliable during various physiological states. Limited literature is available regarding the noninvasive CO monitoring in open chest surgeries. Aim: The aim of this study was to compare the CO measurement by Regional Impedance Cardiography (RIC) and Thermodilution (TD) method in patients undergoing off pump coronary artery bypass graft surgery (OPCAB). Settings and Design: We conducted a prospective observational comparative study of CO measurement by the noninvasive RIC method using the NICaSHemodynamicNavigator systemand the gold standardTDmethod using pulmonary artery catheterin patients undergoingOPCAB.Atotal of 150 data pair from the two CO monitoring techniques were taken from 15 patients between 40-70 years at various predefined time intervals of the surgery. Patients and Methods: We have tried to find out the accuracy, precision and cost effectiveness of the newer RIC technique. Mean CO, bias and precision were compared for each pair i.e.TD-CO and RIC-CO as recommended by Bland and Altman.The Sensitivity and specificity of cutoff value to predict change in TD-CO was used to create a Receiver operating characteristic or ROC curve. Results: Mean TD-CO values were around 4.52 ± 1.09 L/min, while mean RIC- CO values were around 4.77± 1.84 L/min. The difference in CO change was found to be statistically not significant (p value 0.667). The bias was small (-0.25). The Bland Altman plot revealed a mean difference of -0.25 litres.The RIC method had a sensitivity of 55.56 % and specificity of 33.33 % in predicting 15% change in CO of TD method and the total diagnostic accuracy was 46.67%. Conclusion: A fair correlation was found between the two techniques. The RIC method may be considered as a promising noninvasive, potentially low cost alternative to the TD technique of hemodynamic measurement.
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Objective:To assess the value of point of care ultrasound on cardiac output (CO) and volume responsiveness in patients with septic shock.Methods:A prospective investigation study was conducted. Twenty-four mechanical ventilation patients with septic shock who needed pulse-indicated continuous cardiac output (PiCCO) monitoring in the department of critical care medicine of Zhengzhou University People's Hospital, Henan Provincial People's Hospital from November 25, 2020 to April 30, 2021 were selected as the subjects, the patient's basic information and laboratory test results were recorded. PiCCO was used as standard to monitor CO and stroke volume variability (SVV) at 0, 2, 6, 12, 24 and 48 hours. At the same time, point of care transthoracic echocardiography (TTE) was used to measure velocity time integral (VTI) and inferior vena cava diameter (dIVC), the CO, VTI variation rate (△VTI) and dIVC variation rate (△dIVC) were calculated. Then, using the value monitored by PiCCO as the standard, the consistency and correlation analysis were carried out between point of care ultrasound with PiCCO.Results:Twenty-two out of 24 patients obtained satisfactory ultrasound Doppler images, the heart rate (HR), mean arterial pressure (MAP) and body temperature of the enrolled patients were consistent with the pathophysiological characteristics of septic shock. With the extension of treatment time, HR and CO both gradually decreased, and MAP gradually increased, reaching a peak or trough at 48 hours after admission. The difference were statistically significant compared with the time of admission [HR (bpm): 90.36±15.35 vs. 116.82±19.82, MAP (mmHg, 1 mmHg = 0.133 kPa): 87.82±11.06 vs. 58.82±9.85, CO (L/min): 4.80±0.56 vs. 6.78±1.31, all P < 0.05]. The CO obtained by PiCCO and point of care ultrasound had good agreement [5.36 (4.78, 6.33) L/min and 5.21 (4.88, 6.35) L/min, respectively], the average difference value at each time point was (-0.02±0.69) L/min, the 95% agreement limit range was -1.35-1.34, and there was a high degree of correlation ( rs = 0.800, P < 0.001); The SVV by PiCCO and the △dIVC by point of care ultrasound were in good agreement [18.00% (14.00%, 24.00%) and 21.00% (14.00%, 25.75%), respectively], the average difference value at the time point was (-3.16±6.89)%, the 95% agreement limit range was -16.89-10.54, and there was a moderate correlation ( rs = 0.702, P < 0.001); The SVV by PiCCO and the △VTI by point of care ultrasound were in good agreement [18.00% (14.00%, 24.00%) and 16.00% (11.25%, 20.75%), respectively], the average difference value at each time point was (13.03±14.75)%, and the 95% agreement limit range was 1.72-27.78, and there was a high correlation ( rs = 0.918, P < 0.001). Conclusion:Point of care ultrasound can accurately assess CO and volume responsiveness of patients with septic shock, and the △VTI is better than the △dIVC in assessing volume responsiveness.
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The accurate quantification of cardiac output (CO) is given vital importance in modern medical practice, especially in high-risk surgical and critically ill patients. CO monitoring together with perioperative protocols to guide intravenous fluid therapy and inotropic support with the aim of improving CO and oxygen delivery has shown to improve perioperative outcomes in high-risk surgical patients. Understanding of the underlying principles of CO measuring devices helps in knowing the limitations of their use and allows more effective and safer utilization. At present, no single CO monitoring device can meet all the clinical requirements considering the limitations of diverse CO monitoring techniques. The evidence for the minimally invasive CO monitoring is conflicting; however, different CO monitoring devices may be used during the clinical course of patients as an integrated approach based on their invasiveness and the need for additional hemodynamic data. These devices add numerical trend information for anesthesiologists and intensivists to use in determining the most appropriate management of their patients and at present, do not completely prohibit but do increasingly limit the use of the pulmonary artery catheter.
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Fluid infusion is one of the most common therapeutic measures in clinical practice.With the development of medical technology,the assessment of fluid responsiveness before fluid infusion has become simpler and less invasive.The assessment of fluid responsiveness is based on three aspects:cardiopulmonary interaction,volume-loading test and endogenous volume-loading test.This article reviews the progress in the assessment of fluid responsiveness with the application of ultrasound and noninvasive continuous cardiac output monitoring,and the prospect of future improvement.
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Objective To evaluate the feasibility of using noninvasive ultrasonic cardiac output monitor USCOM velocity time integral (VTI) as the observation index of PLR.Methods This prospective study recruited 36 septic shock or acute pancreatitis patients from October 2014 to October 2016 in the resuscitation room and EICU of Peking Union Medical College Hospital.The change of VTI and plus pressure before and after PLR (⊿VTIplr and ⊿pp),and the change of VTI and stroke volume before and after 500 mL of volume expansion (⊿VTIve and ⊿SV) were recorded.Fluid response positive was defined as stroke volume increase more than 15% after volume expansion.Results ⊿VTIplr was positively correlated with ⊿SV (Spearman correlation coefficient r=0.888,P<0.01).The predicting value of⊿VTIve,⊿VTIplr and ⊿PP in fluid response were as follows:the sensitivity of ⊿VTIve in >15% was 94.7%,the specificity was 94.1%,area under the ROC curve was 0.989;the sensitivity of⊿ VTIplr in >12% was 84.2%,the specificity was 88.2%,area under the ROC curve was 0.916;and the sensitivity of⊿ PP in >10.5% was 78.9%,the specificity was 88.2%,the area under the ROC curve was 0.870.Conclusions ⊿ VTIplr measured by USCOM before and after the PLR is a sensitive and specific index.It is better than the classic index ⊿ PP.⊿ VTIplr measured by USCOM is completely noninvasive,which has very good application prospect in the emergency department.
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Objective@#To evaluate the consistency of ultrasonic cardiac output monitor (USCOM) and electric impedance (ICON) in cardiac function monitoring in preterm infants compared with echocardiography (ECHO).@*Methods@#All enrolled children were monitored with ECHO, USCOM and ICON on the 2nd and 7th day after birth.Heart rate (HR) and cardiac index (CI) were recorded.@*Results@#On the second day after birth, the CI measured by ECHO was (3.26±0.68) L/(min·m2), the CI measured by USCOM was (3.21±0.66) L/(min·m2), and the CI measured by ICON was (3.67 ±0.69) L/(min·m2), with an average percent error of 27.9% and 42.3%, respectively.On the 7th day after birth, the CI measured by ECHO was (3.53±0.57) L/(min·m2), the CI measured by USCOM was (3.47±0.59) L/(min·m2), and the CI measured by ICON was (3.73±0.67)L/(min·m2), with an average percent error of 25.8% and 28.3%, respectively.@*Conclusion@#Comparing USCOM with ECHO in cardiac output monitoring of preterm infants, the consistency is good at each time point after birth.Compared with ECHO, ICON has poor consistency in early postnatal cardiac index monitoring, but dynamic monitoring has a certain reference value after one week of birth.
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Objective To explore the application value of noninvasive cardiac output monitoring (NICOM) in children with sepsis. Methods A total of 51 children with sepsis admitted to pediatric inten-sive care unit in Chengdu Women and Children's Center Hospital were enrolled. They were divided into three groups:sepsis without cardiovascular functional disorder group( sepsis group,n=16),septic shock compen-sation group (n=22),septic shock decompensation group (n=13). The cardiac function of the children was detected by NICOM and echocardiography at the time of admission 0 hours and 1 hours after admission re-spectively. Cardiac index (CI),stroke volume(SV) measured by NICOM and ejection fraction (EF),SV measured by echocardiography were recorded. The correlation between CI and EF at 0 hours and 1 hours after admission was analyzed,and the SV measured by the two methods were compared. Results (1) In the sep-sis group,the CI measured by NICOM was(3. 54 ± 0. 36) L/( min·m2) and EF measured by echocardio-graphy was (66. 9 ± 4. 4)%. There was a significant positive correlation between CI and EF(r=0. 941,P<0.01).(2) In the septic shock compensation group,CI was (2.40 ±0.36) L/(min·m2) and EF was (51. 91 ± 4. 38)% at 0 hours after admission,and there was a positive correlation between CI and EF( r=0. 751,P=0. 023). CI was(2. 98 ±0. 37)L/(min·m2)and EF was(59. 41 ±4. 39)% at 1 hours after admis-sion,and there was a positive correlation between CI and EF (r=0. 879,P=0. 012). At 0 hours and 1 hours after admission,the value of SV measured by NICOM was very close to that measured by echocardiography, and there was no significant difference(P>0. 05). (3) In the septic shock decompensation group,CI was (1.26 ±0.28) L/(min·m2) and EF was (41.23 ±4.73)% at 0 hours after admission,and there was no positive correlation between CI and EF(r=0. 515,P=0. 121). CI was(1. 61 ± 0. 32)L/(min·m2)and EF was(47. 77 ± 6. 19)% at 1 hours after admission,and there was no positive correlation between CI and EF (r=0. 531,P=0. 085). There was significant difference between the value of SV measured by NICOM and that measured by echocardiography at 0 hours and 1 hours after admission (P<0. 05). Conclusion NICOM can accurately evaluate cardiac output when the hemodynamics is stable,but the results are not accurate when the hemodynamics is unstable. NICOM has certain application value in pediatric critical care.
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Objective To study the influence of continuous blood purification(CBP) on cardiac out-put of pediatric patients using bioreactance. Methods Patients underwent CBP in PICU and nephrology ward from March 2014 were prospectively enrolled after approval by ethics committee. CBP therapies were all performed by Fresenius Medical Care hemodialysis machine. Cardiac output values were obtained using the non-invasive cardiac output monitoring ( NICOM) device ( Cheetah Medical). Blood pressure, heart rate, cardiac index(CI) and stroke volume index(SVI) were recorded before the therapy,at the beginning of ther-apy,during the course of therapy,and at the end of each therapy. Results Twenty-one pediatric patients (from 1. 0 year to 15. 5 years) were recruited and 69 treatments were recorded from March 2014 to Decem-ber 2016. The basic CI was 3. 4 (2. 4,6. 1) L/(min·m2),basic SVI was 43 (26,75) ml/(m2·beat). Dur-ing the beginning of therapy,mean arterial pressure(MAP),CI and SVI all dropped from the baseline ( P<0. 001),whereas heart rate increased. During the course of CBP,CI and SVI (were both recorded every 4 hours) kept on dropping and stayed at a relatively lower level. Course CI was 3. 0 (2. 4,4. 6) L/(min·m2) and course SVI was 28 (21,57) ml/(m2·beat). At the end of therapy,CI was 3. 4 (2. 5,5. 3) L/(min· m2),with no significant difference from the baseline CI (P=0. 073). However,the SVI at the end of therapy was 35 (25,67) ml/(m2·beat),higher than the course SVI but still lower than the basic SVI,the differences were statistically significant ( P<0. 05). Conclusion CI and SVI continue to decline at the beginning of CBP treatment and remain at a lower level throughout the course of treatment. After the therapy, CI has returned to the basic level whereas SVI has not recovered.
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Objective@#To analyze the changes and relationship of early hemodynamic indexes of patients with large area burns monitored by pulse contour cardiac output (PiCCO) monitoring technology, so as to assess the guiding value of this technology in the treatment of patients with large area burns during shock period.@*Methods@#Eighteen patients with large area burns, confirming to the study criteria, were admitted to our unit from May 2016 to May 2017. Pulse contour cardiac output index (PCCI), systemic vascular resistance index (SVRI), global end-diastolic volume index (GEDVI), and extravascular lung water index (EVLWI) of patients were monitored by PiCCO instrument from admission to post injury day (PID) 7, and they were calibrated and recorded once every four hours. The fluid infusion coefficients of patients at the first and second 24 hours post injury were calculated. The blood lactic acid values of patients from PID 1 to 7 were also recorded. The correlations among PCCI, SVRI, and GEDVI as well as the correlation between SVRI and blood lactic acid of these 18 patients were analyzed. Prognosis of patients were recorded. Data were processed with one-way analysis of variance, single sample ttest and Bonferroni correction, Pearson correlation analysis, and Spearman rank correlation analysis.@*Results@#(1) There was statistically significant difference in PCCI value of patients from post injury hour (PIH) 4 to 168 (F=7.428, P<0.01). The PCCI values of patients at PIH 4, 8, 12, 16, 20, and 24 were (2.4±0.9), (2.6±1.2), (2.2±0.6), (2.6±0.7), (2.8±0.6), and (2.7±0.7) L·min-1·m-2, respectively, and they were significantly lower than the normal value 4 L·min-1·m-2(t=-3.143, -3.251, -11.511, -8.889, -6.735, -6.976, P<0.05 or P<0.01). At PIH 76, 80, 84, 88, 92, and 96, the PCCI values of patients were (4.9±1.5), (5.7±2.0), (5.9±1.7), (5.5±1.3), (5.3±1.1), and (4.9±1.4) L·min-1·m-2, respectively, and they were significantly higher than the normal value (t=2.277, 3.142, 4.050, 4.111, 4.128, 2.423, P<0.05 or P<0.01). The PCCI values of patients at other time points were close to normal value (P>0.05). (2) There was statistically significant difference in SVRI value of patients from PIH 4 to 168 (F=7.863, P<0.01). The SVRI values of patients at PIH 12, 16, 20, 24, and 28 were (2 298±747), (2 581±498), (2 705±780), (2 773±669), and (3 109±1 215) dyn·s·cm-5·m2, respectively, and they were significantly higher than the normal value 2 050 dyn·s·cm-5·m2(t=0.878, 3.370, 2.519, 3.747, 3.144, P<0.05 or P<0.01). At PIH 4, 8, 72, 76, 80, 84, 88, 92, and 96, the SVRI values of patients were (1 632±129), (2 012±896), (1 381±503), (1 180±378), (1 259±400), (1 376±483), (1 329±385), (1 410±370), and (1 346±346) dyn·s·cm-5·m2, respectively, and they were significantly lower than the normal value (t=-4.593, -0.112, -5.157, -8.905, -7.914, -5.226, -6.756, -6.233, -7.038, P<0.01). The SVRI values of patients at other time points were close to normal value (P>0.05). (3) There was no statistically significant difference in the GEDVI values of patients from PIH 4 to 168 (F=0.704, P>0.05). The GEDVI values of patients at PIH 8, 12, 16, 20, and 24 were significantly lower than normal value (t=-3.112, -3.554, -2.969, -2.450, -2.476, P<0.05). The GEDVI values of patients at other time points were close to normal value (P>0.05). (4) There was statistically significant difference in EVLWI value of patients from PIH 4 to 168 (F=1.859, P<0.01). The EVLWI values of patients at PIH 16, 20, 24, 28, 32, 36, and 40 were significantly higher than normal value (t=4.386, 3.335, 6.363, 4.391, 7.513, 5.392, 5.642, P<0.01). The EVLWI values of patients at other time points were close to normal value (P>0.05). (5) The fluid infusion coefficients of patients at the first and second 24 hours post injury were 1.90 and 1.39, respectively. The blood lactic acid values of patients from PID 1 to 7 were 7.99, 5.21, 4.57, 4.26, 2.54, 3.13, and 3.20 mmol/L, respectively, showing a declined tendency. (6) There was obvious negative correlation between PCCI and SVRI (r=-0.528, P<0.01). There was obvious positive correlation between GEDVI and PCCI (r=0.577, P<0.01). There was no obvious correlation between GEDVI and SVRI (r=0.081, P>0.05). There was obvious positive correlation between blood lactic acid and SVRI (r=0.878, P<0.01). (7) All patients were cured except the one who abandoned treatment.@*Conclusions@#PiCCO monitoring technology can monitor the changes of early hemodynamic indexes and volume of burn patients dynamically, continuously, and conveniently, and provide valuable reference for early-stage comprehensive treatment like anti-shock of patients with large area burns.
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Impedance plethysmography (IPG) came into existence in 1940 as a result of Jan Nyboer’s pioneering work in the noninvasive assessment of central and peripheral blood flow. The technique got an impetus after introduction first-time derivative of the impedance for accurate determination of stroke volume (SV) and various cardiac intervals. Later, this signal was employed by Parulkar et al for estimation of blood flow index (BFI) and differential pulse arrival time (DPAT) in various segments of the extremity, which were adequate to detect the aortic and peripheral arterial blocks and estimate collateral circulation and distal arterial runoff. The technique was widely used for measurement of respiration and body water. All these applications have resulted into use of bioimpedance for body composition analysis and continuous monitoring of cardiac output as US Food and Drug Adminstration (FDA) approved technologies, which are being used worldwide. Physiological variability has added more value to this technique as single data acquisition gives variability in heart rate and SV (or peripheral blood flow). Morphology index thus derived is very useful in screening patients suspected with coronary artery disease (CAD). All these milestones are briefly described in this paper.
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Objective To evaluate prognostic value of pentraxin3 (PTX3) content combining with extravascular lung water index (EVLWI) in patients with sepsis.Methods A retrospective analysis of complete clinical data of septic patients admitted to Department of Critical Care Medicine of the First Affiliated Hospital of Zhengzhou University from February 2013 to February 2014 was conducted.These patients were divided into two groups,survival group and death group,according to the outcome on the 28th day.Pulse index continuous cardiac output (PiCCO) was used to record the levels of EVLWI on the 1st,2nd and 3rd day of intensive care unit (ICU) admission.The plasma level of PTX3 was measured simultaneously by enzyme-linked immunosorbent assay (ELISA).At the same time,acute physiology and chronic health evaluation Ⅱ (APACHE Ⅱ) score and sequential organ failure assessment (SOFA) were calculated.Correlation analysis between plasma PTX3 and EVLWI values was performed,receiver operating characteristic curve (ROC) was drawn,and the prognostic value of each parameter was assessed finally.Results A total of 74 septic patients were enrolled,with 41 cases in the survival group and 33 cases in the non-survival group.Blood lactate,APACHE Ⅱ,SOFA scores in the non-survival group were significantly higher than those of the survival group at ICU admission,and the length of ICU stay was significantly shorter than that of the survival group,while differences of the other clinical characteristics between two groups were not statistically significant.The plasma PTX3 level gradually declined with time in both groups,and plasma PTX3 at 1,2,3 days after ICU admission in non-survival group were significantly higher than those in survival group [PTX3 (μg/L) at 1 day:46.3± 10.5 vs.19.4±6.5,t =-13.486,P =0.000; 2 days:34.8± 10.7 vs.17.7±8.4,t =-8.284,P =0.000; 3 days:23.9± 11.2 vs.15.6 ± 7.9,t =-5.036,P =0.000].EVLWI gradually declined in survival group,but increased in death group.EVLWI at 1,2,3 days after ICU admission in non-survival group were significantly higher than those in survival group [EVLWI (mL/kg) at 1 day:12.12 ± 4.31 vs.10.02 ± 2.87,t =-2.502,P =0.023; 2 days:13.67 ± 4.95 vs.9.08 ± 2.89,t =-5.188,P =0.000; 3 days:14.51±5.06 vs.8.09±2.50,t =-7.126,P =0.000].PTX3 at 1,2,3 days after ICU admission showed a significant positive correlation with EVLWI (r1 =0.747,r2 =0.719,r3 =0.705,all P =0.000).ROC curve analysis showed that the area under the ROC (AUC) of PTX3 at 1 day was 0.845 ± 0.045,at the cut-off point of 23.0 μg/L,PTX3 showed a sensitivity of 84.8%,a specificity of 74.1%,a negative predictive value of 85.81%,and a positive predictive value of 72.42%.AUC of EVLWI at 3 days was 0.838 ± 0.048,at the cut-off point of 10.5 mL/kg,EVLWI showed a sensitivity of 83.9%,a specificity of 82.9%,a negative predictive value of 86.45%,and a positive predictive value of 79.79%.Their sensitivities and specificities were found to be better than APACHE Ⅱ,SOFA score.AUC of PTX3 combined with EVLWI at 1 day was 0.886 ± 0.038.On the 1st day after ICU admission,with combination of the two indicators,cut-off point was found to be 0.312,a sensitivity of 86.8%,a specificity of 85.4%,a negative predictive value of 88.93%,and a positive predictive value of 82.72%.On the 3rd day after ICU admission,AUC of PTX3 combined with EVLWI was 0.856 ± 0.046,and showed a cut-off of 0.471 for the prognosis of sepsis,a sensitivity of 85.8%,a specificity of 85.4%,a negative predictive value of 87.97%,and a positive predictive value of 82.50%.Compared with other single index,a combination of above mentioned two indexes showed a better sensitivity and specificity.Conclusions PTX3 can serve as a novel prognostic indicator at early stage in septic patients.Combined with EVLWI,it shows important value in predicting prognosis of septic patients,and it also provides guidance in treatment of high-risk patients.
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Objective To investigate the value of employing pulse indicator continuous cardiac output (PiCCO) for cardiac function monitoring in patients with severe septic shock.Methods A prospective observation was conducted.Thirty-six septic shock patients in Department of Critical Care Medicine of Peking University Third Hospital admitted from August 2011 to December 2013 were enrolled.According to the degree of severity,the patients were divided into PiCCO monitor group and routine monitor group.The PiCCO monitor provided a continuous assessment of fluid resuscitation,vasopressors and inotropes infusion in the patients with severe septic shock.The following cardiac function parameters were assessed in severe septic shock patients on the 1st and 3rd day after intensive care unit (ICU)admission:cardiac index (CI),global ejection fraction (GEF),rate of left ventricular pressure increase (dp/dt max),echocardiography,and blood troponin T (TNT) and B-type natriuretic peptide (BNP).The central venous pressure (CVP),mean arterial pressure (MAP) and the time reaching their standard values,and the norepinephrine dosage and 3-day fluid balance in severe septic shock patients were compared between milrinone and non-milrinone usage groups.The severity degree and outcome were compared between PiCCO monitor group and routine monitor group.Results There were 15 patients in PiCCO monitor group and 21 in routine monitor group among 36 septic shock patients.① In 15 patients with PiCCO monitoring,the patients with decreased CI,GEF,and dp/dt max accounted for 40.0%,93.3%,and 33.3% at 1 day after ICU admission,and accounted for 60.0%,93.3%,and 60.0% at 3 days after ICU admission,and it showed that CI,GEF,and dp/dt max was not improved at 3 days after ICU admission.Echocardiography showed that 35.7% patients had lower left ventricular ejection fraction (LVEF) at 1 day after ICU admission,71.4% and 71.4% of patients,respectively,had lower early diastolic mitral flow velocity/early diastolic myocardial velocity (E/Em) and early diastolic mitral flow velocity/end diastolic mitral flow velocity (E/A).Three days after ICU admission,80% of patients with low LVEF value turned to normal,and diastolic dysfunction was ameliorated in 50% patients.At 1 day after ICU admission,higher TNT was found in 92.9% of patients,higher BNP in 100% of patients,and 3 days after ICU admission,71.4% and 78.6% patients showed a decrease in TNT and BNP,respectively.② In PiCCO monitor group,there were no significant differences in initial CVP,MAP and their time reaching standard values,norepinephrine dosage between milrinone group (n =8) and non-milrinone group (n =7).However,3-day intake of liquid in milrinone group was significantly higher than that in non-milrinone group (mL:8 324±3 962 vs.4 372±2 081,t =-2.362,P =0.034).③ Compared with routine monitor group,there was a significant elevation in acute physiology and chronic health evaluation Ⅱ (APACHE Ⅱ) score,sequential organ failure assessment (SOFA) score,duration of mechanical ventilation,length of ICU stay and 28-day hospital mortality in PiCCO monitor group [APACHE Ⅱ score:20.67 ± 6.15 vs.14.71 ±4.67,t =-3.304,P =0.002; SOFA score:9.53±3.00 vs.7.52± 1.97,t =-2.433,P =0.020; duration of mechanical ventilation (hours):132 (54-310) vs.63 (14-284),Z =-2.295,P =0.022; length of ICU stay (days):7 (4-15) vs.5 (1-14),Z =-2.360,P =0.018; 28-day hospital mortality:26.7% vs.0,P =0.023].Conclusion With the use of the PiCCO hemodynamic monitoring in patients with severe septic shock,more comprehensive values of blood volume,systemic vascular resistance and cardiac function can be obtained for guiding fluid resuscitation and selection of vasopressor and inotropic drugs.
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Objective To explore the application value of pulse induced contour cardiac output (PiCCO) monitoring in diagnosis and treatment of patients with neurogenic pulmonary edema (NPE).Methods With review of literature, the data of 4 patients of severe neurological disease complicated by NPE admitted into Department of Critical Care Medicine of Huangshan People's Hospital Affiliated to Wannan Medical College from 2011 to 2013 were retrospectively analyzed and discussed in their PiCCO hemodynamic characteristics and processes of treatment.Results The PiCCO of 4 patients with NPE showed that the extravascular lung water index (EVLWI) was increased significantly (EVLWI was 12 - 42 mL/kg on admission and 10 - 22 mL/kg after hospitalization for 24 hours), all revealing a high permeability pulmonary edema type. The capacity balance of the first 24 hours in the 4 cases was all of positive balance (+1 130, +1 200, +1 750, +1 120 mL respectively). In the treatment, the supplementary colloid was strengthened, the vasoactive drugs such as, dopamine, dobutamine, milrinone, etc were applied to improve the circulatory oxygenation, then the EVLWI was declined; finally the disease situation in 3 cases was improved and one died.Conclusions The clinical diagnosis and treatment of NPE is complex, and many contradictions appear in the therapeutic course. PiCCO monitoring is valuable in early diagnosis, identification of pulmonary edema type, guidance in fluid supplement and vascular active drug application, and assessment of disease severity and prognosis.
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Objective To discuss the jointly therapeutic effects of 6% hydroxyethyl starch 130/0.4 (voluven) and furosemide on acute lung injury induced by paraquat (PQ) in swine.Methods The ALI/ ARDS models were established with 20% PQ (20 mL) intraperitoneal injection in 18 healthy female piglets and randomly divided into three groups: voluven group (A), furosemide group (B) and voluven + furosemide group (C) (n =6 in each group).The heart rate (HR), mean arterial pressure (MAP), extravascular lung water index (ELWI), pulmonary vascular permeability index (PVPI), partial pressure of carbon dioxide (PaCO2) and oxygenation index (PaO2/FiO2) among the three groups were carefully measured by PICCO (pulse indicator continuous cardiac output) before modeling (baseline), just aftermodeling (t0), and 2 h (t2), 4 h (t4), 6 h (t6) and 8 h (t8) after trearment.Needle biopsies of lung tissue were made before modeling and at t0 and t8 and prepared for microscopy observation after Hematoxylineosin staining method (HE staning).Repeated measurement data were compared among repeated measures by the ANOVA and the difference between groups was compared by one-wey ANOVA.Results (1) The HR and MAP of all animals increased obviously while the oxygenation index declined significantly at modeling just made (t0) compared to those before modeling (all P < 0.05).At the same time, the HR and MAP of A and B groups were significantly lower than those of C group after treatment (all P < 0.05), while the oxygenation index of A and B were significantly higher (all P > 0.05).(2) The ELWI and PVPI of all animals increased obviously at modeling just made (t0) compared to those before modeling (all P < 0.05).The ELWI and PVPI were decreased after treatment.And at the same time, the ELWI and PVPI of A and B groups were significantly lower than those of C group after treatment (all P < 0.05).(3) The alveolar tissue showed obviously injured changes at modeling just made (t0).The injury was relieved 8h after trearment, which was most markedly in group C.Conclusions With the combination of 6% hydroxyethyl starch 130/0.4 and furosemide administered, the acute lung injury induced by paraquat poisoning can be effectively relieved, promoting gas exchange, and improve oxygenation.
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PURPOSE: We compared the efficacy of postoperative hemodynamic goal-directed therapy (GDT) using a pulmonary artery catheter (PAC) and bioreactance-based noninvasive cardiac output monitoring (NICOM) in patients with atrial fibrillation undergoing valvular heart surgery. MATERIALS AND METHODS: Fifty eight patients were randomized into two groups of GDT with common goals to maintain a mean arterial pressure of 60-80 mm Hg and cardiac index > or =2 L/min/m2: the PAC group (n=29), based on pulmonary capillary wedge pressure, and the NICOM group (n=29), based on changes in stroke volume index after passive leg raising. The primary efficacy variable was length of hospital stay. Secondary efficacy variables included resource utilization including vasopressor and inotropic requirement, fluid balance, and major morbidity endpoints. RESULTS: Patient characteristics and operative data were similar between the groups, except that significantly more patients underwent double valve replacement in the NICOM group. The lengths of hospital stay were not different between the two groups (12.2+/-4.8 days vs. 10.8+/-4.0 days, p=0.239). Numbers of patients requiring epinephrine (5 vs. 0, p=0.019) and ventilator care >24 h (6 vs. 1, p=0.044) were significantly higher in the PAC group. The PAC group also required significantly larger amounts of colloid (1652+/-519 mL vs. 11430+/-463 mL, p=0.004). CONCLUSION: NICOM-based postoperative hemodynamic GDT showed promising results in patients with atrial fibrillation undergoing valvular heart surgery in terms of resource utilization.
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Aged , Aged, 80 and over , Female , Humans , Male , Middle Aged , Cardiac Output/physiology , Cardiac Surgical Procedures/methods , Catheterization, Swan-Ganz , Goals , Heart Valves/surgery , Hemodynamics , Length of Stay/statistics & numerical data , Monitoring, Intraoperative/methods , Monitoring, Physiologic/methods , Postoperative Complications/epidemiology , Postoperative PeriodABSTRACT
Objective To investigate the effect of non invasive cardiac output monitoring(NICO)system in pig model with acute respiratory distress syndrome(ARDS),and to provide experimental basis for clinical application. Methods Eleven anaesthetized and ventilated ARDS male pig models were induced by intravenously infusing 0.2 mL/kg oleic acid. Lung recruitment was condocted by pressure control ventilation on pigs with ARDS. The optimal positive end-expiratory pressure(PEEP)was determined by optimal dead space fraction〔the ratio of dead space to tidal volume(VD/VT)〕. Cardiac output(CO)was determined by NICO,the respiratory function was monitored, and the VD/VT,dynamic compliance(Cdyn),oxygenation index(PaO2/FiO2),the volume of alveolar ventilation(Valv) and arterial blood oxygen saturation(SaO2)were recorded before infusing oleic acid,after stabilization of ARDS model and at optimal PEEP level,and the intrapulmonary shunt fraction(Qs/Qt)was calculated. CO was also determined by application of pulse indicated continuous cardiac output(PiCCO),and the linear regression analysis between CO determined by NICO and CO determined by PiCCO was conducted. Results Seven experimental ARDS pigs model were successfully established. The optimal PEEP identified by the lowest VD/VT method was(15.71±1.80)cmH2O (1 cmH2O=0.098 kPa). Compared with before infusing oleic acid,VD/VT and Qs/Qt after stabilization of ARDS model were significantly increased〔VD/VT:(72.29±8.58)% vs.(56.00±11.06)%,Qs/Qt:(21.04±15.05)%vs.(2.00±1.32)%,both P0.05). There was linear correlation between CO determined by NICO and CO determined by PiCCO(r2=0.925,P<0.001). Conclusions NICO technique provides a useful and accurate non invasive estimation of CO and respiratory function.VD/VT provided by NICO can titrate the optimal PEEP in patients with ARDS.
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Objective To evaluate the therapeutic effect of early fluid resuscitation under the guidance of pulse indicator continuous cardiac output (PiCCO) on patients with severe acute pancreatitis (SAP).Methods Clinical data of 18 SAP patients (research group),who had undergone fluid resuscitation under the guidance of PiCCO in the Department of Critical Care Medicine of the Second Affiliated Hospital of Anhui Medical University from October 2011 to October 2013,were analyzed prospectively.At the same time,clinical data of 25 cases (control group) that had undergone fluid resuscitation without the guidance of PiCCO from January 2009 to September 2011 were collected retrospectively.The volume of fluid and clinical data were compared between two groups.Results During the first 6 hours,0-24 hours,24-48 hours,and 0-72 hours after intensive care unit (ICU) admission,the research group received larger volume of fluid than that of the control group (mL:2 133 ± 1 593 vs.1 024 ± 421,t=3.337,P=0.002; 5 960 ±2 951 vs.3 767 ± 854,t=3.531,P=0.001; 4 709 ± 1 508 vs.3 863 ± 1 122,t=2.112,P=0.031 ; 14 601 ± 5 095 vs.11 409 ± 2 667,t=2.673,P=0.007).Compared with the control group,the incidence of application of blood purification was lowered [5.56% (1/18) vs.44.00% (11/25),x2=7.688,P=0.006],the duration of the systemic inflammatory response syndrome (SIRS) was shortened (days:3.54 ± 2.44 vs.5.62 ± 3.62,t=2.113,P=0.041),acute physiology and chronic health Ⅱ (APACHE Ⅱ) score was significantly declined at 24 hours after admission (11±4 vs.14 ± 5,t=2.104,P=0.042),the blood lactic acid was decreased more significantly after 72 hours (mmol/L:3.10 ±0.55 vs.2.40 ± 1.12,t=2.442,P=0.019),and the length of ICU stay was shortened (days:10 ±9 vs.20 ± 10,t=3.371,P=0.002) in research group.But there was no significant difference in the percentage of the use of vasoactive drugs [16.67% (3/18) vs.24.00% (6/25),x2 =0.340,P=0.560],the incidence of invasive mechanical ventilation [50.00% (9/18) vs.52.00% (13/25),x2 =0.017,P=0.897],72-hour urea nitrogen changes (mmol/L:-0.33 ± 4.71 vs.-0.09 ± 5.37,t=0.152,P=0.880),and the percentage of abdominal infection [16.67% (3/18) vs.16.00% (4/25),x2=0.003,P=0.953] between research group and control group.The mortality in research group was lower than that in control group [5.56% (1/18) vs.20.00% (5/25)] without statistical difference (x2=1.819,P=0.178).According to the 2012 Atlanta classification,patients were re-evaluated after 48 hours fluid resuscitation.Six patients in research group developed moderately severe acute pancreatitis,and the incidence was significantly higher than that in control group [33.33% (6/18) vs.8.00% (2/25),x2=4.435,P=0.034].The time of mean PiCCO installation was 4.5 days in 18 cases of the research group,and no related complications occurred.Conclusions The PiCCO device may be a useful adjunct for fluid resuscitation monitoring in patients with SAP within 72 hours.Early fluid resuscitation under the guidance of PiCCO may be helpful in improving tissue perfusion,reducing the application of blood purification,as well as shortening length of ICU stay.This program did not increase the risk of invasive mechanical ventilation,and no obvious change in mortality rate was observed.
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Objective To assess whether end-tidal carbon dioxide partial pressure (PET CO2) can predict the fluid responsiveness in septic shock patients.Methods Septic shock patients under mechanical ventilation without spontaneous breathing and with the need of a fluid challenge test were included in this study.Heart rate,central venous pressure,pulse pressure,PErCO2,and CI before and after the fluid challenge test were conducted in all the patients.Results Of the 48 septic shock patients included,34 had preload responsiveness,14 had no responsiveness.△CI and △PET CO2 after the fluid challenge test involume responders were (0.85 ± 0.47) L · min-1 · m-2 and (3.5 ± 2.5) mmHg respectively,which were higher than those in no volume responders (P < 0.05).The fluid-induced changes in PET CO2 and CI were correlated (r =0.072,P < 0.05).The AUCRoc of fluid challenge-induced △PET CO2 as the predictor for volume responsiveness was 0.943,and its sensitivity was 87.9% and specificity was 93.4% with a critical value of 5%.The AUCRoc of △PP as the predictor for volume responsiveness was 0.801,and its sensitivity was 68.1% and specificity was 73.2% with a critical value of 10%.Conclusion The changes of PETCO2 induced by a fluid challenge test can predict fluid responsiveness with reliability,and have a better sensitivity and specificity than the changes of PP.
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BACKGROUND: The effects of Trendelenburg positions used to expose the surgical field may induce intraoperative hemodynamic and respiratory changes that complicate anesthetic management. This study was performed to evaluate the effects of the lithotomy-Trendelenburg position on respiratory and hemodynamic changes with time passage during general anesthesia. METHODS: Twenty patients undergoing anorectal surgery with general anesthesia were studied. Hemodynamic and respiratory parameters were measured before the lithotomy-Trendelenburg position (L) and 3 min (LT3), 6 min (LT6), 12 min (LT12), 30 min (LT30) and 60 min (LT60) after the 30 degree Trendelenburg position. The cardiac index (CI), stroke volume (SV), systemic vascular resistance (SVR), airway resistance (Raw) and dynamic compliance (Cdyn) were measured by a non-invasive cardiac output monitor. RESULTS: Central venous pressure and peak inspiratory pressure were markedly increased from the lithotomy to the lithotomy-Trendelenburg position. Heart rate was slightly increased while SV, CI, SVR and MAP were decreased. No significant changes of the SV or CI were observed during surgery. The Cdyn was significantly decreased. CONCLUSIONS: The steep lithotomy-Trendelenburg position induces moderate adverse hemodynamic and respiratory effects in healthy patients. These findings indicate the need for more active hemodynamic and respiratory monitoring in patients with a compromised cardiopulmonary function.