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Objective To investigate the dynamic changes in early gastric antrum contraction in patients with craniocerebral injury. Methods The patients with craniocerebral injury admitted to neurosurgery intensive care unit (ICU) of the First Affiliated Hospital of Sun Yat-sen University from July to November in 2018 were enrolled. The changes in antral contraction frequency (ACF), antral contraction amplitude (ACA) and antral motility index (MI) were dynamically observed at 1-6 days after injury by ultrasonography. According to Glasgow coma score (GCS), the patients were divided into moderate to severe craniocerebral (GCS ≤ 11) and mild craniocerebral injury groups (GCS > 11). The differences in ACF, ACA and MI between the two groups were compared to observe the effect of craniocerebral injury on gastric antral motility. The patients were divided into simple supratentorial and supratentorial combined infratentorial lesion groups according to the lesion location of craniocerebral injury. The differences in ACF, ACA and MI between the two groups were compared to analyze the influence of lesion location on gastric antrum activity. Results A total of 68 patients with craniocerebral injury were screened during the study period, 50 patients were in accorded with the admission criteria, 17 patients were withdrawn from the observation because they could not tolerate the ultrasonography of gastric antrum or discharged from ICU. Finally, 33 patients were enrolled in the analysis. ① The ACF, ACA and MI at 1 day after injury were lower [ACF (times/min): 1.67 (0.00, 2.00), ACA: 42.06 (0.00, 44.45)%, MI: 0.70 (0.00, 0.87)], and then gradually increased, till 6 days after injury, ACF was 1.83 (1.25, 2.79) times/min, ACA was 56.80 (33.25, 60.77)%, and MI was 0.89 (0.50, 1.70), which showed no differences among all time points (all P > 0.05). ② The contractile function of gastric antrum in two groups of patients with different degrees of craniocerebral injury was decreased, especially ACA in patients with moderate to severe craniocerebral injury (n = 22), which showed significant differences at 3 days and 5 days after injury as compared with mild craniocerebral injury [n = 11; 3 days: 35.05 (0.00, 53.69)% vs. 58.51 (49.90, 65.45)%, 5 days: 39.88 (0.00, 77.01)% vs. 56.94 (41.71, 66.66)%, both P < 0.05], indicating that the degree of craniocerebral injury affected the contractive function of gastric antrum. However, there was no significant difference in ACF or MI between the two groups at different time points after injury. ③ The contractile function of gastric antrum was decreased after craniocerebral injury in both groups of patients with different lesion locations of craniocerebral injury. The ACF, ACA, and MI at 3-4 days in patients with supratentorial combined infratentorial lesion (n = 12) were slightly lower than those in patients with simple supratentorial lesion [n = 21; 3 days: ACF (times/min) was 0.83 (0.00, 2.00) vs. 2.25 (0.00, 3.00), ACA was 35.05 (0.00, 53.60)% vs. 49.93 (0.00, 63.44)%, MI was 0.29 (0.00, 1.07) vs. 1.23 (0.00, 1.61); 4 days: ACF (times/min) was 1.42 (0.50, 2.63) vs. 2.00 (1.63, 2.63), ACA was 30.45 (21.69, 60.61)% vs. 43.29 (38.41, 53.35)%, MI was 0.50 (0.15, 1.45) vs. 0.97 (0.66, 1.28)] without statistical differences (all P > 0.05), indicating that the lesion location might not affect the contractive function of gastric antrum. Conclusion In the early stage of craniocerebral injury, the contractile function of gastric antrum was decreased, and the more severe the craniocerebral injury, the worse contractive function of gastric antrum.[Key words] Craniocerebral injury; Antral contraction; Enteral nutrition; Antral ultrasonography
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Objective To investigate the relationship between plasma oxidative stress factors levels and organ damage parameters as well as prognosis in patients with sepsis. Methods A case-control study was conducted. Twenty-five patients admitted to surgical intensive care unit (ICU) of the First Affiliated Hospital of Sun Yat-sen University from March to December in 2016 and diagnosed as sepsis were enrolled as study subjects. Another 15 patients without sepsis admitted to surgical ICU in the same period were enrolled as controls. General demographic data, main diagnoses, acute physiology and chronic health evaluation Ⅱ (APACHEⅡ) score within 24 hours, clinical laboratory indicators [alanine aminotransferase (ALT), aspartate transaminase (AST), serum creatinine (SCr), blood urea nitrogen (BUN), C-reactive protein (CRP), procalcitonin (PCT), white blood count (WBC)] and oxidative stress indicators [superoxide dismutase (SOD), malondialdehyde (MDA) and nitric oxide (NO)] as well as length of ICU stay, total hospital stay and 28-day mortality were recorded. Spearman or Pearson correlation method was used to analyze the correlation between oxidative stress indicators and organ damage indicators as well as prognosis in patients with sepsis. Receiver operator characteristic (ROC) curve was plotted to evaluate the predictive value of oxidative stress indicators for 28-day mortality in patients with sepsis. Results The length of ICU stay in sepsis group was significantly longer than that in non-sepsis group [days: 7.0 (5.5, 11.0) vs. 4.0 (1.0, 11.0), P < 0.05], and AST, BUN, CRP, PCT, plasma MDA and NO levels were significantly higher than those in non-sepsis group [AST (U/L): 50.76±19.53 vs. 28.53±14.02, BUN (mmol/L): 9.99±5.26 vs. 6.97±4.32, CRP (mg/L): 109.28±42.79 vs. 60.33±46.68, PCT (μg/L): 5.4 (0.3, 24.0) vs. 0.6 (0.1, 1.5), MDA (ng/L): 488.31±76.68 vs. 399.30±50.23, NO (ng/L): 5.08±0.89 vs. 4.42±0.88, all P < 0.05]. There was no significant difference in gender, age, APACHEⅡ score, total hospital stay, 28-day mortality, ALT, SCr, WBC or plasma SOD activity between the two groups. The correlation analysis between oxidative stress parameters and organ damage parameters as well as prognosis in patients with sepsis showed that MDA and NO were positively correlated with SCr (r value was 0.426 and 0.431, respectively, both P < 0.05), and there was a positive correlation between MDA and NO (r = 0.990, P < 0.01); plasma SOD activity was negatively correlated with 28-day mortality (r = -0.468, P < 0.05), while MDA and NO levels were positively correlated with 28-day mortality (r value was 0.598 and 0.611, respectively, both P < 0.01). ROC curve analysis showed that plasma SOD, MDA and NO levels had a good independent predictive effect on 28-day mortality, the area under ROC curve (AUC) was 0.816±0.087, 0.904±0.078 and 0.912±0.071, and the best cut-off value was 40.76% (sensitivity 68.4%, specificity 100%), 487.93 ng/L (sensitivity 83.3%, specificity 89.5%) and 5.31 ng/L (sensitivity 83.3%, specificity 89.5%), respectively. Conclusions The plasma levels of oxidative stress factors in patients with sepsis are significantly increased, which is closely related to organ damage and poor prognosis. The plasma SOD, MDA and NO levels can be used as independent bio-marker to predict the 28-day mortality of patients with sepsis.
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Objective@#To study the influential factor of hyperlactatemia after the brain tumor craniotomy.@*Methods@#Patients who underwent selective brain tumor (including glioma, meningioma and acoustic schwannoma) craniotomyin the neurosurgery intensive care unit (NSICU) of the First Affiliated Hospital, Sun Yat-sen University from December 1st 2018 to May 20th 2019 were enrolled. The incidence of hyperlactatemia after the brain tumor craniotomy was investigated. Univariate and multivariate linear regression analysis were performed to identify the association of initial artery lactate with the operation duration, the intraoperative blood loss, the total intraoperative fluid infusion, intraoperative ringer lactate fluid infusion, intraoperative urine volume, intraoperative fluid balance, the total intraoperative corticosteroids dosage and the tumor type. Pearson method was used to analyze the correlation between lactate in arterial blood and independent related factors.@*Results@#A total of 148 patients were enrolled including 45 patients (30.41%) with glioma, 64 patients (43.24%) with meningioma, and 39 patients (26.35%) with acoustic schwannoma. The initial lactate level in arterial blood increased significantly in 148 patients, with a median of 4.80 (3.68, 5.90) mmol/L. Among them, 78 patients (52.70%) had mild elevation of lactate in arterial blood (2 mmol/L < lactate ≤ 5 mmol/L), 61 patients (41.22%) had significant elevation of lactate in arterial blood (5 mmol/L < lactate ≤ 10 mmol/L), and 2 patients (1.35%) had serious elevation of artery lactate (> 10 mmol/L). And only 7 patients (4.73%) had normal level of lactate in arterial blood (≤ 2 mmol/L). Univariate analysis showed that initial postoperative artery lactate was positively correlated with the operation duration [β = 0.556, 95% confidence interval (95%CI) was 0.257-0.855, P < 0.001] and the total intraoperative corticosteroids dosage (β = 0.477, 95%CI was 0.174-0.779, P = 0.002). There was no significant correlation between the initial postoperative artery lactate and tumor types, the intraoperative blood loss, the total fluid infusion, the ringer lactate fluid infusion, urine volume, and the fluid balance. Further multivariate linear regression analysis showed that the operation duration (β = 0.499, 95%CI was 0.204-0.795, P = 0.001) and the total intraoperative corticosteroids dosage (β = 0.407, 95%CI was 0.111-0.703, P = 0.008) were independent risk factors affecting the initial postoperative artery lactate. The correlation analysis showed that there was a significant positive correlation between lactate in arterial blood and operation time and total hormone dosage during operation (r1 = 0.289, r2 = 0.248, both P < 0.01).@*Conclusion@#Initial artery lactate after brain tumor craniotomy is associated with surgery duration and exogenous administration of corticosteroids.
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Objective To study the influential factor of hyperlactatemia after the brain tumor craniotomy. Methods Patients who underwent selective brain tumor (including glioma, meningioma and acoustic schwannoma) craniotomyin the neurosurgery intensive care unit (NSICU) of the First Affiliated Hospital, Sun Yat-sen University from December 1st 2018 to May 20th 2019 were enrolled. The incidence of hyperlactatemia after the brain tumor craniotomy was investigated. Univariate and multivariate linear regression analysis were performed to identify the association of initial artery lactate with the operation duration, the intraoperative blood loss, the total intraoperative fluid infusion, intraoperative ringer lactate fluid infusion, intraoperative urine volume, intraoperative fluid balance, the total intraoperative corticosteroids dosage and the tumor type. Pearson method was used to analyze the correlation between lactate in arterial blood and independent related factors. Results A total of 148 patients were enrolled including 45 patients (30.41%) with glioma, 64 patients (43.24%) with meningioma, and 39 patients (26.35%) with acoustic schwannoma. The initial lactate level in arterial blood increased significantly in 148 patients, with a median of 4.80 (3.68, 5.90) mmol/L. Among them, 78 patients (52.70%) had mild elevation of lactate in arterial blood (2 mmol/L <lactate ≤ 5 mmol/L), 61 patients (41.22%) had significant elevation of lactate in arterial blood (5 mmol/L < lactate ≤10 mmol/L), and 2 patients (1.35%) had serious elevation of artery lactate (> 10 mmol/L). And only 7 patients (4.73%) had normal level of lactate in arterial blood (≤ 2 mmol/L). Univariate analysis showed that initial postoperative artery lactate was positively correlated with the operation duration [β = 0.556, 95% confidence interval (95%CI) was 0.257-0.855, P < 0.001] and the total intraoperative corticosteroids dosage (β = 0.477, 95%CI was 0.174-0.779, P = 0.002). There was no significant correlation between the initial postoperative artery lactate and tumor types, the intraoperative blood loss, the total fluid infusion, the ringer lactate fluid infusion, urine volume, and the fluid balance. Further multivariate linear regression analysis showed that the operation duration (β = 0.499, 95%CI was 0.204-0.795, P = 0.001) and the total intraoperative corticosteroids dosage (β = 0.407, 95%CI was 0.111-0.703, P = 0.008) were independent risk factors affecting the initial postoperative artery lactate. The correlation analysis showed that there was a significant positive correlation between lactate in arterial blood and operation time and total hormone dosage during operation (r1 = 0.289, r2 = 0.248, both P < 0.01). Conclusion Initial artery lactate after brain tumor craniotomy is associated with surgery duration and exogenous administration of corticosteroids.
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Objective To study the influential factor of hyperlactatemia after the brain tumor craniotomy. Methods Patients who underwent selective brain tumor (including glioma, meningioma and acoustic schwannoma) craniotomyin the neurosurgery intensive care unit (NSICU) of the First Affiliated Hospital, Sun Yat-sen University from December 1st 2018 to May 20th 2019 were enrolled. The incidence of hyperlactatemia after the brain tumor craniotomy was investigated. Univariate and multivariate linear regression analysis were performed to identify the association of initial artery lactate with the operation duration, the intraoperative blood loss, the total intraoperative fluid infusion, intraoperative ringer lactate fluid infusion, intraoperative urine volume, intraoperative fluid balance, the total intraoperative corticosteroids dosage and the tumor type. Pearson method was used to analyze the correlation between lactate in arterial blood and independent related factors. Results A total of 148 patients were enrolled including 45 patients (30.41%) with glioma, 64 patients (43.24%) with meningioma, and 39 patients (26.35%) with acoustic schwannoma. The initial lactate level in arterial blood increased significantly in 148 patients, with a median of 4.80 (3.68, 5.90) mmol/L. Among them, 78 patients (52.70%) had mild elevation of lactate in arterial blood (2 mmol/L <lactate ≤ 5 mmol/L), 61 patients (41.22%) had significant elevation of lactate in arterial blood (5 mmol/L < lactate ≤10 mmol/L), and 2 patients (1.35%) had serious elevation of artery lactate (> 10 mmol/L). And only 7 patients (4.73%) had normal level of lactate in arterial blood (≤ 2 mmol/L). Univariate analysis showed that initial postoperative artery lactate was positively correlated with the operation duration [β = 0.556, 95% confidence interval (95%CI) was 0.257-0.855, P < 0.001] and the total intraoperative corticosteroids dosage (β = 0.477, 95%CI was 0.174-0.779, P = 0.002). There was no significant correlation between the initial postoperative artery lactate and tumor types, the intraoperative blood loss, the total fluid infusion, the ringer lactate fluid infusion, urine volume, and the fluid balance. Further multivariate linear regression analysis showed that the operation duration (β = 0.499, 95%CI was 0.204-0.795, P = 0.001) and the total intraoperative corticosteroids dosage (β = 0.407, 95%CI was 0.111-0.703, P = 0.008) were independent risk factors affecting the initial postoperative artery lactate. The correlation analysis showed that there was a significant positive correlation between lactate in arterial blood and operation time and total hormone dosage during operation (r1 = 0.289, r2 = 0.248, both P < 0.01). Conclusion Initial artery lactate after brain tumor craniotomy is associated with surgery duration and exogenous administration of corticosteroids.
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Objective To investigate whether the change of cardiac output (CO) with bed head raising (BHR) combined with passive leg raising (PLR) can be used to assess volume overload in critical patients.Methods A prospective observational diagnostic trial was designed. The patients who underwent fluid resuscitation 6 hours or more, and admitted to intensive care unit (ICU) of Meizhou People's Hospital in Guangdong Province from January to December in 2016 were enrolled. Volume overload were identified with the criteria including the increasing of pulmonary rales, the higher levels of N-terminal brain natriuretic peptide (NT-proBNP) and new pulmonary exudates in chest radiograph. CO and heart rate (HR) were monitored with impedance cardiography at supine position and BHR by 30°(BHR30), 60° (BHR60), and PLR in all patients. The changes of CO (?CO30,?CO60,?COPLR) and HR (?HR30,?HR60,?HRPLR) were calculated at different positions. The receiver operating characteristic curve (ROC) was used to evaluate the predictive values of?CO30,?CO60 and combination of?CO60 and?COPLR on volume overload.Results A total of 62 patients were enrolled in this study, with 44 males and 18 females, age of (58.9±15.9) years, a body mass index of (22.7±2.4) kg/m2, and an acute physiology and chronic health evaluation Ⅱ (APACHE Ⅱ) score of 18.7±4.4. The CO of 32 patients with volume overload was significantly increased at BHR30 or BHR60 compared with supine position [?CO30 was (14.5±11.5)%,?CO60 was (26.9±17.5)%, bothP 0.05). There was no consistent change of CO at BHR30 or BHR60 compared with supine position in 30 patients without volume overload,?CO30 was (-3.4±9.1)% (P 0.05), while CO was significantly increased after PLR,?COPLR was (12.4±11.3)% (P < 0.01). There was no significant change of HR after BHR and PLR in patients with volume overload and non volume overload. ROC curve showed that when the cut-off value of ΔCO30≥3.3%, the area under ROC curve (AUC) was 0.903±0.039, the sensitivity was 90.6%, the specificity was 80.0%, and the accuracy was 85.5% for predicting volume overload; when the cut-off value of ΔCO60≥5.6%, the AUC was 0.911±0.036, the sensitivity was 96.9%, the specificity was 73.3%, and the accuracy was 85.5% for predicting volume overload. If volume overload was assessed by the increase of ΔCO60 combining with the decrease of ΔCOPLR, the AUC was 0.928±0.034, the optimal cut-off value for the new combined predictive indicator in predicting volume overload was -0.008, and the sensitivity, specificity, accuracy was 96.9%, 83.3%, 90.3%, respectively, and its evaluation effect is better than the use of ΔCO30 or ΔCO60 alone.Conclusion The change of CO with BHR combined with PLR can be used to accurately evaluate volume overload in patient with critically illness.