Scopus İndeksli Açık & Kapalı Erişimli Yayınlar

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    Multivariable haemodynamic approach to predict the fluid challenge response A multicentre cohort study
    (2021) Messina, Antonio; Romano, Salvatore M.; Ozdemirkan, Aycan; Persona, Paolo; Tarquini, Riccardo; Cammarota, Gianmaria; Romagnoli, Stefano; Della Corte, Francesco; Bennett, Victoria; Monge Garcia, Manuel I.; 32833857; AAH-7003-2019
    BACKGROUND Beat-to-beat stroke volume (SV) results from the interplay between left ventricular function and arterial load. Fluid challenge induces time-dependent responses in cardiac performance and peripheral vascular and capillary characteristics. OBJECTIVE To assess whether analysis of the determinants of the haemodynamic response during fluid challenge can predict the final response at 10 and 30 min. DESIGN Observational multicentric cohort study. SETTING Three university ICUs. PATIENTS 85 ICU patients with acute circulatory failure diagnosed within the first 48 h of admission. INTERVENTION(S) The fluid challenge consisted of 500 ml of Ringer's solution infused over 10 min. A SV index increase at least 10% indicated fluid responsiveness. MAIN OUTCOME MEASURES The SV, pulse pressure variation (PPV), arterial elastance, the systolic-dicrotic pressure difference (SAP-P-dic) and cardiac cycle efficiency (CCE) were measured at baseline, 1, 2, 3, 4, 5, 10, 15 and 30 min after the start of the fluid challenge. All haemodynamic data were submitted to a univariable logistic regression model and a multivariable analysis was then performed using the significant variables given by univariable analysis. RESULTS The multivariable model including baseline PPV, and the changes of arterial elastance at 1 min and of the CCE and SAP-P-dic at 5 min when compared with their baseline values, correctly classified 80.5% of responders and 90.7% of nonresponders at 10 min. For the response 30 min after starting the fluid challenge, the model, including the changes of PPV, CCE, SAP-P-dic at 5 min and of arterial elastance at 10 min compared with their baseline values, correctly identified 93.3% of responders and 91.4% of nonresponders. CONCLUSION In a selection of mixed ICU patients, a statistical model based on a multivariable analysis of the changes of PPV, CCE, arterial elastance and SAP-P-dic, with respect to baseline values, reliably predicts both the early and the late response to a standardised fluid challenge.
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    A Comparison of Echocardiography and the Pressure Recording Analytical Method (PRAM) for Predicting Fluid Responsiveness after Passive Leg Raising
    (2021) Ozdemirkan, Aycan; Aitakhanoya, Manat; Gedik, Ender; Zeyneloglu, Pinar; Pirat, Arash; 0000-0002-7175-207X; ABI-2971-2020
    Objective: This study aims to assess the agreement between the cardiac index (CI) measured by pressure recording analytical method (PRAM) and transthoracic echocardiography (TTE) before and after the passive leg raise (PLR) maneuver. Methods: This is a prospective observational study in critically ill patients who were monitored with MostcareUp/PRAM (Vygon, Vytech, Padova, Italy). Cardiac index (CI) values and percent changes in CI values in response to PLR were recorded by TTE and PRAM. Results: Data of a total of 25 patients were collected. The median CI values that were calculated by TTE before and after PLR were 2.5 (1.2-4.7) L/min/m(2) and 2.9 (1.4-5.6) L/min/m(2), respectively. The median CI values that were calculated by PRAM before and after PLR were 2.5 (1.5-4.8) L/min/m(2) and 2.6 (1.7-5.7) L/min/m(2), respectively. There was significant correlations between the measured CI values both by TTE and PRAM before and after PLR (r=0.635, p=0.001 and r=0.610, p=0.001, respectively). The median percent changes in CI with TTE and PRAM were -0.13 (-0.7-0.4) and -0.11 (-0.5-0.5), respectively. Sixteen patients were determined as FR by TTE (64%) and 13 patients were determined as FR by PRAM (52%). The Kappa test showed moderate agreement between TTE and PRAM for predicting fluid responsiveness (k=0.595; p=0.002). The mean biases between the CI values measured by TTE and PRAM before and after PLR were 0.04 +/- 0.77 L/min/m(2) and 0.22 +/- 0.88 L/min/m(2), respectively. Conclusion: This study showed a significant correlation for CI values measured by both methods. For predicting fluid responsiveness there was agreement between the two methods after PLR.
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    Immediate Tracheal Extubation After Pediatric Liver Transplantation
    (2021) Sahinturk, Helin; Ozdemirkan, Aycan; Yilmaz, Olcay; Zeyneloglu, Pinar; Torgay, Adnan; Pirat, Arash; Haberal, Mehmet; 0000-0002-3462-7632; 0000-0003-0159-4771; 30346263; AAJ-8097-2021; AAJ-1419-2021
    Objectives: We examined whether immediate tracheal extubation among pediatric liver transplant recipients was safe and feasible. Materials and Methods: We retrospectively analyzed medical records of pediatric liver transplant recipients at Baskent University Hospital from January 2012 to December 2017. We grouped children who were extubated in the operating room versus those extubated in the intensive care unit. Results: In our study group of 81 pediatric patients, median age was 4 years (range, 4 mo to 16 y) and 44 (54%) were male. Immediate tracheal extubation in the operating room was performed in 39 patients (48%). Children who remained intubated (n = 42) had more frequent massive hemorrhage (14% vs 0%; P = .015), received larger amounts of packed red blood cells (19.3 vs 10.2 mL/kg; P < .001), and had higher serum lactate levels (9.0 vs 6.9 mmol/L; P = .001) intraoperatively. All children with open abdomens postoperatively remained intubated (n = 7). Patients extubated in the operating room received less vasopressors (1 [3%] vs 12 [29%]; P = .002) and antibiotics (11 [28%] vs 22 [52%]; P = 0.041) and developed infections less frequently postoperatively (3.0 [8%] vs 15.0 [36%]; P = .003). Children extubated in the operating room had shorter mean stay in the intensive care unit (2.0 vs 4.5 days; P < .001). Hospital mortality was higher in children who remained intubated (12% vs 0%; P = .026). Conclusions: Immediate tracheal extubation was well tolerated in almost half of our patients and did not compromise their outcomes. Patients who remained intubated had longer intensive care unit stays and higher hospital mortalities. Therefore, we recommend immediate tracheal extubation in the operating room after pediatric liver transplant among those children without intraoperative requirements for massive blood transfusion, high-dose vasopressors, high serum lactate levels, and open abdomen.
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    Risk Factors for Postoperative Prolonged Mechanical Ventilation After Pediatric Liver Transplantation
    (2021) Sahinturk, Helin; Ozdemirkan, Aycan; Zeyneloglu, Pinar; Torgay, Adnan; Pirat, Arash; Haberal, Mehmet; 0000-0002-3462-7632; 0000-0003-0159-4771; 31084587; AAJ-8097-2021; AAJ-1419-2021
    Objectives: Duration of postoperative mechanical ventilation after pediatric liver transplant may influence pulmonary functions, and postoperative prolonged mechanical ventilation is associated with higher morbidity and mortality. Here, we determined its incidence and risk factors after pediatric liver transplant at our center. Materials and Methods: We retrospectively analyzed the records of 121 children who underwent liver transplant between April 2007 and April 2017 ( 305 total liver transplant procedures were performed during this period). Prolonged mechanical ventilation was defined as postoperative tracheal extubation after 24 hours. Results: Mean age at transplant was 6.2 +/- 5.4 years and 71/121 children (58.7%) were male. Immediate tracheal extubation was achieved in 68 children (56.2%). Postoperative prolonged mechanical ventilation was needed in 12 children (9.9%), with mean extubation time of 78.0 +/- 83.4 hours. Reintubation was required in 13.4%. Logistic regression analysis revealed that presence of preoperative hepatic encephalopathy (odds ratio of 0.130; 95% confidence interval, 0.027-0.615; P =.01), high aspartate amino transferase levels (odds ratio of 1.001; 95% confidence interval, 1.000-1.002; P =.02), intraoperative usage of more packed red blood cells (odds ratio of 1.001; 95% confidence interval, 1.000-1.002; P =.04), and longer surgery duration (odds ratio of 0.723; 95% confidence interval, 0.555-0.940, P =.01) were independent risk factors for postoperative prolonged mechanical ventilation. Although mean length of intensive care unit stay was significantly longer (12.6 +/- 13.6 vs 6.0 +/- 0.6 days; P =.001), mortality was similar in children with and without postoperative prolonged mechanical ventilation. Conclusions: Our results indicate that postoperative prolonged mechanical ventilation was needed in 9.9% of our children. Predictors of postoperative prolonged mechanical ventilation after pediatric liver transplant at our center were preoperative presence of hepatic encephalopathy, high aspartate amino transferase levels, intraoperative usage of more packed red blood cells, and longer surgery duration.