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Objective:To explore the application effect of critical ultrasound combined with extravascular lung water (EVLW) and intrathoracic blood volume (ITBV) on volume management of mechanically ventilated patients.Methods:From May 2017 to January 2020, 98 patients treated with mechanically ventilated admitted to Hebei Petro China Central Hospital were selected and divided into two groups by random number table method, with 49 cases in each group. Both groups were treated with fluid resuscitation, the control group was guided by central venous pressure (CVP) and the observation group was guided by critical ultrasound combined with EVLW and ITBV. The acute physiology and chronic health score Ⅱ(APACHE Ⅱ) and sequential organ failure assessment (SOFA) scores, hemodynamic indexes, respiratory system indexes , urine output and fluid intake at 6 h and 24 h after resuscitation and mechanical ventilation time, ICU stay, complications and prognosis were compared between the two groups.Results:The scores of APACHE Ⅱ and SOFA in the observation group at 6 h and 24 h after resuscitation were lower than those in the control group: 6 h after resuscitation: (22.02 ± 4.29) scores vs. (23.94 ± 3.56) scores, (10.02 ± 3.11) scores vs. (11.64 ± 2.30) scores; 24 h after resuscitation: (19.66 ± 2.85) scores vs. (21.78 ± 3.60) scores, (7.64 ± 2.15) scores vs. (9.83 ± 2.07) scores, the differences were statistically significant ( P<0.05). The mean arterial pressure (MAP) and CVP in the observation group at 6 h and 24 h after resuscitation were higher than those in the control group: 6 h after resuscitation: (69.44 ± 5.25) mmHg(1 mmHg=0.133 kPa) vs. (65.98 ± 4.33) mmHg, (13.64 ± 2.30) mmHg vs. (11.89 ± 3.07) mmHg; 24 h after resuscitation: (72.89 ± 4.69) mmHg vs. (69.26 ± 5.53) mmHg, (13.07 ± 2.15) mmHg vs. (11.89 ± 3.07) mmHg; the heart rate was lower than those in the control group: 6 h after resuscitation: (98.58 ± 9.32) bpm vs. (105.03 ± 8.76) bpm; 24 h after resuscitation: (94.97 ± 8.46) bpm vs.(101.44 ± 7.34) bpm, the differences were statistically significant ( P<0.05). The central venous oxygen saturation (ScvO 2) and oxygenation index (OI) in the observation group at 6 h and 24 h after resuscitation were higher than those in the control group: 6 h after resuscitation: 0.749 ± 0.043 vs. 0.711 ± 0.047, (258.18 ± 20.75) mmHg vs. (234.66 ± 25.42) mmHg; 24 h after resuscitation: (77.68 ± 4.09)% vs. (73.54 ± 4.23)%, (376.29 ± 22.39) mmHg vs. (234.66 ± 25.42) mmHg; the blood lactic acid was lower than that in the control group: 6 h after resuscitation: (3.04 ± 0.52) mmol/L vs. (4.22 ± 0.39) mmol/L; 24 h after resuscitation: (1.01 ± 0.34) mmol/L vs. (1.87 ± 0.41) mmol/L, the differences were statistically significant( P<0.05). The urine output at 6 h and 24 h in the observation group was higher than that in the control group: 6 h after resuscitation: (0.49 ± 0.08) ml/(kg·h) vs. (0.35 ± 0.06) ml/(kg·h); 24 h after resuscitation:(0.54 ± 0.05) ml/(kg·h) vs. (0.42 ± 0.07) ml/(kg·h); the fluid intake was lower than that in the control group: 6 h after resuscitation: (1 230.2 ± 562.3) ml vs. (1 782.4 ± 534.7) ml; 24 h after resuscitation: (3 065.5 ± 521.2) ml vs. (3 642.0 ± 507.8) ml; the mechanical ventilation time, and ICU stay in the observation group were lower than those in the control group: (3.3 ± 0.9) d vs. (5.0 ± 0.7) d, (9.7 ± 2.1) d vs. (10.9 ± 1.8) d, the differences were statistically significant ( P<0.05). There was no significant differences in complication rate and 28-day survival curve between the two groups ( P>0.05). Conclusions:Critical ultrasound combined with EVLW and ITBV has a good application effect on volume management of patients with mechanical ventilation, which can help maintain hemodynamic stability, improve oxygenation status.
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Objective:To explore the value of critical ultrasound in evaluating the fluid responsiveness of small dose volume challenge in patients with septic shock.Methods:Thirty-six patients with septic shock admitted to the Third People's Hospital of Datong from January 2021 to December 2021 were enrolled, and the patients were randomly divided into control group and observation group, with 18 patients in each group. The control group was treated with traditional fluid challenge (500 mL of crystalloid injected within 30 minutes); the observation group received a small dose fluid challenge (100 mL of crystalloid injected within 1 minute). The hemodynamic indexes [central venous pressure (CVP), invasive mean arterial pressure (MAP), velocity-time integra (VTI)] and bilateral lung ultrasound scores were measured by critical ultrasound in both groups. The outcome related indicators of patients in the two groups were observed. The correlation between the above indexes and the fluid challenge was evaluated.Results:Compared with the control group, the heart rate (HR) and CVP of patients in the observation group after the challenge were significantly lower than those in the control group [HR (times/min): 99.74±3.22 vs. 107.65±3.14, CVP (mmHg, 1 mmHg ≈ 0.133 kPa): 7.55±0.22 vs. 10.26±0.52, both P < 0.05], invasive MAP and VTI were significantly higher than those in the control group [invasive MAP (mmHg): 77.36±2.14 vs. 69.81±2.56, VTI (cm/s): 68.85±1.26 vs. 44.71±1.28, both P < 0.05]. The ultrasonic score of the observation group was significantly better than those of the control group (all P < 0.05). In terms of outcome, the length of intensive care unit (ICU) stay, mechanical ventilation time and the time for urine volume more than 0.5 mL·kg -1·h -1 of the observation group were significantly shorter than those in the control group [the length of ICU stay (hours): 138.26±1.25 vs. 205.73±1.26, mechanical ventilation time (hours): 36.80±0.25 vs. 47.65±0.36, time to reach urine volume more than 0.5 mL·kg -1·h -1 (hours): 27.38±1.25 vs. 38.61±1.30, all P < 0.05], The dosage of norepinephrine was significantly decreased in the observation group compared with the control group (mg: 45.26±1.85 vs. 53.73±1.92, P < 0.05), and the amount of resuscitation crystalloid was significantly reduced compared with the control group (mL: 1 532.62±12.38 vs. 1 755.52 ± 12.30, P < 0.05). Correlation analysis showed that the volume of crystalloid was highly consistent with M-BLUE pulmonary ultrasound (zone 2, 4 and 5), mechanical ventilation time, norepinephrine dose, time to reach the standard of urine volume and ΔVTI (all P < 0.05). Conclusions:Small dose fluid challenge evaluated by critical ultrasound in septic shock patients has a high value for fluid responsiveness, which can better reduce the risk of obvious tissue edema caused by fluid overload, organ damage and even life-threatening, make fluid challenge more reasonable and appropriate, thereby improving the success of treatment.
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Objective:The purpose of this study was to investigate the evaluating value of modified critical care ultrasonic examination(M-CCUE) scheme for the etiological diagnosis of shock in ICU patients.Methods:The prospective study collected relevant clinical data of various shock patients admitted to the Department of Intensive Care Medicine, Henan Provincial People's Hospital from May 2020 to July 2021, including hemodynamic、blood indicators、organ/tissue perfusion and prognostic evaluation indicators.All selected patients completed the initial M-CCUE assessment within 30 minutes, were scored according to the M-CCUE score system and related data results were analyzed.Results:Ninety-three patients were included in this study,Two of them were not completed the M-CCUE assessment due to emergency treatment immediately after entering our department, and five were excluded due to inconsistent ultrasound judgments by the two physicians. In the end, a total of 86 patients were enrolled in the group. In patients applied with M-CCUE scheme,time to preliminary diagnosis and final diagnosis were (13.02±3.15)min and (67.70±20.20)min respectively, the accuracy of diagnosis was 83.7%. Among them, distributed shock accounted for 60.4%, hypovolemic shock accounted for 25.6%, cardiogenic shock and obstructive shock accounted for 3.5%, and mixed shock accounted for 7%; MCS is (13.27±4.91), M-CCUE scheme had the high sensitivity and specificity for the diagnosis of distributed shock (sensitivity 91.2%, specificity 93.9%), hypovolemic shock (sensitivity 96.0%, specificity 96.7%), cardiogenic shock (sensitivity 85.7%, specificity 98.7%) and obstructive shock (sensitivity 60.0%, specificity 100%); MCS has a good positive correlation with APACHEⅡ score ( r=0.861, P<0.001), and has no correlation with ICU cost ( r=0.012, P=0.915). There is no significant difference in MCS between the 28d death group and the recovery group ( P=0.391). Conclusions:For shock patients admitted to ICU with unknown etiology, the initial diagnosis of the cause of the M-CCUE program takes less time, has a higher correct diagnosis rate, sensitivity and specificity, and its quantitative evaluation results can predict the patient's criticality.
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Objective To observe the effect of venous-to-arterial carbon dioxide difference to arterial-to-venous oxygen content difference [(Pv-aCO2)/(Ca-vO2)] ratio combined with critical ultrasound during the phases of fluid resuscitation of critical patients with septic shock. Methods Ninety-two critical patients with septic shock admitted to department of intensive care unit (ICU) of Anji County People's Hospital from July 2016 to December 2017 were enrolled, and they were divided into study group (42 cases) and control group (50 cases) according to random number table method. Two groups of patients were given supportive treatment such as antibiotic therapy, vasoactive drugs to support blood pressure, mechanical ventilation (MV), transfusion and nutritional therapy. The fluid resuscitation in patients of control group was guided through monitoring central venous pressure (CVP) and lactic acid (Lac). Patients in study group were given (Pv-aCO2)/(Ca-vO2) ratio combined with critical ultrasound directed therapy on the basis of the monitoring method of the control group. The differences in heart rate (HR), mean arterial pressure (MAP), CVP, Lac, central venous oxygen saturation (ScvO2), (Pv-aCO2)/(Ca-vO2) ratio, dosage of noradrenalin (NE), fluid intake in 6 hours, sequential organ failure assessment (SOFA) of 24 hours, time of MV, length of ICU stay, 28-day mortality rate, and incidence of pulmonary edema were compared. The correlation between (Pv-aCO2)/(Ca-vO2) ratio and Lac in study group was analyzed by Spearman analysis. Results In two groups, the HR, Lac, and (Pv-aCO2)/(Ca-vO2) ratio were significantly lower after 6 hours of treatment than those at admission, and MAP, CVP and ScvO2 were significantly increased compared with those at admission (all P < 0.05). The Lac and (Pv-aCO2)/(Ca-vO2) ratio in study group were significantly lower than those in control group at 6 hours after fluid resuscitation [Lac (mmol/L): 4.1±2.2 vs. 4.6±2.3, (Pv-aCO2)/(Ca-vO2) ratio:0.7±0.2 vs. 0.8±0.3, both P < 0.05], and MAP, CVP and ScvO2 were higher than those in control group [MAP (mmHg, 1 mmHg = 0.133 kPa): 78.6±10.3 vs. 71.4±11.5, CVP (mmHg): 13.2±5.1 vs. 9.8±4.4, ScvO2: 0.73±0.08 vs. 0.70±0.08, all P < 0.05]. In study group, the dosage of NE, fluid intake in 6 hours, and incidence of pulmonary edema were less than those in control group [dosage of NE (μg·kg-1·min-1): 0.22±0.16 vs. 0.43±0.11, fluid intake in 6 hours (mL): 1 290±518 vs. 1 560±426, incidence of pulmonary edema: 19.05% (8/42) vs. 32.00% (16/50)], 24 hours SOFA declined (9.3±3.2 vs. 12.6±3.8), and time of MV and length of ICU stay were obviously shortened [time of MV (hours):70.48±8.65 vs. 88.35±10.37, length of ICU stay (days): 7.28±2.07 vs. 8.42±1.51, all P < 0.05]. The 28-day mortality in study group had a trend of decrease compared with that in control group [40.5 % (17/42) vs. 44% (22/50)], but there was no statistical significant difference between two groups (P > 0.05). There was a significant positive correlation between the (Pv-aCO2)/(Ca-vO2) ratio and Lac in study group (r = 0.532, P < 0.001). Conclusion (Pv-aCO2)/(Ca-vO2) ratio combined with critical ultrasound can better guide the volume management of critical patients with septic shock, reduce the usage of vasoactive drugs and incidence of pulmonary edema, and decrease the time of MV and length of ICU stay.
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This review article shows the potential of lung ultrasound in the critically ill (LUCI) to study lung sliding and describes the optimal equipment for its assessment. Then, it analyses the integration of lung sliding within lung ultrasound then whole body critical ultrasound. It describes the place of lung sliding in the BLUE-protocol (bedside lung ultrasound in emergency) (lung and venous ultrasound for diagnosing acute respiratory failure), the FALLS-protocol (fluid administration limited by lung sonography) (the role of lung sliding in circulatory failure), and the SESAME-protocol (sequential assessment of sonography assessing mechanism or origin of severe shock of indistinct cause) (whole body ultrasound in cardiac arrest). In the LUCIFLR project (LUCI favoring limitation of radiations), the consideration of lung sliding allows drastic reduction in irradiation and costs. In conclusion, lung sliding is proposed as a gold standard for indicating the presence of the lung at the chest wall and its correct expansion.
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Estado Terminal , Pulmão , Pneumotórax , Choque , Parede Torácica , UltrassonografiaRESUMO
This review article shows the potential of lung ultrasound in the critically ill (LUCI) to study lung sliding and describes the optimal equipment for its assessment. Then, it analyses the integration of lung sliding within lung ultrasound then whole body critical ultrasound. It describes the place of lung sliding in the BLUE-protocol (bedside lung ultrasound in emergency) (lung and venous ultrasound for diagnosing acute respiratory failure), the FALLS-protocol (fluid administration limited by lung sonography) (the role of lung sliding in circulatory failure), and the SESAME-protocol (sequential assessment of sonography assessing mechanism or origin of severe shock of indistinct cause) (whole body ultrasound in cardiac arrest). In the LUCIFLR project (LUCI favoring limitation of radiations), the consideration of lung sliding allows drastic reduction in irradiation and costs. In conclusion, lung sliding is proposed as a gold standard for indicating the presence of the lung at the chest wall and its correct expansion.
Assuntos
Estado Terminal , Pulmão , Pneumotórax , Choque , Parede Torácica , UltrassonografiaRESUMO
Introduction: Necrotizing fasciitis (NF) is a life-threatening infection of soft tissues, requiring prompt diagnosis and an aggressive management. The role of ultrasonography (US) in emergency setting for early diagnosis of NF was reported in literature, its accuracy being estimated 92% both before and without gas production. Presentation of the Case: A 65-year old man, with pulmonary metastasis from colonrectal cancer, treated with chemotherapy, complained of dyspnoea, fever and a dull pain in his left calf for 3 days. Skin was spared and no evidence of tactile alterations or edema was found. Bedside US focused on the painful zone revealed a small hypo-anechoic area in deep subcutaneous tissue with blurred contours and posterior shadowing (“black-hole sign”), referable to soft tissue necrosis. Thickness and hyperechogenicity of surrounding subcutaneous tissue, due to diffuse inflammatory infiltrate and edema, and thin distal fluid collection along the fascia, were also detected, without gas artifacts. Surgery debridement was performed, tissue cultures yielding Escherichia Coli, maybe due to the disruption of bowel mucosal wall. Discussion and Conclusion: Bedside goal-directed US performed by emergency physician can exclude alternative aetiologies to NF in severe localized pain of the lower extremity. The depiction of blurred focal changes in the soft tissue, configuring an US “black-hole sign” and referable to fat necrosis and suppurative infiltration, may represent the main early finding of NF, especially in the idiopathic form. Its identification should alarm physicians, inducing further investigations and close monitoring. The employment of bedside goal-directed US should be stressed in Emergency Department.