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RESUMEN Introducción: La oxigenoterapia de alto flujo (OAF) y la ventilación no invasiva (VNI) son sistemas no invasivos que se administran post-extubación en pacientes COVID-19 para evitar la reintubación. Sin embargo, la evidencia sobre la elección de alguno de estos dispositivos no está muy clara. El objetivo fue determinar si el grupo que recibió OAF comparado con el grupo que recibió VNI se asocia a menor riesgo de reintubación en adultos con destete difícil y extubados por COVID-19. Material y métodos: Estudio cohorte retrospectivo en 206 registros de pacientes en destete difícil de ventilación mecánica en la Unidad de Cuidados Intensivos (UCI). El resultado primario fue reintubación en pacientes que fracasaron con OAF o VNI post-extubación y los resultados secundarios fueron estancia hospitalaria en UCI y mortalidad a los 90 días. Resultados: Doscientos seis pacientes cumplieron los criterios de inclusión, 102 pacientes en el grupo OAF y 104 pacientes en el grupo VNI. Durante el seguimiento de 72 horas, la tasa de reintubación en el grupo OAF fue mayor [n=24 (64,9%)] comparado con el grupo VNI [n=13 (35,1%)], mostrando en el análisis de Kaplan-Meier diferencias significativas (Log-Rank-Test p=0,005). La regresión de COX mostró mayor riesgo de reintubación en el grupo de OAF frente a VNI (HR 2,74; IC95% 1,42-5,68; p=0,007). No hubo diferencias en los días de hospitalización UCI (p=0,913) ni en mortalidad a los 90 días (Log-Rank-Test p=0,49). Conclusión: Este estudio observacional retrospectivo sugirió que la OAF frente al VNI se asoció a mayor riesgo de reintubación, pero no a mortalidad a los 90 días.
ABSTRACT Introduction: High flow oxygen therapy (HFO) and non-invasive ventilation (NIV) are non-invasive systems that are administered post-extubation in COVID-19 patients to avoid reintubation. However, the evidence on the choice of any of these devices is not very clear. The objective was to determine if the group that received OAF compared to the group that received NIV is associated with a lower risk of reintubation in adults with difficult weaning and extubated due to COVID-19. Material and methods: Retrospective cohort study in 206 records of patients in difficult weaning from mechanical ventilation in the Intensive Care Unit (ICU). The primary outcome was reintubation in patients who failed HFO or post-extubation NIV, and the secondary outcomes were ICU hospital stay and 90-day mortality. Results: Two hundred and six patients met the inclusion criteria, 102 patients in the OAF group and 104 patients in the NIV group. During the 72-h follow-up, the reintubation rate in the HFO group was higher [n=24 (64,9%)] compared to the NIV group [n=13 (35,1%)], showing in the analysis of Kaplan-Meier significant differences (Log-Rank-Test p=0,005). COX regression showed a higher risk of reintubation in the HFO group compared to NIV (HR 2,74; 95%CI 1,42-5,68; p=0,007). There were no differences in ICU hospitalization days (p=0,913) or in 90-day mortality (Log-Rank-Test p=0,49). Conclusion: This retrospective observational study suggested that HFO versus NIV was associated with a higher risk of reintubation, but not with 90-day mortality.
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Objective To explore the humidification effects between the humidifiers Venturi high-flow oxygen therapy(HVHF)and the high-flow humidified oxygen therapy in the treatment of patients with tracheotomy after the withdrawal of ventilator,and analyse the humidification performance and effect of airway humidification on the two oxygen therapies hence to provide an objective basis for selection of a humidified oxygen therapy.Methods A total of 146 ICU patients who had tracheotomy and completely withdrawal of ventilator in a general hospital in Shenzhen from July 2020 to December 2021 were randomly divided into trial group(n=73)and control group(n=73).With identical speed of airflow,patients in the trial groups were treated with HVHF and the patients of control group were offered with high-flow humidified oxygen therapy via AIRVOTM2.Data of the two groups were compared at the time points of days 0,2,7 and 14 in terms of absolute humidity(AH),relative humidity(RH),temperature(T)),sputum viscosity,arterial partial pressure of oxygen(PaO2),arterial partial pressure of carbon dioxide(PaCO2),oxygenation index(PaO2/FIO2)and the incidence of pulmonary infection.Results In the study,total of 61 patients in the control group and 72 patients in the trial group completed the high-flow humidified oxygen therapies,due to tubing detachments in 12 and 1 patients in the two groups,respectively.Repeated-Measures ANOVA analysis showed that,in both groups,there was a time effect(P<0.05)between the absolute humidity,relative humidity,temperature of the gas,PaO2,PaCO2,and PaO2/FiO2 at different time points.PaO2 and PaO2/FiO2 in both groups showed interactions at different time points(P<0.05).PaO2 and PaO2/FiO2 in the trial group were better than those in the control group at the time points of days 2,7 and 14(P<0.05).On days 2,7 and 14,the viscosity of sputum in the intervention group was better than that in the control group,and the incidence of pulmonary infection in the trial group was significantly lower than that in the control group(P<0.05).Conclusions HVHF and AIRVOTM2 both exhibit no obvious difference in gas humidification via high-flow humidification oxygen therapy in the patients with tracheotomy after withdrawal of ventilator.However,HVHF is superior to AIRVOTM2 in terms of improving airway humidification and oxygenation as well as reducing lung infection.Therefore,it is suggested that an HVHF is preferable for high-flow humidified oxygen therapy in treating the patients with tracheotomy after the withdrawal of ventilator.
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Introducción: Durante la pandemia por SARS-CoV-2, la cánula nasal de alto flujo (CNAF) se usó como soporte en espera de Unidad de terapia intensiva (UTI) o como alternativa a la ventilación invasiva. Objetivos: Primario: Determinar si la cánula nasal de alto flujo evita la intubación oro traqueal. Secundarios: Analizar predictores de éxito al inicio de la cánula nasal de alto flujo y análisis descriptivo de la muestra. Materiales y métodos: Estudio observacional descriptivo retrospectivo. Se incluyeron pacientes mayores de 16 años positivos para SARS-CoV-2, atendidos en guardia y unidad de terapia intensiva, que utilizaron cánula nasal de alto flujo entre octubre de 2020 y marzo 2021. Se recolectaron datos en planillas individuales, analizadas por un profesional externo. Resultados: Se incluyeron en el trabajo 72 pacientes (de 16 a 88 años), 20 mujeres y 52 hombres. El 50 % de la muestra evitó la intubación orotraqueal. El IROX inicio grupo "éxito" vs. grupo "fracaso", p = 0,006. Comparación Irox 12 h grupo "éxito" vs. grupo "fracaso" p < 0,001. Comparación "tiempo desde ingreso a inicio de cánula nasal de alto flujo" grupo "éxito" vs. grupo "fracaso", p = 0,133. Comparación "Delta IROX" grupo "éxito" vs grupo "fracaso" p = 0,092. Conclusión: Se evitó la intubación orotraqueal en el 50 % de los casos. El IROX de inicio y el IROX a las 12 h del uso de cánula nasal de alto flujo fue estadísticamente significativo, lo que es un buen predictor del éxito en esta población. La fecha de inicio de síntomas y el uso de cánula nasal de alto flujo y el delta del IROX durante las pri meras 12 h no fue estadísticamente significativo para el éxito de la terapia. Estos datos son una herramienta útil con el objeto de generar protocolos de selección de pacientes para esta patología.
Introduction: During the SARS-CoV-2 pandemic, the high flow nasal cannula (HFNC) was used as support while waiting for the Intensive Care Unit (ICU) or as an alternative to invasive ventilation. The objective of this work is the description and analysis of the use of CNAF in our population. Objectives: Primary: Determine if HFNC prevents orotracheal intubation. Secondary: Analyze predictors of success at the start of CNAF and a descriptive analysis of the sample Materials and method: Retrospective descriptive observational study. Patients over 16 years of age positive for SARS-CoV-2, treated in Guard and ICU were included. who used CNAF between October 2020 and March 2021 Data was collected in individual forms, analyzed by an external professional. Results: The study included 72 patients (16 to 88 years old), 20 women and 52 men; 50 % of the sample avoided orotracheal intubation. Start IROX, group "success" vs. group "failure" p = 0.006. Comparison Irox.12 h group "success" vs. group "failure" p < 0.001. Comparison "Time from admission to start of CNAF" group "success" vs. group "failure" p = 0.133. Comparison "Delta IROX" group "success" vs. group "failure" p = 0.092. Conclusion: HFNC avoided orotracheal intubation in the 50 % of the cases. The initial IROX and the IROX 12 hours after the use of HFNC were statistically significant, which is a good predictor of success in this population. The date of onset of symptoms and the use of FNAF and IROX delta during the first 12 hours were not statistically significant for the success of the therapy. These data are a useful tool for generating patient selection protocols for this pathology.
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Objective:To establish the prediction model of the ultimate risk of mechanical ventilation for patients undergoing nasal high-flow oxygen therapy in the intensive care unit (ICU), provide clinicians with a convenient and effective prediction method and accurate treatment timing, and improve the prognosis of ICU patients.Methods:Patients admitted to the ICU of our hospital from January 2019 to December 2021 were retrospectively enrolled. General clinical data of the patients were collected, including vital signs, biochemical indices of blood gas, inflammatory indices, acute comorbidities, APACHE Ⅱ score, length of stay in ICU and total length of stay, within 24 h after admission. Statistical analysis was performed on the above indicators and a chart was constructed.Results:Finally, 362 patients were enrolled in this study, and were divided into the transnasal high flow oxygen therapy group (HFNC group) and noninvasive positive pressure ventilation group (NIPPV group) according to whether mechanical ventilation was finally performed. The univariate and binary Logistic multivariate regression analysis showed that APACHE Ⅱ score ( OR=1.323, 95% CI: 1.818-1.483), ROX index ( OR=0.371, 95% CI: 0.226-0.609), total length of stay ( OR=1.097, 95% CI: 1.003-1.200) and complicating acute respiratory failure ( OR=2.456, 95% CI: 1.368-4.506) were independent influencing factors for determining whether patients underwent mechanical ventilation. Based on the above independent influencing factors, the lipopograms were constructed. The goodness of fit R2 and C-index of the model were 0.892 and 0.985, respectively through evaluation and verification model. The calibration curve of the model fitted well with the ideal curve, and the areas under the ROC curve of the rosettes and independent factors were 0.985, 0.959, 0.899, 0.656 and 0.576, respectively, indicating that the model was more effective than the independent index in predicting risk. Decision curve analysis also showed that the rosette had high clinical benefit. Conclusions:There are many related factors affecting whether patients undergo mechanical ventilation after nasal high-flow oxygen therapy. In this paper, after univariate and multivariate analysis, the most valuable indicators are combined to establish a line chart with better predictive performance to assess patients' risk, which can further provide clinicians with simple and effective prediction methods and improve the prognosis of patients.
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Objective:To investigate the value of high-flow oxygen therapy after weaning in successful extubation of critically ill patients with mechanical ventilation.Methods:A retrospective study was conducted. The weaned patients who were older than 18 years old and underwent mechanical ventilation for the first time due to cerebrovascular accidents, surgical operations, cardiovascular diseases, and pneumonia admitted to the department of critical care medicine of Zhejiang Hospital from January 2018 to June 2020 were enrolled. Among the patients, 40 cases received high-flow oxygen therapy after weaning, and 37 cases received Venturi combined with the humidifier. The patient's gender, age, primary disease, severity score, duration of mechanical ventilation before weaning, heart rate (HR), blood pressure, pulse oxygen saturation (SpO 2) at 0, 6, 12, 18, and 24 hours after weaning, and pH value, arterial partial pressure of oxygen (PaO 2), arterial partial pressure of carbon dioxide (PaCO 2) at 6, 12, 18, and 24 hours after weaning, the rate of performing mechanical ventilation after weaning, extubation time after weaning, and the rate of reintubation after extubation for 72 hours were collected. Results:There was no significant difference in baseline data such as gender, age, primary disease, severity score, and duration of mechanical ventilation before weaning between the two groups. After weaning, the vital signs of the two groups were stable, and there was no significant difference in HR, systolic blood pressure (SBP), diastolic blood pressure (DBP) or SpO 2 at each time point between the two groups. After weaning, the pH of arterial blood gas analysis in the two groups and the fluctuations of PaO 2 and PaCO 2 in the high-flow group were not obvious. In the Venturi group, PaO 2 gradually decreased after weaning, PaCO 2 increased significantly at 12 hours, and slowly decreased after 12 hours. The PaO 2 from 6 hours and PaCO 2 from 12 hours in the high-flow group were significantly lower than those in the Venturi group, and continued to 24 hours [PaO 2 (mmHg, 1 mmHg≈0.133 kPa): 112.34±38.25 vs. 156.76±68.44 at 6 hours, 110.92±38.66 vs. 150.64±59.07 at 12 hours, 111.12±36.77 vs. 141.30±39.05 at 18 hours, 110.82±39.37 vs. 139.65±41.50 at 24 hours; PaCO 2 (mmHg): 41.30±7.51 vs. 47.42±7.54 at 12 hours, 40.97±6.98 vs. 45.83±8.63 at 18 hours, 40.10±7.06 vs. 46.14±9.15 at 24 hours, all P < 0.01]. The rate of performed mechanical ventilation after weaning and the rate of reintubation after extubation for 72 hours in the high-flow group were significantly lower than those in the Venturi group [17.5% (7/40) vs. 40.5% (15/37), 6.2% (2/32) vs. 31.8% (7/22), both P < 0.05], and the extubation time after weaning was significantly shorter than that in the Venturi group (hours: 22.43±11.72 vs. 28.07±10.42, P < 0.05). Conclusion:Using high-flow oxygen therapy to the extubation process of critically ill mechanical ventilation patients can reduce the incidence of carbon dioxide retention and the rate of performed mechanical ventilation after weaning, shorten the extubation time after weaning, and reduce the rate of reintubation after extubation for 72 hours.
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Objective: Although much is known about acute carbon monoxide (CO) poisoning, little is known about chronic CO poisoning. Chronic CO poisoning is often diagnosed based on the patient’s living environment and medical history. Herein, we report the case of an older patient who presented with repeated unconsciousness due to chronic CO poisoning.Case presentation: A 90-year-old man was brought to the emergency department after being found at home with a disturbance of consciousness. Arterial blood gas measurements in room air revealed a carboxyhemoglobin level of 18.0%. Impaired consciousness was caused by chronic CO poisoning. The patient received high-flow oxygen therapy, which promptly improved his condition. According to his family, briquette kotatsu was the cause of chronic CO poisoning.Conclusion: Although high-flow oxygen therapy has been said to be less effective than hyperbaric oxygen therapy in CO poisoning treatment, recent studies have demonstrated that high-flow oxygen has similar effects and benefits. Thus, in institutions that do not have hyperbaric oxygen, high-flow oxygen may be sufficient to treat patients with CO poisoning, as seen in the present case. It should be noted that briquette kotatsu can lead to CO poisoning. This case highlights the need for clinicians to consider patients’ living conditions.
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Objective:To observe the effect of tracheotomy high-flow oxygen therapy (THFO) on the clinical efficacy of non-mechanically ventilated patients undergoing a tracheotomy.Methods:Sixty adult patients with tracheotomy and non-mechanical ventilation who were diagnosed and treated from January 2019 to December 2020 in Fenyang Hospital of Shanxi Province were enrolled. According to the random number table, the patients were divided into Venturi oxygen therapy group and THFO group, 30 cases in each group. The THFO group was given oxygen therapy with THFO; the Venturi group (without mask) was given Venturi connected the MR850 base and the ventilator tube. Observe the changes of two groups at 7 AM within 5 days, including body temperature which was 1 ℃ higher than the baseline, white blood cell count (WBC) which was 2×10 9/L higher than baseline, oxygenation index (PaO 2/FiO 2) < 300 mmHg (1 mmHg = 0.133 kPa), the occurrence of lower respiratory tract infections (based on radiography), and changes in sputum indexing and sputum formation. Results:Compared with the Venturi oxygen therapy group, the body temperature increased > 1 ℃, WBC increased by 2×10 9/L, PaO 2/FiO 2 < 300 mmHg, and the proportion of lower respiratory tract infection in THFO group decreased significantly [body temperature increased > 1 ℃: 10.0% (3/30) vs. 13.3% (4/30), WBC increased by 2×10 9/L: 10.0% (3/30) vs. 30.0% (9/30), PaO 2/FiO 2 < 300 mmHg: 3.3% (1/30) vs. 10.0% (3/30), the proportion of lower respiratory tract infection: 6.7% (2/30) vs. 13.3% (4/30), all P < 0.05]. The proportion of patients with sputum scab formation and sputum viscosity of Ⅰ degree were significantly increased [sputum scab formation: 16.7% (5/30) vs. 6.7% (2/30), sputum viscosity of Ⅰ degree: 30.0% (9/30) vs. 20.0% (6/30), both P < 0.05]. Conclusion:THFO during non-mechanical ventilation of adult patients with tracheotomy can maintain a higher oxygen partial pressure and ideally control the temperature and humidity of the inhaled gas, promote the discharge of sputum with degreeⅠ andⅡ viscosity, thereby reducing the tracheotomy complications such as lower respiratory tract infections.
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Objective@#To explore the clinical features of pneumoconiosis complicated with spontaneous pneumothorax to improve the diagnosis and treatment of this disease.@*Methods@#Analyze the clinical characteristics and treatment of 350 cases of pneumoconiosis complicated with spontaneous pneumothorax in Hunan Prevention and Treatment Institute for Occupational Diseases from May 2016 to May 2018.@*Results@#In 350 patients, 22 cases are pneumoconiosis stage I, accounting for 6.3%, 26 cases are pneumoconiosis stage Ⅱ, accounting for 7.4%, 302 cases were pneumoconiosis stage Ⅲ, accounting for 86.3%.168 cases were recurrent pneumothorax, the recurrence rate was as high as 48%.There were 232 cases occurred in winter and spring, accounting for 66.3%. Chronic obstructive pulmonary disease and pulmonary infection were 54.9% and 47.4%, respectively. 233 patients were treated with basic therapy such as high flow oxygen therapy, with an effective rate of 93.1%. 114 cases were treated with thoracic closed drainage, with an effective rate of 86%.@*Conclusion@#Spontaneous pneumothorax is a common complication of pneumoconiosis with high recurrence rate. According to the different conditions to give different treatments in a timely manner can achieve better results.
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Introducción: La Oxigenoterapia de Alto Flujo (OAF) es una técnica de soporte respiratorio no invasiva, que ofrece un flujo de aire y oxígeno, caliente y humidificado, por encima del flujo pico inspiratorio del paciente, a través de una cánula nasal. En este artículo se presenta la experiencia con OAF en una sala de pediatría de mediana y baja complejidad para el tratamiento de bronquiolitis/ infección respiratoria aguda baja (IRAB). Materiales y métodos: Se diseñó un protocolo para la implementación de OAF. Criterios de inclusión: Pacientes cursando bronquiolitis/ IRAB con: Score de Tal modificado ≥6, Sat O2 < 92% y/o mala mecánica ventilatoria, a pesar de recibir más de 2 lt/ min de O2 por cánula nasal ó FiO2 >40%. Criterios de exclusión, pCO2 ≥55 mmHg; pH: < 7,20; Apneas ≥20 segundos; Glasgow ≤10; Peso >15 kg. Inestabilidad hemodinámica; Alteraciones craneofaciales. Resultados: En el periodo 2017- 2018 se internaron 441 pacientes con infección respiratoria aguda baja. Se administró OAF a 54 pacientes (12%). La mediana de edad mediana 7,4 meses (r: 27 días-36 meses). Los pacientes ingresados no presentaban comorbilidades asociadas. El 22,2% (12/54) fueron trasladados a UTIP (2,7% del total de los internados). El 64.8% de los pacientes que permanecieron en sala de internación, mostró mejoría en FC y FR a las 4 hs. Por el contrario, en el 75% de los pacientes que requirieron UTIP no se evidenció mejoría en estos parámetros. Conclusiones: La OAF es una alternativa terapéutica que podría disminuir el ingreso a UTIP en pacientes con dificultad respiratoria moderada. En nuestra experiencia resultó fácil de implementar, sin efectos adversos graves (AU)
Introduction: High-flow oxygen (HFO) therapy is a non-invasive oxygen support technique that provides hot and humidified air and oxygen flow above the peak inspiratory flow of the patient through a nasal cannula. In this study we present our experience with HFO on a intermediate and low complexity ward for the treatment of bronchiolitis/acute lower respiratory tract infection (LRTI). Material and methods: A protocol for the implementation of HFO was designed. Inclusion criteria: Patients with bronchiolitis/ALRI with: Modified Tal score ≥6, Sat O2 < 92%, and/or poor ventilatory mechanism, in spite of receiving more than 2 L/ min O2 by nasal cannula or FiO2 >40%. Exclusion criteria: pCO2 ≥55 mmHg; pH: < 7.20; Apnea ≥20 seconds; Glasgow score ≤10; Peso >15 kg. Hemodynamic instability; Craniofacial abnormalities. Results: During 2017- 2018, 441 patients were admitted with LRTI. HFO was administered to 54 patients (12%). Median age was 7.4 months (r: 27 days-36 months). The patients that were included in the study did not have associated morbidities. Overall, 22.2% (12/54) were transferred to the PICU (2.7% of all hospitalized patients). Of the patients who remained on the ward, 64.8% improved FC and FR after 4 hours. On the other hand, in 75% of the patients that required PICU admission these parameters did not improve. Conclusions: HFO is a therapeutic option to decrease PICU admission of patients with moderate respiratory difficulties. The protocol was easy to implement and was not associated with severe adverse effects (AU)
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Humans , Infant, Newborn , Infant , Child, Preschool , Oxygen Inhalation Therapy/instrumentation , Oxygen Inhalation Therapy/methods , Respiratory Tract Infections/therapy , Bronchiolitis/therapy , Retrospective Studies , CannulaABSTRACT
Objective To investigate the clinical efficacy of sequential nasal flow ventilation after extubation in patients with acute respiratory failure (referred to as respiratory failure).First of all,before and after extubation in HFNCO group,the respiratory parameters (PaO2,PaCO2,pH,lactic acid value,oxygenation index,HR,RR and LVEF) were compared with each other.The circulatory parameters (PaO2,PaCO2,pH,lactate,oxygenation index,HR,RR),clinical outcomes at the end of treatment / comorbidities (delirium,diarrhea,reintubation,ICU stay after extubation).Methods PaO2,PaCO2,pH value,lactate value at 1 h,6 h,12 h and 24 h after extubation in HFNCO group were not significantly different from those before extubation (all P> 0.05) (P <0.05).The LVEF of patients after extubation was slightly higher than that before extubation (0.59 ± 0.09 vs.0.60 ± 0.09),and the difference was not statistically significant Significance (P> 0.05).PaO2,PaCO2,pH and lactate value in HFNCO group and NIV group at 1 h,6 h,12 h and 24 h after extubation showed no significant difference (all P> 0.05).The effect of HFNCO on improving the oxygenation index after extubation was better than that of NPV group (P <0.05).HR and RR before extubation were higher or higher in HFNCO group than those in NPV group lower HR,RR better (P <0.05).The incidence of diarrhea (33.33% vs.38.89%) and reintubation rate (6.1% vs 13.9%) in HFNCO group were lower than those in NIV group (38.89%),but the difference was not statistically significant (all P> 0.05).The incidence of delirium in HFNCO group (18.18% vs.41.67%) and ICU stay time after extubation (2.00 to 3.50) were statistically significant (all P <0.05).Results There were no significant differences in the arterial blood gas analysis (PaO2,PaCO2,pH,lactate value),PaO2,PaCO2,pH value,lactate value and LVEF at 1 h,6 h,12 h and 24 h before and after extubation in HFNCO group (all P> 0.05) Slightly higher than before extubation (0.59 ± 0.09 vs.0.60 ± 0.09),the difference was not statistically significant (P> 0.05).PaO2,PaCO2,pH and lactate value in HFNCO group and NIV group at 1 h,6 h,12 h and 24 h after extubation showed no significant difference (all P> 0.05).The incidence of diarrhea (33.33% vs.38.89%) and reintubation rate (6.1% vs.13.9%) in HFNCO group were lower than those in NIV group (38.89%),but the difference was not statistically significant (all P> 0.05).The incidence of delirium (18.18% vs.41.67%),and ICU stay time (2.00 to 3.50) in HFNCO group were significantly lower than those in NIV group (all P<0.05).Conclusions For acute respiratory failure patients after mechanical ventilation extubation,sequential administration of HFNCO and NIV can provide stable and effective oxygen therapy support;relative to the NIV,HFNCO can effectively improve patients oxygenation index,improve patient comfort and reduce the incidence of delirium And ICU stay time.