Arterial pH Selectively Predicts Intensive Care Unit Transfer From the Emergency Department in Obese...
DyspneaRespiratory FailureThis study evaluates the prognostic value of arterial blood gas analysis in a cohort of Emergency Department patients presenting with shortness of breath of any cause, comparing obese and non-obese patients.
Predicting Success of HFNC: The Utility of the ROX Index
Acute Respiratory FailurePneumoniaThe purpose of the study was to describe early predictors and to develop a prediction tool that accurately identifies the need for mechanical ventilation in pneumonia patients with acute respiratory failure treated with High Flow nasal cannula.
Influence of Fluid Challenge on End-Expiratory Lung Impedance in Mechanically Ventilated Patients...
Respiratory FailureCirculatory Failure2 moreThe study investigates the influence of a clinically indicated fluid challenge on end-expiratory lung impedance, assessed by electrical impedance tomography (EIT). EIT data will be collected before, during and after infusion of 500 ml of crystalloid solution in mechanically ventilated patients on an operative intensive care unit.
Severe ARDS: Generating Evidence
Acute Respiratory Distress SyndromeAcute Respiratory Failure With Hypoxia1 moreAn assessment of early management of moderate-severe ARDS in the United States, including ventilator management and use of rescue therapy.
A Molecular Toolkit for the Microbial Investigation of Severe Community Acquired Pneumonia
Community Acquired PneumoniaRespiration Failure1 moreSevere community acquired pneumonia is common and associated with high mortality. Conventional microbiological diagnostics identify pathogens in approximately half of cases, which is inadequate for both clinical and epidemiological purposes. This study applies next-generation sequencing based metagenomic techniques to patients with extremely severe community acquired pneumonia, to investigate the microbiome of severe community acquired pneumonia and evaluate metagenomic approaches as diagnostic tools.
Effect of Sleep Disruption on the Outcome of Weaning From Mechanical Ventilation
Respiratory InsufficiencyMechanically ventilated patients in the Intensive Care Unit (ICU) are highly susceptible to sleep disruption. Several studies in the last 15 years have demonstrated an extremely poor sleep quality and abnormal sleep pattern evaluated by polysomnography (PSG) devices (the gold standard method for evaluating sleep quality and quantity). Discontinuation of mechanical ventilation should be considered as soon as possible when a patient's condition starts to improve. A patient's ability to be weaned from the mechanical ventilator can be assessed using two step approaches including a Rapid Shallow Breathing Index (RSBI) calculation then a spontaneous breathing trial (SBT) to determine the likelihood of success or failure before considering endotracheal extubation. The rate of weaning failure from the first SBT attempt has been reported to be 35-55%. The reason for weaning failure may be complex and multifactorial. An association between sleep disruption and weaning outcome has never been studied. The goal of this study is to look for an association between poor sleep quality and failure of a weaning attempt. This study is an observational, physiological study investigating sleep quality and quantity in patients who will be weaned by recording standard PSG (from 17:00 to 08:00) at night before a weaning attempt. Sleep characteristics of patients failing or passing the weaning attempt will be compared. In addition, we will compare sleep patterns before and after endotracheal extubation.
Systematic Evaluation by an Intensivist of Hematological Malignancy Patients Presenting With Acute...
Respiratory InsufficiencyHematologic MalignancyOver the last two decades, the number of patients with hematological malignancies (HMs) admitted to the ICU increased and their mortality has dropped sharply. Patients with HMs increasingly require admission to the intensive care unit (ICU) for life-threatening events related to the malignancy and/or treatments, with immunosuppression being a major contributor. Whether the increase in ICU admissions is related to increased referrals by hematologists and/or to increased admissions by intensivists is unknown. The criteria used for ICU referral and admission decisions have not been extensively evaluated. Finally, the links between admission policies and treatment-limitation decisions are unclear, but ICUs with broad admission policies may change the treatment goals based on the response to several days of full-code management. The aim of this study is to evaluate the impact of a systematic evaluation by an intensivist of HMs patients presenting with acute respiratory and/or hemodynamic failure.
The Role of Muscular Ultrasound in Predicting Weaning Success
Respiratory InsufficiencyWhen attempting to wean a patient from the ventilator, even if he/she passes the spontaneous breathing test, 10-20% of the time extubation failure occurs and the patient is reintubated. When the patient is reintubated the mortality rate increases and the length of intensive care unit stay is also increased. It is vital to intensively assess the patient before extubation and correctly predict extubation success. Muscular ultrasound may be helpful in these situations.
Respiratory Muscle Function After Thyroid Hormone Replacement Therapy in Nonthyroidal Illness Syndrome...
Thyroid DiseasesRespiratory FailureAlthough it is now recognized that a variety of respiratory abnormalities, such as diaphragmatic dysfunction, can be present in primary hypothyroidism and reverse with adequate hormone treatment, the role of thyroid hormone replacement therapy on respiratory system in patients with the nonthyroidal illness syndrome (NTIS) remains to be clarified. The NTIS has been found to be an independent risk factor for prolonged (> 13 days) mechanical ventilation. It is unclear, however, whether the NTIS is only a biochemical prognostic marker or it actually contributes to the development and progression of respiratory failure. The aim of this study will be to assess respiratory muscle function after thyroid hormone substitution therapy in mechanically ventilated patients with the NTIS.
Evaluation of the Patient-ventilator Asynchrony During Mechanical Ventilation for Pediatric Acute...
Mechanical VentilationThe synchronization between the patient and the ventilator is an essential objective during mechanical ventilation (MV). Maintaining the patient's respiratory activity during MV reduces ventilation pressures, improves oxygenation, and decreases sedation. In order to do this, the inspiratory or expiratory effort of the patient must be detected by the respirator' sensor systems, so that the assistance delivered by the respirator is coordinated with the patient's respiratory cycles. The usual systems do not actually detect the beginning of the effort but its result: variation in flow rate or pressure at the respirator circuit, which depends on the patient's respiratory mechanics and sensitivity of the sensor. This detection is currently imperfect, which generates asynchrony between the patient's needs and the assistance of the respirator. The asynchrony comprises the periods of delay between the beginning of the inspiration (or expiration) and the response of the respirator, but also of the unsuitable cycles: inspiratory efforts of the patient not detected by the respirator, or inversely triggering assistance in the absence of inspiration by the patient (self-initiation), or delivery of 2 cycles of assistance for a single inspiration (double triggering). Asynchrony is a risk factor for prolonged mechanical ventilation in adults. Adult studies have shown that patient-ventilator asynchrony is common during MV, and is associated with prolonged MV duration. An association with length of stay in intensive care and in hospital was also observed. In children, patient-ventilator synchronization is more difficult to achieve than in adults due to a higher respiratory rate and smaller current volumes. The impact of patient-ventilator asynchrony on evolution has not been studied in pediatrics. Patient-ventilator synchronization could be improved by the development of new ventilatory modes. The new NAVA (neurally adjusted ventilatory assist) ventilation mode detects the patient's breathing efforts earlier by monitoring the electrical activity of the diaphragm through the esophagus. This new mode seems to improve synchronization in children. NAVA ventilation may therefore be a step forward, but its clinical benefits remain to be seen. The objective of this study is to evaluate the impact of patient-ventilator asynchrony on the duration of mechanical ventilation in children with acute respiratory failure.