Sleep Quantity and Quality in the ICU: a Prospective Observational Stud
Sleep DisturbanceCritical IllnessSeveral evidences in the literature suggest sleep interruption in critical care patients. Nowadays, the amount and the quality of sleep phases during the length of stay in the intensive care unit are largely unknown. In this study, the amount of time spent by the patients in N1, N2 N3 and REM phases during sleep is quantified.
Pharmacokinetics/Pharmacodynamics (PK/PD) of Caspofungin in Intensive Care Unit (ICU) Patients....
Critical IllnessInfectionPK of Caspofungin in ICU septic patients might be changed as compared to healthy volunteers due to sepsis-related pathophysiology. Sub-optimal plasma and tissue concentrations might be achieved in these patients when drugs are administered at the same dosage/regimen suggested for healthy volunteers.
Use of BRASS in Sedated Critically-ill Patients as a Predictable Mortality Factor
Brainstem ResponseSedation is used for 30 to 70 % of all intensive care unit (ICU) patients. Deep sedation can be used for lot of disease like acute respiratory distress syndrome, septic shock. Deep sedation was defined by RASS (Richmond Assessment Sedation Scale) below -3. Deep sedation can be associated with increased mortality, length stay, duration of mechanical ventilation, acute brain dysfunction. The french exploration neurologic group in ICU developed a score used Brainstem response patterns in patient deeply sedated by midazolam and showed that a high BRASS score is associated with high mortality at day 28. The investigators think that BRASS score isn't associated with the medication used for sedation. In this study the investigators included all patients sedated independently of medication used for sedation, we also excluded patient with neurologic disorder. The main objective is to shown that high BRASS score at admission of patient without neurologic disorder sedated is predictive of 28-day mortality.
Prevalence and Predictors of CCI in Patients With Acute Respiratory Failure (CCI)
Critical IllnessChronic Critical Illness (CCI) is a condition associated to patients surviving an acute phase of disease and respiratory failure (ARF) although remaining dependent on mechanical ventilation (MV). The prevalence and the underlying mechanisms of CCI have not been elucidated in this population.An observational prospective cohort study was undertaken at the Respiratory Intensive Care Unit (RICU) of the University Hospital of Modena (Italy) from January 2016 to January 2018. Patients mechanically ventilated with ARF in this unit were enrolled. Demographics, diagnosis, severity scores (APACHEII, SOFA, SAPSII) and clinical conditions (septic shock, infections, acute respiratory distress syndrome [ARDS]) were recorded on admission. Respiratory mechanics and inflammatory-metabolic blood parameters were recorded on admission and within the first seven days of stay. All these variables were tested as potential predictors of CCI through appropriate univariate and multivariate analysis.
Investigating Nutrition and Functional Outcome in Critically Ill Patients
Neurosurgical PatientsElderly Patients3 moreThis is a single-center, multi-ICU prospective observational trial evaluating current nutritional practice and its influence of the physical function of critically ill patients.
Micronutrients in Critically Ill Patients
NutritionCritical Illness1 moreNutritional support is an important component of modern critical care. The practice of vitamin and micronutrient supplementation is variable and official guidelines are not consistent. The primary objective of this observational study is to investigate the clinical practice of micronutrient supplementation during critical illness and to explore the factors underpinning clinical decisions.
FINDpath: Fast I(n)Dentification of PATHogens
Respiratory Tract InfectionsCritical IllnessSepsis is the body-wide response to infection. People who develop sepsis have an increased risk of dying. One of the greatest challenges in sepsis is determining what is the pathogen (bacteria or virus for example) in a timely manner so the most specific antibiotics can be given to treat the infection. Patients presenting to the hospital and the intensive care unit often have lung infections. In this study the investigators plan to develop new techniques to rapidly (less than 6 hours) identify bacteria growing in the airways of patients on ventilators. The investigators will obtain these samples by suctioning the airways (a routine procedure) and comparing the bacterial cultures grown by novel culture media with the usual techniques in the hospital microbiology laboratory. At the same time the investigators will collect a blood sample. This blood sample will be used to isolate the bacterial genetic material and use this to compare with bacteria grown on the culture media from the clinical and the research laboratory. The investigators will also collect information on the patient's course in hospital. These pilot study results will allow us to integrate this new technique into routine patient care.
Provider Perspectives on Beta-lactam Therapeutic Drug Monitoring Programs in the Critically Ill...
SepsisCritical IllnessThe purpose of the study is to characterize various healthcare practitioners' perspectives on implementation of beta-lactam therapeutic drug monitoring in critical care practice.
Fluid Overload and Pulmonary Function
Water-Electrolyte ImbalanceIntensive Care Units5 moreEsophageal atresia is a rare but severe malformation, and it requires early surgery. Coloesophagoplasty is surgical repair of the esophageal with an isoperistaltic transverse colon graft. In the postoperative period after coloesophagoplasty children require careful monitoring of fluid balance, because clinically significant fluid overload can lead to dysfunction of various organs and systems.
Predictors of Prognosis in Patients With Critical Illness.
ICU Acquired WeaknessWeaning Failure1 moreRecently, intensive care unit acquired weakness (ICUAW) has become a hotspot issue in the patients with critical illness. The symptoms of ICUAW, including sensory impairment and muscle atrophy, may lead to poor quality of life even though the patients discharged from the ICU for a long time. Therefore, an ounce of prevention is worth a pound of cure. At the same time, early evaluation is necessary to keep critically ill patients away from ICUAW. Medical Research Council (MRC) scale is the most common approach for diagnosis clinically. Regarding the interrater variation of MRC, handgrip strength (HGS) has been thought to be a simple and accurate alternative. However, HGS does not belong to antigravity or respiratory muscle which are the first to be affected by immobilization. It is still unknown whether HGS can represent the general muscle condition in ICU or not. Additionally, previous studies have proved that patients with critical illness in the ICU would have better prognosis and less complications, if they undergo physical therapy as soon as possible. In addition to early ventilator weaning and reduced mortality rate, physical therapy could enhance quality of life (QoL) after patient discharges from hospital. However, early mobility in the ICU mainly emphasizes cardiopulmonary patients due to the traditional concept in Taiwan. Hence, the duration of mechanical ventilation in the critical patients will affect the timing to receive physical therapy, even impact the improvement of QoL. Because of these reasons, this study will investigate the relationship between HGS and muscle mass among patients with critical illness and find the predictors of the short-term and long-term goals in the ICU, including ventilator weaning and QoL after hospital discharge.