View clinical trials related to Critical Illness.
Filter by:Scoring systems (SOFA, APACHE-II etc.) are used to estimate the mortality rates of patients treated in the intensive care unit. . In the scoring systems used, the disfunction level of the organs of the patients is measured. Blood gas analysis is routinely performed in patients whom intubated in the intensive care unit and receiving mechanical ventilation support, and the patient's treatment is optimized according to the results of the examination. The patient's mechanical ventilation settings are regulated by analyzing the Partial Arterial Carbondioxide (paCO2) value in the patient's blood gas result. The difference between the paCO2 value in the blood gas and the End-tidal Carbondioxide (EtCO2) value measured in the mechanical ventilator is 3-5mmHg in normal healthy people, while this difference is seen more in critical care patients. In critically ill patients in the intensive care unit, there is a greater increase in the difference between paCO2 and ETCO2 in cases where mortality is high, such as global perfusion disorder, shock situations, and massive pulmonary embolism, etc. In this study, it was planned to investigate the use of the difference between the paCO2 value in the blood gas taken from the patient and the ETCO2 value measured in the mechanical ventilator to predict the mortality rate of the patient.
Assessing pain in the adult intensive care unit (ICU) is challenging because many patients are unable to communicate due to mechanical ventilation and sedation. Therefore, it is necessary to have alternative methods to assess pain in this vulnerable patient population. In this project, the use of a multi-parameter technology (i.e., the Nociception Level (NOL) index) will be tested for pain assessment in ICU adults. The NOL index is a value from 0 to 100 obtained by calculating different parameters (e.g., pulse, skin temperature) captured through a small probe placed on the patient's finger. The NOL was initially developed for assessing nociception, pain and analgesia in anesthetized patients undergoing surgery, and its use in the ICU is new. The NOL's use before, during and after standard care procedures known to be painful (e.g., tube or drain removal, suctioning of secretions through the endotracheal tube) and non-painful (e.g., cuff inflation to measure blood pressure, soft touch) in ICU adults. The NOL will be monitored in three groups: a) patients able to communicate so they can self-report their pain (gold standard criterion) and express behaviors, b) patients unable to communicate but express behaviors (reference criterion), and c) patients unable to communicate and to express behaviors. In the first group, patients will be asked to self-report their pain and procedural distress on a 0 to 10 scale. In the first and second group, patients will be assessed for pain using a standardized behavioral scale which will be completed by trained research staff. In the third group, only the NOL will be monitored. Analgesic and sedative medication administered to patients will also be documented from medical charts. The ability of the NOL to detect pain based on self-reports of pain and behavioral scores, and its ability to discriminate between painful and non-painful procedures will be examined. If found to be useful, the NOL could be used as an alternative measure of pain and improve its recognition and treatment in vulnerable ICU patients.
In the context of the coronavirus (COVID-19) pandemic, healthcare systems worldwide faced an unprecedented shortage of severe ARDS. Critically affected patients were treated with veno-venous extracorporeal membrane oxygenation (VV-ECMO) for complete respiratory failure early in the pandemic. Due to a shortage of resources in the sense of terminal equipment and adequately trained personnel with appropriate expertise in many countries and regions, a strict selection of suitable patients was made. Repeatedly, it was observed that patients under VV-ECMO also needed several weeks to recover sufficiently to generate device sufficient gas exchange. Due to the scarcity of VV-ECMO resources outside of the pandemic, the question arose whether a prolonged therapy still holds a sufficient prospect of success and what the course of treatment of such patients would be like.
This is a prospective study that aims to assess the differences in point-of-care ultrasound assessment (POCUS) with portable and ultra-portable devices, using conventional vs artificial intelligence (AI) methodologies, performed by experienced vs inexperienced physicians, in critically ill patients.
Appropriate pain and anxiety management of critically-ill patients during bedside procedures remains a big challenge. Clinical Practice Guidelines recommend preemptive analgesia or non-pharmacological interventions, such as relaxation techniques or distraction, to prevent and treat pain during nursing procedures. One of the most painful procedures in the Intensive Care Unit (ICU) is the removal of chest drains in post-cardiac surgical patients. Virtual reality (VR) is a computer-generated simulation of a 360º immersive world in which the patient can receive visual and auditory stimuli that distract them from the real environment. Current research has demonstrated that VR reduced pain and anxiety in intravenous catheter insertions or wound care. The primary objective of the study is to evaluate the effectiveness of VR on pain and anxiety during the removal of chest drains, in post-cardiac surgical patients. The hypothesis is that VR reduces both pain and anxiety, in critically-ill patients, during the removal of chest drains in post-cardiac surgical patients.
Corona virus disease has been a pandemic since its beginning. The problem has scaled to break health care system of multiple countries. One of the prime strategy of preventing this disease has been large mass scale vaccination campaign ongoing worldwide. No vaccine has been proven to 100 percent effective in preventing the infection with coronavirus disease so far. The investigators are conducting a study comparing outcome among vaccinated and unvaccinated population admitted to critical care unit of civil services hospital, Kathmandu , Nepal .
This study will examine the differences in microcirculatory function and mitochondrial respiration in patients with shock after cardiovascular surgery.
Older ICU survivors with ICU acquired weakness (ICUAW) are malnourished, sarcopenic, and functionally debilitated as a consequence of the high burden of comorbidities common in the elderly. To address the sequalae of critical illnesses, the investigators will perform a trial incorporating an intervention that combines mobility-based physical rehabilitation (MRP), high protein supplementation (HPRO), and neuromuscular electric stimulation (NMES). The investigators will then assess both clinical and functional outcomes and determine the relationship of disability with systemic inflammation.
Introduction Many patients experience pain in the intensive care unit (ICU) despite receiving pain medication. Research has shown that music can help manage pain. Music interventions that have been studied so far have not been based on patient preferences, recommended tempo and duration, nor used music streaming. It is important that a music intervention take into consideration the expertise of ICU patients, family members and nurses/orderlies. Study objectives This study aims to evaluate the feasibility and acceptability of a new patient-oriented music intervention (POMI) to reduce pain in ICU patients. In addition, the aim is to evaluate the feasibility of conducting a crossover randomized controlled trial (RCT) to test the interventions in the adult ICU. A secondary objective will be to examine the preliminary efficacy of the POMI. Methodology/Study Design A single-blind 2x2 crossover pilot RCT will be used to evaluate the feasibility, acceptability, and preliminary efficacy of the POMI. Patients will undergo a sequence of two intervention periods: the POMI and the Active Control intervention (ACI; headphones/pillow without music). Patients will be randomly assigned to Sequence 1 or Sequence 2, where patients in Sequence 1 receive the POMI during the first intervention period, followed by the ACI in the second intervention period; and patients in Sequence 2 receive the ACI first, followed be the POMI (with a 4-hour washout period). Before the turning procedure, music will be stopped, and the headphones will be removed. For patients able to self-report, the music (or control period without music) will be delivered either via headphones or a music pillow, depending on their individual preference. For patients unable to self-report, music (or control period without music) will be delivered via the music pillow. Twenty-four patients (12 patients able to self-report their pain and 12 patients unable to self-report) will be recruited. The 12 patients able to self-report will be asked about their music preferences and to complete an acceptability questionnaire (AQ). For the 12 patients unable to self-report, 12 family members will be recruited to answer questions on the patient's music preferences and to complete an AQ. In addition, 12 nurses/orderlies (involved in the turning procedure for a patient participant) will be recruited and asked to complete an AQ.
Tracheal intubation, which is one of the most commonly performed procedures in the care of critically ill patients in intensive care unit, is associated with a high incidence of complications. Approximately 30% of emergent tracheal intubations in the ICU are associated with complications like hypotension, hypoxia, failed tracheal intubation, esophageal intubation, airway trauma, aspiration, cardiac arrest, and death. An observational study of tracheal intubation practices in critically ill patients across twenty-nine countries found cardiovascular instability to be the commonest among these adverse peri-tracheal intubation event. Tracheal intubation performed in a controlled, non-emergent setting, is associated with few complications. However in ICU, conditions like underlying shock, respiratory failure, metabolic acidosis, and other patho-physiological changes contribute to the increased peri-tracheal intubation complications. Post tracheal intubation hypotension frequently occurs within a few minutes following tracheal intubation. The additive effects of hypovolemia, the suppression of the endogenous activation of sympathetic response by the anesthetics drugs as well as the intrathoracic positive pressure due to mechanical ventilation are implicated in this cardiovascular collapse after tracheal intubation in critically ill patients. Post-tracheal intubation hypotension has been shown to be associated with higher in-hospital mortality and longer ICU and hospital length of stay. Hence patient optimization prior to tracheal intubation may be important to ensure hemodynamic stability to minimize further deterioration during tracheal intubation. Few techniques to optimize hemodynamics before tracheal intubation commonly involve the use of intravenous fluids and vasopressor medications; however, there are no standards of care guiding these practices. Jaber et al included pre tracheal intubation fluid loading (isotonic saline 500 ml or starch 250 ml) as a part of tracheal intubation care bundle management to show improved outcomes. However it was an observational study and also it was not possible to evaluate the contribution of the individual hemodynamic components of the bundle given the concurrent implementation of other interventions. And a recent study by Janz et al showed that pre loading with a 500-mL bolus of crystalloids before tracheal intubation did not identify any benefit. However this trial was stopped early for futility and moreover the volume of intravenous fluids that patients received before enrolment was not recorded. Few trials have used vasopressor bolus prior to tracheal intubation to avoid post tracheal intubation hypotension or use of prophylactic use of vasopressors in preventing post spinal hypotension. However currently, there are no randomized trials or evidence-based guidelines to support the choice between fluid loading or vasopressors for the tracheal intubation of critically ill adults. We would like to conduct a randomised controlled study comparing the effects of fluid bolus or low dose vasopressor given prior to tracheal intubation on post tracheal intubation hypotension among critically ill adults.