Altering Sedation Paradigms to Improve Brain Injury and Survival in Severe Sepsis

改变镇静模式以改善严重脓毒症的脑损伤和生存率

• 批准号: 8371719
• 负责人: Pratik Pandharipande
• 金额: $ 81.18万
• 依托单位: VANDERBILT UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2012
• 资助国家: 美国
• 起止时间: 2012-08-15 至 2017-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8371719
• 关键词: Acute; Acute respiratory failure; Admission activity; Agonist; Animals; Anti-Infective Agents; Anti-Inflammatory Agents; Anti-inflammatory; Apoptosis; Benzodiazepines; Brain; Brain Injuries; Brain Stem; Cessation of life; Clinical; Clinical Trials; Cognition; Coma; Confusion; Critical Illness; Data; Delirium; Development; Dexmedetomidine; Double-Blind Method; Exposure to; Functional disorder; GABA Agents; GABA Antagonists; GABA Receptor; Goals; High Mobility Group Proteins; Hospitals; Human; Hypothalamic structure; Immunity; Impaired cognition; Incidence; Infection; Inflammatory; Injury; Insulin Resistance; Intensive Care Units; Interleukin-1; Interleukin-6; Interruption; Learning; Length of Stay; Lung; Mechanical ventilation; Methods; Multicenter Trials; Natural Immunity; Neurologic Dysfunctions; Organ; Outcome; Patients; Pharmaceutical Preparations; Propofol; Randomized; Randomized Controlled Trials; Recovery; Reducing Agents; Regimen; Research Personnel; Respiratory Failure; Respiratory physiology; Risk; Safety; Secondary to; Sedation procedure; Sepsis; Severities; Sleep; Societies; Subgroup; Supportive care; Survivors; Telephone; Testing; Time; Unconscious State; Ventilator; Vulnerable Populations; Work; abstracting; adverse outcome; cost; cytokine; functional decline; gamma-Aminobutyric Acid; hazard; improved; mortality; neuron apoptosis; neuropsychological; novel therapeutics; patient safety; pre-clinical; prospective; randomized trial; respiratory; sedative; septic

DESCRIPTION (provided by applicant): The need for mechanical ventilation (MV) secondary to sepsis is the leading cause of admission to the intensive care unit, often necessitating sedation for patient safety and comfort. Recently, we have learned that these sedative medications contribute to iatrogenic injury, such as prolonging ventilator time and ICU length of stay and exacerbating acute brain dysfunction. This acute brain dysfunction, manifested as delirium and coma, occurs in 50%-70% of MV septic patients and is a significant contributor not only to death but also to functional and cognitive decline, which can persist for years after recovery of lung and other organ function, levying significant costs to patients and society. Despite advances in the management of acute respiratory failure and sepsis, few clinical trials have examined the effects that supportive therapies, like sedation, may have on both short- and long-term outcomes in this vulnerable population. The gamma-aminobutyric acid (GABA)-ergic benzodiazepines, in particular, have been shown to increase brain dysfunction, promote infection, and prolong MV. Therefore, the short-acting GABA-ergic sedative propofol and the alpha2 agonist dexmedetomidine are becoming widely used to sedate septic MV patients. There are only a few randomized trials, however, to guide clinicians when selecting between these and other sedatives, and none have explored the mechanisms underlying the differences in outcomes, though some data indicate that GABA-ergic and alpha2 agonist agents have very different effects on innate immunity, apoptosis, arousability, and respiratory drive. In early animal and human studies, dexmedetomidine had more anti-inflammatory effects than the GABA-ergic agents; dexmedetomidine improved bacterial clearance, whereas propofol impaired it. In addition, sedation with dexmedetomidine instead of benzodiazepines reduces delirium by 20%-30% and improves arousability, cognition, and attentiveness in ventilated patients. Alpha2 agonists induce unconsciousness at the brainstem- more akin to natural sleep-which may improve autonomic function and immunity. All these factors converge to suggest that sedation with an alpha2 agonist rather than a GABAergic agent may improve outcomes, including brain function, MV, and survival, for septic MV patients. We therefore propose the MENDS II (Maximizing the Efficacy of Sedation and Reducing Neurological Dysfunction and Mortality in Septic Patients with Acute Respiratory Failure) study, in which we will test the hypotheses that sedation of MV severely septic patients with an alpha2 agonist (dexmedetomidine) rather than a GABAergic agent (propofol) will (Aim 1A) increase days alive without delirium or coma, (Aim 1B) increase ventilator-free days, (Aim 2A) improve 90-day survival, (Aim 2B) decrease long-term cognitive impairment, and (Aim 3) reduce the pro-inflammatory cytokine cascade following sepsis. We will randomize 530 ventilated, severely septic patients requiring goal-directed sedation with dexmedetomidine or propofol, giving the study 90% power to detect a difference of 1.5 delirium/coma-free days and an absolute difference in mortality of 10% between the two groups. PUBLIC HEALTH RELEVANCE: Lay Statement on MENDS II: Ventilated ICU patients frequently have sepsis and the majority have delirium, a form of brain dysfunction that is an independent predictor of increased risk of dying, length of stay, costs, and prolonged cognitive impairment in survivors. Universally prescribed sedative medications-the GABA-ergic benzodiazepines-worsen this brain organ dysfunction. The available alternative sedation regimens, the shorter acting GABA-ergic propofol, and the alpha2 agonist, dexmedetomidine, have both been shown to be superior to benzodiazepines, and yet are different with regard to their effects on innate immunity, bacterial clearance, apoptosis, cognition and delirium. The MENDS II study will compare propofol and dexmedetomidine, and determine the best sedative medication to reduce delirium and improve survival and long-term brain function in our most vulnerable patients- the ventilated septic patient. (End of Abstract)

DESCRIPTION (provided by applicant): The need for mechanical ventilation (MV) secondary to sepsis is the leading cause of admission to the intensive care unit, often necessitating sedation for patient safety and comfort. Recently, we have learned that these sedative medications contribute to iatrogenic injury, such as prolonging ventilator time and ICU length of stay and exacerbating acute brain dysfunction. This acute brain dysfunction, manifested as delirium and coma, occurs in 50%-70% of MV septic patients and is a significant contributor not only to death but also to functional and cognitive decline, which can persist for years after recovery of lung and other organ function, levying significant costs to patients and society. Despite advances in the management of acute respiratory failure and sepsis, few clinical trials have examined the effects that supportive therapies, like sedation, may have on both short- and long-term outcomes in this vulnerable population. The gamma-aminobutyric acid (GABA)-ergic benzodiazepines, in particular, have been shown to increase brain dysfunction, promote infection, and prolong MV. Therefore, the short-acting GABA-ergic sedative propofol and the alpha2 agonist dexmedetomidine are becoming widely used to sedate septic MV patients. There are only a few randomized trials, however, to guide clinicians when selecting between these and other sedatives, and none have explored the mechanisms underlying the differences in outcomes, though some data indicate that GABA-ergic and alpha2 agonist agents have very different effects on innate immunity, apoptosis, arousability, and respiratory drive. In early animal and human studies, dexmedetomidine had more anti-inflammatory effects than the GABA-ergic agents; dexmedetomidine improved bacterial clearance, whereas propofol impaired it. In addition, sedation with dexmedetomidine instead of benzodiazepines reduces delirium by 20%-30% and improves arousability, cognition, and attentiveness in ventilated patients. Alpha2 agonists induce unconsciousness at the brainstem- more akin to natural sleep-which may improve autonomic function and immunity. All these factors converge to suggest that sedation with an alpha2 agonist rather than a GABAergic agent may improve outcomes, including brain function, MV, and survival, for septic MV patients. We therefore propose the MENDS II (Maximizing the Efficacy of Sedation and Reducing Neurological Dysfunction and Mortality in Septic Patients with Acute Respiratory Failure) study, in which we will test the hypotheses that sedation of MV severely septic patients with an alpha2 agonist (dexmedetomidine) rather than a GABAergic agent (propofol) will (Aim 1A) increase days alive without delirium or coma, (Aim 1B) increase ventilator-free days, (Aim 2A) improve 90-day survival, (Aim 2B) decrease long-term cognitive impairment, and (Aim 3) reduce the pro-inflammatory cytokine cascade following sepsis. We will randomize 530 ventilated, severely septic patients requiring goal-directed sedation with dexmedetomidine or propofol, giving the study 90% power to detect a difference of 1.5 delirium/coma-free days and an absolute difference in mortality of 10% between the two groups. PUBLIC HEALTH RELEVANCE: Lay Statement on MENDS II: Ventilated ICU patients frequently have sepsis and the majority have delirium, a form of brain dysfunction that is an independent predictor of increased risk of dying, length of stay, costs, and prolonged cognitive impairment in survivors. Universally prescribed sedative medications-the GABA-ergic benzodiazepines-worsen this brain organ dysfunction. The available alternative sedation regimens, the shorter acting GABA-ergic propofol, and the alpha2 agonist, dexmedetomidine, have both been shown to be superior to benzodiazepines, and yet are different with regard to their effects on innate immunity, bacterial clearance, apoptosis, cognition and delirium. The MENDS II study will compare propofol and dexmedetomidine, and determine the best sedative medication to reduce delirium and improve survival and long-term brain function in our most vulnerable patients- the ventilated septic patient. (End of Abstract)