Clinical trials for
Translating trial titles and descriptions to plain English...
The goal of this observational study is to develop and validate a clinical tool to predict which adolescents aged 11 to less than 18 years of age with mild traumatic brain injury (mTBI) are at an increased risk for developing significant new or worsening mental health conditions. The main aims the study wish to answer are: * Does the adolescent have new or worsening depression or anxiety defined as a change from their previous medical history using self-reported questionnaires at either one or three months post-injury? * Does the adolescent have unmet mental health care needs, defined as not receiving any mental or behavior health care in patients with new or worsening anxiety or depression as defined by the self reported questionnaires? Participants will be enrolled after being diagnosed in the emergency department (ED) with an mTBI. During the ED visit, the child's parent/caregiver and the adolescent will complete several questionnaires related to mental health which include tools to measure anxiety and depression. Participants will be asked to complete these questionnaires again at 1 month and 3 months post enrollment.
The study aims to explore how cardiovascular function changes in the first year after a spinal cord injury, and to see how different treatments, like spinal stimulation through the skin (transcutaneous spinal stimulation), affect blood pressure. The main questions are: How does stimulation affect blood pressure over the year? What is the level of cardiovascular activation throughout the year? The study will start during the inpatient stay at the Kessler Institute for Rehabilitation and continue after discharge as an outpatient, totaling about 20-29 sessions over the year.
After injury, survivors of msTBI depend on informal family caregivers. Upwards of 77% of family caregivers experience poor outcomes, such as adverse life changes, poor health related quality of life, and increased depressive symptoms. Caregivers frequently report minimal support or training to prepare them for their new role. Periods of care transitions, such as ICU discharge, are most difficult. The majority (93%) of previously developed caregiver and caregiver/survivor dyad interventions after msTBI focus on providing information or practical skills to either survivors, or to long-term caregivers (\>6 months post injury), rather than education, support, and skill-building that the new caregiver may use proactively that will benefit the dyad acutely after injury. The Aims of this proposal are to: (1) Determine feasibility, satisfaction, and data trends of CG-Well; and (2) Understand how baseline psychosocial risk factors affect response to CG-Well compared to an Information, Support, and Referral control group. To accomplish this, I will first enroll 6-10 caregivers and tailor CG-well until each finds the intervention acceptable, appropriate, and feasible. I will then enroll 100 (50/group) dyads and determine satisfaction ratings, recruitment, retention, and treatment fidelity of CG-Well. Additionally, I will determine if caregivers report reductions in depressive symptoms and improvements in life changes as a result of improvements in task difficulty and threat appraisal in CG-Well compared to ISR at six months. Information obtained in Aims 1 and 2 will be used to plan a larger Phase III trial of CG-Well. Completing these Aims and the training plan will improve outcomes of caregivers and downstream outcomes of survivors of msTBI, and provide me with the skillset necessary to become an independent researcher who can develop and test high-impact, high-fidelity, sustainable interventions.
This research is about whether treatment with a commonly used antibiotic can prevent infections in airway and lungs and improves the chance of surviving, if it is given soon after patients commence mechanical ventilation when they have been admitted to hospital with an acute severe brain injury. An acute severe brain injury can occur as a result of a stroke, a traumatic injury or due to lack of oxygen to the brain that happens as a result of a cardiac arrest. Patients who are unconscious after an acute severe brain injury often need assistance to breath adequately, and this assistance is given by a breathing tube, connected to a mechanical ventilator. This treatment is an emergency medical treatment. The breathing tube is inserted into the patients' airway by either their mouth or neck. For patients who need assistance with their breathing from a mechanical ventilator, infections in the airways and lungs, known as pneumonia, are a common complication. Everyone naturally has bacteria in their mouth, esophagus and stomach. Clinicians think that during the process of inserting the breathing tube, small amounts of these bacteria can be introduced into the airways and lung when people are unconscious following an acute severe brain injury, or during the process of placing the breathing tube into the airways. These bacteria are now in a place they aren't meant to be and can cause an infections in the airways and lungs known as pneumonia. The purpose of this research is to see if giving one dose of a common antibiotic can prevent patients developing pneumonia, which is associated with having a breathing tube inserted and being on a ventilator, improving the chance of recovery following the acute severe brain injury and ultimately improving the chance of surviving. When patients have a known infection, current guidelines are to treat them with antibiotics. Antibiotics work to kill the bacteria causing the infection. When a patient has an infection in their lungs, they often need to stay on the mechanical ventilator for longer. While current practice is to give patients with a proven infection in their airways and lungs (pneumonia) antibiotics, it is unknown if giving an antibiotic to patients to prevent these infections before they show signs of pneumonia may lead to better outcomes.
Currently, the treatment of cognitive dysfunction after acute TBI remains a challenge, and novel therapeutic methods are urgently needed. Median nerve stimulation (MNS) is a non-invasive neuromodulation technique and recently has shown positive effects in awaking coma of acute brain injury. It has been shown to improve cognition in healthy volunteers and may be a potential therapeutic approach for cognitive dysfunction in patients with acute TBI. Therefore, the main purpose of the study is to evaluate the feasibility, safety, and preliminary efficacy of MNS for cognitive dysfunction in patients with acute TBI.
The CONSCIUS study is a prospective, interventional study including patients with acute brain injury and impaired consciousness implanted with intracranial electrodes. The aim of the study is to investigate seizures and thalamocortical neural dynamics underlying behavioral unresponsiveness.
Cortical spreading depolarisations are pathological depolarisation waves that occur frequently after severe acute brain injury and has been associated with poor outcome. S-ketamine has been shown to inhibit cortical spreading depolarisations. The aim of the present study is to examine the efficacy and safety of using S-ketamine for treatment of patients with severe acute brain injury, as well as the feasibility of the trial design.
This multicenter, cluster-randomized, cluster-crossover clinical trial evaluates the impact of three intraoperative FiO2 (Fraction of Inspired Oxygen) oxygenation strategies-lower (FiO₂ 0.21-0.40), intermediate (FiO₂ 0.40-0.80), and higher (FiO₂ 0.80-1.00)-on postoperative organ injury and mortality in adult surgical patients. The trial aims to determine the optimal oxygenation strategy to improve perioperative outcomes.
The primary objective of this study is to establish if Glial Fibrillary Acidic Protein (GFAP) and Ubiquitin C-terminal Hydrolase L1 (UCH-L1) are predictive of computed tomography (CT) findings in pediatric traumatic brain injuries (TBI). The participant population is pediatric patients, ages 0 to less than 18 years old with a possible TBI or trauma-related injury who have blood drawn per standard of care in the emergency department. Blood samples will be analyzed using the i-STAT TBI cartridge (Abbott Laboratories, Abbott Park, IL, USA) by the Emergency Department charge nurse within one hour of collection of the blood sample. Clinical outcomes will be assessed via telephone interview with a parent at 3 and 6 months for all surviving TBI patients.
The aim of this trial is to assess the safety and efficacy of conestat alfa (Ruconest®, Pharming Technologies B.V.) on renal and cerebral ischemic events in patients undergoing TAVI for severe symptomatic aortic stenosis (AS) compared to placebo.
The purpose of this registry is to collect safety and performance data on all commercially available Terumo Aortic knitted and woven grafts, and cardiovascular patches in standard clinical practice. Data will be collected both retrospectively and prospectively.
A prospective, multicenter, observational cohort study is designed to compare the effectiveness of intervention in multi-grade hospitals for acute traumatic brain injury and to optimize clinical outcomes.
Data involving orthopaedic conditions and rehabilitation aspects of musculoskeletal and neuromuscular disorders will be collected and stored as part of the normal clinical care of patients seen in the University of Florida (UF) and Shands Orthopaedics and Sports Medicine Institute.
This is a randomized open-label, with blinded outcome pilot study to evaluate the effect on inflammatory and brain injury laboratory values and explore clinical outcomes in patients who present with ischemic strokes due to large vessel occlusions and are treated with either current accepted management, or accepted management in addition to transcutaneous auricular vagal nerve stimulation.
Neurogenic dysphagia occurs with disruption of neurological systems or processes involved in the execution of coordinated and safe swallowing. It is common in patients with neurological diseases, in particular in patients treated in Intensive Care Units (ICU) who are intubated (up to 62%) and / or tracheotomised (up to 83%). Dysphagia is one of the most common and most dangerous symptoms of many neurological diseases. In addition, neurogenic dysphagia can have a significant impact on quality of life, medication efficacy, and malnutrition. Dysphagia is currently treated conservatively on evidence-based exercises, individually adapted to each patient. In the recent years pharyngeal electrostimulation has been established and shown a positive impact on outcome. In fact, this type of therapy has not only become an addition to the existing therapy, but an important alternative for patients difficult to treat by other means. The Phagenyx® is a medical device, which has lately been used more frequently in multiple hospitals for treatment of neurogenic dysphagia. For nearly two decades pharyngeal electrostimulation has been further developed and optimised. This therapy initiates changes in the swallowing motor cortex through neuroplasticity as well as local changes in peripheral sensory architecture associated with swallowing. Bath and colleagues (2020) recently reported the efficacy of pharyngeal electrostimulation (Phagenyx®) in various neurological conditions. As a result, of current published studies, the use of pharyngeal electrostimulation probe, in selected patients, with neurological diseases with moderate to severe neurogenic dysphagia will be evaluated. This trial will initially start as quality assurance project with the aim to extent it into a monocentric based register study. The Investigators aim to validate the effectiveness of pharyngeal electrostimulation for the treatment of moderate to severe neurogenic dysphagia by systematically recording specific dysphagia-relevant parameters. At present, it is still uncertain to what extent patients with neurogenic dysphagia in the context of a non-acute neurological disease could benefit from this method. The research questions: Does the use of the pharyngeal electrostimulation probe have an influence on the outcome of dysphagia in patients with moderate to severe neurogenic dysphagia? How long after therapy, can the use of the pharyngeal electrostimulation probe lead to oral food intake and/or removal of a tracheal cannula?
This study will demonstrate the impact of taVNS on reducing adverse events in NeuroICU patients, determine if taVNS reduces length of stay, and quantify the economic benefits of taVNS implementation in a broader neurocritical care population.
The purpose of the present investigation is to test the efficacy of a brief (6 sessions) dyadic (patient and caregiver together) intervention to prevent chronic emotional distress in at risk dyads admitted to a Neuroscience Intensive Care Unit with an acute brain injury. Through this study, we seek to solve the unmet need of preventing chronic emotional distress in Neuroscience Intensive Care Unit (NICU) dyads through a feasible, acceptable and credible program, and ideally improve the recovery trajectory and dyads' overall quality of life.
Aortic dissection is a life-threatening condition and a consequence of a tear of the innermost of the three aortic layers- the intima. When a tear occurs, blood surges through the tear and causes the flow of blood between the aortic layers, causing a "false lumen". This causes a weakening of the aortic wall and hinders the blood from reaching its target organs and life saving emergent surgery is performed as routine. Approximately 20% of patients undergoing acute type a aortic dissection (ATAAD) surgery suffer from postoperative neurological injuries and It has been demonstrated that neurological injuries account for 10-15% of in-hospital deaths. In association with other cardiac procedures where the left side of the heart is opened and air may be trapped within the arterial circulation, carbon dioxide flooding is used to displace open air from the surgical wound. In comparison to air, carbon dioxide is significantly more soluble in blood and may therefore decrease the risk of air embolism. In cardiac surgery, carbon dioxide flooding has been demonstrated to reduce levels of biomarkers of cerebral injury, but carbon dioxide is not routinely employed in ATAAD surgery and has not been studied in association with these procedures. The hypothesis is that carbon dioxide flooding reduces cerebral air embolism and the aim of this project is to evaluate whether carbon dioxide flooding may reduce neurological injuries following ATAAD surgery. This is a prospective, randomized, controlled, patient- and reviewer blinded interventional study. Patients will be randomized to undergo surgery with carbon-dioxide flooding at 5L/min to the open chest cavity or conventional surgery without carbon dioxide flooding. Remaining aspects of the procedure will be identical. The patient, external statistician and the reviewer analyzing the primary endpoints will be blinded for the randomization arms. The study will assess the following endpoints: Primary outcomes: Presence, number and volume of ischaemic lesions observed using magnetic resonance imaging (MRI) after ATAAD surgery. Secondary outcomes: Clinical signs of neurological injury. Levels of biomarkers of neurological injury (S100B, neuron specific enolase (NSE) , neurofilament protein (NFL), Glial fibrillary acid protein (GFAP) , Ubiquitin carboxyl-terminal hydrolase L1 (UCH-L1) and Tau-protein (TAU)) before and after surgery. Quality of life, postoperative recovery and neurological function after ATAAD surgery. Primary outcomes in relation to retrograde cerebral perfusion. Start of inclusion is anticipated to start Jan 1st, 2022. The writing of a manuscript describing the study methods and study objectives is expected to be started in 2021 and the final manuscript is expected to be written during 2025. An interim analysis of the primary endpoints and the safety arm will be performed after 40 patients have been randomized. An external statistician together with the principle investigator will hereafter decide for the study to be continued or terminated due to harms, futility or superiority. The safety arm will include intraoperative mortality, in-hospital mortality, re-operation for bleeding, stroke, myocardial infarction or other thromboembolic events. Update August 2023: Interim analyses were performed after 40 study participants had been included. Results from the interim analyses raised important questions which need to be assessed by a Data Safety and Monitoring Board (DSMB). Since there are no documented harmful effects of the intervention, a DSMB was not appointed before initiation of the trial. The study was suspended on Aug 18th 2023. A DSMB will be appointed, analyze the interim analyses, collect necessary additional information and make a recommendation to the PI whether the study is may proceed or is to be terminated prematurely. Update September 2023. The DSMB has reviewed the interim analyses and additional study data. The DSMB concluded that there was no reason to terminate the study and have recommended for the study to proceed. Recruitment was re-initiated on September 5th 2023. Update November 2024. The study has recruited 68/80 participants. We anticipate that remaining participants will be recruited by June 2025.
Traumatic Brain Injury (TBI) is a common injury in combat, terrorist attacks and sports such as football and hockey. Unnecessary delays in the diagnosis and treatment of brain damage in patients who can benefit from evacuation procedures can lead to worse brain injury, worse outcome and, sometimes, unnecessary death. However, there is no reliable and sensitive method for diagnosis of TBI severity in the field. In this study we will examine the feasibility of using this a multifocal chromatic pupillometer for monitoring TBI, by examining the pupillary response to multifocal chromatic stimuli in intracranial pressure (ICP)-monitored severe TBI patients. As control, normal subjects will be tested for pupillary responses using this device.
Acute brain injury is a major cause of admission to intensive care units, as well as of mortality and morbidity, worldwide and for all age groups. With most patients surviving these injuries thanks to recent medical advances, society is facing not only the growing burden of disability, but above all the ethical issues involved in withdrawal of life-sustaining therapies (WSLT). To resolve this dilemma, effective treatment would be necessary, but this is hampered by our limited knowledge of the pathophysiological mechanisms of the natural history of coma, from onset to recovery. A more systematic description of coma awakening using a multimodal battery in intensive care unit patients would enable us to refine the awakening and re-emergence of consciousness and define appropriate biomarkers for selecting candidates in interventional studies. The investigators hypothesize that the current postulate of successive stages (i.e. from one clinical class to the next) of coma recovery is incomplete, as it does not take into account the rhythmic nature of wakefulness. The investigators propose that the best correlate of the natural history of coma recovery is a gradual shift from the loss of physiological cycles to a circadian rhythmicity of arousal indices (behavioural and neurophysiological) and a wide amplitude of metric fluctuations in assessing content richness.
61
Trials actively recruiting for Acute Brain Injury
Translating trial titles and descriptions to plain English...
The goal of this observational study is to develop and validate a clinical tool to predict which adolescents aged 11 to less than 18 years of age with mild traumatic brain injury (mTBI) are at an increased risk for developing significant new or worsening mental health conditions. The main aims the study wish to answer are: * Does the adolescent have new or worsening depression or anxiety defined as a change from their previous medical history using self-reported questionnaires at either one or three months post-injury? * Does the adolescent have unmet mental health care needs, defined as not receiving any mental or behavior health care in patients with new or worsening anxiety or depression as defined by the self reported questionnaires? Participants will be enrolled after being diagnosed in the emergency department (ED) with an mTBI. During the ED visit, the child's parent/caregiver and the adolescent will complete several questionnaires related to mental health which include tools to measure anxiety and depression. Participants will be asked to complete these questionnaires again at 1 month and 3 months post enrollment.
The study aims to explore how cardiovascular function changes in the first year after a spinal cord injury, and to see how different treatments, like spinal stimulation through the skin (transcutaneous spinal stimulation), affect blood pressure. The main questions are: How does stimulation affect blood pressure over the year? What is the level of cardiovascular activation throughout the year? The study will start during the inpatient stay at the Kessler Institute for Rehabilitation and continue after discharge as an outpatient, totaling about 20-29 sessions over the year.
After injury, survivors of msTBI depend on informal family caregivers. Upwards of 77% of family caregivers experience poor outcomes, such as adverse life changes, poor health related quality of life, and increased depressive symptoms. Caregivers frequently report minimal support or training to prepare them for their new role. Periods of care transitions, such as ICU discharge, are most difficult. The majority (93%) of previously developed caregiver and caregiver/survivor dyad interventions after msTBI focus on providing information or practical skills to either survivors, or to long-term caregivers (\>6 months post injury), rather than education, support, and skill-building that the new caregiver may use proactively that will benefit the dyad acutely after injury. The Aims of this proposal are to: (1) Determine feasibility, satisfaction, and data trends of CG-Well; and (2) Understand how baseline psychosocial risk factors affect response to CG-Well compared to an Information, Support, and Referral control group. To accomplish this, I will first enroll 6-10 caregivers and tailor CG-well until each finds the intervention acceptable, appropriate, and feasible. I will then enroll 100 (50/group) dyads and determine satisfaction ratings, recruitment, retention, and treatment fidelity of CG-Well. Additionally, I will determine if caregivers report reductions in depressive symptoms and improvements in life changes as a result of improvements in task difficulty and threat appraisal in CG-Well compared to ISR at six months. Information obtained in Aims 1 and 2 will be used to plan a larger Phase III trial of CG-Well. Completing these Aims and the training plan will improve outcomes of caregivers and downstream outcomes of survivors of msTBI, and provide me with the skillset necessary to become an independent researcher who can develop and test high-impact, high-fidelity, sustainable interventions.
This research is about whether treatment with a commonly used antibiotic can prevent infections in airway and lungs and improves the chance of surviving, if it is given soon after patients commence mechanical ventilation when they have been admitted to hospital with an acute severe brain injury. An acute severe brain injury can occur as a result of a stroke, a traumatic injury or due to lack of oxygen to the brain that happens as a result of a cardiac arrest. Patients who are unconscious after an acute severe brain injury often need assistance to breath adequately, and this assistance is given by a breathing tube, connected to a mechanical ventilator. This treatment is an emergency medical treatment. The breathing tube is inserted into the patients' airway by either their mouth or neck. For patients who need assistance with their breathing from a mechanical ventilator, infections in the airways and lungs, known as pneumonia, are a common complication. Everyone naturally has bacteria in their mouth, esophagus and stomach. Clinicians think that during the process of inserting the breathing tube, small amounts of these bacteria can be introduced into the airways and lung when people are unconscious following an acute severe brain injury, or during the process of placing the breathing tube into the airways. These bacteria are now in a place they aren't meant to be and can cause an infections in the airways and lungs known as pneumonia. The purpose of this research is to see if giving one dose of a common antibiotic can prevent patients developing pneumonia, which is associated with having a breathing tube inserted and being on a ventilator, improving the chance of recovery following the acute severe brain injury and ultimately improving the chance of surviving. When patients have a known infection, current guidelines are to treat them with antibiotics. Antibiotics work to kill the bacteria causing the infection. When a patient has an infection in their lungs, they often need to stay on the mechanical ventilator for longer. While current practice is to give patients with a proven infection in their airways and lungs (pneumonia) antibiotics, it is unknown if giving an antibiotic to patients to prevent these infections before they show signs of pneumonia may lead to better outcomes.
Currently, the treatment of cognitive dysfunction after acute TBI remains a challenge, and novel therapeutic methods are urgently needed. Median nerve stimulation (MNS) is a non-invasive neuromodulation technique and recently has shown positive effects in awaking coma of acute brain injury. It has been shown to improve cognition in healthy volunteers and may be a potential therapeutic approach for cognitive dysfunction in patients with acute TBI. Therefore, the main purpose of the study is to evaluate the feasibility, safety, and preliminary efficacy of MNS for cognitive dysfunction in patients with acute TBI.
The CONSCIUS study is a prospective, interventional study including patients with acute brain injury and impaired consciousness implanted with intracranial electrodes. The aim of the study is to investigate seizures and thalamocortical neural dynamics underlying behavioral unresponsiveness.
Cortical spreading depolarisations are pathological depolarisation waves that occur frequently after severe acute brain injury and has been associated with poor outcome. S-ketamine has been shown to inhibit cortical spreading depolarisations. The aim of the present study is to examine the efficacy and safety of using S-ketamine for treatment of patients with severe acute brain injury, as well as the feasibility of the trial design.
This multicenter, cluster-randomized, cluster-crossover clinical trial evaluates the impact of three intraoperative FiO2 (Fraction of Inspired Oxygen) oxygenation strategies-lower (FiO₂ 0.21-0.40), intermediate (FiO₂ 0.40-0.80), and higher (FiO₂ 0.80-1.00)-on postoperative organ injury and mortality in adult surgical patients. The trial aims to determine the optimal oxygenation strategy to improve perioperative outcomes.
The primary objective of this study is to establish if Glial Fibrillary Acidic Protein (GFAP) and Ubiquitin C-terminal Hydrolase L1 (UCH-L1) are predictive of computed tomography (CT) findings in pediatric traumatic brain injuries (TBI). The participant population is pediatric patients, ages 0 to less than 18 years old with a possible TBI or trauma-related injury who have blood drawn per standard of care in the emergency department. Blood samples will be analyzed using the i-STAT TBI cartridge (Abbott Laboratories, Abbott Park, IL, USA) by the Emergency Department charge nurse within one hour of collection of the blood sample. Clinical outcomes will be assessed via telephone interview with a parent at 3 and 6 months for all surviving TBI patients.
The aim of this trial is to assess the safety and efficacy of conestat alfa (Ruconest®, Pharming Technologies B.V.) on renal and cerebral ischemic events in patients undergoing TAVI for severe symptomatic aortic stenosis (AS) compared to placebo.
The purpose of this registry is to collect safety and performance data on all commercially available Terumo Aortic knitted and woven grafts, and cardiovascular patches in standard clinical practice. Data will be collected both retrospectively and prospectively.
A prospective, multicenter, observational cohort study is designed to compare the effectiveness of intervention in multi-grade hospitals for acute traumatic brain injury and to optimize clinical outcomes.
Data involving orthopaedic conditions and rehabilitation aspects of musculoskeletal and neuromuscular disorders will be collected and stored as part of the normal clinical care of patients seen in the University of Florida (UF) and Shands Orthopaedics and Sports Medicine Institute.
This is a randomized open-label, with blinded outcome pilot study to evaluate the effect on inflammatory and brain injury laboratory values and explore clinical outcomes in patients who present with ischemic strokes due to large vessel occlusions and are treated with either current accepted management, or accepted management in addition to transcutaneous auricular vagal nerve stimulation.
Neurogenic dysphagia occurs with disruption of neurological systems or processes involved in the execution of coordinated and safe swallowing. It is common in patients with neurological diseases, in particular in patients treated in Intensive Care Units (ICU) who are intubated (up to 62%) and / or tracheotomised (up to 83%). Dysphagia is one of the most common and most dangerous symptoms of many neurological diseases. In addition, neurogenic dysphagia can have a significant impact on quality of life, medication efficacy, and malnutrition. Dysphagia is currently treated conservatively on evidence-based exercises, individually adapted to each patient. In the recent years pharyngeal electrostimulation has been established and shown a positive impact on outcome. In fact, this type of therapy has not only become an addition to the existing therapy, but an important alternative for patients difficult to treat by other means. The Phagenyx® is a medical device, which has lately been used more frequently in multiple hospitals for treatment of neurogenic dysphagia. For nearly two decades pharyngeal electrostimulation has been further developed and optimised. This therapy initiates changes in the swallowing motor cortex through neuroplasticity as well as local changes in peripheral sensory architecture associated with swallowing. Bath and colleagues (2020) recently reported the efficacy of pharyngeal electrostimulation (Phagenyx®) in various neurological conditions. As a result, of current published studies, the use of pharyngeal electrostimulation probe, in selected patients, with neurological diseases with moderate to severe neurogenic dysphagia will be evaluated. This trial will initially start as quality assurance project with the aim to extent it into a monocentric based register study. The Investigators aim to validate the effectiveness of pharyngeal electrostimulation for the treatment of moderate to severe neurogenic dysphagia by systematically recording specific dysphagia-relevant parameters. At present, it is still uncertain to what extent patients with neurogenic dysphagia in the context of a non-acute neurological disease could benefit from this method. The research questions: Does the use of the pharyngeal electrostimulation probe have an influence on the outcome of dysphagia in patients with moderate to severe neurogenic dysphagia? How long after therapy, can the use of the pharyngeal electrostimulation probe lead to oral food intake and/or removal of a tracheal cannula?
This study will demonstrate the impact of taVNS on reducing adverse events in NeuroICU patients, determine if taVNS reduces length of stay, and quantify the economic benefits of taVNS implementation in a broader neurocritical care population.
The purpose of the present investigation is to test the efficacy of a brief (6 sessions) dyadic (patient and caregiver together) intervention to prevent chronic emotional distress in at risk dyads admitted to a Neuroscience Intensive Care Unit with an acute brain injury. Through this study, we seek to solve the unmet need of preventing chronic emotional distress in Neuroscience Intensive Care Unit (NICU) dyads through a feasible, acceptable and credible program, and ideally improve the recovery trajectory and dyads' overall quality of life.
Aortic dissection is a life-threatening condition and a consequence of a tear of the innermost of the three aortic layers- the intima. When a tear occurs, blood surges through the tear and causes the flow of blood between the aortic layers, causing a "false lumen". This causes a weakening of the aortic wall and hinders the blood from reaching its target organs and life saving emergent surgery is performed as routine. Approximately 20% of patients undergoing acute type a aortic dissection (ATAAD) surgery suffer from postoperative neurological injuries and It has been demonstrated that neurological injuries account for 10-15% of in-hospital deaths. In association with other cardiac procedures where the left side of the heart is opened and air may be trapped within the arterial circulation, carbon dioxide flooding is used to displace open air from the surgical wound. In comparison to air, carbon dioxide is significantly more soluble in blood and may therefore decrease the risk of air embolism. In cardiac surgery, carbon dioxide flooding has been demonstrated to reduce levels of biomarkers of cerebral injury, but carbon dioxide is not routinely employed in ATAAD surgery and has not been studied in association with these procedures. The hypothesis is that carbon dioxide flooding reduces cerebral air embolism and the aim of this project is to evaluate whether carbon dioxide flooding may reduce neurological injuries following ATAAD surgery. This is a prospective, randomized, controlled, patient- and reviewer blinded interventional study. Patients will be randomized to undergo surgery with carbon-dioxide flooding at 5L/min to the open chest cavity or conventional surgery without carbon dioxide flooding. Remaining aspects of the procedure will be identical. The patient, external statistician and the reviewer analyzing the primary endpoints will be blinded for the randomization arms. The study will assess the following endpoints: Primary outcomes: Presence, number and volume of ischaemic lesions observed using magnetic resonance imaging (MRI) after ATAAD surgery. Secondary outcomes: Clinical signs of neurological injury. Levels of biomarkers of neurological injury (S100B, neuron specific enolase (NSE) , neurofilament protein (NFL), Glial fibrillary acid protein (GFAP) , Ubiquitin carboxyl-terminal hydrolase L1 (UCH-L1) and Tau-protein (TAU)) before and after surgery. Quality of life, postoperative recovery and neurological function after ATAAD surgery. Primary outcomes in relation to retrograde cerebral perfusion. Start of inclusion is anticipated to start Jan 1st, 2022. The writing of a manuscript describing the study methods and study objectives is expected to be started in 2021 and the final manuscript is expected to be written during 2025. An interim analysis of the primary endpoints and the safety arm will be performed after 40 patients have been randomized. An external statistician together with the principle investigator will hereafter decide for the study to be continued or terminated due to harms, futility or superiority. The safety arm will include intraoperative mortality, in-hospital mortality, re-operation for bleeding, stroke, myocardial infarction or other thromboembolic events. Update August 2023: Interim analyses were performed after 40 study participants had been included. Results from the interim analyses raised important questions which need to be assessed by a Data Safety and Monitoring Board (DSMB). Since there are no documented harmful effects of the intervention, a DSMB was not appointed before initiation of the trial. The study was suspended on Aug 18th 2023. A DSMB will be appointed, analyze the interim analyses, collect necessary additional information and make a recommendation to the PI whether the study is may proceed or is to be terminated prematurely. Update September 2023. The DSMB has reviewed the interim analyses and additional study data. The DSMB concluded that there was no reason to terminate the study and have recommended for the study to proceed. Recruitment was re-initiated on September 5th 2023. Update November 2024. The study has recruited 68/80 participants. We anticipate that remaining participants will be recruited by June 2025.
Traumatic Brain Injury (TBI) is a common injury in combat, terrorist attacks and sports such as football and hockey. Unnecessary delays in the diagnosis and treatment of brain damage in patients who can benefit from evacuation procedures can lead to worse brain injury, worse outcome and, sometimes, unnecessary death. However, there is no reliable and sensitive method for diagnosis of TBI severity in the field. In this study we will examine the feasibility of using this a multifocal chromatic pupillometer for monitoring TBI, by examining the pupillary response to multifocal chromatic stimuli in intracranial pressure (ICP)-monitored severe TBI patients. As control, normal subjects will be tested for pupillary responses using this device.
Acute brain injury is a major cause of admission to intensive care units, as well as of mortality and morbidity, worldwide and for all age groups. With most patients surviving these injuries thanks to recent medical advances, society is facing not only the growing burden of disability, but above all the ethical issues involved in withdrawal of life-sustaining therapies (WSLT). To resolve this dilemma, effective treatment would be necessary, but this is hampered by our limited knowledge of the pathophysiological mechanisms of the natural history of coma, from onset to recovery. A more systematic description of coma awakening using a multimodal battery in intensive care unit patients would enable us to refine the awakening and re-emergence of consciousness and define appropriate biomarkers for selecting candidates in interventional studies. The investigators hypothesize that the current postulate of successive stages (i.e. from one clinical class to the next) of coma recovery is incomplete, as it does not take into account the rhythmic nature of wakefulness. The investigators propose that the best correlate of the natural history of coma recovery is a gradual shift from the loss of physiological cycles to a circadian rhythmicity of arousal indices (behavioural and neurophysiological) and a wide amplitude of metric fluctuations in assessing content richness.
61 trials · Recruiting