30 Clinical Trials for Various Conditions
This study is designed to evaluate the clinical utility of a known intraoperative neuromonitoring modality (SSEP) using saphenous nerve as the site of stimulation to identify changes to the lumbar nerves which may be at risk during the lateral lumbar interbody fusion (LLIF) procedure.
The objective of this study is to prospectively evaluate the therapeutic effectiveness of with blood pressure management using intraoperative neurophysiological monitoring with SSEP and EEG to reduce perioperative stroke. The central hypothesis is that perioperative stroke occurs from emboli in the setting of significant hypoperfusion resulting in ischemia, which leads to infarction. The impact of the proposed research is that, if significant SSEP and EEG changes can be used to identify cerebral perfusion, then timely therapeutic interventions to effectively reduce the impact of perioperative stroke can be directed.
An ICP monitor will be used to record blood flow/perfusion of the femoral head following fixation of femoral neck fractures. FDA approved device but not for this use.
A multicenter, international prospectively collected patient cohort undergoing high-risk spinal cord level surgery or spinal osteotomy procedures will be enrolled to establish the incidence of intraoperative alerts in high-risk spinal cord cases, and explore factors associated with mitigating injury. Baseline, intraoperative, and postoperative characteristics, including demographics, radiological features, lower extremity motor score (LEMS), procedure, anesthetic agents used, and baseline blood pressure will be recorded for either adult patients or pediatric patients.
The primary objective of this study is to evaluate the rate of new or worsening neurologic deficits and/or radiculopathy following lumbar or cervical surgery in light of IOM using neurological testing (motor and sensory) in the optimal management of the surgical patient.
The study examines the clinical application of TOF (train of four test) used by anesthesiologists and neurophysiologists during instrumented spine procedures, as well as certain associated parameters. 'Train of four' test is a test routinely used during the surgery, which is performed by stimulation of peripheral nerve with purpose to determine the degree of muscle relaxation by interpretation of muscle response. During spine surgery, it is helpful for the surgeon to have a patient's muscles as relaxed as possible with the least amount of tone, especially when exposing. Anesthesiologists achieve this level of relaxation by giving a neuromuscular blocking agent. If medication given to do this has not fully left their system by the time the surgeon needs to start putting in the screws and rods, then the intraoperative monitoring can not be adequately performed. If the muscles are too relaxed, then free run EMG and screw stimulation, two monitoring methods used, will not be analyzed correctly and the surgery may be adversely affected. This study compares the results of the 'train of four' test performed by neurophysiologists and anesthesiologists. Additionally, it looks at the differences, if any, in comparing stimulation of the foot nerve (tibial n.) or hand nerve (ulnar n.) Performing the TOF (train of four test) in the lower extremity can be relevant for many reasons. Train of four tests can show the presence of four twitches in the arms but the legs may not fully recovered from muscle relaxant given by anesthesia. Also, train of four test which uses subjective method of interpretation by anesthesiologists may present different results compared than objective quantitative method of train of four test interpretation. Ultimately, the goal of this study is to show the importance of 'TOF' testing in ensuring that any identifiable preventable intraoperative surgical complication is appropriately identified.
The aim of this observational comparison study is to compare the HR and respiratory RR of intraoperative surgical patients simultaneously recorded by standard intraoperative monitors and the ATLASense RAPHAEL PolyMonitor. A second aim is to determine the extent of data loss and data gap duration, and validate the PolyMonitor alert system for tachycardia and bradycardia. Additional parameters of non-invasive blood pressure (NIBP) and body temperature will also be compared between the PolyMonitor and standard intraoperative monitors. Finally, this study will provide insight into the logistics of intraoperative use of the PolyMonitor.
Pleth Variability Index (PVI) is a variable that is derived from photoplethysmography (PPG) signal. It is used as a surrogate for intravascular volume status intraoperatively. PVI can have significant amount of baseline variability which appears to oscillate at a very low frequency (5-10 minute cycles). This study aims to investigate the origin of these baseline oscillations.
The goal of this observational study is to learn the how to determine the mean arterial pressure(MAP) or blood pressure level to be maintained during non-cardiac surgery for optimal brain health in patients above the age of 60 undergoing major non-cardiac surgery. The main question\[s\] it aims to answer are: * Is there a way to tailor the blood pressure to be maintained in such patients during surgery for optimal brain health using non-invasive monitors that check the brains electrical activity, the electroencephalogram(EEG) monitor, and the brain's blood oxygen levels, the cerebral oximetry(CO) monitor? * How much does this optimal blood pressure level vary between patients? Participants will be asked to: * Complete a questionnaire at the time they enroll into the study, as well as a daily questionnaire to help determine their level of thinking and brain health. This questionnaire will be administered by a member of the study team. * They will also have an EEG and CO monitoring sticker placed on their foreheads. This will be connected to a monitor that will collect this data just before, during, and after their surgery. The data collected through these monitors will help us with our study goals.
Spinal cord associative plasticity (SCAP) is a combined cortical and spinal electrical stimulation technique developed to induce recovery of arm and hand function in spinal cord injury. The proposed study will advance understanding of SCAP, which is critical to its effective translation to human therapy. The purpose of the study is to: 1. Determine whether signaling through the spinal cord to the muscles can be strengthened by electrical stimulation. 2. Improve our understanding of the spinal cord and how it produces movement. 3. Determine whether spinal surgery to relieve pressure on the spinal cord can improve its function. Aim 1 is designed to advance mechanistic understanding of spinal cord associative plasticity (SCAP). Aim 2 will determine whether SCAP increases spinal cord excitability after the period of repetitive pairing. In rats, SCAP augments muscle activation for hours after just 5 minutes of paired stimuli. Whereas Aims 1 and 2 focused on the effects of paired stimulation in the context of uninjured spinal cord, Aim 3 assesses whether paired stimulation can be effective across injured cord segments. Aim 3 will incorporate the experiments from Aim 1 and 2 but in people with SCI, either traumatic or pre-operative patients with myelopathy in non-invasive experiments, or targeting myelopathic segments in intraoperative segments.
Phase 2, multicenter, efficacy and safety study evaluating the use of nerindocianine for the delineation of abdominopelvic ureter anatomy via near infrared fluorescence imaging during minimally invasive lower abdominal surgery (e.g. gynecological, lower gastrointestinal, or other lower abdominal surgery).
The purpose of this clinical trial is to study the safety and efficacy of an investigational imaging agent for delineation/visualization of urologic anatomy in the setting of minimally invasive surgery.
Procedures performed under sedation have the same severity in regards to morbidity and mortality as procedures performed under general anesthesia1. The demand for anesthesia care outside the operating room has increased tremendously and it poses, according to a closed claim analysis, major risks to patients. Both closed claim analysis identified respiratory depression due to over sedation as the main risk to patients undergoing procedures under sedation. The major problem is that hypoventilation is only detected at very late stages in patients receiving supplemental oxygen. Besides the respiratory effects of hypoventilation, hypercapnia can also lead to hypertension, tachycardia, cardiac arrhythmias and seizures. The incidence of anesthetized patients with obstructive sleep apnea has increased substantially over the last years along with the current national obesity epidemic. These patients are at increased risk of hypoventilation when exposed to anesthetic drugs. The context of the massive increase in procedural sedation and the extremely high prevalence of obstructive sleep apnea poses major respiratory risks to patients and it may, in a near future, increase malpractice claims to anesthesiologists. The development of safer anesthesia regimen for sedation are, therefore, needed. The establishment of safer anesthetics regimen for sedation is in direct relationship with the anesthesia patient safety foundation priorities. It addresses peri-anesthetic safety problems for healthy patient's. It can also be broadly applicable and easily implemented into daily clinical care. Ketamine has an established effect on analgesia but the effects of ketamine on ventilation have not been clearly defined. The investigators have demonstrated that the transcutaneous carbon dioxide monitor is accurate in detecting hypoventilation in patients undergoing deep sedation. Animal data suggest that when added to propofol in a sedation regimen, ketamine decreased hypoventilation when compared to propofol alone. It is unknown if ketamine added to a commonly used sedative agent (propofol) and fentanyl can decrease the incidence and severity of hypoventilation in patients undergoing deep sedation. The investigators hypothesize that patients receiving ketamine, propofol and fentanyl will develop less intraoperative hypoventilation than patients receiving propofol and fentanyl. The investigators also hypothesize that this effect will be even greater in patients with obstructive sleep apnea than patients without obstructive sleep apnea. Significance: Respiratory depression due to over sedation was identified twice as the major factor responsible for claims related to anesthesia. The high prevalence of obstructive sleep apnea combined with more complex procedures done in outpatient settings can increase physical risks to patients and liability cases to anesthesiologists. The main goal of this project is to establish the effect of ketamine in preventing respiratory depression to patients undergoing procedures under deep sedation using propofol and fentanyl. If the investigators can confirm our hypothesis, our findings can be valuable not only to anesthesiologist but also to other specialties (emergency medicine, gastroenterologists, cardiologists, radiologists) that frequently performed procedural sedation. The research questions is; does the addition of ketamine prevent hypoventilation during deep sedation using propofol and fentanyl? The hypotheses of this study: Ketamine will prevent hypoventilation during deep sedation cases.
This study evaluates effects of the analgesic ketamine on ANI measurements (Anti Nociceptive Index)
The objective of this study is to use a decision-support system combined with an electronic anesthesia record to detect double low clinical conditions (Mean Arterial Pressure (MAP) \< 75 mmHg, and Bispectral Index (BIS) \< 45) and generate alerts suggesting hemodynamic support. Specifically, the project will test the hypothesis that providing Double Low alerts reduces 90-day mortality. Secondary outcomes will be the fraction of alerts that generate early clinician responses, subsequent changes in MAP and hospital length of stay.
This is an observational pilot study. The spinal cord stimulator (SCS) procedure and neuromonitoring device is not under investigation. Neuromonitoring is typically performed on this patient population receiving SCS trials here. This study is collecting the data that is transmitted into EPIC from the device that is being collected as part of the patients standard of care. This study will specifically look at Boston Scientific SCS trials as those are the majority of SCS devices that are used here at this medical center Primary Objective - To evaluate the difference between observed intraoperative neuromonitoring readings and patient reported coverage for spinal cord stimulator trials and Secondary Objective(s) - 1. To evaluate the safety and tolerability of intraoperative neuromonitoring during spinal cord stimulator trials and via documented adverse events and patient elicited feedback on follow up questionnaires. 2. Patient satisfaction using PGIC from one week to 6-months post procedure 3. Change in pain intensity using NRS from baseline to 6-months post procedure This study will follow subjects in conjunction with thier standard of care SCS clinic visits. This includes the one week wound check at the pain clinic and then a 2 week end of study phone call.
Intra operative Nerve Monitoring ( IONM ) is rapidly becoming the standard of care for thyroid surgery to prevent injury to the recurrent laryngeal nerve. However the laryngo tracheal reflexes need to be adequately suppressed to permit proper utilization of intra operative nerve monitoring. Increasing the depth of anesthesia to achieve this often leads to side effects. Intravenous lidocaine infusion has been shown to be effective in blunting these reflexes. The planned study intends to look at the efficacy of intravenous lidocaine infusion in decreasing the amount of anesthesia medications needed to suppress the reflexes. Also the study looks at the analgesic and anti emetic properties of intravenous lidocaine infusion post operatively by measuring these outcomes. The study is designed as a double blinded randomized controlled trial with 30 subjects in the group who will receive intravenous lidocaine during surgery and 30 subjects in the group who will receive placebo. Blunting of the laryngo tracheal reflexes intra operatively will be recorded as the primary outcome. The amount of anesthesia medications, the post operative patient comfort level, pain control, usage of narcotic pain medications, nausea, vomiting will be recorded as secondary outcomes.
The purpose of this study is to determine whether the use of intraoperative nerve monitoring during robotic-assisted laparoscopic prostatectomy surgery improves post-surgery urinary continence and erectile function.
Magnesium Sulfate(MgSo4) is increasingly being used as part of the multimodal pain regimen in the perioperative period. The intraoperative neurophysiological monitoring (IONM) is utilized in complex spine and cranial surgeries to assess the functional integrity of the neural pathways. The effect of Magnesium sulfate on IONM has not been studied. This is a prospective, double blind, randomized placebo controlled trial to study the effect of Magnesium sulfate bolus on the amplitude and latency of somatosensory(SSEPs) and motor evoked potentials(MEPs) in patients undergoing surgery requiring IONM.
Mesial temporal lobe epilepsy (MTLE) is the most common cause of medication-resistant epilepsy in adults, and MRI-guided laser interstitial thermal therapy is a new approach to its surgical management; however, while LITT demonstrates fewer complications than traditional surgical techniques, it generates lower rates of seizure freedom. During traditional temporal lobectomy for MTLE, neurophysiologic intraoperative monitoring (NIOM) can be used to better identify epileptogenic tissue and guide resection. Our study proposes to investigate the utility of NIOM during LITT for MTLE. Subjects will be drawn from refractory mesial temporal lobe epilepsy patients determined to be candidates for LITT. During their LITT surgery, in addition to the placement of the stereotactic LITT probe, subjects will receive a second smaller stereotactic electrode for intraoperative monitoring of epileptic discharges before and after surgery. After surgery, at regularly scheduled follow-ups, patients will receive the Quality of Life in Epilepsy questionnaire (QOLIE-31-P), in addition to standard post-operative care. Endpoints will be surgical complications, fractional decrement in epileptiform discharges from pre- to post-ablation recordings, and surgical outcome at 6 months and one year. Analysis of severe complications will be expressed as a simple complication rate, for overall complications, severe complications, and hemorrhagic complications in specific. The relationship between fractional discharge decrement and outcome will be assessed by regression analysis. Risks of the study will stem from the placement of the stereotactic electrode for intraoperative monitoring, which represents a small incremental risk beyond typical LITT for MTLE.
The present study is designed to compare prospectively whether sBIS, sEMG, or CVI variability (brain monitoring) can be used to predict unwanted intraoperative responses (high blood pressure, fast heart rate, tearing, etc.) to stimulation (pain) and to determine whether these intraoperative findings are related to patient-assessed postoperative pain scores. The hypothesis is that increases in these variability measures are associated with increased probability of unwanted responses. If confirmed, these variability measures may help anesthesia providers by highlighting periods of inadequate analgesia (pain relief).
Study patients are given a hand held device to track pain post surgery.
Opioid overdose suppresses brainstem respiratory circuits, causes apnea, and may result in death. Epidural electrical stimulation (EES) at the cervical spinal cord facilitated motor activity in rodents and humans, and we hypothesized that EES of the cervical spinal cord could antagonize opioid-induced respiratory depression in humans. In this study, we will stimulate the spinal cord during surgery and assess its effects on respiratory function in human patients.
For procedures involving proximity to the nerves responsible for eye movement, the need to monitor eye movement exists. The current solution is to place needles in the muscles surrounding the eye. The Investigators have invented a non-invasive electrode and software designed to monitor eye movements non-invasively. The electrode is placed on the skin on the corner of the eye and using the natural dipole of the eye, detects the horizontal and vertical movements of the eye. The Investigators would like to prove efficacy compared to the standard monitoring.
Fetal heart rate \[FHR\] monitoring is used widely to assess the well-being of the baby in the delivery period. If it is determined that an urgent cesarean delivery is required because of fetal distress, FHR is discontinued once the mother is in the operating room in order to allow for surgical site preparation. From this point, there is no real-time monitoring that permits assessment of the well-being of the infant. The investigators are evaluating the feasibility of intraoperative FHR monitoring using fetal ECG placed on the mother's upper abdominal wall and the standard acoustic device routinely used. The investigators will compare these to the traditional well-being tests: umbilical arterial blood gas and Apgar score. The first 15 subjects will be recruited from pregnant women who have scheduled induction of labor. The subsequent 40 subjects will be recruited from pregnant women who have scheduled cesarean sections.
This is a prospective, randomized controlled trial to determine if using FloTrac/EV1000 system in neurosurgical patients undergoing craniotomies for aneurysm repair or tumor resection complicated by cerebral edema, or complex spinal surgery including multi-level scoliosis correction, is a more effective way of monitoring fluid.
The investigators want to know if using the study drug dexmedetomidine will improve nerve wave readings during neurosurgery. These readings are done many times during surgery while the patient is asleep. The readings look at how nerves are working and let the operating team know if nerves are hurt during surgery. If the readings tell that nerves are not working correctly, the surgeons can help while changing the way of operating. The study drug will be used in addition to the general anesthesia that a patient is given. The nerve readings that the investigators get while using the study drug will be compared with nerve readings that the investigators get while not using the study drug. The study hypothesis is that dexmedetomidine does not change nerve readings.
The purpose of this study is to describe the impact of adding intraoperative video laryngoscopy (IOVL) to intraoperative laryngeal nerve monitoring (IOLNM) during neck procedures when IOLNM is routinely used, including thyroidectomy and re-operative parathyroidectomy. Specifically, the study team seeks to assess how frequently the use of IOVL provided confirmatory or additional information that may affect surgeon decision-making when IOLNM alone is ambiguous, or when there is equipment malfunction or failure. The IOVL is a disposable, otherwise standard fiberoptic laryngoscope (Larynxview, Neurovision Medical, Ventura CA) that is inserted alongside the endotracheal tube following intubation for surgical procedures. It allows assessment of vocal cord movement in response to nerve stimulation. Currently, the use of IOLNM is based on audio cues, and visual assessment of external laryngeal muscle movement during surgery in response to stimulation, but no direct assessment of vocal cord movement is routinely possible. This information can be ambiguous and subject to judgement of the surgeon. The addition of IOVL provides direct assessment to vocal cord movement in response to stimulus, and may be useful in light of ambiguous IOLNM data, or limited visualization of external laryngeal muscles.
This is a pilot prospective cohort study of the incidence of supraglottic pH readings.
The current study proposes to address the question of whether patients' cerebral oxygen saturation levels are predictive of their recovery from thoracic surgery. Further, the study poses the hypothesis that a patient's poor recovery status goes on to increase a patient's risk of developing post-operative morbidities such as pneumonia, arrhythmias and delirium. The aim of this study is to address the observation that some patients struggle more than others in their recovery and that 1) this may be a result of intraoperative cerebral oxygen desaturations and 2) that this may affect their post-operative morbidity. If a potential means of predicting poor outcomes is identified this will lead to further research into how to adjust the associated variables, such as cerebral oxygenation, to improve patient post-operative outcome.