10 Clinical Trials for Various Conditions
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.
The purpose of this study is to document the safety of the Medtronic automatic periodic stimulating (APS) Electrode Stimulator during a parotidectomy and potentially prevent post-operative facial nerve weakness, which is a relatively common outcome after parotid surgery.
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.
The investigators are proposing to continue investigation to improve the accuracy of the SpHb (continuous hemoglobin monitoring device) by administering an intermediate acting digital nerve block in the finger connected to the SpHb, specifically bupivacaine 0.25% in patients undergoing spine surgery. Bupivacaine is FDA approved and in routine use.
Medications used to relax the muscles are used during surgery. The amount of muscle relaxation can monitored with devices that stimulate a specific nerve and evaluate the muscle response. The response to, and recovery from, medications that relax the muscles are best described for a nerve in the arm called the ulnar nerve. The investigators believe that other nerves in the arm, such as the median nerve, could be used to monitor the amount of muscle relaxation. The purpose of this study is to compare the muscle response at two different nerve sites after giving medications to relax the muscles. This study is going to measure the depth of muscle relaxation during surgery at two different sites. The muscle response to stimulation of the ulnar nerve (located in the arm) will be compared to the muscle response to stimulation of the median nerve (also located in the arm).
The study hypothesis is that changes in serially obtained nerve conduction study data obtained every 3-4 weeks in cancer patients receiving chemotherapy can be used to predict the development of a clinically significant / disabling drug induced neuropathy six and twelve months following the start of treatment. Patients with breast cancer, colon cancer, gastroesophageal cancer, and non-Hodgkins lymphoma will be enrolled. Six lower extremity nerves--three in each leg--will be electrically stimulated and their responses recorded at three to four week intervals coinciding with patient's scheduled chemotherapy.
The purpose of this study is to evaluate the differences (the effectiveness and the safety) between two different nerve and muscle monitoring devices currently available during a TLIF surgery. The Endoscopic Assisted Retropsoas (EARP) Nerve Cuff Electrode and Retractor surgical and nerve monitoring tools will be used in addition to standard nerve monitoring tools during the surgery. The choice of standard nerve monitoring equipment is based on the decision of the surgeon and technologist and is not dictated by this study. These tools will be compared with regards to safety and ability to accurately monitor the nervous system during the surgery.
Group 4a and 4b was an FDA trial that showed that patients who have an Amsler grid abnormality on paper, have a similar abnormality on the app. Group 7a and 7b was an FDA trial that showed that normal patients do not have false positives on the Amsler app as well as on the Amsler paper version. Further Vision on the app is slightly better than vision on the standard Sloan near card using a formula (vision is 7/10th of a line better on the app).
Biomarkers can be evaluated to provide information about disease presence or intensity and treatment efficacy. By recording these biomarkers through noninvasive clinical techniques, it is possible to gain information about the autonomic nervous system (ANS), which involuntarily regulates and adapts organ systems in the body. Machine learning and signal processing methods have made it possible to quantify the behavior of the ANS by statistically analyzing recorded signals. This work will aim to systematically measure ANS function by multiple modalities and use decoding algorithms to derive an index that reflects overall ANS function and/or balance in healthy able-bodied individuals. Additionally, this study will determine how transcutaneous auricular vagus nerve stimulation (taVNS), a noninvasive method of stimulating the vagus nerve without surgery, affects the ANS function. Data from this research will enable the possibility of detecting early and significant changes in ANS from "normal" homeostasis to diagnose disease onset and assess severity to improve treatment protocols.