24 Clinical Trials for Various Conditions
This study is assessing the accuracy of continuous glucose monitors during surgical procedures requiring anesthesia.
This is a pilot study designed to assess the feasibility of using a novel, video-based opioid education tool for opioid naïve ambulatory surgery patients in the perioperative period.
Smoking can increase the risk of complications around the time of surgery. Researchers are trying to see if a text messaging program can help smokers stay off cigarettes around the time of surgery.
This study is for people with diabetes who have either healthy kidneys or who have end stage renal disease (ESRD) and are on hemodialysis that are having surgery. This research will help increase our knowledge about how having diseased kidneys and being on hemodialysis changes how the body responds to insulin. In the time period directly before, during, and after surgery, maintenance of blood sugar within normal physiological range is essential. When patients come for surgery and have an elevated blood sugar, it is up to each individual physician to decide on the right amount of insulin to treat them. Currently, there are many different protocols across the country to treat elevated blood sugar; however, there is no one specific protocol to treat elevated blood sugar at SUNY Downstate Medical Center at this time. In this study, the investigators will evaluate the change in blood sugar following insulin administration to determine whether there is a significantly different response between ESRD and non-ESRD patients. The results of the study will help develop safer practice guidelines to patients with ESRD with an elevated blood sugar while they are having surgery.
Simple explanation and rationale: Recovery after spine surgery is usually accompanied by severe pain which has traditionally been managed with opioids. It is common practice to supplement opioid treatment with different classes of analgesics which work through alternative pain pathways and receptors in order to achieve an additive or synergistic effect while reducing the amount of opioids necessary for pain control. Acetaminophen can be a beneficial supplemental analgesic to opioids for postoperative pain relief. Intervention: Patients will be randomized to either the treatment with IV acetaminophen (A), PO acetaminophen (B), or hydromorphone control group (C). Objective/Purpose: Primary objective is to determine the impact of administering a supplemental non-opioid analgesic drug such as IV or PO acetaminophen on total opioid dose administered over the postoperative period. Secondary objectives include investigating the impact of IV/PO acetaminophen on the level of postoperative pain, patient satisfaction, and side effects secondary to opioids such as nausea, vomiting, pruritus, sedation, respiratory depression, ileus, and urinary retention, and PACU (postoperative care unit) discharge time. Study population: 126 patients will be enrolled in the study (42 for group A, 42 for group B, and 42 for control group C). Follow-up and Endpoints / Outcomes: Postoperative assessments will be done at 0, 30, and 60 minutes, 6 hours, 12 hours and 24 hours after surgery. Patients will be evaluated for pain (using a numeric rating scale), total opioid consumption, and for opioid side effects including drowsiness (using the Ramsey sedation scale and the Aldrete score at the time of arrival to and discharge from recovery room), respiratory depression, nausea, vomiting, and pruritus. Patient satisfaction will also be assessed using a numeric rating scale.
This is a prospective descriptive correlational design looking to characterize postoperative pain variables across various procedures that historically have significant levels of persistent post-surgical pain
Efficacy of Stand-alone, Non-tethered, Self-applying Warming Garment in the Preoperative, Intraoperative and Postoperative Recovery Period; Using an Integrated Chemical Heat Pack Construction, With a View to Maintaining Normothermia During the Peri-operative Period
The purpose of this study is to evaluate the effectiveness of self-administered perioperative guided imagery to reduce perioperative distress in gynecologic oncology patients undergoing surgical management for a presumed cancer diagnosis.
Our objective was to determine whether a standard 1mg/kg intraoperative dose of dexamethasone results in similar drug levels for all patients and to characterize the relationship between these drug levels and the innate stress response following infant Cardiopulmonary Bypass (CPB). The investigators hypothesized that postoperative dexamethasone levels are highly variable, and that the infant stress response is inversely related to the amount of dexamethasone measured in the blood. To test this theory the investigators simultaneously measured blood levels of dexamethasone and cortisol at critical time points during the perioperative period for infants undergoing CPB for CHD surgery.
This research is being done to investigate if patients who receive a commonly used sedative drug, known as midazolam, are likely to have high blood sugar levels during the stressful period during and immediately after surgery. A sedative drug is used to relax a person without making them sleepy. This drug is also helpful in reducing the memory of the stressful experience before the anesthesiologists administers anesthesia. Everyone has glucose or sugar in their blood stream. This sugar gives energy to our organs to allow them to work. Since high blood sugar levels may be associated with complications like wound infections, the investigators research is being done to find if patients who receive a sedative medication prior to their surgical procedure have lower blood sugars during the surgery then a patient who does not receive the sedation. The investigators would like to know if the administration of this commonly used drug will help patients maintain a normal glucose level during a stressful period.
High blood glucose levels in surgical patients with and without diabetes are associated with increased risk of medical complications and death. Over the short-term, high blood glucose can adversely affect fluid balance, impair immunologic response to infection, and promote inflammation and endothelial dysfunction (blood vessel function). Blood glucose control with intensive insulin therapy in patients with critical illness (very sick patients in intensive care unit) reduces the risk of multiorgan failure and systemic infections, and decreases short- and long-term mortality. High blood glucose has also been associated with poor outcome in non-critically ill patients admitted to general surgical and medical wards; however, intensive glycemic control is not aggressively pursued because of fear of hypoglycemia. A computerized search of biomedical journal literature from MEDLINE, PubMed, and Ovid from 1966 to 2008 provided very little information on the prevalence and outcome of high blood glucose during the perioperative period (before and after surgery) in non-critically ill patients. Therefore, the present study aims to evaluate the impact of high blood glucose, in large number of subjects with and without diabetes, during general (non-cardiac) surgery.
Surgery performed during general anesthesia induces a stress effect on the body. Our plan is to identify population at risk of hyperglycemia during perioperative period.
The purpose of this study is to investigate whether intraoperative reverse Trendelenburg positioning decreases postoperative hypoxemia and perioperative pulmonary aspiration rates.
The objective of this study is to pilot an opioid free anesthetic protocol for patients undergoing total hip replacement.
Little is known about perioperative stress responses and possible anxiety mitigating factors like audiovisual aids or IV sedation. Most studies use surrogate markers and retrospective questionnaires, and are not based on real-time gathered data. Skin conductance measurements allow the sympathetic discharge to be evaluated down to fractions of a second and enable us to continuously monitor stress responses as skin conductance responses/per second during the perioperative management. In our study, the investigators propose to examine the effect of personal audiovisual equipment (audio/video goggles) on perioperative stress, pain, and overall experience in patients undergoing ambulatory meniscectomy under spinal anesthesia. Patients will be randomly assigned to either receive traditional sedation or light sedation in addition to audiovisual equipment. The investigators hope to determine outcome estimates of the use of this equipment on stress levels using skin conductance measurements, request for further sedation, postoperative pain levels and analgesic consumption, time to discharge readiness, and overall patient satisfaction, and collect thus far unavailable data on the stress response to perioperative stresses (such as IV insertion and spinal placement) in order to allow for power analyses for future studies.
This study will look at the efficacy of dexamethasone for prolongation of peripheral nerve blocks.
This is a randomized, double-blind, placebo-controlled, two-arm parallel, single-center study. One hundred subjects (50 in each arm) will be enrolled. Subjects, between the ages 18 and 65, undergoing laparoscopic gastric bypass or sleeve gastrectomy will be recruited and consented during the preadmission visit prior to surgery.
Primary research hypothesis: Patients who continue their chronic ACEI therapy up to and including the morning of a non-cardiac, non-vascular surgery will experience more intraoperative hypotension than those who transiently hold their chronic ACEI preoperatively. Secondary research hypothesis #1: Patients who continue their chronic ACEI up to and including the morning of a non-cardiac, non-vascular surgery will experience better postoperative control of hypertension than those who transiently hold their chronic ACEI preoperatively. Secondary research hypothesis #2: Patients who continue their chronic ACEI up to and including the morning of a non-cardiac, non-vascular surgery will experience less acute renal failure than those who transiently hold their chronic ACEI preoperatively. Secondary research hypothesis #3: In the subgroup of patients with a preoperative systolic blood pressure less than 110 mmHg, those who continue their chronic ACEI therapy up to and including the morning of a non-cardiac, non-vascular surgery will experience more intraoperative hypotension than those who transiently hold their chronic ACEI preoperatively. Secondary research hypothesis #4: In the subgroup of patients above the age of 64, those who continue their chronic ACEI therapy up to and including the morning of a non-cardiac, non-vascular surgery will experience more intraoperative hypotension than those who transiently hold their chronic ACEI preoperatively.
In most current academic anesthesia groups, it appears that consent for research is acquired on the day of surgery. This practice raises concerns because the hospital may be regarded as a coercive environment and there may be the possibility that the immediate preoperative environment prohibits adequate time for understanding the research project and making an informed decision about participation. However, this is often the only opportunity for anesthesiologists to obtain research consent. The aim of the present investigation is to utilize a survey study to determine if patients at Evanston Hospital are comfortable consenting for research on the day of surgery
This study is designed to determine if the use of atorvastatin (Lipitor), a member of the HMG coA reductase inhibitor class of drugs referred to as statins, will reduce inflammatory responses and deep vein thrombosis formation when given in high doses in the perioperative period.
This is a prospective randomized double blinded trial study involving 128 patients undergoing any craniotomy procedure at Evanston Hospital. The patients will be randomized by the sealed envelope technique. The anesthesiologist and nurses who will be administering the placebo or intravenous acetaminophen will be blinded to the group in which patients are assigned. The following general perioperative data will be recorded: patient information/preoperative data, procedural information, postoperative information, and overall satisfaction of pain management at 24 hours after surgery. Based on a pilot study (N-20) we expect that 25% of the placebo treated patients will require no opioids in the first 24 hour postoperative period. With the use of intravenous acetaminophen, it is hypothesized that the number of patients that do not require opioids in the first 24 hours after surgery will double.
The goal of this randomized trial is to examine the effectiveness of a Provider Tailored Intervention for Perioperative Stress (P-TIPS) in preventing high anxiety and improving the recovery process in children undergoing surgery. Four hospitals and all Healthcare Providers (HCP) in it will be randomized to either a P-TIPS Group, who will receive the newly developed intervention, or a Control Group who will receive a 2-hour seminar on the management of preoperative anxiety and postoperative pain and otherwise will provide standard care. The aims of this study are to: PRIMARY AIM 1. Determine if P-TIPS is more effective than standard care for preventing high preoperative anxiety among children undergoing anesthesia and surgery. The primary outcome will be observational anxiety in the operating room settings as measured by m-YPAS (modified-Yale Preoperative Anxiety Scale). SECONDARY AIMS 1. Examine the impact of P-TIPS on surgical recovery parameters such as postoperative pain, recovery room stay, nausea and vomiting, emergence delirium and maladaptive behavioral changes as measured by the PAED, and PHBQ 2. Determine if the use of P-TIPS results in higher satisfaction and lower anxiety scores in the parents.as measured by the STAIs, STAIt and Parent Satisfaction questionnaires 3. Determine if HCP in P-TIPS group display more desired behaviors and less undesired behaviors as compared to control group and whether these behaviors mediate the child and parent-level outcomes.These behaviors will be measured using the m-PCAMPIS
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.
The goal of this clinical trial is to learn whether physicians can associate evidence of myocardial injury after surgery with findings obtained from submaximal cardiopulmonary exercise testing. The main questions are: Is detection of postoperative myocardial injury with submaximal cardiopulmonary exercise testing superior to using usual care? And which submaximal cardiopulmonary exercise testing measure is better? Participants will undergo evaluation with a short submaximal cardiopulmonary exercise test, then undergo surgery. Myocardial injury will be measured on postoperative days 0, 1, 2, and 3 (during and up to 3 days after surgery). These results will analyzed by comparing it to findings from the submaximal cardiopulmonary exercise test. If there is a relationship, this will help anesthesiologists and surgeons assign certain treatments that may reduce the risk of developing myocardial injury after surgery.