15 Clinical Trials for Various Conditions
The aim of this prospective, observational study is to determine the incidence of post-operative residual neuromuscular blockade (PRNB) in patients undergoing intra-abdominal procedures compared to patients undergoing other noncardiac/non intra-thoracic procedures that also require non-depolarizing neuromuscular blocking agents (NMBA) administration. As intra-abdominal surgeries are independently associated with post-operative pulmonary complications (PPCs), it is important to highlight other factors, such as PRNB, that could contribute to these complications.Although it has been shown that the risk of adverse respiratory events can be reduced by intra-operative quantitative neuromuscular monitoring, such monitoring is not in widespread use.This study will incorporate quantitative monitoring in the post-anesthesia care unit (PACU) setting by using the Stimpod NMS450® in an effort to show a disparity in the incidence of residual paralysis between these two patient populations and to emphasize the need to implement more accurate neuromuscular monitoring, especially for those that are already at increased risk for respiratory complications.
The goal of this study is to present a large single-institution experience reporting surgical site infection rates in patients who have undergone intra-abdominal surgery followed by wound closure with Negative Pressure Wound Therapy. A retrospective review of patients' charts will be conducted to analyze surgical site infection rates between wound closure with and without Negative Pressure Wound Therapy (NPWT). American College of Surgeons National Quality Improvement Program data from previous standard of care (primary closure after colorectal surgery) will be used for comparison with newly adopted standard of care treatment regimen (wound closure with NPWT). Data on patients who underwent intra-abdominal surgery will be retrospectively collected and a database will be created. These individuals will be identified through medical records and recontacted by mail and/or phone to collect study data. Finally, patients newly referred to the Principal Investigator for intra-abdominal surgery will be enrolled in the database. After giving informed consent, data on surgical site infection rates and outcomes will be collected. Longitudinal outcomes will be assessed at 30 days, 6 months, and 12 months post-operatively. These patients' outcomes will be compared to a group of patients treated by the Principal Investigator who also underwent intra-abdominal surgery without Negative Pressure Wound Therapy. We hypothesize that fewer patients treated with negative pressure wound therapy following intra-abdominal surgery will develop surgical site infections than patients who had intra-abdominal surgery but were not treated with Negative Pressure Wound Therapy.
A comparison of fibrin sealant 2 versus Surgicel® as an addition to standard surgical practice in stopping mild to moderate soft tissue bleeding during retroperitoneal or intra-abdominal surgery.
The purpose of this research study is to determine the genotype (genetic composition) and phenotype (physical appearance) of cells derived from the abdominal cavity to determine whether stem cells are present.
Being able to accurately monitor patient bodily fluid levels during and after surgery is very important, as there are a number of complications that can arise if a patient's fluid levels become unbalanced, such as swelling within or pressure on various bodily organ systems. There are several different ways that physicians can monitor a patient's fluid balance during and after surgery, such as measuring the amount of urine output or the use of central venous catheters which measure the pressure in the veins entering the heart. Most of these techniques are invasive since they require tubes to be inserted into the body. A potential alternative would be to use a noninvasive technique such as electrical bioimpedance (BIA). Bioimpedance assessments work by using small electrical currents that can accurately predict both the water surrounding the outside of cells in the body, as well as the total amount of water in the entire body. Electrical bioimpedance assessments have been used to estimate patient swelling following surgery (edema), to measure the volume of blood the heart is pumping out, as well as to calculate body fat percentages. The goal of this study is to relate this technology to fluid shifts within the body that occur as a result of surgery, in particular, major intra-abdominal surgeries. By using bioimpedance during and after surgery, the investigators will compare the data collected with that calculated by using traditional measures of body fluid status, such as urine output and intraoperative blood loss. During the study, the bioimpedance monitors will not replace the standard bodily fluid monitors and will not interfere with their readings. Additionally, the electrical current produced by the bioimpedance monitors is too small for patients to feel and will not interfere with medical devices such as pacemakers.
To compare 2 different models for prescribing opioid pain medication to provide better pain control to participants with an abdominal cancer who are having surgery.
The goal of this clinical trial is to determine whether monitoring intra-abdominal pressure (IAP) and adjusting blood pressure accordingly to maintain optimal renal perfusion pressure can reduce the risk of acute kidney injury (AKI) after cardiac surgery. The main question this study aims to answer is: - Does IAP-guided blood pressure management improve renal perfusion and lower AKI rates in cardiac surgery patients? Participants will be randomly assigned to one of two groups: * Control Group: Standard ICU care with a conventional Foley catheter. * Intervention Group: Standard ICU care with an IAP-monitoring Foley catheter, where blood pressure is adjusted based on IAP readings to optimize renal perfusion pressure. All participants will undergo routine blood and urine tests to assess kidney function during their hospital stay. This study will help determine whether IAP-based hemodynamic management can improve postoperative kidney outcomes and provide a new strategy for AKI prevention in cardiac surgery patients.
The purpose of this study is to determine if different video based coping strategies can help patients undergoing surgery for cancer can improve patients pain and distress after surgery for their cancer. The main questions this study aims to answer are: * Is it possible to use video-based coping strategies to help manage pain and distress after surgery? * Is one type of coping strategy better than another? Researchers will compare mindfulness-based coping strategies (e.g., guided meditation, expressive writing, etc.) with non-mindfulness coping strategies (e.g., support from social workers and the wellness center, health education, etc.) to understand how these can help in post-surgery recovery, pain management, and distress. Participants will: * Provide their full name, date of surgery, e-mail address, and phone number and agree to be contacted via email or text messaging. * Fill out some questionnaires before surgery, which should take 10-15 minutes. * Be assigned to one of three coping strategies. * Review a video (about 15-20 minutes long) or links to online resources before surgery and respond to questions about pain and distress before and after viewing these materials. * Review additional videos or links 2, 3, and 4 days after surgery and respond to questions about pain and distress before and after viewing these materials. * Complete additional questionnaires 2 weeks, 3 months, and 6 months after surgery. These questionnaires will be sent by text or email and should take about 10-15 minutes to complete.
The purpose of this study is to define the natural history and causes of chronic critical illness (CCI) in surgical intensive care patients who have had sepsis. The investigator wants to study a sub-population of sepsis patients that have intra-abdominal sepsis. The purpose of this research study is to define the acute changes in frailty (weakness, slowness, loss of muscle mass), comorbidity (medical problems) and disability (difficulty with mobility and performing routine daily functions) after having an infection that is located in the abdominal cavity or torso. The investigator believes having severe infection contributes to acute and permanent changes in these areas, especially in those of advanced age.
This partially randomized clinical trial studies surgery or non-surgical management in treating patients with intra-abdominal cancer and bowel obstruction. Bowel obstruction is a common problem for advanced cancer patients and can negatively affect quality of life. It is not yet known whether surgery or non-surgical management is the best treatment option for bowel obstruction and can lead to better quality of life.
The Accuryn Registry Study is an open-ended, global, multi-center, retrospective and prospective, single-arm data collection study with an FDA cleared device. The target population are cardiovascular surgery patients. Physiologic data measurements will be collected from enrolled subjects using electronic medical records and data streams via the Accuryn Monitoring System.
This is a research study to determine if a particular method of providing nutrition improves the clinical outcomes of patients in the intensive care unit (ICU) who have undergone abdominal surgery and would require nutrition delivered via the bloodstream (called total parenteral nutrition or TPN). The nutrition method we are testing is a structured nutrition delivery plan that involves tube feeding, oral nutrition supplements, and the use of a device (called an indirect calorimeter or IC) to measure calorie needs. This study will also use two devices to measure fat and muscle mass to examine changes during hospitalization. Subjects will be followed throughout hospitalization where nutrition status and fat and muscle mass will be closely monitored. Study activities will begin within 72 hours of a patient's abdominal surgery. TPN (total parenteral nutrition, a method of feeding that bypasses the usual process of eating and digestion) will be started, a non-invasive method of assessing calorie needs (indirect calorimetry (IC)) will be started, a urine sample will be collected to help assist in protein needs, and fat/muscle mass will be measured using bioelectrical impedance analysis (BIA), and an ultrasound. This is a minimal risk study and all products/devices used are non-invasive and FDA-approved. Indirect calorimetry and urine sample collection will be conducted every 3 days during the stay in the Intensive Care Unit - ICU, then every 5 days until hospital discharge. BIA and muscle ultrasound will be conducted every 7 days during ICU stay, then every 14 days until hospital discharge.
The Accuryn Registry Study is an open-ended, global, multi-center, retrospective and prospective, single-arm data collection study with an FDA cleared device. The target population are cardiovascular surgery patients. Physiologic data measurements will be collected from enrolled subjects using electronic medical records and data streams via the Accuryn Monitoring System.
In this registry study the investigators will collect data about patients' disease, treatment, and response to treatment to include in both our local and national databases. These can then be used by investigators to answer questions about cytoreductive surgery/HIPEC such as how well-tolerated or effective it is in specific populations.
Background: Adrenocortical carcinoma (ACC) is a rare cancer of the adrenal glands. ACC often returns after tumors are removed with surgery. Less than 35% of people with ACC survive 5 years after diagnosis. Objective: To test a new type of radiation therapy (external beam radiation therapy \[EBRT\]) before surgery in people with ACC. Eligibility: People aged 18 years and older with ACC that came back after treatment but may be safely removed with surgery. Design: Participants will be screened. They will have a physical exam with blood and urine tests. They will have tests of their heart function. They will have imaging scans. A small sample of tumor tissue may be collected if one is not available. They will undergo laparoscopy: Small incisions will be made in the abdomen so that a thin tube with a light and camera can be inserted to view the organs. EBRT comes from a machine that aims radiation at tumors. Participants will receive EBRT 5 days a week for 2 to 3 weeks. Visits will last 30 to 60 minutes. Participants will undergo surgery to remove their tumors 4 to 8 weeks after they finish EBRT. They will stay in the hospital 1 to 3 weeks after surgery. Participants will have follow-up visits for 10 years after surgery.