106 Clinical Trials for Various Conditions
This study is an observational registry study evaluating the clinical outcomes of grid therapy. Subjects will be screened at outpatient clinic visit appointments and interested qualified subjects will be consented and offered participation in this study. Once consent has been obtained, baseline adverse event and QOL data will be collected and subjects will undergo grid therapy and follow-up at 2-4 weeks (for toxicity), and 3-6 months (for toxicities and radiographic control) then per clinical discretion up to 1 year. Patients will be evaluated according to the physician's standard practice and discretion. Patient data will be drawn from the patients' medical records and reported by means of a web-based electronic data collection (EDC) system. Patients will be considered "on study" until 60 months of observation has occurred, withdrawal of consent, lost to follow-up, or study closure. See below for the clinical visit flowchart for data collected at baseline and standard clinic visits.
This is a research study to evaluate the effectiveness of 3 different types of routine pain management regimens used during clinically indicated, minimally invasive oncologic (cancer) surgery. This project is considered "Research" and participation is voluntary. Upon enrollment in this study, the research team will collect data from the patient's medical records. The patient will undergo all of the normal testing and procedures required pre-operatively (standard of care). The study team will then randomly assign the patient (like a flip of a coin) to one of three different study arms for pain management during surgery: 1. Laparoscopic Transversus Abdominis Plane Block (LapTAP) with Local Anesthetic (LA) 2. Laparoscopic Transversus Abdominis Plane Block (LapTAP) only 3. Local Anesthetic (LA) only The patient will receive standard pre- and post-operative care according to clinical guidelines (routine care). The study team will collect information from the patient's medical record for the first 24 hours after their surgery and upon discharge. This information will include pain scores, amount of medication required, any side effects the patient may have experienced, and satisfaction with pain control. Participation in the study will end upon discharge from the hospital.
Standard planning constraints for liver SBRT incorporate strict dose-volume limits for normal liver parenchyma to minimize the risk of radiation-induced liver disease. The presence of diurnal and fasting/fed variations in liver volume therefore carry substantial potential for introducing errors into estimates of dose-volume distribution within normal liver tissue, as well as affecting day-to-day setup fidelity and organ alignment for treatment. This prospective study will examine how diurnal and fast-fed variations in liver volume affect treatment planning for abdominal SBRT.
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 purpose of this research is to compare the amount and quality of tissue obtained by EUS-FNB when the device is flushed with an anticoagulant or "blood thinner" vs. saline a salt water solution as well as the use of a microsieve in order for the doctor to look at the tissue to check the acceptability of the specimens before sending for analysis. You will be randomly assigned (like a flip of a coin) to have either the blood thinner or the salt water solution placed within the needle being used to sample your abdominal tumor and to have either a sieve used or not. You will be one of 42 participants enrolled in this data collection study which includes 1 sites in the United States.
Motion during radiation therapy can be categorized as inter-fraction (changes in anatomy that occur between treatment days) and intra-fraction (changes that occur during the "beam on" window of treatment delivery). Inter-fraction motion is managed by adaptive radiotherapy (ART), the process of making changes in the treatment plan while the patient remains on the treatment table. This is now a standard-of-care therapy within Washington University's clinic. Intra-fraction motion is managed by gated and non-gated delivery techniques. Varian Medical Systems has integrated the necessary components into a CT-guided radiotherapy device (ETHOS). In the ETHOS, Varian has built a device that integrates on-board cone beam CT imaging capable of delineating target and organ-at-risk positions and a dedicated artificial intelligence-driven treatment planning system for inter-fraction motion management as well as a paired optical surface image guidance system for intra-fraction motion management. Although online ART is a standard-of-care practice in the clinic and has previously been shown to be feasible, use of surface-guidance for intra-fraction gating of abdominal and thoracic SBRT on ETHOS is novel. Therefore, in this study, the investigators propose to evaluate the feasibility and safety of using a novel surface guidance beam-gating system, incorporated with a CBCT-guided adaptive radiotherapy platform, to manage respiratory motion during delivery of CT-guided stereotactic radiotherapy. To best assess the utility of this technology to manage respiratory motion, the investigators will focus on disease sites that are highly affected by respiratory motion: upper abdominal or lower thoracic malignancies.
Participants are being asked to take part in this clinical trial, a type of research study, because the participants have a Wilms Tumor cancer. Primary Objectives To determine whether delivery of proton beam radiation to a conformal reduced target volume in the flank allows normal flank growth compared to the contralateral untreated side and non-irradiated patients. Secondary Objectives To deliver proton beam radiation to a conformal reduced target volume (partial kidney proton beam radiation therapy) in the affected kidney(s) for patients with Stage V (bilateral Wilms tumor) and specific involved surgical margins yielding no reduction in the high control rates seen with more traditional flank / whole kidney fields. Exploratory Objectives * Study the feasibility of sparing the residual kidney, spine and liver in patients requiring whole abdomen radiation therapy using either a proton beam treatment technique or intensity-modulated radiation therapy ( IMRT) photon based technique. * Study the feasibility of delivering whole lung radiation therapy with proton beams with the goals of sparing the developing breast tissue, heart structures, thyroid and liver. * Develop simultaneous xenografts and organoid models from the same starting material to study Wilms tumor biology and compare responses to chemotherapeutic agents. * Define the evolution of organ specific (kidney, liver, pancreas, etc.) abnormalities (laboratory studies) as an early marker of possible late end organ damage and their relationship to radiation. * Study and evaluate impact of proton therapy on the musculoskeletal system and physical performance and compare with photon therapy cases treated with classical treatment fields. * Assess CTC-AE and Pediatric Patient Reported Outcomes during radiation and in follow-up, correlating with disease, treatment and patient variables. * Correlate quantitative MRI values, including apparent diffusion coefficient (ADC) values, with histopathology findings post-surgery in children with (bilateral) Wilms. * Assess daily variations in proton range along each treatment beam using standard pre-treatment cone beam CT or on-treatment MR.
A more recent competing technology for implementing the DIBH technique is real-time surface photogrammetry using the AlignRT system (Vision RT Ltd., London, UK). AlignRT system use non-ionization near infrared light to track patient surface motion. The system has one projector projecting near infrared optical pattern on patient surface. The optical pattern is imaged by optical cameras (two per pod) at \~25 Hz. The user selects a region-of-interest (ROI) on the surface and the software calculates and displays the real-time position in six degrees (3 translations and 3 rotations) in real-time. Once the patient has matched the pre-determined DIBH position (within threshold accuracy), the radiation beam is enabled to be turned on for treatment.
The purpose of the proposed study is to measure surgical recovery, including the length of hospital stay, incidence of perioperative complications, and mortality at 90 days post-surgery, in surgical patients with abdominal cancer. The investigators hypothesize that this prehabilitation program will improve recovery and reduce perioperative complications via the proposed prehabilitation intervention.
In light of this new technology and preliminary findings of low toxicity of online, adaptive, magnetic resonance (M)-guided stereotactic radiation on a single arm prospective study, the investigators propose to compare this technique to online MR-guided stereotactic body radiation therapy (SBRT) without adaptation. Online plan adaptation increases treatment times for patients and comprises an increased burden on technical and clinical staff. Although preliminary trial results are encouraging, it remains unclear if the dosimetric benefits of online-adaptive planning studies will translate to measurable improvements in clinical outcomes that merit its routine use. In our preliminary study, plan adaptation was most often required when tumors were adjacent to the gastrointestinal tract (the esophagus to the sigmoid colon), as those structures were most commonly the dose-limiting structures and were noted to change in location on a day-to-day basis. For these reasons, abdominal disease sites have historically highlighted the limitations of SBRT. Specifically, the investigators will enroll patients with oligometastatic or unresectable primary disease of the non-liver abdomen to a randomized, prospective trial. Patients will be randomized to one of two treatment arms, in which they will receive either online-adaptive, MRI-guided SBRT or non-adaptive MRI-guided SBRT. Both patient groups will undergo MRI simulation and MRI treatment localization with online MR monitoring and/or gating. All patients will be treated in five fractions over one to two weeks. By adhering to strict normal tissue constraints, the investigators expect toxicity to be within the current standard of care for the non-adaptive arm, with reduction in toxicity in the arm of patients who undergo adaptation based on daily anatomic changes.
This pilot clinical trial studies how well consumer-based activity monitor works in evaluating and measuring activity of older patients with abdominal cancer undergoing surgery. Consumer-based activity monitor (CAM) may identify patients who are at-risk for increased post-surgery medical problems. With early identification of at-risk patients, CAM provide supervised exercise in the preoperative and postoperative periods to improve over mobility and potentially decrease preoperative complications among patients undergoing major abdominal surgery.
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 purpose of this research study is evaluate whether it's feasible to give radiation therapy using an MRI-guided adaptive technique. MRI-guided adaptive radiation therapy involves the adjustment or re-planning of treatment day by day while the participant is receiving treatment. The adaptive technique has previously been used in a different fashion to adjust the treatment plan after the fact, but using MRI scanning to re-plan treatment while the participant is still on the table is a new way of using the adaptive technique. This may allow doctors to use more radiation to treat the tumor while better protecting normal tissues. A special radiation treatment machine incorporates both an MRI scanner and radiation treatment devices so that the planning and treatment can be done using the same machine.
Tumors must be seen clearly on CT scan to be radiated completely and safely. Breathing causes tumors to move. If the tumor moves during breathing, it can look blurred on the CT scan. This makes it difficult to see on CT scan. The investigators wish to investigate whether a new computer method makes tumors less blurry and easier to see on CT scan. Cone-beam CT is a type of CT scanner attached to the radiation treatment machine that produces 3D images of the patient. Since your tumor can move because of your normal breathing, it is often blurry and difficult to see accurately in a standard cone-beam CT scan. The investigators intend to use a computer method which processes the cone-beam CT data in a way that reduces the blurring and makes the tumor easier to see.
RATIONALE: Palonosetron hydrochloride may prevent nausea and vomiting caused by radiation therapy. It is not yet known whether palonosetron hydrochloride is more effective than a placebo in preventing nausea and vomiting. PURPOSE: This randomized phase II trial is studying the side effects of palonosetron hydrochloride and to see how well it works in preventing nausea and vomiting caused by radiation therapy in patients with primary abdominal cancer.
Phase I trial to study the effectiveness of interleukin-12 in treating patients with refractory ovarian or abdominal cancers. Interleukin-12 may kill tumor cells by stopping blood flow to the tumor and by stimulating a persons's white blood cells to kill cancer cells.
RATIONALE: Laparoscopic staging may help doctors plan more effective treatment for ovarian, primary fallopian tube, and primary abdominal cancers. PURPOSE: Phase II trial to study the effectiveness of laparoscopic staging in patients with ovarian, primary fallopian tube, or primary abdominal cancers who have not undergone complete staging.
This research study will enroll people who have cancer in their abdomen or pelvis that was treated previously with radiation therapy. The purpose of this research study is to test the safety and possible harms of treating tumors in these regions with another round of radiation therapy, called reirradiation or "reRT." The researchers want to find out what effects (good and bad) reRT has in people with cancer in the abdomen and pelvis.
The purpose of this research study is to determine whether a sterile bacteria wall chemical, called lipopolysaccharide (LPS), can be injected safely into abdominal tumors during routine laparoscopic surgery performed as a preliminary procedure in patients who will subsequently undergo a larger planned operation to remove abdominal tumors. The researchers will biopsy the tumor before injection and then again at the time of the larger operation to assess whether any effect of the treatment can be measured.
This clinical trial studies the effect of behavioral health support including tele-health in helping surgical patients taper off of prescription opioid pain medications. "Tapering off" means taking dose amounts of medication that get smaller over time, so that less and less of the drug is used until it is not needed anymore. Researchers want to learn how these techniques may improve a patient's ability to lower or avoid dependence on opioid medications after surgery, and if behavioral therapies may improve quality of life, emotional well-being, and functional status around surgery.
This early phase I trial studies how well heated intra-peritoneal chemotherapy with doxorubicin and cisplatin work for the treatment of abdominal or pelvic tumors that can be removed by surgery (resectable), does not respond to treatment (refractory), or has come back (recurrent). Heated intra-peritoneal chemotherapy is a procedure performed in combination with abdominal surgery for cancer that has spread to the abdomen. It involves the infusion of a heated chemotherapy solution that circulates into the abdominal cavity. Chemotherapy drugs, such as doxorubicin and cisplatin, work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Heating a chemotherapy solution and infusing it directly into the abdomen may kill more cells.
This study is a pilot study of the CivaSheet, a new type of intraoperative radiation therapy (IORT) device that offers several advantages over existing techniques of performing IORT. The CivaSheet device in this study is already approved by the FDA and is not an experimental device. This study will allow us to determine how feasible it is to implant the CivaSheet into patients undergoing surgery for abdominal and pelvic tumors, and assess any possible side effects of the device. This study, if successful, may allow us to offer the CivaSheet more widely as treatment option to future patients.
This study evaluates the feasibility, safety and accuracy of a 19 gauge (19G) needle in nitinol in the performance of endoscopic ultrasound (EUS) guided transduodenal biopsy for the acquisition of samples for histologic analysis. Patients with lesions that can be approached only from the duodenum will be prospectively enrolled.
The purpose of this study is to compare two standard methods of pain control management used at Spectrum Health for patients undergoing major surgery. The two methods being compared are the thoracic epidural and the TAP block. The thoracic epidural method involves medication being given through a patient's back and the TAP block involves medication being given through a patient's abdomen (belly). The investigators will compare side effects experienced by the patients that take part in this study, including a change in blood pressure, as well as the patients' opinions about their pain management experience after surgery.
Primary Objective: 1. Compare the duration of postoperative ileus (POI) duration (time to first flatus), subjective reports of surgical and gas pain, postoperative pain medication (total milligrams per 24 hours) and postoperative recovery time(length of stay) between two groups of abdominal surgery cancer patients receiving either standard postoperative care or standard care plus the rocking intervention.
To validate a new method for assessing perioperative risk in the cancer patient undergoing major cancer surgery. In this proposed study researchers will: 1. Measure preoperative energy reserve capacity (fitness) 2. Determine if postoperative morbidity is a function of perioperative cardiopulmonary gas exchange metabolism
St. Jude Children's Research Hospital is studying ways to make ultrasound images clearer - to be able to see blood vessels, body structures, and tumors better. Ultrasound uses sound waves to create pictures, allowing doctors and other medical professionals to "see" inside the body. Researchers are studying a contrast agent (like a dye) called Optison™. St. Jude Children's Research Hospital researchers want to learn the best and safest dose of this ultrasound "dye."
This study will test the effectiveness of an experimental treatment for peritoneal cancer involving surgical removal of the tumor, perfusion of the abdomen during surgery with a heated solution of the drug cisplatin, and post-surgery combination chemotherapy in the abdomen with fluorouracil (5-FU) and paclitaxel. Patients with certain peritoneal cancer whose tumors are confined to the abdomen may be eligible for this study. Candidates are screened with a medical history and physical examination, including blood tests, electrocardiogram and possibly bone scan, brain magnetic resonance imaging (MRI), and chest, abdomen and pelvic CT scans. Participants undergo surgery to remove as much tumor as possible. Part of the intestines, pancreas, stomach or the entire spleen may also be removed if they are affected. During surgery, after the tumor has been removed, two catheters (thin plastic tubes) are placed in the abdomen. A chemotherapy solution containing the anti-cancer drug cisplatin heated to a temperature of about 108.6 degrees (10 degrees above normal body temperature) is then delivered into the abdomen through one catheter and drained through another. During treatment, a drug called sodium thiosulfate is given through a vein to reduce the risk of side effects of cisplatin, particularly kidney damage. After 90 minutes of bathing the abdomen with this solution, the drug is rinsed from the abdomen and the catheters removed. Another small catheter is then placed and left inside the abdomen with one end coming out through the skin. Seven to 12 days after the operation, the anti-cancer drugs 5-FU and paclitaxel are given through this catheter. After complete recovery from the surgery, the catheter is removed and the patient is discharged from the hospital. Clinic visits are scheduled for periodic follow-up examination, imaging, and tests 3 and 6 months after surgery and every 6 months for up to 5 years as long as the disease does not worsen. Patients whose disease progresses are taken off the study and referred back to their local physician or referred for alternative care or other research studies. Patients are also asked to assess how this therapy affects their general health and well being. This will require filling out two quality-of-life (QOL) questionnaires before surgery and again at each follow-up visit after surgery. Each questionnaire takes about 15 minutes to complete.
This phase III trial studies how well pafolacianine works for identifying cancerous lesions in children and adolescent patients with primary solid tumors or solid tumors that have spread from where they first started (primary site) to other places in the body (metastatic). Pafolacianine is a fluorescent imaging agent that targets folate receptors which are overexpressed in many cancers and is used with near infrared (NIR) imaging during surgery to identify tumor cells. NIR uses a special camera that uses wavelengths in the infrared range to visualize and locate the tumor cells that are lit up by the pafolacianine. Giving pafolacianine for NIR imaging may work better than other imaging agents in identifying cancerous lesions in pediatric patients with solid tumors.
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.