Loading clinical trials...
Loading clinical trials...
Showing 1-6 of 6 trials
NCT07422168
This study evaluates the safety and effectiveness of hyperbaric oxygen therapy (HBOT) for the treatment of severe radiation-induced complications in patients previously treated with radiotherapy. Patients with clinically significant late radiation injuries will undergo HBOT sessions in a hyperbaric chamber. The study aims to assess clinical improvement of radiation damage and overall treatment tolerance.
NCT02483650
The purpose of the Hyperbaric Oxygen Therapy Registry (HBOTR) is to provide real world patient outcome and side effect information from electronic health records submitted to a specialty specific hyperbaric registry as part of "Stage 2 of Meaningful Use," including data provided to meet PQRS requirements via the registry's QCDR mission. Goals include understanding the value of HBOT among patients treated for a variety of conditions in relation to the frequency and severity of HBOT side effects. While randomized, controlled trials can establish the efficacy of treatments like HBOT, because they routinely exclude patients with co-morbid conditions common to those patients seen in usual clinical practice, the results of RCTs are usually non-generalizable. Real world data can be used to better understand the effectiveness of HBOT among typical patients, as well as the risks associated with treatment.
NCT00760409
The purpose of this study is to determine if certain MRI imaging sequences (pictures) are more helpful to the physicians in determining if a brain tumor has recurred or if the person has radiation injury following their treatment.
NCT01334931
Coronary angiography exposes patients and physicians to ionizing radiation. The purpose of this study is to evaluate the routine use of large field of view during image acquisition for coronary angiography. Patients with indication of diagnostic coronary angiography will be randomized for the use of either large field of view during image acquisition or medium field of view. Patients, physician and nurse radiation exposure will be measured by digital dosimeter.
NCT00745641
The clinically widely used X-ray computed tomography examination has a low-grade radiation effect and recently has attracted much attention concerning the possible adverse effects of radiation on human body \[ref. 1-5\]. The radiation is harmful to human tissues and cells mainly because it can interact with water (which makes up to 80% of cells) to generate reactive oxygen species (ROS), especially the formation of hydroxyl radicals. So far as we can reach, there is no report concerning the relation between X-ray computed tomography examination and the blood ROS level. Therefore, we wish to conduct this study to clarify if the routinely applied abdominal X-ray computed tomography examination may induce a higher level of ROS in the peripheral blood. Study subjects will be patients who are admitted to our hospital because of abdominal diseases that need to receive abdominal X-ray computed tomography examination for diagnosis. In total, sixty cases will be enrolled for the study. The formal consent will be delivered and explained to the patients and families several hours before the performance of abdominal X-ray computed tomography. The formal consent will be retrieved and then the peripheral blood will be sampled just before the performance of computed tomography.ROS level in the sampled peripheral blood, before and after the performance of abdominal X-ray computed tomography, will be measured, compared, and analyzed. Totally 120 blood samples, including 60 samples just before and 60 samples 2 hours after the performance of computed tomography, will be collected from 60 study subjects within 5 months (August 10 \~ December 30, 2008). Reactive oxygen species(ROS)levels will be measured by a chemiluminescence (CL) analysing system (CLD-110, Tohoku Electronic Industrial, Sendai, Japan).
NCT00815230
The clinically widely used X-ray computed tomography examination has a low-grade radiation effect and recently has attracted much attention concerning the possible adverse effects of radiation on human body \[ref. 1-5\]. The radiation is harmful to human tissues and cells mainly because it can interact with water (which makes up to 80% of cells) to generate reactive oxygen species (ROS), especially the formation of hydroxyl radicals. So far as we can reach, there is no report concerning the relation between X-ray computed tomography examination and the blood ROS level. Therefore, we wish to conduct this study to clarify if the cardiac computed tomography angiography (cardiac CTA) may induce a higher level of ROS in the peripheral blood. Study subjects will be OPD patients who are arranged for cardiac CTA examination because of suspect coronary artery disease (CAD). In total, twenty cases will be enrolled for the study. The formal consent will be delivered and explained to the patients and families after the arrangement of cardiac CTA. It then will be retrieved just before the performance of cardiac CTA. For each enrolled case, peripheral blood will be sampled three times (once before and twice after the performance of cardiac CTA). Totally 60 blood samples will be collected from 20 study subjects within 3 months (January 1 \~ March 31, 2009). ROS level in the collected blood samples will be then measured, compared, and analyzed.