View clinical trials related to Anatomy.
Filter by:Pelvic orientations observed in the pelvis during quiet standing position the standard orientation of the pelvis, causing pelvic tilt, pelvic obliquity and pelvic rotation. There is a need to understand the relationship between these orientation disorders and gait. This is because the orientation of the pelvis both in standard standing posture and during gait is an integral part of physiotherapy assessment due to the various problems associated with abnormal pelvic position, including musculoskeletal disorders of the lumbar spine, pelvis, hips and knees. The aim of this study was to describe the morphology of pelvic orientation during static standing posture in an asymptomatic young Turkish population aged 19 to 29 years and to examine the relationship between morphologic changes and changes in pelvic tilt, pelvic obliquity and pelvic rotation angles during gait.
This study is a prospective, single arm, unblinded, and open-label study. The study is designed to evaluate the use of the Gentuity Neurovascular Imaging System in patients undergoing elective neurointerventional diagnostic procedures.
Background: Ultrasound imaging is an imaging method that uses sound waves to characterize the structure and function of various organs in health and disease conditions. This technique is widely used in clinical day-to-day life and has many advantages, such as real-time imaging, availability for imaging at the patient's bedside, and lack of ionizing radiation. Aside from the mentioned advantages, the ultrasound test also has notable drawbacks. These include the absence of sound wave penetration through a medium containing air such as intestinal loops, dependence on operator skill, and the need for the subject's cooperation during the test. Compared to the ultrasound examination, the CT scan allows for a broader anatomical view and is not limited by physiological factors such as bones and air. on the other hand, the test requires ionizing radiation that inevitably carries a direct and indirect danger to the patient's health, and requires more financial resources. Objectives of the study: Using artificial intelligence to bridge the gap between ultrasound and CT scans, and to create a uniform system that takes advantage of them. This is to allow for better spatial orientation as well as a better characterization of the anatomical structures being scanned. Participants: Women and/or men over the age of 18, who performed an abdominal CT scan during the previous month for the ultrasound examination in the experiment. Methods: The study is a prospective open-label research, in which both the physician and the patient are aware of the manner and purposes of the scan. Participants who meet the threshold conditions will be summoned for examination in the rooms of the Imaging Institute at Haemek medical center, during which the participants will undergo a complete ultrasound scan of the abdominal organs using a clinical ultrasound device. The ultrasound images will be visually coupled to previous CT images of the same patient at the time of the examination, using a Fusion system located in the ultrasound device mentioned above. The conjugated CT and ultrasound images will be encoded and will be sent without identifying details to the SAMPL laboratory, to be used as a learning platform for the artificial intelligence system. The images will be transferred after the subject's personal details have been encoded in an EXCEL file and saved by the principal investigator.