View clinical trials related to SPO2.
Filter by:BACKGROUND: As the normal functioning of the body is dependent on oxygen, low blood oxygenation is a acute problem that needs immediate attention. Measurement of blood oxygenation is therefore central to monitor patients and is usually done using light technology with a clip on the finger. Philips manufactures a measuring clip that is designed to measure oxygenation in the nasal wing instead of the finger. The advantage of this is that the nose is not affected as much as the fingers by poor blood flow in the skin, for example caused by cold. The nose is also closer to the heart and lungs than the hand, so changes in oxygenation may be detected earlier. This newer meter is an approved CE-marked product that is available for clinical use, but the next step is to investigate it systematically during and after surgery.
The main goal of this study is to look at the performance of the neonatal, infant, and pediatric Philips SpO2 sensors with the Philips FAST Pulse Oximetry technology. Oxygen saturation measurements (SpO2) will be obtained via pulse oximetry and invasive arterial oxygen measurements (SaO2) will be obtained via arterial blood samples as part of your clinical care and assessed by co-oximetry. The study will aim to enroll a diverse population to help us understand the impact of skin pigmentation.
This study aims to develop an automated and real-time non-contact vital sign measurement system using cameras. It will collaborate with physicians from National Taiwan University Hospital to conduct measurements during outpatient visits or hospitalizations. This allows physicians to non-invasively measure multiple vital signs (such as heart rate, blood pressure, and oxygen saturation) upon your entry to the outpatient clinic or hospital. Simultaneously, the measurements will be verified using commercially available contact-based instruments. The research outcomes of this project aim to enhance the convenience, safety, and comfort of vital sign measurements for outpatient visits, hospitalizations, and long-term care in the future.
This is a prospective, non-randomized data collection study to evaluate the form, fit, and function of INVSENSOR00061.
To Compare the effects of Pilates exercises an yoga on rounded shoulders
The aim of the project is to experimentally compare the fingers of the hand in terms of measured concentrations of peripheral blood oxygen saturation (SpO2) in healthy humans during gradual desaturation in the range of 60-100% SpO2 and simultaneously during a step change from the hypoxic phase to the recovery phase (return to physiological values).
This project aims to test the accuracy of pulse oximeters during mild, moderate, and severe hypoxia, i.e., a range of arterial HbO2 saturation from 100 down to 70%. A typical study will include at least ten subjects (at least 200 necessary data points to meet the ISO 80601-2-61:2017).
The purpose of this study is to validate the SpO2 accuracy of pulse oximeter equipment in comparison to "gold-standard" measurements of blood SaO2 by a CO-oximeter
This investigation is a multi-center study that will demonstrate that the GE Monitor meets equivalency and/or accuracy and/or performance criteria. This investigation will compare the test device(s) to itself, or one of the reference parameters, or a combination of parameters, including NIBP, temperature, SpO2, respirations, and ECG.