7 Clinical Trials for Various Conditions
This is a prospective crossover study to compare the within-subject effect of the two target ranges of arterial oxygen saturation (SpO2), both within the clinically recommended range of 90- 95%. The specific objective of this study to evaluate the impact of targeting SpO2 within 93-95% compared to the 90-92% range on ventilatory stability in premature infants of 23-29 weeks gestational age (GA).
The purpose of this study is to determine whether breathing high levels of oxygen during surgery affects oxygen levels after surgery. The second purpose of this study is to determine whether giving positive end expiratory pressure PEEP and high oxygen together affects patients oxygen levels after surgery.
The purpose of this clinical study is to validate the SpO2 accuracy of the Medline ReNewal pulse oximetry sensors during non-motion conditions over the range of 70-100% SaO2 as compared to arterial blood samples assessed by CO-Oximetry. The end goal is to provide supporting documentation for the SpO2 accuracy validation of the ReNewal sensors. It is required that the Accuracy Root Mean Square (ARMS) performance of the ReNewal pulse oximetry sensors will meet a specification of 3 or better in non-motion conditions for the range of 70 - 100% SaO2 thereby demonstrating an acceptable SpO2 accuracy performance specification.
To validate the Respiration Rate Version 2.0 algorithm, housed in the Nellcor Bedside Respiratory Patient Monitoring System, for performance during motion conditions.
Validate the SpO2 accuracy of the WatchPAT compared to arterial blood CO-Oximetry
The objective of this trial is to determine if Near-infrared spectroscopy (NIRS) can accurately evaluate the degree of Peripheral Arterial Disease (PAD) during a Provocative Elevation Maneuver of the Lower Extremity (PEMLE) test, as compared to routine clinical assessments.
The general purpose of this study is to evaluate the feasibility, accuracy and performance of the Nellcor/Covidian 600-x and the Masimo rainbow technologypediatric and neonatal oximetry sensors over clinically relevant ranges of arterial saturations between 60-100%. The study objectives are as follows: 1. To evaluate the accuracy of a neonatal sensor in the saturation range of 70-80% in the following weight category: 0-5kg. 2. To evaluate the accuracy of neonatal and pediatric transmission (digit/foot/hand) sensors in the saturation range of 60-80% in the following weight categories: 0-5kg; and, 5-40kg. 3. To evaluate the accuracy of neonatal and pediatric transmission (digit/foot/hand) sensors in the saturation range of 80-100% in the following weight ranges: 0-5kg; and, 5-40kg.