View clinical trials related to Oxygen Saturation.
Filter by:In this clinical study, the investigator will compare vital signs measurements obtained using the non-invasive, wireless VitalTracert monitoring devices (both a VT-Watch and a VT-Patch) to a proprietary continuous physiological data collection tool in 40 patients including 16 patients with an invasive arterial line catheter (radial or femoral) at the pediatric intensive care unit.
Aims and objectives: The aims of this study is to determine the effect of incentive spirometry on arterial blood gas and venous oxygen saturation and vital signs, in addition to pulmonary rehabilitation care before and after coronary artery bypass graft surgery. The objectives; were to accelerate the healing process by reducing pulmonary complications. Background: Nurses, who carry much of the responsibility for the basic care of patients surgery play a highly important role. As a result of strong care, the recovery process of the patients will be accelerated, the hospitalization period will be shortened and morbidity and mortality will be prevented. Design and Methods: Included in this randomized controlled study were 32 patients who underwent coronary arterial bypass graft surgery (16 in experimental group; 16 in control group) in a university hospital. Incentive spirometry is applied in the study along with an identified inspiration technique and an expiration technique that has not been previously encountered in literature. The preoperative measured values of the patients were compared with the arterial blood gas and venous oxygen saturation values and vital signs on the first, second and third postoperative days. In this study, the CONSORT checklist was followed.
The study will be conducted using the crossover randomized controlled method. Preterm infants who began oral feeding from the neonatal intensive care unit will be divided into two groups through randomization in the computer environment. Following the randomization, infants in Group 1 will be fed by applying ''elastic sac'' at the first feeding hour after they are included in the study and in the next feeding they will be fed without performing any application. Infants in Group 2 will be fed without performing any application at the first feeding hour after they are included in the study and they will be fed at the second feeding hour by applying ''elastic sac''. Infants in both groups will be fed by the researcher with a bottle in a semi-fowler right lateral position during feeding hours. During feeding, the effect of the elastic sac on the infant's feeding status and physiological parameters will be evaluated.
Oxygen treatment is common in management of preterm babies requiring intensive care. Delivery of too much or too little oxygen increase the risk of damage to eyes and lungs, and contributes to death and disability. Oxygen control in preterm infants requires frequent adjustments in the amount of oxygen delivered to the baby. This is generally performed manually by a clinician attending the baby, and generally directed to maintaining a specific range of blood oxygen saturation. The manual control often results in only half of the time in the specified range, with the baby experiencing high and low blood oxygen saturations. The technology being studied is designed to assist the clinician in maintaining blood oxygen saturation within target range by measuring oxygen saturation and automatically adjusting the amount of oxygen delivered for babies receiving high velocity nasal insufflation (an advanced form of high flow oxygen therapy). The proposed study will evaluate the efficacy and safety of the automatic control of oxygen by the new technology, as compared to manual control, among babies receiving high velocity therapy in a neonatal intensive care unit.
The vital signs (pulse, systolic and diastolic blood pressure, respiratory rate, oxygen saturation and body temperature) are critical in assessing the severity and prognosis of infections. The devices used today for measuring the vital signs have to be in physical contact with the patients. There is an apparent risk of transferring infections from one patient to the next (or to healthcare professionals). Accurately obtaining vital signs is also important when managing other categories of patients where it may be relevant to obtain some of the vital signs such as pulse and blood pressure. This project aims to evaluate a new camera-based system for contactless measurement of vital signs.
The disease caused by SARS-CoV-2, has derived a pandemic in which its evolution and complications depend on the immune capacity of the host. The virus has been characterized by presenting an inflammatory cascade, increased by the overproduction of proinflammatory cytokines, the decrease in metalloenzymes and also the rapid spread of the virus. There are several lines of treatment, however, nutritional treatment only considered a caloric intake. For this reason, this study will evaluate the evolution of patients with COVID-19 assisted by nutritional support system and the effect of this therapy in reducing complications and comorbidities. Research question: Will the nutritional support system reduce complications in stage III positive COVID-19 patients with comorbidities (type 2 DM, SAH, overweight / obesity with BMI <35), with a better benefit than that achieved with the conventional nutritional treatment ?. Hypothesis: The nutritional support system will reduce the complications of patients with COVID-19 in stage III with comorbidities. General Objective: To determine the effect of the use of a nutritional support system on complications in patients with COVID-19 in stage III with comorbidities. Methodology: A controlled, blinded, randomized clinical trial will be conducted in patients with COVID-19, hospitalized at the ISSEMYM Toluca Arturo Montiel Rojas Medical Center, who meet the inclusion criteria. The evolution of the group of patients receiving the nutritional support system (NSS) and the normal diet implemented by the hospital will be evaluated against the group of patients receiving only the diet, using clinical examination, laboratory and cabinet tests during their hospital stay. Statistical analysis: for independent groups with normal distribution, Student's T will be applied. If the distribution does not meet normality criteria, a Mann Whitney U will be performed; Two-way ANOVA will be applied to monitor the groups over time with normal distribution. If the distribution does not meet normality criteria, a Friedman test will be performed, in both cases post hoc tests will be performed. The results will be analyzed using version 6 of the Graphpad Prism software.
This is a cross-sectional diagnostic study. In this study, wrist oxygen saturation (SwO2) will be measured by Huami smart wearable device, SpO2 of pulse oxygen saturation monitor with medical device registration certificate and SaO2 of arterial blood gas analysis will be used as reference values. A total of 180 group data will be measured in 30~50 patients with SaO2/ SpO2 between 80%∽100%. The investigators aim to evaluate the accuracy of blood oxygen saturation detection function of huami smart wearable device.
The purpose of this study was to assess the effectiveness of Kangarooing small babies on the back of a mother
The study will be conducted with the Crossover Randomized Controlled Method. The infants who have attained oral feeding in the neonatal intensive care unit will be divided into two groups via randomization in the computer environment. After the randomization, kangaroo care will be applied to the infants in Group 1 during the first feeding hour when they are included in the study and they will be breastfed by their mothers without any other application during the next feeding. On the other hand, no application will be performed on the infants in Group 2 during the first feeding hour when they are included in the study and kangaroo care will be applied to them during the second feeding hour. The infants in both groups will be breastfed by their mothers during the feeding hours.
Observational study comparing patients with lung protective ventilation (LPV) following the consensus guidelines by Young C with patients getting routine lung ventilation, both during opioid free anesthesia (OFA).