17 Clinical Trials for Various Conditions
The goal of this study is to learn if the prototype adjustable prone positioning frame is a feasible design for use during neurosurgical procedures which utilize intraoperative magnetic resonance imaging (iMRI). The main questions it aims to answer are: * Is the prototype prone positioning device design feasible for use during neurosurgical procedures which utilize intraoperative MRI? * Does use of the prototype device place the patient at increased risk of complications compared to the standard positioning pads? Researchers will place patients in the prone position on the prototype device during neurosurgical procedures that utilize intraoperative MRI and observe for any problems with the positioning device or complications attributable to the positioning device.
In the COVID-19 healthcare crisis, one possible treatment therapy that has generated the most discussion is that of proning, or the position in which the patient lays face down as opposed to face up for a period of time. As the pandemic continues, this method has been more widely adopted to increase oxygen saturation in patients in respiratory distress. While proning research is both ongoing and extensive in the ICU population of COVID-19 patients, minimal research has been conducted with acute care patients. The researchers aim to address this gap with this study. The researchers used a systematic approach to educate patients and staff about patient self-proning, implementing self-proning every 2 hours, and monitoring escalation of oxygen levels, as well as length of stay in the acute care unit. The researchers hypothesized an improvement in oxygen saturation levels as evidenced by no escalation of respiratory care (i.e. higher levels of oxygen needed, transfer to higher level of care), resulting in shorter lengths of stay for the intervention population.
Awake prone positioning (APP) has been proven to reduce the intubation rate for patients with COVID-19-induced hypoxemic respiratory failure. Our recent meta-analysis found APP was only effective for patients who were treated by high-flow nasal cannula (HFNC), not for patients using conventional oxygen therapy (COT).In a recent multicenter RCT, Perkins and colleagues reported that continuous positive airway pressure (CPAP) was superior to HFNC and conventional oxygen therapy in reducing intubation rate. Thus, it is essential to evaluate the physiological mechanism of APP under different respiratory supports, such as COT, HFNC, or CPAP. We hypothesize that HFNC or CPAP is more effective when combined with APP than COT combined with APP. Electrical impedance tomography (EIT imaging) has been broadly utilized to assess patient ventilation homogeneity and respiratory volume monitor (RVM) has been used to evaluate patient's tidal volumes breath-by-breath. In this study, 20 healthy volunteers will use different respiratory support devices (HFNC, CPAP, and COT) in different settings and their combinations withAPP in a random sequence, assessed by EIT and RVM.
Delayed cord clamping is a routine technique used in the delivery room. The baby remains attached to the umbilical cord and placenta for 30-60 seconds after birth to allow for maximal transfer of oxygen and blood to the newborn. This study seeks to determine the best position (on the back versus on the belly) for the newborn during the 30-60 seconds of delayed cord clamping.
This research aims to understand if prone positioning combined with high-flow nasal cannula (HFNC) or non-invasive positive pressure ventilation (NIPPV) safely reduce the rate of intubation in acute hypoxemic and/or hypercapnic respiratory failure secondary to COVID-19 infection.
The proposed study will be conducted to investigate the mechanism of patients' responses to prone positioning with coronavirus disease 2019 (COVID-19) acute respiratory distress syndrome (ARDS) and non-COVID-19 ARDS utilizing lung ultrasound.
Prone positioning is one of the few therapies known to improve mortality in ARDS. Traditionally, patients are proned for 16 hours per 24 hour period. Some retrospective data suggests improvement may persist beyond 16 hours. We aim to perform a pilot study comparing traditional prone positioning to prolonged prone positioning in patients with COVID-induced ARDS.
This study aims to determine if a strategy of recommending prone (on stomach) positioning of patients positive or suspected positive for coronavirus disease 2019 (COVID-19) requiring supplemental oxygen, but not mechanically ventilated, Is feasible in the inpatient setting. This study will be performed as a pragmatic pilot clinical trial to gain information relevant to the future conduct of a larger trial.
A pilot study to investigate the effects of the prone positioning (PP) on hospital patients diagnosed with COVID-19 pneumonia. Investigators that early self-proning may prevent intubation and improve mortality in patients with Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-COV-2). Up to 100 participants with a primary diagnosis of confirmed COVID-19 pneumonia will be enrolled to the study. All participants will be screened and those that meet inclusion and exclusion criteria will be enrolled to one of two groups: one with prone positioning (on the belly) and the other with standard supine positioning (on the back). The patient and nursing staff will monitor times spent in various positions. Outcome measures include incidence of intubation, max oxygen requirements, length of hospital stay, ventilator-free days, worsening of oxygenation saturation, and mortality.
Acute respiratory distress syndrome (ARDS) is a major complication among patients with severe disease. In a report of 138 patients with COVID-19, 20% developed ARDS at a median of 8 days after the onset of symptoms, with 12.3% of patients requiring mechanical ventilation. Efficacious therapies are desperately needed. Supportive care combined with intermittent prone positioning may improve outcomes. Prone positioning (PP) of patients with severe ARDS (when combined with other lung-protective ventilation strategies) is associated with a significant mortality benefit. In addition, PP for \>12 hours in severe ARDS is strongly recommended by clinical practice guidelines. The aim of this study is to compare the outcomes of prone positioning versus usual care positioning in non-intubated patients hospitalized for COVID-19.
The purpose of this trial is to test the hypothesis that at the end of 28 days, infants and children with acute lung injury treated with prone positioning would have more ventilator-free days than those treated with supine positioning.
In this pilot study, the investigator team aims to evaluate whether standardized prone positioning compared to usual positioning improves moderate to severe bronchopulmonary dysplasia (BPD) rates as assessed at 36 weeks post conceptional age in very low birth weight preterm infants with bronchopulmonary dysplasia.
Coronavirus disease 2019 (COVID-19) is an emerging infectious disease that was first reported in Wuhan, China, and had subsequently spread worldwide. Twenty-nine percent of COVID-19 patients may develop ARDS. Based on the potential beneficial mechanisms of HFNC and PP, whether early use of prone positioning combined with HFNC can avoid the need for intubation in COVID-19 induced moderate to severe ARDS patients needs to be further investigated.
The overall objective of this study is to determine whether a positional maneuver (e.g., prone positioning) decreases the need for escalation of respiratory-related care in patients with coronavirus (COVID-19) pneumonia.
This clinical trial studies prone patient positioning in reducing tumor motion and improving breathing reproduction in patients with lung cancer undergoing radiation therapy. Prone patient positioning during radiation therapy may help kill tumor cells without harming normal tissue.
This study seeks to determine in Neonatal Intensive Care Unit (NICU) patients specific improvements in pulmonary function which may occur when an infant is ventilated in the prone as compared to the supine position. Modest improvement in oxygen has been reported to occur with prone positioning, but the exact etiology for this change is not clear. A special incubator designed as an integrated care system allows routine care and the measurement of both patient and ventilator breaths during mechanical ventilation. This study will utilize this device to evaluate in NICU ventilated patients whether specific changes in pulmonary function accompany position changes, and whether these are correlated to a change in pulmonary gas exchange.
The goal of this clinical trial is to examine the impact of an educational intervention on infant motor skill development. The main question it aims to answer is: Question 1) Does exposure to an educational intervention on infant development positively impact infant motor skill development? Researchers will compare the intervention group to the treatment as usual group see if there are differences in infant motor skill development. The purpose of the proposed study is to determine if tummy time, play positions, screen time, and use of baby gear impacts early motor skill development in children. This is a Pilot study. A Pilot study is a small study that is carried out to collect information that will help in the planning of a larger study with the same topic.