38 Clinical Trials for Various Conditions
Pulse oximeters are common medical devices used to measure blood oxygen saturation (SpO2). These devices are either stand-alone or integrated into physiologic monitoring systems, using 2 wavelengths of light to determine SpO2. With recent advances in technology, Spatial Frequency Domain Imaging (SFDI) uses a range of light wavelengths from red to near-infrared (NIR), and smartphones such as Apple Watch, and transcutaneous oximetry TCOM now have pulse oximetry capabilities. Since it is possible that most patients could utilize this technology, we sought to assess the accuracy, reliability, and usability of these oximeters and compare outcomes. In this study, a cohort of 20 healthy volunteers above the age of 18 including males and females of different skin colors will be assessed at the same site and data will be compared. We aim to provide a set of data that will support the clinical and scientific community and identify more than one reliable skin oxygen measurement modality.
Sickle cell disease (SCD) is an inherited disorder of the blood. SCD can injure the smallest blood vessels, which can cause pain and damage organs all over the body. Some treatments are available, but researchers need better ways to monitor the effects of these treatments. An imaging technique called near infrared spectroscopy (NIRS) may be helpful. Objective: To test NIRS as a tool for measuring oxygen levels, blood flow, and the makeup of skin and muscle in patients with SCD. Eligibility: People aged 18 years and older with SCD. Healthy volunteers are also needed as a comparison for the changes in SCD patients. Design: Participants will be screened. They will have a physical exam, and 1 teaspoon of blood will be drawn. Participants will have NIRS testing on their second visit. Probes will be placed on their skin. A blood pressure cuff will be placed on their arm. The cuff will be filled with air for up to 5 minutes and then released. Participants may be asked to breathe at a certain rate or hold their breath during these measurements. At this visit, participants will also have an ultrasound exam to get images of their heart. They will be monitored while they walk for 6 minutes. They will have 1 tablespoon of blood drawn. Their height, weight, and vital signs will be measured. Participants may be asked to return for up to 4 additional visits for NIRS testing within 120 days, but this is optional. The visits must be at least 3 days apart. Each visit will last up to an hour....
This study is a prospective, multicenter, double-blind, 1:1 randomized clinical trial. The purpose of this study is to demonstrate that the use of Celliant Socks increases tissue oxygenation (via oxygen saturation, StO2) and incidence of wound closure in subjects with diabetic foot ulcers. This study will use hyperspectral imaging and wound assessment to measure these outcomes. The study will enroll 254 evaluable subjects total, 127 per arm to meet the Primary Endpoint. Enrollment may continue up to twenty-five hundred (2500) evaluable subjects total to meet the Key Secondary Endpoint of complete wound closure.
Patent ductus arteriosus (PDA) is a common problem in the neonatal intensive care unit and can be secondary to prematurity or congenital heart disease (CHD). PDA is the most common cardiovascular abnormality in preterm infants, and is seen in 55% of infants born at 28 weeks, and 1000 grams or less. In addition to producing heart failure and prolonged respiratory distress or ventilator dependence, PDA has been implicated in development of broncho-pulmonary dysplasia, interventricular hemorrhage, cerebral ischemia, and necrotizing enterocolitis (NEC). In an Israeli population study 5.6% of all very low birth weight infants (VLBW) were diagnosed with NEC, and 9.4% of VLBW infants with PDA were found to have NEC. In a retrospective analysis of neonates with CHD exposed to Prostaglandin E found that the odds of developing NEC increased in infants with single ventricle physiology, especially hypoplastic left heart syndrome. The proposed pathophysiological explanation of NEC and PDA is a result of "diastolic steal" where blood flows in reverse from the mesenteric arteries back into the aorta leading to compromised diastolic blood flow and intestinal hypo-perfusion. Prior studies have demonstrated that infants with a hemodynamically significant PDA have decreased diastolic flow velocity of the mesenteric and renal arteries when measured by Doppler ultrasound, and an attenuated intestinal blood flow response to feedings in the post prandial period compared to infants without PDA. Near Infrared Spectroscopy (NIRS) has also been used to assess regional oxygen saturations (rSO2) in tissues such as the brain, kidney and mesentery in premature infants with PDA. These studies demonstrated lower baseline oxygenation of these tissues in infants with hemodynamically significant PDA. These prior NIRS studies evaluated babies with a median gestational age at the time of study of 10 days or less. It is unknown if this alteration in saturations will persist in extubated neonates with PDA at 12 or more days of life on full enteral feedings. In the present study the investigators hypothesize that infants with a PDA, whether secondary to prematurity or ductal dependent CHD, will have decreased splanchnic and renal perfusion and rSO2 renal/splanchnic measurements will be decreased during times of increased metabolic demand such as enteral gavage feeding. To test this hypothesis the investigators have designed a prospective observational study utilizing NIRS to record regional saturations at baseline, during feedings, and after feedings for 48 hours.
The study will evaluate changes in transcutaneous oxygen tension (tcPO2,), and the inferred change in local cutaneous blood flow, in healthy subjects wearing a control and a 100% Celliant® fiber upper torso garment.
Hypothesis: Elevated miR210 in the epidermis (outer layer of skin) of ischemic human wound edge tissue (tissue that has a lack of blood flow to it) is associated with poor healing outcome in a setting of standard clinical care. Aim of the study: To determine whether elevated miR-210 in the epidermis of ischemic human wound edge tissue is associated with poor healing outcome in a setting of standard clinical care. This study will last 14 weeks. Adult patients, who are non-diabetic or tightly controlled diabetic, and, who have chronic venous leg ulcers that have been open/not healed for at least 12 weeks, will be enrolled in this study. Patients will be recruited from the Indiana University Health Comprehensive Wound Center (CWC). On days 0, 14 and 28, patients will have the following performed: measurements and photographs taken of their wound; TCOM (transcutaneous oxygen measurement) or ABI to measure the amount of oxygen in the wound tissue, if receiving a tissue biopsy; and two 3-mm punch biopsies from the same wound/ulcer. Biopsies will not be taken if the wound has closed by day 14 or day 28. Additionally, patients' medical records will be reviewed throughout the study for 98 days (14 weeks) after enrollment to determine the final status of the wound as healed or not-healed. ABI will be completed per study personnel at initial visit for all consented subjects to ensure subject eligibility (as listed TCOM\<30 mmHg in exclusion criteria). If ABI's are unable to be obtained, TCOM will be performed. There will be a total of 5 visits for this study (6 total visits for patients with open wounds on day 28 of the study). Visits will occur on days 0, 7, 14, 21,28.
There is an increasing incidence of Necrotizing Enterocolitis (NEC) affecting the premature infant population, principally those with associated risk like extreme prematurity, extreme low birth weight, associated co-morbidities (Congenital heart disease, perinatal asphyxia) and those born in hospitals with limited resources for optimal neonatal care. Near Infrared Spectroscopy (NIRS), has been used in premature infants to evaluate changes in cerebral perfusion and oxygenation. (1) It provides real time insight into the oxygen delivery.(3) In the premature patient population, many neurologic injuries occur as a result of prenatal (pre-existing) and/or postnatal disturbance on oxygen delivery. NIRS has been focused in cerebral monitoring. Light easily penetrates through neonatal bone and skin tissue, and allows to monitor the subjacent oxygen content. Early studies were performed to validate NIRS measurements and have established normative data.(4-6) The non-invasive method of monitoring cerebral hemodynamics and oxygenation has revolutionized the intensive care units in patients at risk for neurological injuries. This method has been successfully validated to monitor neonatal cerebral oxygenation in different clinical settings and study protocols. (7) NIRS provides non-invasive, continuous information on tissue perfusion and oxygen dynamics. One of the biggest challenges of NEC spectrum diseases is in the making of early diagnosis. It is important to monitor not just cerebral perfusion but also the intestinal oxygenation.(8,9) Previous studies with NIRS have demonstrated that premature infants change their cerebral - splanchnic oxygenation ratios during feedings.(10) Guy et al. performed NIRS in premature piglets to demonstrate association of perfusion change with NEC spectrum(11,12); these studies suggest evidence that NIRS could be a useful diagnostic tool in the premature infant population trough abdominal NIRS (a-NIRS) measurement capable of detecting alterations in intestinal oxygenation and perfusion. In summary, a-NIRS could be use in the premature infant population to define reference values, especially in patients at risk, which would then facilitate the early diagnosis of NEC spectrum diseases.
Necrotizing enterocolitis (NEC) is the most common gastrointestinal emergency encountered in the newborn intensive care unit and represents a significant cause of morbidity and mortality in infants born prematurely. Among possible risk factors, a strong association between elective RBC transfusions in premature infants with anemia and the subsequent development of NEC has been consistently observed (6-11). However, a significant (and increasing) number of VLBW infants with anemia are managed with erythropoiesis stimulating agents (such as Epo) and iron and do not receive RBC transfusions during their hospital stay. The present study proposes to study this particular group of VLBW infants that remain with low (\<28 %) hematocrit while receiving full enteral feedings. The investigators hypothesize that significant anemia in VLBW infants will be associated with a baseline low cerebro-splanchnic oxygenation ratio (CSOR) (\<0.75) as measured by NIRS, and that nasogastric feedings (NGF) in those particular patients will lead to further decreased splanchnic oxygenation. The investigators further postulate that CSOR values will be significantly lower among VLBW that develop NEC as compared to infants that do not.
1. Quantitative validation of non-contact oxygenation imaging by the CWC imaging system 2. Quantitative validation of non-contact vascular function imaging by the CWC imaging system 3. Evaluation of the clinical usability of the CWC imaging system for further technology development and engineering improvement
The purpose of this study is to test whether after an Ivor Lewis esophagectomy (the removal of a portion of the stomach and esophagus with re-attachment) there is an association between the intraoperative level of oxygen at the site where the esophagus is re-attached to the stomach (measured using the Wipox), and the incidence of a disruption at the site of the attachment after the surgery.
Adequate tissue oxygenation is required for effective white blood cell function and bactericidal activity. Decreased tissue oxygenation is a risk factor for perioperative wound infections. Regional anesthetic techniques result in a functional sympathetic block and may increase tissue oxygenation. The purpose of this study is to evaluate changes in tissue oxygenation using a non-invasive Near-infrared spectroscopy (NIRS) device. The current study will evaluate changes in tissue oxygenation following regional anesthetic techniques (peripheral nerve blockade and neuraxial techniques such as caudal block) in pediatric patients). Regional anesthesia will induce a sympathetic blockade and improve tissue oxygenation.
To perform a pilot study of the S-FLARE imaging system, which uses low levels of safe, invisible, near-infrared light to measure tissue oxygenation during breast reconstructive surgery and to compare S-FLARE measurements to the gold standard, FDA-approved, the ViOptix optical probe.
The objective is to define patient eligibility for hyperbaric oxygen therapy and to evaluate wound healing progression using a new hyperspectral imaging technology.
This study involves women who have had a diagnosis of breast cancer, and have had a lumpectomy with radiation treatments completed in the past year. The study will determine the level of oxygen in the skin of the breast that has been radiated, compared with the normal skin of the opposite breast. The purpose of this study is to determine if there is a decrease in oxygen levels in the skin which has been radiated, hopefully to find a treatment to limit skin damage caused by radiation treatments, for women with breast cancer in the future.
The fit of the residual limb within a prosthetic socket is a primary concern for many amputees. A poor fit can lead to skin irritation, tissue breakdown, and pain. Further, amputees with diabetes or vascular dysfunction often have difficulty maintaining healthy residual limb tissue; a condition that could be mitigated by the application of negative pressure (i.e., vacuum suspension). The aim of this research is to characterize the residual limb response to a vacuum suspension system and to measure prosthetic performance in comparison to a typical suction suspension system. The proposed research plan involves two sets of human subject experiments: (1) prospective, randomized cross-over study to quantify performance of a vacuum suspension system as compared to a total surface bearing suction socket in terms of pistoning, maintaining limb volume, step counts, and subjective measures of fit and (2) measurement of transcutaneous oxygen tension as a function of vacuum pressure.
Umbilical artery catheters (UACs) are associated with significant morbidity in preterm neonates however are necessary for the management of this high risk population. UACs have been linked to serious adverse events (SAEs) including arterial thrombosis, necrotizing enterocolitis, limb ischemia, and renal failure. Resonance Raman Spectroscopy (RRS), raman for short, is a technology that utilizes vibrational spectroscopy, rather than absorbance spectroscopy, to determine the oxyhemoglobin concentration in tissues. In this prospective, observational study, daily measurements of StO2 of low birth weight neonates using raman spectroscopy will be correlated with UACs.The study team hypothesizes that raman can detect changes in peripheral tissue oxygenation in the ipsilateral extremity to the UAC and that raman is more sensitive at detecting changes in peripheral tissue oxygenation then common metrics used to monitor neonatal hemodynamics. If successful, this study would demonstrate that raman can be used as an early marker of tissue oxygen deprivation in neonates with UACs and maybe used to guide management in other clinical scenarios where StO2 is affected.
The purpose of this study is to test a new way to measure the oxygen level in the mixed venous blood system (the system that carries blood collected from all over the body to the heart), which is a very important monitoring tool for the overall oxygen delivery to all our tissues. This new way measures the oxygen level in the mixed venous blood from outside the body, instead of measuring from the inside through a catheter (a thin, flexible plastic tube) that is placed by breaking the skin.
The goal of this observational study is to learn if the measures of tissue oxygenation from the MIMOSA Pro imaging device correlate to standard vascular assessment tools in patients who receiving a lower extremity vascular assessment. The main questions it aims to answer are: * Do the MIMOSA Pro tissue oxygenation measures correlate to Ankle-Brachial Index, Toe-Brachial Index, transcutaneous oximetry, and Doppler wave forms? * Do the MIMOSA Pro tissue oxygenation measures correlate with disease classifications for peripheral arterial disease, venous disease, and wound stage? * Is the MIMOSA Pro able to measure vascular status more often than other modalities? Participants will be asked to follow standard of care, and also allow for their legs to imaged by the MIMOSA Pro.
Investigation of the predictive value of Near Infrared Spectroscopy in Chronic Lower Extremity and Other Chronic non-healing Ulcers
Background: Obstructive sleep apnea (OSA) occurs when the blockage of the airway causes a person to stop breathing involuntarily for 10 seconds or more throughout the night during sleep. Pediatric OSA can be especially concerning and can have long-term effects. Researchers want to see how a monitoring device called near-infrared spectroscopy (NIRS) compares with the traditional techniques used in children s sleep studies. Objective: To learn about oxygen levels in the brain and limbs in children with and without sleep apnea using a wearable, point-of-care biosensor. Eligibility: Children aged 3-12 who have OSA and plan to receive treatment (OSA group) or who do not have OSA (NORM group). Design: Participants will be screened with a review of their medical records. If they have taken part in other NIH studies, that data will be reviewed as well. Participants in the NORM group will have 1 overnight study visit. Those in the OSA group will have 2 overnight study visits. Participants will do an overnight sleep study. They will have a physical exam and medical history. They will have a sleep study electroencephalography (EEG). For this, electrodes will be placed on their head. They will wear a gauze cap to keep the electrodes in place. Two NIRS probes made of a soft silicon will be placed on their forehead and arm. They will follow their normal bedtime routine. Their parent will stay overnight. The OSA group will have a second study visit 2 weeks to 12 months after they start treatment for their sleep apnea. They will repeat the sleep study.
The Purpose of the study is to test the hypothesis that administration of an S-nitrosylating (SNO) agent can improve tissue oxygenation during transfusion of packed red blood cells (RBCs).
The proposed research evaluates tissue oxygenation (StO2) as measured by resonance raman spectroscopy (RRS) in premature infants with and without patent ductus arteriosus (PDA). This is a prospective observational study of infants born at \< 30 weeks of gestation. The primary aim of this study is to determine if the difference in pre- and post-ductal StO2 as detected by RRS is more significant in premature infants with PDA in comparison to infants without PDA. The secondary aim of this study is to determine if the difference in pre- and post-ductal StO2 as detected by RRS is more significant in infant who develop serious adverse events.
The goal of this project is to identify neonates who are predisposed to Necrotizing Enterocolitis (NEC). the investigators will determine the effectiveness of non-invasive measures as well as biochemical markers to identify neonates early in the disease process. Thus, the investigators aim to identify infants with NEC prior to the onset of symptoms to institute or test treatments in the long term to prevent the progression of the disease in these infants.
A cerebral oximeter is a device that uses light to measure the amount of oxygen within the brain. It is similar to the device that measures the level of oxygen in the tip of the finger, known as a pulse oximeter. The cerebral oximeter consists of a sensor placed on the forehead that both emits and detects the amount of light absorbed. This study will determine how accurate the device is by comparing the displayed value on the monitor with blood samples taken simultaneously from the arterial blood in the wrist and venous blood in the neck. In order to test the device over a suitable range, the level of oxygen within the blood will be reduced in a controlled manner by reduction of the inspired oxygen concentration. This is the equivalent of ascending to an altitude of 16,000 feet. The study will be conducted in healthy volunteers.
Investigators are conducting research about oxygen levels in the body and whether it is possible to use a device to measure oxygen in the body's tissues noninvasively, without blood draws or a catheter (a plastic tube placed in a vein). Investigators would like to know how this device compares to standard measurements using blood from a catheter. This may help treat patients who may not be getting enough oxygen to their body.
The aim of this study is calibrate (adjust and tune) the CAS FORE-SIGHT Near-Infrared Spectroscopy (NIRS) monitor when used to measure the tissue oxygen saturation of internal organs (StO2). This is a measure of the amount of oxygen carried by the blood within the internal organs. In addition the study will assess the degree of similarities between StO2 and mean mixed venous oxygen saturation - a measure of the amount of oxygen carried in the blood returning to the heart.
A cerebral oximeter is a device that uses light to measure the amount of oxygen within the brain. It is similar to the device that measures the level of oxygen in the tip of the finger, known as a pulse oximeter. The cerebral oximeter consists of a sensor placed on the forehead that both emits and detects the amount of light absorbed. This study will determine how accurate the device is by comparing the displayed value on the monitor with blood samples taken simultaneously from the arterial blood in the wrist and venous blood in the neck. In order to test the device over a suitable range, the level of oxygen within the blood will be reduced in a controlled manner by reduction of the inspired oxygen concentration. This is the equivalent of ascending to an altitude of 16,000 feet. The study will be conducted in healthy volunteers.
Correlation of(OxyVu) values to to ABI, TBP, and TCOM in patients scheduled for foot level amputation because of critical limb ischemia, infection, or tissue necrosis.
This study is designed to test a prototype imaging instrument that relies on Medical HyperSpectral Imaging (MHSI) technology for the assessment and prediction of diabetic foot ulceration and wound healing. The imaging system utilizes the biomarkers of oxyhemoglobin (oxyHb) and deoxyhemoglobin (deoxyHb), in the upper layers of skin on the foot as: a metric for assessing wound healing, a reflection of microvascular disease, and determining tissue at risk for forming new ulcers. MHSI results will also be compare with ABI and TcPO2 measurements.
The goal of this trial is to assess the performance of the OxiplexTS-an absolute near-infrared oximeter-as an instrument to measure brain oxygenation and hemodynamics in sleep medicine as well as in the broader field of cardiovascular/cerebrovascular diagnostics.