138 Clinical Trials for Various Conditions
The goal of this observational study is to continuously assess cerebral autoregulation in patients with subarachnoid hemorrhage (SAH) using cerebral oximetry index (COx) and hemoglobin volume reactivity index (HVx). The main question it aims to answer is: Whether optimal perfusion pressure is dynamic and changes with time in patients with SAH, and that autoregulation is disrupted in patients during the course of SAH, contributing to delayed cerebral ischemia (DCI).
The purpose of this research is to measure brain activity in individuals with mood disorders and memory problems using a simple, safe, and noninvasive method called functional near-infrared spectroscopy (fNIRS). By comparing brain activity across different groups and relating it to symptom severity, this study aims to improve our understanding of how these conditions affect the brain.
This is a single-visit non-invasive study of healthy volunteer subjects. Brain activity will be measured with infra-red light sensors attached to a cap worn on the head, while both ears are gently stimulated with plastic filaments.
Participants recruited for this study will be breast cancer or gynecological cancer patients who agree to participate in an exercise study examining the effects of chemotherapy on muscle mitochondrial oxidative capacity, a measure of skeletal muscle health. Participants will ride a stationary bicycle and the quadriceps muscle will be non-invasively evaluated.
The purpose of this study is to assess the utility of renal near infrared spectroscopy in the outpatient setting during the interstage period. The primary aim will be to determine the correlation between oxygen extraction ratio ((arterial pulse oximetry - renal near infrared spectroscopy value)/arterial pulse oximetry value) with need for inpatient admission or intervention. Secondary aims will be to determine the correlation of the oxygen extraction ratio with weight gain, neurodevelopment, unexpected admissions, systemic ventricular strain by echocardiography, and Glenn hospitalization admission characteristics.
This study attempts to measure pain severity, location of pain, and feasibility in patients with cancer using functional near-infrared spectroscopy and virtual reality relaxation programs. Functional near-infrared spectroscopy and virtual reality relaxation programs may help relieve pain in patients with cancer who are receiving treatment.
The purpose of this study is to evaluate the safety and feasibility of using a portable neuroimaging device called functional near-infrared spectroscopy (fNIRS) to successfully analyze fNIRS data in individuals with chronic TBI during treadmill training augmented with VR.
Premature infants are more likely to develop hypoxemia after birth often requiring invasive and Non-Invasive Mechanical ventilation and surfactant therapy to improve alveolar gas exchange and oxygen transport. Near-infrared spectroscopy (NIRS) has been used to detect pulmonary regional oxygen saturation (rpSO 2 ) as well as cerebral regional oxygen saturation (rcSO2 ) and evaluate the oxygenation state of the lung and brain. This is a prospective observational study to evaluate utility of rpSO2 and compare it with rcSO2 in preterm infants born between 23-32 weeks of gestation receiving noninvasive ventilation and surfactant treatment. Enrolled patients will be continuously studied with placement of NIRS monitor using cerebral sensor (INVOS™) for 6 hrs and 15 min before and after surfactant administration. Pulmonary regional oxygen saturation (rpSO2) with a sampling interval of 6 s will be followed for 6hrs.
Background: Neurocognitive disorders affect how the brain uses oxygen. They may affect mental development in children. These disorders can be studied with imaging scans that use radiation; however, these methods are not ideal for research on children. Two technologies-functional near-infrared spectroscopy (fNIRS) and diffuse correlation spectroscopy (DCS)-use light to detect changes in brain activity. These methods are safer, and they can be used in a more relaxed setting. In this natural history study, researchers want to find out whether fNIRS and DCS can be a good way to study people with neurocognitive disorders. Objective: To find out whether fNIRS and DCS can be useful in measuring brain activity in people with neurocognitive disorders. Eligibility: People aged 6 months or older with neurocognitive disorders. These can include Niemann-Pick disease type C1 (NPC1); creatine transporter deficiency (CTD); Smith Lemli Opitz syndrome (SLOS); juvenile neuronal ceroid lipofuscinosis (CLN3 disease); and Pheland-McDermid (PMS) syndrome. Healthy volunteers are also needed. Design: Participants will have a physical exam. They will have tests of their memory and thinking. Participants will sit in a quiet room for the fNIRS and DCS tests. A snug cap (like a cloth swim cap) will be placed on their head. The cap has lights and sensors. Another sensor will be placed on their forehead. Participants will perform tasks on a computer. This testing will take 45 to 60 minutes. The tests will be repeated within 1 to 4 weeks. Participants will be asked to return for repeat tests 1 year later.
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....
Chronic stroke survivors suffering from weaknesses or movement difficulties in their hand/arm are provided a system to aid in at-home rehabilitation for 6 weeks. This rehabilitation system includes a headband that measures and provides feedback from the brain during rehabilitation, together with tablet-based software. Throughout the 6 week rehabilitation period (as well as in a follow-up session 1 month afterwards) several assessments are taken to understand the effect of this rehabilitation on participant's movement abilities, as well as their brain activity.
The primary aim of this pilot trial is to enhance the efficacy of the Mindfulness-Oriented Recovery Enhancement (MORE) intervention by adding neurofeedback (NF) of the Orbitofrontal Cortex (OFC) as an adjunct to the savoring component of MORE. We hypothesize that the use of NF to train OFC responses during savoring will amplify patients' ability to savor and thereby increase brain responsivity to natural rewards; such enhanced reward responding will in turn be associated with improvements in clinical outcomes (e.g., pain, analgesic use).
This is a three-phase pilot prospective study to develop a devise capable of detecting changes in cortical blood volume and oxygenation due to noxious stimuli. The hypothesis of the study is that optical signal changes corresponding to blood volume and oxygenation will be detected with functional near infrared spectroscopy in the prefrontal cortex of children under general anesthesia in response to peripheral noxious stimuli produced from the neurophysiological monitoring (SSEP).
Researchers are trying to assess how accurately and safely NIRS non-invasive monitoring can detect changes in intracranial pressure to determine if this noninvasive device can be used instead of invasive monitoring with Licox in the future.
The benefit experienced by some patients when treated with dry needling,1 combined with the field-expedient nature of this intervention, make dry needling uniquely suited for the military healthcare environment. An improved understanding of the mechanism by which dry needling exerts its clinical benefits will allow clinicians to adopt more efficacious treatment strategies for Soldiers with chronic musculoskeletal pain. The proposed study will utilize functional near-infrared spectroscopy and structural health monitoring (SHM) to provide insight on the central and peripheral mechanisms of dry needling. Phase 1 will compare the cortical pain pathway response of thirty participants with non-traumatic shoulder pain receiving either true or sham dry needling. An additional 15 participants will be enrolled to receive true dry needling to determine if brain responses may be able to predict clinical improvement (responders versus non-responders) in phase 2. Since chronic pain after musculoskeletal injury is the leading cause of medical discharge from service and a primary source of disability in the U.S. military2,3, improved complementary and alternative treatment strategies have the potential to have a large impact on both military readiness and health care costs within the Armed Forces.
Develop a NIRSIT testing protocol that can be administered in the diagnostic setting and reliably distinguishes the symptoms and severity of depression, with the help of repeated measure (up to five visits per subject) comparison of patients being treated for Major Depressive Disorder with control, non-depressed subjects.
Endothelial dysfunction contributes to vaso-occlusion and acute pain in sickle cell disease. Near infrared spectroscopy (NIRS) technology can measure tissue oxygenation and endothelial function. The main objective of this study is to study the natural history of tissue muscle oxygenation using NIRS in pediatric sickle cell subjects experiencing acute pain and pediatric sickle cell patients in steady-state.
Background: New ways to study the brain as people move include near-infrared spectroscopy (NIRS) and electroencephalography (EEG). NIRS uses laser light shone through the scalp to look at blood flow in the brain which increases with movement. EEG records electrical activity in the brain. Little is known about brain activity while children learn new motor skills. Researchers want to learn more about how small children with and without cerebral palsy use their brain to control their body. This may help them find new ways to help children move better. Objectives: To learn more about how infants and young children with and without cerebral palsy use their brain to move their arms and legs. Eligibility: Children ages 3 months - 5 years with and without cerebral palsy Design: Participants will be screened with: * Physical exam * Questions for the parents about the child s health Participants will have at least 1 study session. Some may have up to 34 (all optional). In the sessions, participants will do motor tasks along with some or all of the following: * Light sensors placed on the scalp, held there with a cap or Velcro straps. * Small metal disks placed on the scalp with a cap or straps, with gel between them. * Motion capture recording. Balls attached to the arms and legs by stickers, straps, or a garment are tracked by infrared and video cameras. Motor tasks include reaching, clapping, kicking, and standing. Participants may be placed in a toy or device that uses a motor to move their limbs. Participants head size, hair, and skin will be assessed. Parents will answer questions about their child s typical movements.
Early hemodynamic effects (within 3 hours of life) of Delayed Cord Clamping compared to Umbilical Cord Milking are still unknown. Four sites experienced in the use of NIRS and who have appropriate data collection equipment in the delivery room (Alberta, Ulm, Cork and San Diego) will obtain and report the physiological changes with UCM and DCC from birth until 24 hours of life. This data will yield the largest available sample of continuously recorded heart rate, cerebral tissue oxygenation, peripheral oxygen saturation, airway pressure, and administered FiO2 to delineate the short term responses to two methods of placental transfusion. In our initial trial we demonstrated increased blood pressure from 3-15 HOL with UCM compared to DCC in premature newborns \<32 weeks, but did not show any differences in cerebral oxygenation.
Using cerebral and renal near infrared spectroscopy monitoring to determine PDA closure in preterm infants after completing medical treatment for a hemodynamically significant PDA.
This study involves looking at Cerebral oximetry measurements in pediatric and neonatal patients who are experiencing a critical illness. Such as Altered mental status, seizures, trauma, sepsis, etc.
The primary aim is to utilize near-infrared spectroscopy (NIRS) in patients under general anesthesia to measure changes in brain blood flow in the bilateral somatosensory cortices and the prefrontal cortices in response to noxious stimulation.
This is a single-center, non-randomized study.The study staff will use the InSpectraTM tissue oxygen saturation (StO2) monitor manufactured by Hutchinson Technology to measure baseline StO2 levels after applying the noninvasive probe to the thenar eminence. After a stable reading is obtained, a blood pressure cuff will be inflated 40 mmHg above the obtained systolic pressure and the rate of desaturation (Rdes; % × sec-1) will be recorded. After 3 minutes or once the StO2 level comes to zero (whichever is earlier), the cuff pressure will be released and the rate of reperfusion (Rres; % × sec-1) will be measured. The investigators hypothesize that heart failure in children causes a baseline lower thenar tissue oxygen saturation (StO2), a faster rate of desaturation (Rdes) and a prolonged rate of reperfusion (Rres). The investigators also hypothesize that these changes will correlate with the severity of heart failure. The results of this study will provide groundwork for studies looking at correlation of therapy modification based on the combination thenar StO2 and clinical presentation.
This is a multi-center, investigator initiated study that will prospectively examine treatment strategies and outcomes of patients who underwent clinically-indicated Near Infrared Spectroscopy (NIRS). The information collected will be used to determine the frequency of NIRS imaging performed at the participating sites and to examine the clinical outcomes of the NIRS-detected Lipid Core Plaques (LCPs).
The purpose of this study is to measure cerebral oxygenation and cardiac output of total shoulder replacement patients undergoing general anesthesia (GA) and positive-pressure ventilation (PPV). We hypothesize that cerebral desaturation occurs frequently during GA with PPV, but is rare during GA and spontaneous ventilation. We also hypothesize that cardiac output usually is well maintained under GA in the sitting position when epinephrine is used, but that decreased cardiac output increases the risk of cerebral desaturation.
This is a study to determine whether the Near infrared spectroscopy (NIRS) optical density (OD) measurement with an Infrascanner device accurately identifies the presence of an intracranial hematoma in pediatric patients ≤18 years of age after known or suspected traumatic brain injury compared with head computerized tomography (CT) scans as the gold standard.
Clinical studies are required to validate the hepatic NIRS monitor with other regional and global hemodynamic parameters and to evaluate its clinical use for continuous non-invasive hemodynamic monitoring. Using newer NIRS sensors the correlation between hepatic regional oxygen saturation and hepatic venous oxygen saturation (SvHO2) needs to be determined. If found to correlate then the NIRS can be used to evaluate early liver transplant failure and/or hepatic artery thrombosis, used as an early marker for shock, and necrotizing enterocolitis, and finally used in the outpatient setting to evaluate patients with chronic liver pathologies. If our validation study finds that NIRS monitors are an appropriate marker of hepatic venous saturation then it will lead to further clinical studies.
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.
The aim of this study is to determine whether we can predict the intracranial pressure using near infra-red spectroscopy
Testicular torsion is the spontaneous twisting of the testis and its blood vessels, resulting in acute pain, vascular compromise and death of the testicle if unrelieved quickly. In this study, investigators will test a near-infrared spectroscopy (NIRS) device that rapidly and non-invasively measures deep tissue oxygen saturation.