32 Clinical Trials for Various Conditions
The goal of this clinical trial is to test whether a health communication message (infographic about obstructive sleep apnea; OSA) seen by parents whose children have OSA symptoms will be helpful in identifying children with OSA. The main questions it aims to answer are: * Will parents who see this health communication message be more likely to talk to their child's health care provider about OSA? * Does the use of a health communication message help health care systems identify more children with OSA? Participants are parents and children who are patients in a specific health care center. As part of clinical care, parents will answer screening questions about OSA symptoms (e.g., snoring, sleepiness) before their child's primary care visit. If their child has OSA symptoms, the health care provider will receive an alert suggesting further evaluation and possible referral for a sleep study or to a specialist. In this study, children with OSA symptoms whose parents answer screening questions will be randomized to one of two conditions: 1) Health communication message (parent sees message before their child's visit with a primary care provider); or 2) Usual care (no information about OSA or their child's risk). Researchers will compare groups to see if the health communication message helps identify more children with OSA.
This research study is designed to learn, first, whether two anesthetics have different effects on collapse seen within the upper airway during sleep endoscopy. A second purpose is to learn whether collapse at several levels of the upper airway is associated with obstructive sleep apnea that persists after adenotonsillectomy, the surgery that removes the tonsils and adenoids.
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.
To create a validated computational tool to predict surgical outcomes for pediatric patients with obstructive sleep apnea (OSA). The first line of treatment for children with OSA is to remove their tonsils and adenoids; however, these surgeries do not always cure the patient. Another treatment, continuous positive airway pressure (CPAP) is only tolerated by 50% of children. Therefore, many children undergo surgical interventions aimed at soft tissue structures surrounding the airway, such as tonsils, tongue, and soft palate, and/or the bony structures of the face. However, the success rates of these surgeries is surprisingly low. Therefore, there a need for a tool to improve the efficacy and predict which surgical option is going to benefit each individual patient most effectively. Computational fluid dynamics (CFD) simulations of respiratory airflow in the upper airways can provide this predictive tool, allowing the effects of various surgical options to be compared virtually and the option most likely to improve the patient's condition to be chosen. Previous CFD simulations have been unable to provide information about OSA as they were based on rigid geometries, or did not include neuromuscular motion, a key component in OSA. This project uses real-time magnetic resonance imaging (MRI) to provide the anatomy and motion of the airway to the CFD simulation, meaning that the exact in vivo motion is modeled for the first time. Furthermore, since the modeling is based on MRI, a modality which does not use ionizing radiation, it is suitable for longitudinal assessment of patients before and after surgical procedures. In vivo validation of these models will be achieved for the first time through comparison of CFD-based airflow velocity fields with those generated by phase-contrast MRI of inhaled hyperpolarized 129Xe gas. This research is based on data obtained from sleep MRIs achieved with the subject under sedation. While sedating the patient post-operatively is slightly more than minimal risk, the potential benefits to each patient outweigh this risk. As 58% of patients have persistent OSA postsurgery and the average trajectory of OSA severity is an increase over time, post-operative imaging and modeling can benefit the patient by identifying the changes to the airway made during surgery and which anatomy should be targeted in future treatments.
Obstructive Sleep Apnea (OSA) is prevalent in children and adolescents and associated with a variety of negative consequences affecting health and cognitive functioning. While clinical guidelines outline effective strategies for the diagnosis and management of pediatric OSA, rates of screening, identification, and management in primary care settings remain low. The aim of the current study is to evaluate the use of a computer decision support system module (CHICA-OSA) designed to improve adherence to OSA guidelines in pediatric primary care clinics. All children ages 1-11 years will be screened for snoring and other symptoms of OSA in the waiting room prior to a visit to their primary care provider (PCP). In clinics randomly assigned to CHICA-OSA, caregivers of snoring children will report on additional OSA symptoms, and PCPs will receive automated prompts in the electronic health record (EHR) to provide evidence-based evaluation and appropriate referral for testing. For children sent for polysomnography (PSG), PCPs will receive automated prompts to reassess symptoms at the next visit. We hypothesize that clinics using CHICA-OSA will have better adherence to guidelines, as evidenced by higher rates of identifying OSAS, referral for PSG, and re-assessment following treatment.
This study will evaluate effectiveness and adherence of the nasal expiratory positive airway pressure (NEPAP) device as an an alternate therapy for children with Obstructive Sleep Apnea Syndrome (OSAS). NEPAP is currently approved for use only in adults.
Obstructive sleep apnea results in decreased attentiveness and response times in patients. The objective of this study is to quantify these consequences in pediatric OSA patients using an already established tool for examining the results of sleep deprivation and fragmentation: psychomotor vigilance testing. PVT has been used in children, but has not been studied in pediatric OSA patients. This study aims to employ PVT along the normal course of diagnosis and treatment of pediatric OSA patients in our clinical practice at Arkansas Children's Hospital. The investigators hypothesize that pediatric OSA patients will exhibit decreased PVT scoring when compared to children without OSA, and that PVT can be used to diagnose and monitor treatment outcomes in these patients.
The purpose of this Post Approval research study is to assess ongoing safety and effectiveness of the Inspire therapy in adolescents and young adults (age 13-18) with Down syndrome and severe sleep apnea. The objective of the study is to provide an ongoing safety and effectiveness assessment of the Inspire UAS System in the Pediatric Down syndrome population.
Obstructive sleep apnea (OSA) is highly prevalent in children and is often caused by overgrowth of the child's adenoids and/or tonsils. Consequently, adenotonsillectomy (removal of the tonsils and adenoids) is the most common treatment of OSA in children, although just the tonsils or adenoids may be removed depending on the case. As well, OSA in children is often associated with cognitive dysfunction and mood issues, suggesting brain changes due to the condition. However, the link between brain changes, cognitive and moods issues, and OSA in children has not been thoroughly explored. Therefore, this study aims to examine brain changes, cognition and mood in pediatric OSA subjects compared to controls as well as before and after removal of the adenoids and/or tonsils. This study hopes to enroll 70 subjects, ages 7-12 years, 35 healthy controls and 35 subjects diagnosed with OSA and scheduled for an adenoidectomy and/or tonsillectomy. Control subjects will schedule one visit to UCLA and OSA subjects will schedule two. Upon the first visit, all subjects will undergo cognitive, mood and sleep questionnaires and MRI scanning. That will be the duration of the controls' participation in the study; however, OSA subjects will return 6 months later (after their adenoidectomy and/ or tonsillectomy) to repeat the same procedures. Sleep quality, mood, cognition and brain images will be compared between OSA and controls and between OSA subjects before surgery and after surgery.
The purpose of this research study is to determine if auto-adjustable positive airway pressure (APAP) is an effective way to treat obstructive sleep apnea (OSA) in children. APAP is a device similar to continuous positive airway pressure (CPAP) that delivers pressure to the upper airway (nose and throat) to keep the airway from collapsing while during sleep. The difference is that APAP adjusts the pressure throughout the night with changes in resistance during breathing, and CPAP gives the same amount of pressure the whole time it is worn. APAP is currently widely used to treat adults with OSA, however, this device has not yet been extensively studied in children. There are two parts to this research study. Subjects will begin using APAP at the time of enrollment for 4 to 8 weeks. The investigators will compare the pressure measured by the APAP device over the 4-8 weeks with the pressure determined by a CPAP titration study. The titration study is a second overnight sleep study that is routinely ordered when a child with sleep apnea starts treatment with CPAP. It tells the doctor what CPAP setting should be used. In the second part of this study The investigators will compare the effects of APAP with CPAP to see what is reported as more comfortable and is used during more hours of sleep. This part of the study will last about 8 weeks and each subject will use both CPAP and APAP for 4 weeks each. Currently when someone is diagnosed with OSA there is a delay in starting treatment with CPAP until the results of the titration study are available. In this research, patients could be allowed to immediately start treatment with APAP. If APAP is found to be as safe and effective as regular CPAP, treatment with APAP could be used as an alternative to CPAP.
The purpose of this study is to compare the cytokine profile of tonsillar and peripheral blood mononuclear cells in patients with obstructive sleep apnea (OSA) and to compare the blood mononuclear cell cytokine secretion profile between patients with obstructive sleep apnea and controls without apnea.
The primary objectives of the study are to determine the effectiveness of PROVIGIL treatment, compared to placebo treatment, in children and adolescents with excessive sleepiness (ES) associated with obstructive sleep apnea/hypopnea syndrome (OSAHS), as assessed by: * mean sleep latency from the Multiple Sleep Latency Test (MSLT) (average of 4 naps performed at 0900, 1100, 1300, and 1500) at the last post baseline observation (week 6 or early termination) * the Clinical Global Impression of Change (CGI-C) ratings for ES, at the last post baseline observation (week 6 or early termination).
This is a prospective study to see whether ultrasonography can predict difficult airway and/or predict obstructive sleep apnea syndrome (OSAS) in children.
Childhood obesity is a critical public health issue. Obesity in childhood is associated with many complications, including high blood pressure, type II diabetes mellitus, abnormal blood lipid values, obstructive sleep apnea, development of fatty liver, anxiety and depression. Addressing pediatric obesity is important not only to avoid these comorbidities in childhood, but also to mitigate long-term negative health outcomes, as overweight and obese youth are likely to remain overweight or obese into adulthood. There are published guidelines, however, there is not a successful standardized approach to the management of this problem. The most studied approach to pediatric obesity is multidisciplinary, high-resource weight management programs that are unable to be conducted in the primary care setting, and the prevalence of pediatric obesity continues to increase. The purpose of this study is to create, implement and evaluate a standardized protocol for the management of pediatric obesity in a low-resource primary care setting, using age-specific educational materials and every 2-week follow-up visits focused on achieving progress toward healthy lifestyle goals. The primary outcome will be the change in subject body mass index (BMI) percentile over 24 weeks of visits to the primary care doctor at a pediatric clinic.
The purpose of this study is to test a pediatric narcolepsy patient reported outcomes tool to assess pediatric narcolepsy symptoms and their effect on daily functioning and quality of life. The goal is to develop a clinical survey that can improve the care of pediatric narcolepsy.
The purpose of this study is to compare the use of short acting opioids (fentanyl/hydromorphone) with long acting opioids (methadone) for pain control following tonsillectomy surgery.
Postoperative pain management in the pediatric patient undergoing tonsillectomy is challenging. Despite being used in many procedures for postoperative pain management, perioperative ketorolac usage in pediatric tonsillectomy surgery is very limited. A recent survey showed that only 8.2% of anesthesiologists use NSAIDS for perioperative management of children with OSA undergoing adenotonsillectomy. The investigators propose to conduct a prospective, randomized study to investigate the opioid-sparing effect of perioperative ketorolac in pediatric patients who undergo tonsillectomies.
This registry is a prospective, multi-center, single-arm study of pediatric subjects (ages 18-21 years) who are undergoing implant of the Inspire Upper Airway Stimulation (UAS) System for the treatment of moderate or severe obstructive sleep apnea (OSA). Implanted subjects will be followed for 5 years post-implant.
The purpose of the study is to quantify the use of pain medications given to children aged 3 - 12 years as well as their pain level through pain scores after they have undergone a tonsillectomy or adenotonsillectomy surgery at Doernbecher Children's Hospital (DCH). We would like to learn more about the pain medications given and the pain scores of children post-surgery for the first 5 days following discharge from the hospital.
The investigators wish to study the role of persistent markers of inflammation in executive function in young children during critical periods of synaptogenesis (ages 2-3). While the role of markers of inflammation have been validated in the pathogenesis in multiple disorders in the adult population, their study in pediatrics is limited. The investigators therefore propose that demonstration of persistent cytokine inflammatory markers in this preliminary study will allow larger studies to proceed.
Pediatric obstructive sleep apnea (OSA) is associated with heavy snoring and brief pauses in breathing during sleep. It affects at least 1-3% of the general pediatric population with greater prevalence among certain high risk groups such as children with obesity, Down syndrome, craniofacial anomalies, or neuromuscular disorders. Several studies have shown that, even after having adenotonsillectomy (AT), approximately 30% of children continue to struggle with OSA. They further found that older children (age \> 7 yrs), obesity, and high pre-operative OSA severity were all risk factors contributing to residual OSA. Despite these known risk factors, the ability to predict each individual patient's risk of residual OSA after tonsil surgery is difficult. Determining what tool will best predict residual OSA is an important step towards more effective post-surgery OSA management. The purpose of this study is to determine whether sleep endoscopy can predict whether their AT will be successful as a treatment for OSA. Our hypothesis is that subjects with multiple areas of obstruction in addition to large tonsils will be more likely to have residual OSA after AT. Sleep endoscopy is a procedure performed during drug-induced sleep that involves passing a flexible endoscope through the subject's nose into the back of the throat to look for sources of obstruction while breathing spontaneously. This will be a prospective cohort study examining subjects between the ages of 2 and 18 who are having AT for treatment of obstructive sleep apnea (OSA) and are considered high risk for residual OSA after surgery. High risk will be defined based on the following criteria: obesity, Down syndrome, African American race, severe baseline OSA, and age \> 7 yrs. Eligible subjects will be recruited from the pediatric otolaryngology clinic at the time of initial evaluation for AT. Subjects will undergo a sleep endoscopy under moderate sedation at the time of AT. All patients will be asked to complete a preoperative sleep study to confirm the diagnosis of OSA and a postoperative sleep study to determine the impact of AT and the presence of residual OSA. Secondary outcome measures will include several questionnaires assessing generic and OSA-specific quality of life as well as subjective measures of cognitive/executive functioning and daytime sleepiness.
Adenotonsillectomy is one of the most common surgical procedures performed in the pediatric population in the United States. It is generally a well-tolerated procedure with post-operative bleeding risk ranging from 3-5% in children. Post-operative pain following adenotonsillectomy has significant morbidity and may result in prolonged hospital stay or re-admission to the hospital. Post-operative analgesia is most commonly managed with narcotic-containing pain medication. In recent years however, there is evidence that some patients may manifest increased sensitivity to narcotics, resulting in life-threatening respiratory compromise. Though there is a theoretical risk that nonsteroidal anti-inflammatory drugs (NSAIDs) increase bleeding time by disrupting platelet aggregation, evidence of detrimental effects (i.e. increased risk of postoperative bleeding) remains inconclusive for these generally well-tolerated medications. The goal of this study is to determine the incidence of post-operative bleeding and to determine the efficacy of NSAIDs in the management of post-operative pain following pediatric adenotonsillectomy, versus more commonly used narcotic pain medication. The study design will be an initial retrospective study to collect pilot data on the incidence of postoperative hemorrhage and indicators of adequate/inadequate pain control in children age 4 to 17 undergoing adenotonsillectomy. This will be followed by a prospective, randomized, single-blind controlled study in which orally-administered ibuprofen (test intervention) is compared to acetaminophen-hydrocodone (control intervention) in the postoperative period following adenotonsillectomy.
The purpose of this study is to determine whether patient-specific computer-aided design (CAD) and three-dimensional (3D) printing can be utilized to produce personalized, effective continuous positive airway pressure (CPAP) masks for children with severe obstructive sleep apnea (OSA) and craniofacial anomalies who encounter significant difficulty using CPAP because of poorly fitting masks despite exhausting available commercial mask options.
This double-blind, randomized controlled trial will evaluate the use of nasal corticosteroids for the treatment of the childhood obstructive sleep apnea syndrome (OSAS). Efficacy, duration of action and side-effects will be determined.
The purpose of the study is to demonstrate the effectiveness of a pediatric mask in treating obstructive sleep apnea (OSA) in a pediatric population.
The ultimate goal of this work is to establish a method for control bleeding after tonsillectomy in awake children. Treatment of post-tonsillectomy bleeding in children typically requires general anesthesia with currently used electrocautery techniques. Micropolysaccharide hemosphere technology is a unique absorbable agent that helps clot form. These hemospheres consist of 100% purified plant starch that enhances natural clotting by concentrating blood solids such as platelets, red blood cells, and blood proteins on the particle surfaces to form a gelled matrix. This device provides painless, non-irritating control of bleeding, and has been used effectively for control of nosebleeds in awake adult patients. This device, however, has not been tested in the tonsillar fossae in children; thus, this study is performed to determine if at least 50% of children with bleeding tonsillar fossae can be spared rescue treatment with electrocautery.
This study will examine whether treatment of inferior turbinates in patients with continued symptoms of obstructive sleep apnea, sleep related breathing disorder, snoring, disturbed sleeping, open mouth breathing, and upper airway resistance syndrome after tonsillectomy and adenoidectomy will improve these symptoms and should be included in the treatment paradigm for treatment of sleep related breathing disorders in infants, children, and adolescents.
The primary objective of the study is to evaluate the safety and tolerability of treatment with PROVIGIL in children and adolescents with excessive sleepiness (ES) associated with narcolepsy or OSAHS (obstructive sleep apnea/hypopnea), when administered for up to 12 months. Safety and tolerability will be evaluated throughout the study by means of adverse event information, clinical laboratory test results, vital signs measurements, and body weight and height measurements; quarterly physical examination findings; and 12 lead electrocardiograph (ECG) evaluations at the end of the study. In addition, the cognitive and behavioral effects of PROVIGIL will be assessed quarterly as measured by the Child Behavior Checklist for Ages 6-18 (CBCL/6-18), a brief psychiatric interview, and the Kaufman Brief Intelligence Test (KBIT 2).
The purpose of this study is to prospectively compare the effectiveness of a novel personalized approach to the surgical treatment of obstructive sleep apnea (OSA) in children, drug induced sleep endoscopy (DISE) directed surgery versus the standard adenotonsillectomy (AT). This will also serve to test the feasibility of recruiting families for a future randomized protocol comparing the same surgical techniques. It is the investigators' central hypothesis that a personalized DISE-directed surgical approach that uses existing procedures to address the specific fixed and dynamic anatomic features causing obstruction (ie, anatomic endotypes) in each child with small tonsils or Down syndrome will be superior to the currently recommended standard first line approach of AT. This novel approach may improve OSA outcomes and reduce the burden of unnecessary AT or secondary surgery for persistent OSA after an ineffective AT. To test this hypothesis, the investigators will study children aged 2 to 18 years with clinically small tonsils (Brodsky score 1+ or 2+ on a scale 1+ to 4+) OR Down syndrome.
The goal of this clinical trial is to compare general anesthesia with muscle relaxation and reversal of the relaxation at the end of surgery or without muscle relaxation in high-risk children having adenotonsillectomy surgery. The main questions it aims to answer are: 1. What is the impact of general anesthesia with muscle relaxation on opioid pain medication requirements during and after adenotonsillectomy? 2. What is the impact of general anesthesia with muscle relaxation on postoperative breathing complications and the adequacy of postoperative lung air volumes during breathing? Participants will wear three additional, noninvasive monitors during surgery, and one additional monitor after surgery. The amount of opioid pain medication required will be tracked, and the patient will be observed postoperatively for breathing complications. Measurements will be collected from the monitor worn postoperatively. Researchers will compare general anesthesia with muscle relaxation and reversal of relaxation at the end of surgery with general anesthesia without muscle relaxation to test the hypothesis that the approach using muscle relaxation reduces the amount of opioid pain medication required during and after surgery.