133 Clinical Trials for Various Conditions
In order to evaluate current anesthetic practice in the care of preterm infants and neonates, the investigators will retrospectively review surgical procedures in infants who are less than 60 weeks post-conceptual age in which an arterial cannula was placed intraoperatively or in situ upon arrival in the operating room. They will evaluate the mode of ventilation (pressure or volume-controlled), tidal volume or peak inflating pressure, the level of PEEP, inspired oxygen concentration (FiO2), and respiratory rate used during the procedure to determine the average minute ventilation.
The goal of this study is to determine if using a Pedi-Cap (a type of colorimetric carbon dioxide detector) during face mask ventilation (PPV) for newborn infants in the delivery room will lower the time of PPV needed. A group of nurses, doctors, and respiratory therapists, called the neonatal resuscitation team, will either use or not use the Pedi-Cap during face mask PPV for infants born at ≥30 weeks' gestation. A randomization generator will assign each month to either use the Pedi-Cap or not use the Pedi-Cap. The researchers will collect information from the medical chart to find the infant and mother's information, medical interventions done in the delivery room, and lab values. In addition, resuscitation team members will fill out a survey of their experiences of using or not using the Pedi-Cap during delivery room facemask PPV.
The aim of this study is to evaluate the impact of virtual family-centered rounds in the neonatal intensive care unit on parental and neonatal outcomes.
This study will evaluate whether applying micro drops of cyanoacrylate glue to the participant's peripherally inserted central catheter (PICC) insertion site prior to covering the area of PICC line with a transparent film dressing will make the PICC dressing last longer and prevent an occurrence of PICC line moving out of its original placement. The investigators aims to evaluate whether 1) using the cyanoacrylate glue will lengthen the time to first dressing change; and 2) participants in the experimental arm (glue used) will have fewer dressing changes per week compared to the control arm (standard care) during admission.
The goal of this observational study is to collect data to develop a complete package (hardware, user interface software and algorithms) that can monitor sleep-wake stages in neonates. Real-time EEG data will be used to develop and refine the prototype monitor's ability to provide direct real-time information about sleep-wake state. The study design includes multiple iterative training/testing stages to refine the prototype. The study is divided into multiple sub-aims conducted in parallel: data acquisition, algorithm development (including comparison between gold-standard polysomnogram vs. novel algorithm markings of sleep-stages), and graphical user interface software development. The data acquisition and algorithm development are iterative and linked, such that the prototype algorithm from one iteration will be deployed real-time during the next iteration of data acquisition. This allows verification that the algorithm can perform real-time and provides prospective testing data, which is later folded into the training data for the next iteration, for verification and validation of the system.
Phototherapy has served as a primary treatment for hyperbilirubinemia in newborn populations. The light emitted through phototherapy interacts with bilirubin at the skin level to transform it into water-soluble products eliminated in urine and stool. Efficacy of phototherapy relies on the irradiance dispensed at the skin level by the treatment and on the surface area of skin exposed. The purpose of this Investigator-initiated, prospective, two-arm, randomized control investigation is to compare the effect of a novel, newly available, FDA cleared, phototherapy device (Neolight Skylife) with the standard phototherapy treatments used in HonorHealth newborn nurseries (Natus-Neo Blue Blanket and GE Bili Soft Blanket) on healthy, newborns ≥ 35 weeks + 0 days Gestational Age (GA) at the time of birth in the treatment of hyperbilirubinemia. We hypothesize that the unconjugated bilirubin level will be comparably reduced across each treatment arm from baseline to 12 and 24 hour intervals.
The purpose of this research study is to evaluate the safety of the drug Etanercept (Enbrel) and to determine if this drug can help in the treatment of early bone marrow failure in patients with Fanconi anemia.
OBJECTIVES: I. Determine the total energy expenditure in term and preterm infants in both well and ill states using the doubly labeled water method.
OBJECTIVES: I. Create a clinical sample bank of neonates with lung disease to test hypotheses regarding the pathogenesis of bronchopulmonary dysplasia (BPD). II. Determine whether a developmental deficiency of surfactant protein B (SP-B) contributes to the occurrence of respiratory distress and BPD in these patients. III. Study metabolic abnormalities associated with inherited deficiency of SP-B in these patients. IV. Determine whether plasma nitrotyrosine levels, a marker of peroxynitrite mediated oxidant stress, are elevated in premature infants who develop BPD. V. Measure the temporal changes in critical components of the inflammatory process (cell composition, inducible nitric oxide synthase, hyaluronan (HA), receptor for HA mediated mobility, and selected cytokines) in bronchoalveolar lavage, blood, and urine samples obtained from these patients, and to correlate these changes with their clinical course. VI. Examine changes in the insulin-like growth factor axis that occur in the lungs of infants with respiratory distress syndrome (RDS) and BPD. VII. Determine the relationship between degradation of elastin and the clinical course of BPD. VIII. Determine whether the normal fall in plasma endothelin-1 concentrations after birth are delayed in infants with RDS and BPD.
RATIONALE: Very low birth weight infants have problems maintaining normal blood sugar levels. Gluconeogenesis is the production of sugar from amino acids and fats. The best combination of amino acids, fat, and sugar to help very low birth weigh infants maintain normal blood sugar levels is not yet known. PURPOSE: Clinical trial to study how very low birth weight infants break down amino acids, fat, and sugar given by intravenous infusion, and the effect of different combinations of nutrients on the infants' ability to maintain normal blood sugar levels.
OBJECTIVES: I. Compare the incidence of late onset sepsis and/or necrotizing enterocolitis and duration of hospitalization in low birth weight infants fed with fortified mother's milk supplemented with either fortified pasteurized donor human milk or preterm formula, and with fortified mother's milk versus preterm formula. II. Determine the relationship between functional antibody titers in serial milk samples and the incidence of pathogen specific late onset sepsis (e.g., Staphylococcus epidermidis, Staphylococcus aureus) in these patients. III. Determine the long term sequelae (growth, body composition, health, and neurodevelopment) of human milk versus formula feeding in these patients. IV. Determine the relationship between stress and milk production in the mothers of these patients.
OBJECTIVES: I. Determine the maximum tolerated dose of vasoactive intestinal peptide in patients with acute respiratory distress syndrome. II. Evaluate the safety and pharmacodynamic activity of this peptide in these patients.
OBJECTIVES: I. Compare the efficacy of preventive vs. therapeutic tin mesoporphyrin in direct Coombs' test-positive ABO hemolytic disease of the newborn and glucose-6-phosphate dehydrogenase deficiency in infants living in Greece. II. Assess the safety of tin mesoporphyrin in high-risk newborns.
The goal of this study is to demonstrate safety, feasibility, and efficacy of a novel pharyngo-esophageal stimulation technique in restoring aerodigestive and swallowing functions in select infants at-risk for chronic gavage tube feeding or gastrostomy. The main aims are: * To provide consistent activation of deglutition (the process of swallowing), swallowing-airway interactions, and peristalsis in order to decrease the risk of home tube feeding. * To examine whether physical and manometric evidence-guided interventions and biofeedback will improve compliance, minimize parental stress, and increase satisfaction and perceived self-confidence with infant feeding. Participants will have weekly pharyngo-esophageal stimulation guided by High Resolution Impedance Manometry (HRIM) for 4 weeks or until discharge, oral nutritive stimulation of at least 5 mL of prescribed milk with each feed, and weekly parental education and feedback regarding feeding progress.
Prospective data collection using the Neoneur Feeding System to demonstrate device functionality, correlation to historic data, and prepare for a more extensive phase II SBIR trial
The central hypothesis of this clinical trial is that, in extremely preterm infants, protein-enriched human milk diets compared to usual human milk diets during the first 2 weeks after birth increase fat-free mass (FFM)-for-age Z scores and promote maturation of the gut microbiome at term corrected age.
This study will compare if using a continuous milk warmer to warm breast milk compared to the standard method of warming breast milk in a hot water bath improves weight gain and feeding tolerance in infants born at 32 weeks gestation or less over a ten-day period. The standard method does not keep the breast milk at a consistent temperature during the feeding. A continuous milk warmer maintains the breast milk at body temperature throughout the feeding. It is unknown which method improves weight gain and feeding tolerance in very low birth weight infants.
Premature infants have high rates of bronchopulmonary dysplasia (BPD) due to prematurity of the participants' lungs and the need for prolonged respiratory support. These infants are at increased risk for gastroesophageal reflux and aspiration which may exacerbate lung injury. Transpyloric feeds, specifically duodenal feeds, may be used to bypass the stomach and directly feed the duodenum decreasing the amount of gastric reflux contributing to aspiration. Duodenal feeds are equivalent to gastric feeds with regards to nutritional outcomes, and have been shown to decrease events of apnea and bradycardia in premature infants. This study will evaluate the feasibility and safety of duodenal feeds in premature infants. The hypothesis is that duodenal feeds may be safely and successfully performed in premature very low birth weight infants.
The goal of this project to better understand the immune-modulatory effects of continuous renal replacement therapy (CRRT) in neonatal and pediatric patients, particularly those receiving extracorporeal life support (ECLS). Little is known about the effects of CRRT in this particular population and improved knowledge will be useful clinically and may lead to novel therapeutic approaches and improved outcomes for these critically ill patients.
The practice of checking gastric residuals is not evidence based. The amount of gastric residual volume (GRV) does not correlate with either feeding intolerance or development of NEC. We hypothesize that not monitoring GRV in infants with birth weights \< 1,250 g, and who are being fed intermittently by gastric tube, will result in earlier attainment of full feeding. This is an unblinded randomized controlled trial where GRV will not be checked routinely in the intervention group.
Infants with congenital heart disease (CHD) requiring surgery frequently have brain injury seen on magnetic resonance imaging (MRI). This occurs in approximately 40% of these newborns, and even though these are full-term infants, the injury seen closely resembles the same form of brain injury that can be seen in premature babies. Much like premature newborns, infants with CHD also have long-term neurodevelopmental problems (in over 50%). The investigators do not know why infants with CHD get this specific form of brain injury. One risk factor is felt to be the inflammation that occurs in response to heart-lung bypass (cardiopulmonary bypass, or CPB), a necessary feature of open-heart surgery. Newborns have a stronger inflammatory reaction to CPB than older children or adults. The investigators do know from animal experiments and other human data that inflammation can be harmful to the developing brain. The investigators hypothesize that children with CHD requiring surgery as a newborn have brain injury due to toxicity from the inflammatory response. The investigators will test this by enrolling newborns undergoing heart surgery to measure markers of inflammation, measure brain injury by MRI, and then test their developmental outcome at 1 and 2 years of age. An association between inflammation and injury might impact what medicines are chosen to protect the brain in future studies, even in other populations such as preterm infants.
Based on success with telephone follow up for other groups of medically fragile infants, we designed an innovative model of post-hospital comprehensive and coordinated follow-up for infants with chronic lung disease. In this model, which we refer to as community-based follow-up, medical management was coordinated by a nurse specialist, through frequent telephone contacts with the infants' primary caregiver. This model of follow up care was compared, in a randomized trial, with the more traditional model - multidisciplinary medical center-based care. We hypothesized that community-based care would lead to health and developmental outcomes similar to those observed with center-based care.
This is an open-label, single center, pharmacokinetic (PK) study to assess valacyclovir pharmacokinetics and pharmacodynamics in neonates and compare to the pharmacokinetics and pharmacodynamics of the standard of care treatment dose of intravenous acyclovir. 6 (up to 10 infants) with virologically confirmed neonatal herpes simplex virus (HSV) disease who meet all inclusion/exclusion criteria will be enrolled in the study. Study duration is 5 years. Primary objective is to define the pharmacokinetics of valacyclovir and assess its safety in neonates 2-12 weeks of age who are ≥ 34 weeks gestation.
The overall purpose of the investigator's study is to evaluate the causes of and treatment for feeding difficulty in infants with Gastro-esophageal Reflux Disease (GERD). New treatments can be possible only if the cause is known. Many infants have GERD and feeding difficulties, such as sucking and swallowing problems, vomiting, or delayed emptying of the stomach. Some of these infants have difficulty in protecting their airway during feeding or during reflux, and as a result can breathe fluid into their lungs or hold their breath. Most GERD treatments are done based on experience, but there is no scientific proof that these methods work for infants. GERD and feeding difficulties can lead to longer hospitalization and more stress for the family. In this clinical trial, the investigators are developing new methods to help with diagnosis as well as defining better treatment strategies in relieving GERD and GERD complications.
This study will examine whether a medicine called canakinumab is safe and effective for treating patients with neonatal-onset multisystem inflammatory disease (NOMID), also known as chronic infantile neurologic, cutaneous, articular (CINCA) syndrome. This disease can cause rash, joint deformities, brain inflammation, problems with the eyes and learning difficulties. Canakinumab is an experimental drug that inhibits the action of a protein produced by the body called human IL-1beta, which is responsible for the symptoms in NOMID and also contributes to many other kinds of inflammatory diseases. Patients 2 years of age and older with NOMID / CINCA may be eligible for this study. Participants undergo the following procedures: Screening Phase * Medical history and review of medical records * Blood tests * Daily diary of symptoms and medicines take Washout/Lead-in Phase * Discontinuation of anakinra or other medications, a 6 to 48-hour run-in period (only for patients who discontinued anakinra or other IL-1 blocking therapy). Treatment Phase * Injection of canakinumab under the skin every 8 weeks for 6 months * Monitoring and evaluations during treatment, including: * Quality-of-life questionnaires and daily diary * Vital signs measurements (heartbeat, blood pressure, temperature) * Blood tests * Electrocardiogram * Tuberculosis skin test * Neurological, eye and skin examinations at beginning and end of study * Cognitive evaluation at beginning and end of study * Lumbar puncture (spinal tap) at the beginning of the study, 2 weeks after the second dosing of canakinumab and at the end of the study * X-rays and bone density scan at beginning and end of study * Magnetic resonance imaging (MRI) of the head at beginning and end of study Follow-up Phase * Monthly clinic visits after the last dose of canakinumab for a minimum of 60 days End-of-Study Evaluation * Series of tests 8 weeks after last dose of canakinumab to evaluate treatment response and side effects
This will provided long-term safety and efficacy data for ACZ885 (a fully human anti-interleukin-1β \[anti-IL-1β\] monoclonal antibody) given as an injection subcutaneously in patients who participated in the CACZ885A2102 (NCT00487708), CACZ885D2201 (NCT00685373) or CACZ885D2304(NCT00465985) studies or newly identified patients with the following cryopyrin-associated periodic syndromes: Familial Cold Autoinflammatory Syndrome, Muckle-Wells Syndrome or Neonatal Onset Multisystem Inflammatory Disease. The duration of this study was 6 months with a maximum duration of 2 years
This study will evaluate the safety and effectiveness of anakinra (Kineret) for treating patients with neonatal-onset multisystem inflammatory disease (NOMID), also known as chronic infantile neurological, cutaneous and arthropathy (CINCA) syndrome. This disease can cause rash, joint deformities, brain inflammation, eye problems, and learning difficulties. Immune suppressing medicines commonly used to treat other pediatric rheumatologic diseases do not suppress NOMID symptoms and, if used long-term and in high doses, can cause harmful side effects. Anakinra, approved by The Food and Drug Administration for treating rheumatoid arthritis in adults, blocks a substance called IL-1 that may be an important factor in causing the inflammation in NOMID.
Controlled randomized trial looking at Standard nasal continuous airway pressure (CPAP) respiratory support versus High Frequency CPAP in neonates who require respiratory support or who are being extubated and require support post extubation. Patients will be evaluated for need to be reintubated and oxygen requirement and PaCO2 levels
The purpose of this observational study is to collect additional information regarding long-term safety and effectiveness of Ilaris in the treatment of CAPS patients in clinical practice.
Background: Anakinra is a drug used to treat people with certain diseases that affect their immune systems. Sometimes anakinra can cause proteins under the skin to clump together. These clumps are called amyloidosis; they can spread to other organs. The only way to diagnose amyloidosis is to remove a piece of tissue (biopsy). Researchers want to find a way to locate amyloidosis in internal organs using positron emission tomography (PET)/computed tomography (CT). Objective: To test a new tracer used during PET/CT scans in people with amyloidosis. A tracer is a radioactive dye injected into the body. Eligibility: Adults aged 18 years or older with amyloidosis from anakinra injections. They must be enrolled in NIH protocol 17-I-0016. Design: Participants will come to the clinic once every 6 months for 2 years. Each visit will be 1 day. They will have a PET/CT scan with the new tracer at each visit: The tracer will be given through a tube attached to a needle inserted into a vein. The PET/CT scanner is a machine shaped like a doughnut. Participants will lie still on a padded table. The table will move in and out of the machine. The scan takes about 1 hour. Radiation from the tracer will remain in the body for 24 hours after each scan. Participants will need to follow rules to avoid exposing pets and other people. Participants will collect a 24-hour urine sample before each visit. They will also have blood tests and a physical exam at each visit. Participants will receive a follow-up phone call about 1 week after each visit.