View clinical trials related to Hypoplastic Left Heart.
Filter by:Neonatal patients with congenital heart defects (CHD) have changing physiology in the context of transitional period. Patients with CHD are at risk of low perfusion status or abnormal pulmonary blood flow. Near infrared spectroscopy has been used in neonatal intensive care units (NICU) to measure end-organ perfusion. The investigator plan on monitoring newborns with CHD admitted to the NICU with NIRS and echocardiography during the first week of life and correlate measures of perfusion from Dopplers to cerebral and renal NIRS.
The primary aim of this study is to determine if clinically relevant doses of buccally administered oxandrolone are safe and tolerable in neonates with hypoplastic left heart syndrome (HLHS) or other single right ventricular anomalies who have undergone a Norwood procedure. The secondary aim is to evaluate the efficacy of buccally administered oxandrolone in improving objective indices of growth and nutrition in neonates who have undergone a Norwood procedure.
All neonates with congenital heart disease undergoing stage one palliation (Norwood procedure, Damus-Kaye-Stansel procedure) at Texas Children's Hospital will be regularly monitored for B-type natriuretic peptide (BNP) and Troponin level before the surgical procedure, on arrival to the cardiac intensive care unit after their surgical procedure, every 6 hours during the first 24 hours of the post-operative period, followed by daily levels for the first week, and then weekly during patient's regular laboratory work up schedule. These cardiac biomarkers are linked to demographic, hemodynamic, respiratory, pharmacological data available via Sickbay.
The purpose of this study is to determine what happens to dexmedetomidine in the body after it has been given to a newborn after heart surgery. We want to learn how long the drug stays in the body, how the drug is metabolized by the body, and how well the medicine works at a particular dose or amount.
This study is being conducted to determine what dexmedetomidine does to the body and in turn, what how the body handles the medication. This medication, for the purpose of this trial, is used as a short-term sedative for infants who are immediately post-operative from cardiac surgery and have a breathing tube and are breathing with the assistance of a mechanical ventilator or breathing machine.
Due to the small size of infants and the use of bypass machines, physicians have difficulty assessing whether the infant's brain and body is getting enough oxygen during heart surgery. This study compares continuous monitoring via the NIRS (Near Infrared Spectroscopy) to the traditional methods of determining oxygen saturation.