Studies in rodents and newborn humans demonstrate the influence of brown adipose tissue (BAT) in temperature control and energy balance and a critical role in the regulation of body weight. Here, we obtained samples of epicardial adipose tissue (EAT) from neonates, infants, and children in order to evaluate changes in their transcriptional landscape by applying a systems biology approach. Surprisingly, these analyses revealed that the transition to infancy is a critical stage for changes in the morphology of EAT and is reflected in unique gene expression patterns of a substantial proportion of thermogenic gene transcripts (~10%). Our results also indicated that the pattern of gene expression represents a distinct developmental stage, even after the rebound in abundance of thermogenic genes in later childhood. Using weighted gene coexpression network analyses, we found precise anthropometric-specific correlations with changes in gene expression and the decline of thermogenic capacity within EAT. In addition, these results indicate a sequential order of transcriptional events affecting cellular pathways, which could potentially explain the variation in the amount, or activity, of BAT in adulthood. Together, these results provide a resource to elucidate gene regulatory mechanisms underlying the progressive development of BAT during early life.
We report the use of video-assisted cardioscopy (VAC) to assess the complete resection of a giant sessile rhabdomyoma of the left ventricle (LV) in a case of suspected neonatal tuberous sclerosis. A fetal echocardiogram performed at 20 weeks of gestation identified the mass at the apex of the LV and attached to the interventricular septum (IVS). Further echocardiography during the pregnancy demonstrated moderate growth of the LV mass. This was occupying more than two-thirds of the LV cavity after the delivery, and there were concerns of LV outflow tract obstruction. The 4-kg newborn underwent LV tumor excision via a left atrial approach at the age of 12 days. The mitral valve (MV) apparatus and the IVS had strong attachments to the mass. The tumor was successfully resected. In view of the invasiveness of the tumor, a decision was taken to perform an intracardiac assessment using a VAC to detect any iatrogenic complication. A Karl Storz Neuro Endoscope probe 4 mm in diameter and 14 mm in length with an angulation of 0° was passed into the left ventricular cavity through the MV with the aim to detect residual tumor and to identify any iatrogenic complications due to the extensive resection. Video-assisted cardioscopy allows visualization of inaccessible intraventricular structures avoiding ventriculotomy, which can cause ventricular dysfunction, arrhythmias, and aneurysm formation. The VAC was shown to be very useful in this situation, and the process can easily be repeated as required.
Management of sternal wound dehiscence in newborns after cardiac operations can be a slow and lengthy process, during which the risk of progression to deep sternal wound infection and mediastinitis remains a concern. We report the case of a neonate born with single-ventricle physiology who underwent a Damus-Kaye-Stansel procedure as first-stage palliation toward creating Fontan circulation. The postoperative period was characterized by sterile wound dehiscence of the subcutaneous layers. We used a CorMatrix extracellular matrix patch as an adjunct to repair the wound defect. After 7 weeks, the wound had healed with excellent results. To our knowledge, this is the first report of extracellular matrix patch implantation for sternal wound reconstruction in a neonate.
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