View clinical trials related to Sudden Infant Death.
Filter by:This study aims to improve adherence to American Academy of Pediatrics safe sleep (SS) recommendations and improve rates of initiation and duration of partial and exclusive breastfeeding (BF); and reduce Black/White disparities in these practices through the use of private Facebook groups providing a) evidence-based education through videos and other multi-media supporting best practices and b) an online community and social network of other pregnant WIC clients and new parents.
The study team will evaluate the impact of an Infant Sleep Assessment (ISA) tool with motivational interviewing (MI) communication training on clinician-parent communication during 2-month Well Baby Visits (WBV) and parent reported and observed infant sleep practices. The study team's hypotheses are that 1) clinicians who utilize the ISA with MI training will more effectively communicate safe sleep information to their patients' parents, and 2) these parents will have safer infant sleep practices than parents whose clinicians are in a standard of care control group.
Each year world-wide, 2.5 million fetuses die unexpectedly in the last half of pregnancy, 25,000 in the United States, making fetal demise ten-times more common than Sudden Infant Death Syndrome. This study will apply a novel type of non-invasive monitoring, called fetal magnetocardiography (fMCG) used thus far to successfully evaluate fetal arrhythmias, in order to discover potential hidden electrophysiologic abnormalities that could lead to fetal demise in five high-risk pregnancy conditions associated with fetal demise.
Apparent Life-Threatening Events (ALTE) in infants often lead to severe neurological complications or to sudden death. In such situations, cardio-pediatricians and intensive care physicians have no specific diagnosis or treatment. In a recent translational research (INSERM-DHOS), our team has reported a myocardiac abnormality in a rabbit model of vagal hyperreactivity which is also present in the human hearts of infants deceased from sudden death, i.e. increased M2 muscarinic receptors (M2R) density associated with compensative increased enzymatic activity and overexpression of acetylcholine esterase (AchE). In a recent PHRC-I study (article in preparation), these abnormalities have also been observed in the blood of patients, infants as well as adults, exhibiting severe vagal syncopes. We observed, even more importantly, similar abnormalities in infants under 1 year of age with very severe idiopathic ALTE (iALTE) compared with normal subjects and with patients who presented ALTE with identified etiologies (JAMA Pediatric, 2016 May). The aim of this present study is to validate the overexpression of M2R as a marker of risk of iALTE in infant under 1 year.
Sudden infant death syndrome (SIDS) is the leading cause of death among infants between 1 month and 1 year of age in the developed world. SIDS continues to be a phenomenon of unknown cause. The best approach to for prevention in high risk infants is unclear. Several substantial lines of evidence indicate that pacifiers have a protective effect on the incidence of SIDS. These studies were significantly powered and the results were consistent world-wide. The explanation for the protective effects of pacifiers on SIDS prevalence is unclear. A recent case report from New Zealand showed by means of nasopharyngeal films of a baby with and without a pacifier the possibility that sucking on a pacifier is associated with a forward movement of the tongue with enlargement of the upper airways' cross sectional area. Indeed, this hypothesis was originally postulated 30 years ago by Cozzi et al. Working hypothesis and aims: Our hypothesis is that since the upper respiratory tract is that portion of the airway that imposes the greatest resistance to ventilation, sucking on a pacifier results in upper airway dilatation, thus greatly reducing upper airway obstruction and improving ventilation at a stage when infants are virtually obligate nasal breathers. It should be stressed that airway resistance is proportional to the 3rd power of the radius of the airway, thus even a relatively small increase in airway diameter may have a profound effect on airway resistance and respiratory mechanical work of breathing! In young infants and those with underdeveloped respiratory center drive, this decrease in the work of breathing could certainly be sufficient to minimize the risk of SIDS as described above.Thus, the aim of this study is to demonstrate the effect of sucking on a pacifier on upper airway patency.