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NCT03851120
Probiotics is suggested to play several roles in promoting health, including alleviating disease symptoms, protection against atopic disease, and modulating the immune system by improving the beneficial gut microbiota colonization. The discovery of the gut microbiota-brain axis suggested that there is a reciprocal influence between the brain and the gut through a constant communication. This bi-directional axis enables signals to be transferred from brain to influence sensory, motor, and secretory modalities of the GI tract, also permits signal from the gut to influence brain function. The establishment of intestinal microbiota during early neurodevelopmental period suggests the colonization and maturation of gut microbiota may influence brain development. Several studies have shown there is an association between shifts in the gut microbiota composition in children with neurodevelopmental disorders. This study aims to investigate how maternal probiotic + LC-PUFA supported with government program supplements, healthy eating, and psychosocial stimulation could affect fetal brain development and later child brain functions and cognitive development. Intervention would be delivered to pregnant women for 9 months, starting at the end of second trimester of gestational period.
NCT06617650
The study involves the establishment of a case-control study within a birth cohort. With approximately 4,000 annual deliveries, the aim is to enroll 140 cases (newborns with intrauterine growth restriction \[IUGR\] and premature birth) and 280 controls each year, starting from September 2022. A comprehensive questionnaire will be utilized to gather information about various types of maternal environmental exposures before and during pregnancy. Biological samples will be collected from both mothers and newborns (including vaginal swab, placenta sample, blood, saliva, meconium, and bronchoalveolar lavage fluid) at birth and within the early hours of the newborn's life. Laboratory examinations will include the measurement of heavy metals and essential elements, investigation of placental distress and fetal brain damage biomarkers, analysis of microbiota, and assessment of DNA methylation profiles. Clinical follow-up assessments will be conducted in both cases and controls at 12 and 24 months, during which anthropometric data, types of feeding with particular reference to breastfeeding and its duration, pediatric emergency room visits, hospitalizations, medication usage, known allergies, and neuropsychological development will be collected.
NCT04721782
According to the hypothesis of this study presented, the effects of smoking on the fetus can be determined by the liver circulation and hepatic metabolism. The basic assumption of this project is; Compensatory and pathological findings can be seen in the fetal liver circulation in babies of mothers who smoke and the findings can be valuable in predicting the direction of fetal development (growth retardation or normal development). In this study, the flow and shunt amounts in the fetal hepatic vessels in normal and smoking pregnant women will be calculated with the help of Doppler US.
NCT03644355
Obesity is recognized as a pro-inflammatory condition associated with multiple chronic diseases, including asthma. The specific mechanisms linking asthma and obesity remain hypothetical. Our primary hypothesis is that inflammatory SNPs may regulate the degree of the inflammatory response, with obesity modifying the severity of the disease. In this instance, asthma that develops in the context of obesity demonstrates the potential deleterious relationship between a specific proinflammatory state (obesity) and the genetic regulators of inflammation (SNPs). Our secondary hypothesis proposes that short-term (12-weeks) weight loss by diet alone, but not exercise alone, will reduce lung specific inflammation and diminish the pro-inflammatory responses in female African American obese adolescents with asthma compared to a waiting list control group who after their initial 12 weeks then receive a combined 12-week diet plus exercise program (waiting list control/combined). A third exploratory hypothesis proposes that the frequency of identified SNPs will be significantly related to the amount of fat loss through diet, exercise or combined program and will further be mediated by specific airway and, pro-and-anti-inflammatory markers.These hypotheses will be tested using the following Specific Aims: 1. To determine the frequency of single nucleotide polymorphisms and SNP haplotypes in pro- and anti-inflammatory genes in female African American obese and non-obese asthmatic and non-asthmatic adolescents, 13-19 years or age. 2. To examine the effects of diet or exercise on lung specific inflammation (exhaled nitric oxide, \[eNO\]) and pro-and-anti-inflammatory responses in female African-American obese asthmatic and non-asthmatic adolescents compared to a waiting list control/ combined group. In addition we will examine the following Exploratory Aim: To determine the effects of the inflammatory SNPs in the modulation of several inflammatory markers and lung specific inflammation (eNO) in female African-American obese asthmatic and non-asthmatic adolescents before and after weight loss through diet, exercise or both.