View clinical trials related to Genetic Change.
Filter by:Understanding how candidate genes, previously associated with injury susceptibility, influence the incidence of muscle, bone, ligament, and tendon injuries across the development pathway of elite footballers may provide valuable insight into inherent injury predisposition to support the long-term development of every individual. Therefore, the aim of the present study was to investigate the association between candidate genetic variants and muscle, bone, ligament, and tendon injuries in elite football with sub-analysis of the influence of age and maturation on injury susceptibility.
Background: Exercise represents an important challenge for the homeostasis of the entire body that occurs on a cellular and systemic level in which micronutrients play an important role in regulating the processes that sustain athletic performance. Objective: The investigators measured changes in gene expression of whole blood in a group of athletes and sedentary participants and compared gene modulation before and after nutritional intervention with micronutrients. Methods: Blood samples were taken from thirteen athletes and thirteen sedentary age- and gender-matched participants. The study design was carried out over a period of 4 months where three time points were established: (T0) baseline conditions in the sedentary and athlete groups; (T2) after two months of supplementation; (T4) after two months in the absence of nutritional supplementation. Differential gene expression was evaluated in 112 genes using RT-qPCR analysis with the QuantStudioTM 12K Flex Real-Time PCR System.
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.