microRNA Testing for Identification of Personalized Weight Management
关键词
抽象
描述
Obesity is increasing exponentially in the United States (US), and over 160 million Americans are either overweight or obese. A combined diet and exercise program is the most cost-effective alternative for weight management, but there is a considerable inter-individual variability in losing weight via this method, which leaves many individuals frustrated and unable to adhere to programs throughout the lifespan. Therefore, the inability to identify the individuals who will likely succeed with diet and exercise for weight management is a critical roadblock to treating obesity. Recent studies have shown that significant variability in weight loss response to diet and exercise could be attributed in part to individual epigenetic makeup. One potential approach for monitoring the epigenetic response during weight-loss interventions is small non-coding circulating RNAs, called microRNAs (miRNAs or miRs), in the circulating blood. Studies have shown that miR-140 and 935 could be used as blood biomarkers to identify individuals who will succeed in managing their weight through diet and exercise. Moreover, during a short diet and exercise intervention, fluctuations of expression levels of biomarker miRNAs pre- and post-intervention have produced unique signature changes only in the individuals who continued the intervention for an extended period of time and attained a healthy body weight. Thus, if implemented early in a medical weight loss program it could allow for the patient to have a focused individualized treatment.
A major barrier that prevents the use of miRNAs in weight loss interventions is the inability of accurately quantifying miR-140 and 935 levels in blood samples. To minimize the miRNA contamination from red-blood cell lysis, miRNA analysis must be performed within 30 minutes of blood draw. Current miRNA detection and quantification technologies take hours/days to quantify miRNAs, require bulky equipment, and are expensive. In addition, current miRNA detection methods do not have sufficient sensitivity, detection span and specificity for clinical sample analysis. To address this need, PI. Nawarathna has recently developed a highly sensitive disposable miRNA sensor that can quantify miRNAs in point-of-care settings within 15 minutes with an assay cost of $50 per test. However, the effectiveness of the developed miRNA sensor to accurately quantify the variations of target miRNA levels (miR-140 and 935) pre- and post-diet and exercise intervention is unknown.
The objective of the proposed work is to investigate the efficacy of this miRNA sensor as a potential diagnostic device in weight management. If successful, the impact of proposed the research is two-fold: first, development of a point-of-care diagnostic device (miRNA sensor) for providing a personalized strategy for weight management (diet and exercise or bariatric surgery) and second, ability to immediately expand miRNA detection to measure other factors that can impact overall well-being (e.g.: mental and emotional health, stress, and fatigue) and diseases (e.g.: cancer, cardiovascular diseases, and others). The objective of the proposed research will be achieved through following this specific aim:
Aim: To investigate if the miRNA sensor is capable of identifying individuals who will consistently lose weight with energy restricted diet and exercise intervention.
The proposed research will develop a pilot study with overweight individuals as participants. Subjects will participate in the diet and exercise intervention for 12 weeks and miRNA analysis will be performed at 3 time points during the intervention (pre-mid-post). We will then investigate the effectiveness of the sensor.
The miRNA sensor technology, once fully developed, will be similar to a finger prick glucose monitor. Once commercially available, miRNA sensors can be purchased and used for diagnostic applications in clinics or self-testing at home or remote and rural area clinics and hospitals. Therefore, the outcomes will fundamentally advance how the individualized weight management method is selected. For this reason, this research has a positive translational impact on human health.
日期
最后验证: | 12/31/2019 |
首次提交: | 01/01/2020 |
提交的预估入学人数: | 01/01/2020 |
首次发布: | 01/02/2020 |
上次提交的更新: | 01/28/2020 |
最近更新发布: | 01/30/2020 |
实际学习开始日期: | 01/12/2020 |
预计主要完成日期: | 05/30/2020 |
预计完成日期: | 06/29/2020 |
状况或疾病
干预/治疗
Other: 500 kcal Energy Deficit
Other: 500 kcal Energy Deficit
相
手臂组
臂 | 干预/治疗 |
---|---|
Experimental: 500 kcal Energy Deficit The goal of the nutrition and exercise intervention will be to induce an energy deficit of approximately 500 kcals/day over the 12-week period in order to induce an approximate 5% weight loss in all participants. | Other: 500 kcal Energy Deficit The nutrition intervention will be individualized and implemented as a free-living energy-restricted eating plan where energy intake will be based on a mild restriction (approx. 250 kcal/day). |
资格标准
有资格学习的年龄 | 18 Years 至 18 Years |
有资格学习的性别 | All |
接受健康志愿者 | 是 |
标准 | Inclusion Criteria: - generally healthy - body mass index 25-34.9 - able to do physical activity and exercise Exclusion Criteria: - currently participating in a structured diet or excise program, - pregnant, - currently use any nicotine product - diagnosed neuromuscular disease - diabetes, - uncontrolled high blood pressure, - diagnosed cancer, - previously had a heart attack or other chronic heart related conditions that are not controlled with medicine - difficulty moving without assistive devices or walking one-quarter mile - are taking medications that influence muscle size (testosterone, growth hormone, etc.), - have had bariatric surgery - have a body mass greater than 350lbs, - fear blood, blood draws, or needles - adverse reaction to a blood draw in the past. |
结果
主要结果指标
1. micro RNA 140 [Change across weeks 0, 6, 13]
2. micro RNA 935 [Change across weeks 0, 6, 13]
3. Body Composition [Change across weeks 0, 6, 13]
4. Lean body mass [Change across weeks 0, 6, 13]
5. Fat mass [Change across weeks 0, 6, 13]
6. Body mass [Change across weeks 0, 6, 13]
次要成果指标
1. High-density lipoprotein [Change across weeks 0, 6, 13]
2. Total cholesterol [Change across weeks 0, 6, 13]
3. Triglycerides [Change across weeks 0, 6, 13]
4. Low-density lipoprotein (calculated) [Change across weeks 0, 6, 13]
5. Very low-density lipoprotein (calculated) [Change across weeks 0, 6, 13]