Impact of Exercise on Body Composition in Premature Infants: New Approaches

运动对早产儿身体成分的影响：新方法

• 批准号: 8188319
• 负责人: DAN M COOPER
• 金额: $ 55.26万
• 依托单位: UNIVERSITY OF CALIFORNIA-IRVINE
• 依托单位国家: 美国
• 财政年份: 2011
• 资助国家: 美国
• 起止时间: 2011-08-18 至 2016-04-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8188319
• 关键词: 8 year old; Address; Age; Anthropometry; Attention; Back to Sleep; Biochemical; Biological; Birth; Blood Vessels; Body Composition; Bone Growth; Cardiovascular Diseases; Caregivers; Caring; Child; Child health care; Clinical; Control Groups; Data; Development; Early treatment; Education; Elements; Energy Metabolism; Equilibrium; Exercise; Failure to Thrive; Fatty acid glycerol esters; Fracture; Genetic Determinism; Growth; Growth and Development function; Head circumference; Health; Health Benefit; Home environment; Incidence; Infant; Infant Behavior; Infant Development; Infant Health; Inflammation; Inflammation Mediators; Insulin-Like Growth Factor I; Intake; Interleukin-6; Intervention; Interview; Label; Lead; Life; Light; Longevity; Low Birth Weight Infant; Lung diseases; Maternal Behavior; Maternal and Child Health; Measurement; Measures; Mediator of activation protein; Metabolic; Mother-Child Relations; Mothers; Motor; Muscle; Nursery Schools; Nutritional; Nutritional Support; Obesity; Occupational Therapist; Osteopenia; Osteoporosis; Outcome; Physical activity; Physiologic calcification; Play; Population; Populations at Risk; Premature Birth; Premature Infant; Questionnaires; Randomized; Reporting; Research; Research Personnel; Risk; Role; Sampling; Side; Social Interaction; Stem cells; Stress; Structure; Sudden infant death syndrome; Techniques; Testing; Tissues; Training; United States; Update; Vulnerable Populations; Water; Wireless Technology; Work; anakinra; base; bone; cardiovascular disorder risk; cost; critical period; cytokine; design; energy balance; evidence base; group intervention; high risk; improved; innovation; novel; novel strategies; premature; prevent; primary outcome; programs; prospective; secondary outcome; somatotropin-binding protein; success; therapy design; tool

DESCRIPTION (provided by applicant): This research consists of a novel intervention designed to increase physical activity of premature babies in their first year of life. The potential beneficial impact of augmented physical activity on 1) body composition, 2) associated biochemical and cellular mechanisms of growth and inflammation, and 3) quality of maternal care will be measured. Premature birth is recognized as the single most important health problem in maternal- child health in the US. Paradoxically, both failure to thrive and obesity are now known to be associated with prematurity, as are osteopenia and increased risk of fracture, and increased risk of cardiovascular disease later in life. We lack cohesive approaches to mitigate these profound threats to health. Despite promising new research demonstrating that physical activity can stimulate the growth of muscle and bone even during intrauterine life (perhaps through metabolic programming), there have been very few attempts to implement and study physical activity interventions in the premature baby. The challenges are substantial and include: measuring body composition; assessing physical activity; engaging caregivers as partners in the intervention; identifying plausible and testable biological mechanisms; and designing interventions that actually increase physical activity and match the rapid pace of motor development early in life. This team of investigators has addressed these challenges. A developmentally dynamic physical activity intervention has been designed and pilot tested-one that engages the caregiver as a partner. Using techniques and tools as far-ranging as DXA, smartphones, doubly labeled water, and lightweight, wireless accelerometers developed specifically for this purpose, the working hypothesis is that the one-year intervention will augment lean body mass (primary outcome variable) and improve bone mineralization and the ratio of lean to fat tissue (secondary outcome variables). The study will gauge the impact of the physical activity intervention on the balance between circulating anabolic mediators (insulin-like growth factor-I and growth hormone binding protein) and inflammation-associated cytokines (interleukin-6, and interleukin-1 receptor antagonist), which antagonize muscle and bone growth. We will additionally: 1) begin to explore how physical activity influences circulating endothelial progenitor cells, which are increasingly viewed as markers of vascular health very early in life, and 2) take advantage of this prospective, interventional study to explore potential genetic determinants of growth in babies born prematurely. Finally, any study involving the premature infant and the data associated with it must be viewed in light of the critical relationship between the mother and baby. The potential broad impact of early life interventions has been recently demonstrated by the success of the "Back-To-Sleep" campaign in mitigating sudden infant death syndrome. Should the positive effects of augmented exercise on body composition be supported, we would then anticipate widespread benefit in preventing long-term health consequences of prematurity at relatively low cost. PUBLIC HEALTH RELEVANCE: Premature birth impairs healthy growth and development of body composition. This research will test an early- in-life intervention, that is, physical exercises administered by the baby's mother, designed to benefit growth of muscle, fat, and bone. The study could lead to simple interventions with lifelong benefits in promoting physical activity, reducing the risk of fractures, and preventing obesity in this high-risk population.

描述（由申请人提供）：这项研究包括一种新的干预措施，旨在增加早产儿在生命第一年的身体活动。将测量增加体力活动对1）身体组成，2）生长和炎症的相关生化和细胞机制，以及3）孕产妇护理质量的潜在有益影响。早产被认为是美国母婴健康中唯一最重要的健康问题。奇怪的是，现在已知发育不良和肥胖都与早产有关，骨质减少和骨折风险增加以及以后患心血管疾病的风险增加也是如此。我们缺乏协调一致的办法来减轻这些对健康的严重威胁。尽管有新的研究表明，即使在宫内生活期间，身体活动也可以刺激肌肉和骨骼的生长（可能通过代谢程序），但很少有人尝试在早产儿中实施和研究身体活动干预。这些挑战是巨大的，包括：测量身体成分;评估身体活动;让护理人员作为干预措施的合作伙伴;确定合理和可测试的生物机制;以及设计实际增加身体活动并与生命早期运动发育的快速步伐相匹配的干预措施。这个调查小组已经解决了这些挑战。一个发展动态的身体活动干预设计和试点测试，从事照顾者作为一个合作伙伴。使用广泛的技术和工具，如DXA，智能手机，双标记水和专门为此目的开发的轻量级无线加速计，工作假设是，为期一年的干预将增加瘦体重（主要结果变量），并改善骨矿化和瘦脂肪组织的比例（次要结果变量）。该研究将评估体育活动干预对循环合成代谢介质（胰岛素样生长因子-I和生长激素结合蛋白）和炎症相关细胞因子（白细胞介素-6和白细胞介素-1受体拮抗剂）之间平衡的影响，这些细胞因子拮抗肌肉和骨骼生长。我们还将：1）开始探索体力活动如何影响循环内皮祖细胞，内皮祖细胞越来越多地被视为生命早期血管健康的标志物，2）利用这项前瞻性干预性研究探索早产婴儿生长的潜在遗传决定因素。最后，任何涉及早产儿的研究和与之相关的数据都必须根据母亲和婴儿之间的重要关系来看待。最近，“恢复睡眠”运动在减轻婴儿猝死综合症方面的成功证明了早期生活干预的潜在广泛影响。如果加强锻炼对身体成分的积极影响得到支持，那么我们将以相对较低的成本预防早产的长期健康后果。 公共卫生相关性：早产损害健康生长和身体成分的发育。这项研究将测试一种生命早期的干预措施，即由婴儿的母亲进行体育锻炼，旨在促进肌肉、脂肪和骨骼的生长。这项研究可能会导致简单的干预措施，在促进身体活动，降低骨折风险和预防这一高危人群的肥胖方面终身受益。