Klinische Studien Radar

There is an increasing number of children who, through medical advances, now survive diseases and conditions that were once fatal, but which remain chronic and debilitating. A major challenge to improve both the immediate and long term care and health of such children has been the gap in our understanding of how to assess the biological effects of exercise. Like otherwise healthy children, children with chronic diseases and disabilities want to be physically active. The challenge is to determine what constitutes safe and beneficial level of physical activity when the underlying disease or condition [e.g., cystic fibrosis (CF) or sickle cell disease (SCD)] imposes physiological constraints on exercise that are not present in otherwise healthy children. Current exercise testing protocols were based on studies of athletes and high performing healthy individuals and were designed to test limits of performance at very high-intensity, unphysiological, maximal effort. These approaches are not optimal for children and adolescents with disease and disability. This project (REACH-Revamping Exercise Assessment in Child Health) is designed to address this gap. Cohorts of children will be identified with two major genetic diseases (CF and SCD) and measure exercise responses annually as they progress from early puberty to mid or late puberty over a 3-4year period. In addition, in the light of the pandemic, a group of children will be added who were affected by SARS-CoV-2 and investigate their responses to exercise. SARS-CoV-2 has similar long-term symptoms than CF and SCD have. Novel approaches to assessing physiological responses to exercise using advanced data analytics will be examined in relation to metrics of habitual physical activity, circulating biomarkers of inflammation and growth, leukocyte gene expression, and the impact of the underlying CF, SCD or SARS-CoV-2 condition. The data from this study will help to develop a toolkit of innovative metrics for exercise testing that will be made available to the research and clinical community.

Exercise in children and adolescents is not merely play but is an essential component of growth and development. Children are among the most spontaneously physically active human beings. It is not surprising that participation in PA (Physical Activity) is a major determinant of health across the lifespan and health-related quality of life in both healthy children and in children with chronic diseases. Despite this essential biologic role for PA, children have not been spared the relentless reduction in levels of PA that is creating a crisis in health care in our nation and throughout the world. Recognition of the enormous morbidity and cost of physical inactivity-related diseases, such as atherosclerosis, type 2 diabetes, and osteoporosis, has spurred new policy initiatives targeting preventive medicine early in life. The concept of pediatric origins of adult health and disease is gaining scientific merit, highlighting the need to transform existing notions of how to evaluate health in a growing child. A physically inactive (even normal weight) child may have no symptoms of disease, but evidence of deterioration in vascular health may already be present. As era of population health management and precision medicine are approaching, the notion of what it means to be a healthy child must change and include robust metrics of physical fitness.

Equally worrisome is that the deleterious health effects of physical inactivity and poor fitness are exacerbated in children with chronic disease and/or disabilities or with environmental-lifestyle conditions like obesity. Children with diseases or conditions previously associated with mortality during the first two decades of life (e.g., SCD, CF) are living longer due to remarkable advances in research and care, but are often unable to achieve levels of PA and fitness associated with health benefits in otherwise healthy children. Not surprisingly, the healthspan [the period of life free from serious chronic diseases and disability of children with chronic diseases is threatened not only by the underlying disease, but by the compounding effects of insufficient PA and sedentary behavior. Increasing PA and fitness is feasible, but has proven quite challenging to implement in a systematic manner. Once a pattern of physical inactivity and a sedentary lifestyle is established, a vicious cycle ensues, in which constraints on PA harm immediate health and contribute to lifelong health impairment ranging from cardiovascular and metabolic disease to osteoporosis. Exactly what constitutes ideal physical fitness in a child with a chronic condition remains unknown. Finding beneficial levels of PA in children with chronic disease or disability is challenging because the optimal range of exercise is much narrower than in a healthy child. Finally, as a result of the COVID-19 pandemic a sizable number of children are experiencing long-term effects such as fatigue, and will be included in our study. Similar to children with CF and SCD, studies of exercise and physical activity will provide insight into disease mechanisms and possible therapies.