View clinical trials related to Failure to Thrive.
Filter by:This study is intended to determine whether twice daily weight based dosing with recombinant human insulin-like growth factor (rhIGF-1) will safely and effectively increase the growth of prepubertal children with short stature associated with low IGF-1 levels but who produce sufficient growth hormone (GH). Subjects will be randomized to either an observation arm or to active treatment.
This study is a multicenter, open-label, observational, postmarketing surveillance study that will collect information on the use of Genentech growth hormone (GH) preparations to treat children with CRI in the United States.
The purpose of this study is to determine the effectiveness of recombinant human growth hormone (r-hGH) on growth in HIV-infected children. Studies have shown that HIV-infected children do not grow at a normal rate and are shorter than HIV-uninfected children who are the same age. Growth hormone has been used for many years to treat children with growth hormone deficiency and has been safe and effective in helping them to grow normally. The growth hormone to be used in this study, r-hGH, is an investigational hormone (not yet approved by the Food and Drug Administration [FDA]) made in the laboratory. It has helped HIV-positive adults gain weight and improve their physical performance. This study has been changed to include a needle-free device for drug delivery which will improve patient comfort and acceptability. Patients will no longer receive growth hormone through traditional needles but through a needle-free device.
The purpose of this study is to see if megestrol acetate is safe and effective in treating HIV-infected children with failure to thrive (FTT).
The purpose of this research is to study a new way to test for chromosome abnormalities. Chromosomes are strands of DNA (the genetic material in the cell nucleus) that are made up of genes-the units of heredity. Chromosome abnormalities are usually investigated by staining the chromosomes with a dye (Giemsa stain) and examining them under a microscope. This method can detect many duplications and deletions of pieces of chromosomes and is very accurate in diagnosing certain abnormalities. It is not useful, however, for identifying very small abnormalities. This study will evaluate the accuracy of a test method using 24 different dyes for finding small chromosome abnormalities. Children and adults with various chromosome abnormalities may be eligible for this study, including, for example, people with developmental delay or mental retardation, abnormal growth features or growth retardation, and certain behavioral disorders. Participants will be evaluated in the clinic over a 1- to 3-day period, depending on their symptoms. All participants will be examined by a genetics specialist and will have a physical examination and possibly X-rays, computerized tomography (CT) scans, magnetic resonance imaging (MRI), ultrasound studies and medical photography. Blood will be drawn for chromosome testing-about 3 tablespoons from adults and 1 to 3 teaspoons from children. When the test results are available, participants will return to the clinic for follow-up evaluation and review of the test findings. The genetic and medical evaluations, along with their implications, will be discussed.