Genetic and genomic tools for zebrafish research: the NIH zebrafish initiative.

The National Institutes of Health (NIH) has been a leading advocate of the zebrafish as a model organism for the study of vertebrate development, physiology, and disease. Genomic tools, developed with the support of NIH funding, have made zebrafish even more attractive as a genetic system and have stimulated research using this model. The NIH continues to provide support for new and existing community resources, such as the Zebrafish International Resource Center and the Zebrafish Information Network, research tool development and mutant screens, and a wide array of investigator-initiated studies that are using zebrafish to elucidate many aspects of vertebrate biology.

Noninvasive measurement of iron: report of an NIDDK workshop.

An international workshop on the noninvasive measurement of iron was conducted by the National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK) on April 17, 2001, to assess the current state of the science and to identify areas needing further investigation. The workshop concluded that a clear clinical need is evident for quantitative, noninvasive, safe, accurate, and readily available means of measuring body storage iron to improve the diagnosis and management of patients with iron overload from such disorders as hereditary hemochromatosis, thalassemia major, sickle cell disease, aplastic anemia, and myelodysplasia, among others. Magnetic resonance imaging (MRI) potentially provides the best available technique for examining the 3-dimensional distribution of excess iron in the body, but further research is needed to develop means of making measurements quantitative. Biomagnetic susceptometry provides the only noninvasive method to measure tissue iron stores that has been calibrated, validated, and used in clinical studies, but the complexity, cost, and technical demands of the liquid-helium-cooled superconducting instruments required at present have restricted clinical access to the method. The workshop identified basic and clinical research opportunities for deepening our understanding of the physical properties of iron and iron toxicity, for further investigation of MRI as a method for quantitative determinations of tissue iron, especially in liver, heart and brain, and for development of improved methods and more widely available instrumentation for biomagnetic susceptometry.