Visualization of superior mesenteric lymph nodes by the combined oral and intravenous administration of the ultrasmall superparamagnetic iron oxide, AMI-227

Superior mesenteric lymph nodes which lie as a chain near the small intestine are difficult to visualize in the rat with MRI either with or without the use of contrast agents. We previously demonstrated that the oral administration of an ultrasmall superparamagnetic iron oxide (AMI-227) produces a brightening of the lumen of the GI tract with a T₁-weighted spin-echo pulse sequence. We have also shown that AMI-227 darkens abdominal lymph nodes. In the present study we show that the combined oral and intravenous administration of AMI-227 produces a brightening of the lumen of the GI tract and a darkening of the superior mesenteric lymph node chain. As a result of these combined and opposing effects on image signal intensity, a necessary contrast is established to reliably locate the superior mesenteric lymph nodes in vivo, which, to our knowledge, have been elusive by other techniques.     

Colloidal assembly: the road from particles to colloidal molecules and crystals

Colloidal particles may be considered as building blocks for materials, just like atoms are the bricks of molecules, macromolecules, and crystals. Periodic arrays of colloids (colloidal crystals) have attracted much interest over the last two decades, largely because of their unique photonic properties. The archetype opal structures are based on close-packed arrays of spheres of submicrometer diameter. Interest in structuring materials at this length scale, but with more complex features and ideally by self-assembly processes, has led to much progress in controlling features of both building blocks and assemblies. The necessary ingredients include colloids, colloidal clusters, and colloidal "molecules" which have special shapes and the ability to bind directionally, the control over short-range and long-range interactions, and the capability to place and orientate these bricks. This Review highlights recent experimental and theoretical progress in the assembly of colloids larger than 50 nm.