Periphlebitis of the Superior Ophthalmic Vein.

Isolated orbital periphlebitis in the context of nonspecific orbital inflammation is rare. This case series describes 3 patients with periphlebitis of the superior ophthalmic vein, 2 of which were confirmed with pathology. All 3 cases had a history of Graves hyperthyroidism. Superior ophthalmic vein periphlebitis is a rare form of orbital inflammation presenting with proptosis and motility restriction yet few inflammatory signs. It may be associated with autoimmune hyperthyroidism and represent a rare feature of thyroid eye disease, or perhaps could be an overlap syndrome between thyroid eye disease and nonspecific orbital inflammation. Treatment response is variable and may require a prolonged course of steroids or other immunosuppressive medications.

Calcium-dependent molecular fMRI using a magnetic nanosensor.

Calcium ions are ubiquitous signalling molecules in all multicellular organisms, where they mediate diverse aspects of intracellular and extracellular communication over widely varying temporal and spatial scales 1 . Though techniques to map calcium-related activity at a high resolution by optical means are well established, there is currently no reliable method to measure calcium dynamics over large volumes in intact tissue 2 . Here, we address this need by introducing a family of magnetic calcium-responsive nanoparticles (MaCaReNas) that can be detected by magnetic resonance imaging (MRI). MaCaReNas respond within seconds to [Ca2+] changes in the 0.1-1.0 mM range, suitable for monitoring extracellular calcium signalling processes in the brain. We show that the probes permit the repeated detection of brain activation in response to diverse stimuli in vivo. MaCaReNas thus provide a tool for calcium-activity mapping in deep tissue and offer a precedent for the development of further nanoparticle-based sensors for dynamic molecular imaging with MRI.