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Asteroids represent a time capsule, storing information about the composition of and conditions in the solar nebula as well as processes that have affected the Solar System. The asteroid population includes primitive bodies, partially melted material, and the result of full melting and differentiation of planetesimals. Asteroidal minerals, organic molecules, and ices that are relevant to uncovering the history of the Solar System are accessible spectroscopically. Reflection and thermal emission spectroscopy from ground-based telescopes, space telescopes, and spacecraft provide a rich view of asteroid surfaces. Analysis techniques, including taxonomic classification, direct comparisons to meteorites and pure materials, band parameter analysis, and physical models of light scattering, are customized to the specific science question under study. In recent years, spacecraft missions to asteroids have provided ground-truth to more remote spectral analyses, corroborating many inferences from ground-based observations, while enabling new discoveries and a richer, deeper view of asteroid surfaces. These compositional studies provide an important complement to and constraint on dynamical investigations of Solar System evolution. The future of asteroid science is bright, with advances expected in the areas of sample return, additional reconnaissance missions, improved wavelength coverage spectroscopy, and significant increases in the size of the database of asteroid spectra.
It is well known how difficult it is to localize a foreign body in the sub-mucosal tissues. This is a report of a male who swallowed a metal wire which lodged in the pharyngeal sub-mucosal tissue. The foreign body was localized using an image intensifier and removed successfully.
Two children aged three and seven years presented to the department of Otolaryngology with total dysphagia following the accidental swallowing of a steel ball bearing and a plastic ball. These rare spherical foreign bodies were removed successfully by oesophagoscopy under general anaesthesia using an innovative method involving a balloon angiographic catheter.
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