RESUMO
Design requirements for an 8000 frame/s dual-wavelength ratiometric chemical species tomography system, intended for hydrocarbon vapor imaging in one cylinder of a standard automobile engine, are examined. The design process is guided by spectroscopic measurements on iso-octane and by comprehensive results from laboratory phantoms and research engines, including results on temporal resolution performance. Novel image reconstruction techniques, necessary for this application, are presented. Recent progress toward implementation, including details of the optical access arrangement employed and signal-to-noise issues, is described. We present first cross-cylinder IR absorption measurements from a reduced channel-count (nontomographic) system and discuss the prospects for imaging.
RESUMO
Onychomycosis is common, affecting approximately 5% of the population, and is the most resistant form of superficial fungal infection. Dermatologists often view the nail apparatus in static terms and unfortunately give little consideration to the functional aspects of the digit. In the case of toenails, it is important to consider the toes and foot as a closely integrated functional unit. It is essential that in any case of onychomycosis or onychodystrophy that, as clinicians, we have an understanding of foot dynamics, of structure/function relationships and of the implications of orthopaedic/podiatric factors when evaluating cases of nail dystrophy. When confronted with cases of possible onychomycosis, we must adopt a systematic and sometimes multidisciplinary approach in the evaluation and management of these patients to improve patient outcomes.