Paracoccidioidomycosis is a systemic fungal disease caused by the dimorphic Paracoccidioides species endemic to South America. Infection classically presents with pulmonary, mucosal, or reticuloendothelial involvement, though other organs can be involved.Central nervous system involvement is rare, and almost universally reported within the endemic area for the fungus. We present a 60-year-old Brazilian male who complained of occipital headache, ataxia, dysmetria, and dysarthria for two months, diagnosed with neuroparacoccidioidomycosis in Houston, Texas. The patient had a cerebellar mass and a left pulmonary spiculated apical mass suspicious for a lung metastatic malignancy and a preliminary histological report consistent with invasive cryptococcosis. The patient's work and travel history were paramount in achieving the final diagnosis.
Magnetic resonance-guided focused ultrasound (MRgFUS) is a novel non-invasive ablation technique that uses focused sound energy to destroy focal tumors, primarily via heat deposition. It is widely used for palliation of pain from bone metastases and has also recently gained popularity as a technique for ablation of benign bone tumors and facet degenerative joint disease (rhizotomy). Clinically, in a subset of patients who have undergone MRgFUS of bone, a variety of treatment responses have been noted on follow-up imaging, including focal sclerosis within the target lesion or more exuberant proliferative changes associated with the periosteum. In this study, high resolution peripheral quantitative CT (HR-pQCT) was used to evaluate remodeling of bone following ablation in a swine model of MRgFUS and compared to samples from a control, non-treated femur. Within each treated femur, two lesions were created: a higher energy focused ultrasound dose was used for one lesion compared to a lower energy dose for the second lesion. Exuberant, extra-cortical bone formation was detected at the higher energy ablation zones, with volumes ranging from 340 mm 3 to 1040 mm 3. More subtle endosteal and cortical changes were detected in the lower energy ablation zones, however cortical thickness was significantly increased at these sites compared to control bone. For both high and low energy lesions, lower bone mineral density and tissue mineral density was noted in treated regions compared to control regions, consistent with the formation of newly mineralized tissue. Following HR-pQCT analysis, Fourier transform infrared (FTIR) spectroscopy was subsequently used to detect biochemical changes associated with remodeling of bone following MRgFUS, and compared to samples from the control, non-treated femur. Findings were compared with histopathologic examination following hematoxylin-eosin staining. FTIR analysis demonstrated lower mineral/phosphate ratio and increased crystallinity compared to the control samples (p = 0.013). Histopathologic review demonstrated associated areas of endosteal inflammation, scarring,
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