Ryutarou Ukisu scite author profile

Ryutarou Ukisu

3Publications

0Citation Statements Received

26Citation Statements Given

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Kitasato University

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MR imaging of cheek lesions of Kimura’s disease: Focusing on the signal abnormalities and the relationship with superficial musculoaponeurotic systems

Ukisu¹,

Kawahara²,

Hashizume³

et al. 2013

MRI

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Background and Purpose: Kimura's Disease (KD) is a rare benign chronic eosinophlic inflammatory disorder, characterized by angiolymphoid proliferation with peripheral eosinophilia and elevated serum immunoglobulin E. Most lesions occur in the head and neck regions. To the best of our knowledge, the relationship between subcutaneous cheek lesion of KD and the surrounding structures including superficial musculoaponeurotic systems (SMAS) has never been reported. The purpose of this study was to describe MR imaging findings of cheek subcutaneous lesion of KD and adjacent SMAS. Materials and Methods: Seven cheek subcutaneous lesions of 5 patients histopathologically proved KD were evaluated. We retrospectively evaluated the MR imaging findings of subcutaneous lesions for signal intensity in each imaging sequence, the border of the lesions, and appearance of SMAS. Results: All cheek lesions were displacing normal fat tissue. These lesions showed ill-defined border (7/7), slightly high signal intensity on T1-weighted images (7/7), and intermediate (1/7) or high signal intensity (6/7) on T2-weighted images. Cheek lesions were enhanced by intravenous injection of gadolinium to signal intensity close to that of fat tissue (3/4), and in one case, the avid enhancement of the mass was seen (1/4). All lesions attached to the outer surface of SMAS, however, only one out of 7 lesions distributed below the SMAS without tearing of the layers. SMAS below the lesion showed high signal intensity on T2-weighted images in two lesions (2/7). Conclusion: KD should be included in the differential diagnosis when a cheek mass presents with non-specific signal intensities and irregular border, which attaches to but does not interrupt SMAS on MR imaging.

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Lung Perfusion Scintigraphy in Eisenmenger Syndrome Due to Patent Ductus Arteriosus

et al. 2019

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Eisenmenger syndrome refers to the elevation of pulmonary arterial pressure to the systemic level caused by an increased pulmonary vascular resistance with right-to-left shunt through an intracardiac or aortopulmonary communication. A 36-year-old woman with Eisenmenger syndrome due to patent ductus arteriosus underwent 99mTc-MAA lung perfusion scintigraphy to evaluate right-to-left shunt. Whole-body imaging visualized extrapulmonary activity in both kidneys, spleen, and intestinal tract, confirming the presence of right-to-left shunt. Accumulation in the brain was visible but much weaker compared with that in the body trunk and was limited to the left cerebral hemisphere, which reflected the location of the shunt pathway.

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Gigantic Nasal Fibroma: CT and MR Imaging Findings with Histopathological Correlation

Ukisu¹,

Kawahara²,

Hashizume³

et al. 2013

OJMI

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A 79-year-old woman with gradually worsening left nasal obstruction, purulent rhinorrhea and severe headaches for 6 months admitted to the hospital. A gray-white and huge mass occupying the left nasal cavity was found in physical examination. CT revealed a soft-tissue-density mass in the left nasal cavity with erosion of adjacent bone structures. On T2-weighted MR images, the lesion showed homogenous extreme low signal intensity. The patient underwent successful surgical removal of huge sinonasal soft tissue mass measuring 50 × 45 × 40 mm. The final diagnosis of fibroma was made histologically. MR imaging studies showed characteristic signal intensities corresponding to histopathological components. To the best of our knowledge, this is the first report regarding the MR imaging findings of huge nasal fibroma in the English literature.

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Ryutarou Ukisu

MR imaging of cheek lesions of Kimura’s disease: Focusing on the signal abnormalities and the relationship with superficial musculoaponeurotic systems

Lung Perfusion Scintigraphy in Eisenmenger Syndrome Due to Patent Ductus Arteriosus

Gigantic Nasal Fibroma: CT and MR Imaging Findings with Histopathological Correlation

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