Seong‐Jun Jeong scite author profile

Nonsurgical treatment has become the standard of care in hemodynamically stable patients with blunt liver trauma. The use of helical computed tomography (CT) in the diagnosis and management of blunt liver trauma is mainly responsible for the notable shift during the past decade from routine surgical to nonsurgical management of blunt liver injuries. CT is the diagnostic modality of choice for the evaluation of blunt liver trauma in hemodynamically stable patients and can accurately help identify hepatic parenchymal injuries, help quantify the degree of hemoperitoneum, and reveal associated injuries in other abdominal organs, retroperitoneal structures, and the gastrointestinal tract. The CT features of blunt liver trauma include lacerations, subcapsular or parenchymal hematomas, active hemorrhage, juxtahepatic venous injuries, periportal low attenuation, and a flat inferior vena cava. It is important that radiologists be familiar with the liver injury grading system based on these CT features that was established by the American Association for the Surgery of Trauma. CT is also useful in the assessment of delayed complications in blunt liver trauma, including delayed hemorrhage, hepatic or perihepatic abscess, posttraumatic pseudoaneurysm and hemobilia, and biliary complications such as biloma and bile peritonitis. Follow-up CT is needed in patients with high-grade liver injuries to identify potential complications that require early intervention.

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Soft Graphoepitaxy of Block Copolymer Assembly with Disposable Photoresist Confinement

Jeong

et al. 2009

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We demonstrate soft graphoepitaxy of block copolymer assembly as a facile, scalable nanolithography for highly ordered sub-30-nm scale features. Various morphologies of hierarchical block copolymer assembly were achieved by means of disposable topographic confinement of photoresist pattern. Unlike usual graphoepitaxy, soft graphoepitaxy generates the functional nanostructures of metal and semiconductor nanowire arrays without any trace of structure-directing topographic pattern. Our novel approach is potentially advantageous for multilayer overlay processing required for complex device architectures.

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Towards an Elastic Application Model for Augmenting the Computing Capabilities of Mobile Devices with Cloud Computing

et al. 2011

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Universal Block Copolymer Lithography for Metals, Semiconductors, Ceramics, and Polymers

et al. 2008

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Seong‐Jun Jeong

Directed self-assembly of block copolymers for next generation nanolithography

CT in Blunt Liver Trauma

Soft Graphoepitaxy of Block Copolymer Assembly with Disposable Photoresist Confinement

Towards an Elastic Application Model for Augmenting the Computing Capabilities of Mobile Devices with Cloud Computing

Universal Block Copolymer Lithography for Metals, Semiconductors, Ceramics, and Polymers

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